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Product Code: CUY497P2: Small Volume
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Application:
Electrodes for Electro Cell Fusion |
Description:
CUY497P2: Small Volume
Micro Slide Stand Model Chamber Platinum Electrode - L80 x W2 x H5 mm, 2mm gap, Volume 0.8ml - Connected with CUY499L |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| Technical Drawing: CUY663 series |
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| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Adult Mouse, Rat, Rabbit and Dog (In Vivo) - Skin (Epidermus, Dermus, Hypodermus) |
| For Adult Mouse, Rat, Rabbit and Dog (in vivo) - Skin (Epidermus, Dermus, Hypodermus) applications we recommend the following electrodes:
CUY663 series
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| Photo: CUY663-5x8, CUY663-5x10 |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21 Publications by Research Interest |
| … | | |
| CUY21 Publications by Research Interest |
| … | | |
| CUY21 Publications by Research Interest |
| … | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… | | |
| CUY21SC - Square Wave Electroporator |
| The resistance of an EP target varies according to physical experimental factors such as the volume of the sample, the buffer used and the distance between the electrodes. Fluctuations in resistance impact on delivered current values and this negatively… | | |
| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
| … | | |
| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
| … | | |
| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
| … | | |
| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… | | |
| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| The resistance of an EP target varies according to physical experimental factors such as the volume of the sample, the buffer used and the distance between the electrodes. Fluctuations in resistance impact on delivered current values and this negatively… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… | | |
| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … | | |
| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… | | |
| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… | | |
| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… | | |
| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
| … | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| Adult Mouse, Rat, Rabbit and Dog (In Vivo) - Skin (Epidermus, Dermus, Hypodermus) |
| For Adult Mouse, Rat, Rabbit and Dog (in vivo) - Skin (Epidermus, Dermus, Hypodermus) applications we recommend the following electrodes:
CUY663 series
| | |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… | | |
| NEP21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … | | |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEP21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … | | |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… | | |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons (including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… | | |
| New Range of Microbubbles |
| … | | |
| New Range of Microbubbles |
| … | | |
| New Range of Microbubbles |
| … | | |
| New Range of Microbubbles |
| … | | |
| New Range of Microbubbles |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
| NEPA21_In_Vivo_Tumor_EP |
| … | | |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… | | |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… | | |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… | | |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| High-performance and reliable site-directed in vivo genetic manipulation of mouse and rat brain by in utero electroporation with a triple-electrode probe, Joanna Szczurkowska, Andrzej W. Cwetsch, Marco dal Maschio, Diego Ghezzi, Gian Michele… | | |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… | | |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… | | |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… | | |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
|
| Yuka Nakazawa, Yuichiro Hara, Yasuyoshi Oka, Okiru Komine, Diana van den Heuvel 3, Chaowan Guo 1, Yasukazu Daigaku 4, Mayu Isono, Yuxi He, Mayuko Shimada, Kana Kato, Nan Jia, Satoru Hashimoto, Yuko Kotani, Yuka Miyoshi, Miyako Tanaka, Akira Sobue, Norisato… | | |
|
| Yuka Nakazawa, Yuichiro Hara, Yasuyoshi Oka, Okiru Komine, Diana van den Heuvel 3, Chaowan Guo 1, Yasukazu Daigaku 4, Mayu Isono, Yuxi He, Mayuko Shimada, Kana Kato, Nan Jia, Satoru Hashimoto, Yuko Kotani, Yuka Miyoshi, Miyako Tanaka, Akira Sobue, Norisato… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production |
| Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… | | |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium… | | |
| ELEP021 Square Wave Electroporation |
| The efficiency of transformation is not very high; the average transformation efficiency following selection in 0.3 μgml-1 phleomycin was 5.5 9 10-6 cells or 0.03 transformants μg–1 DNA (Abe et al., 2011). Therefore, many cells must be prepared… | | |
| ELEP021 Square Wave Electroporation |
| The efficiency of transformation is not very high; the average transformation efficiency following selection in 0.3 μgml-1 phleomycin was 5.5 9 10-6 cells or 0.03 transformants μg–1 DNA (Abe et al., 2011). Therefore, many cells must be prepared… | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials)                                        1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Results |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| Materials :                    1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug                                     … | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| ELEPO21 Results |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Results |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| NEPA21 Publication List |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Pub new |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| Test spacing |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… | | |
| ELEP021 Square Wave Electroporation |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Publications |
| Kotaro Kiga, Xin-Ee Tan, Rodrigo Ibarra-Chávez, Shinya Watanabe, Yoshifumi Aiba, Yusuke Sato'o, Feng-Yu Li, Teppei Sasahara, Bintao Cui, Moriyuki Kawauchi, Tanit Boonsiri, Kanate Thitiananpakorn, Yusuke Taki, Aa Haeruman Azam, Masato Suzuki, José R… | | |
| ELEPO21 Results |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
| ELEPO21 Results |
| With particle bombardment, the transformants are often contaminated by bacteria and/or fungi, making it necessary to wash and isolate single cells using glass capillaries under a microscope (Pringsheim, 1946). This operation sometimes results in additional… | | |
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