SONIDEL Limited      :: sales@sonidel.com        :: tech-support@sonidel.com         :: Tel:  IRE, ++353 (0)1 4434358 UK, ++44 (0)20 3239 4904 USA, ++1 (617) 297 2435 .
Most Popular

NEPA21 Electroporator
ELEPO21 Electroporator
NEPA Porator
ECFG Porator
Transgenic Mouse Zygote Electroporation: NEPA21
Organoid Electroporation: NEPA21
Neuroscience & Genome Editing Publications
Hybridoma Production for Monoclonal Antibodies
Bacteria / Yeast Electroporation
SP100: Sonoporator
NEPA21: Illustrated  Applications
NEPA21: Publications by   Research Application
- Connection Cables
- CU700: Monitoring System
- CU902: Polarity Exchanger
- CUY21 EDIT Electroporator
- CUY21 EDIT-S Electroporator
- CUY21 SC Electroporator
- In Vivo, In vitro Electrodes
- Electroporation Cuvettes
- Cuvette Chamber & Stand   Holder
- Laser Thermal Microinjector
- Mechanical Vibration Units
- Ultrasounic BioMicroscope
- KTAC-4000: Sonoporator
- LF101: Cell Fusion Device
- LF201: Cell Fusion Device
- Electro Cell Fusion Electrodes
Electroporation and Electro   Cell Fusion Accessories
- Electroporators
- Publications/Protocols
- Electrodes by Product Codes

 

Product Search
Search by product code, name or application:


Full Product List


Electrode Search
Search for the most appropriate electrode by research application:

Publications/Protocols
- Sonoporation
- Electroporation
- ElectroCell Fusion
- What Is Sonoporation?

Electrode Recommendation
- Electrode Recommendations

Featured Applications
Sonoporation
SONIDEL SP100 and KTAC4000
Electroporation
CUY21 EDIT, CUY21 SC
Electro Cell Fusion
LF101 and LF201


Featured Device

1
Product Code: SONIDEL STK10

Desc:Ultrasound Transfection Positive Control
Applic:Sonoporation Transfection Kit


Featured Electrode



Product Code: CUY501-4

Application:
Electrodes for Electro Cell Fusion
Description:
18mm length stainless blocks on microscope slide, 4mm gap

Information
- How to order
- Contact us
Top » Product Catalogue » Advanced Search » Search Results

Search Results
Your search for "650" returned 1199 results. (Duplicates have been removed)

Sonidel Product Search Results (27 results)

Click here for more results from the Product area.

CUY650-5
Tweezers with 5mmφ disk electrodes
 
CUY650-7
Tweezers with 7mmf disk electrodes
 
CUY650-10
Tweezers with 10mmf disk electrodes
 
CUY650P0.5
Tweezers with 0.5mmφ platinum disk electrodes
 
CUY650P1
Tweezers with 1mmφ platinum disk electrodes
 
 

Sonidel Article Search Results (1163 results)

Click here for more results from the Article's area.

Mouse/Rat – Muscle
Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time.  In our opinion, this is the best method.  However, as the volume of muscle affects the resistance value, and thus, actual…
 
In Utero Electroporation
As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal…
 
In Utero Electroporation
As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal…
 
Zebrafish Retina Electrode Recommendation
For Larval Zebrafish Retina (which is quite small, 10microns) it may not be possible to inject DNA buffer.   Accordingly, we suggest that electroporation is performed after the larval zebrafish eye is taken out.  Once this is done and one intends…
 
Zebrafish Fin Electrode Recommendation
 
 

Sonidel Publication Search Results (9 results)

Click here for more results from the Publication's area.

[2010]

Lunatic fringe potentiates Notch signaling in the developing brain.
Kato TM, Kawaguchi A, Kosodo Y, Niwa H, Matsuzaki F.
Laboratory for Cell Asymmetry, Center for Developmental Biology, RIKEN Kobe Institute, 2-2-3 Minatojima-minamimachi, Chuo-ku, Kobe, Hyogo 650-0047, Japan.
Mol Cell Neurosci., 45(1):12-25. Epub 2010 May 25. - Sep 2010
 

[2008]

Increasing the Cell Number of Host Tetraploid Embryos Can Improve the Production of Mice Derived from Embryonic Stem Cells
Hiroshi Ohta (E-mail: ohta@cdb.riken.jp), Yuko Sakaide , Kazuo Yamagata , and Teruhiko Wakayama
Laboratory for Genomic Reprogramming, Center for Developmental Biology, RIKEN, Kobe 650-0047, Japan
Biology of Reproduction, Volume 79, Issue 3, Pages 486–492 - September 2008
 
Apical Accumulation of Rho in the Neural Plate Is Important for Neural Plate Cell Shape Change and Neural Tube Formation
Nagatoki Kinoshita 1, Noriaki Sasai, Kazuyo Misaki 1 and Shigenobu Yonemura 1 (E-mail: yonemura@cdb.riken.jp)
1 Electron Microscope Laboratory and Organogenesis and Neurogenesis Group, RIKEN Center for Developmental Biology, Kobe 650-0047, Japan
Molecular Biology of the Cell, Volume 19, Issue 5, Pages 2289-2299 - May 2008
 
Neuroepithelial progenitors undergo LGN-dependent planar divisions to maintain self-renewability during mammalian neurogenesis
Daijiro Konno 1,4, Go Shioi 1,4, Atsunori Shitamukai 1, Asako Mori 1, Hiroshi Kiyonari 2, Takaki Miyata 3 & Fumio Matsuzaki 1 (E-mail: fumio@cdb.riken.jp)
1 Laboratory for Cell Asymmetry, Center for Developmental Biology, RIKEN, and CREST, Japan Science and Technology Corporation, RIKEN, 2-2-3 Minatojima-Minamimachi, Chuou-ku, Kobe 650-0047, Japan.
2 Laboratory for Animal Resources and Genetic Engineering, Center for Developmental Biology, RIKEN, 2-2-3 Minatojima-Minamimachi, Chuou-ku, Kobe 650-0047, Japan.
3 Department of Anatomy and Cell Biology, and CREST, Japan Science and Technology Corporation, Nagoya University Graduate School of Medicine, 65 Tsurumai, Showa, Nagoya, Aichi 466-8550, Japan.
4 These authors contributed equally to this work.
Nature Cell Biology, Volume10, Number 1, Pages 93-101 - January 2008
 

[2007]

Early Changes in KCC2 Phosphorylation in Response to Neuronal Stress Result in Functional Downregulation
Hiroaki Wake 1, 2, Miho Watanabe 1, Andrew J. Moorhouse 3, Takashi Kanematsu 4, Shoko Horibe 1, 6 Noriyuki Matsukawa 2, Kiyofumi Asai 5, Kosei Ojika 2, Masato Hirata 4 and Junichi Nabekura 1, 6, 7 (E-mail: nabekura@nips.ac.jp)
1 Division of Homeostatic Development, National Institute of Physiological Sciences, Okazaki 444-8585, Japan
2 Department of Neurology and Neuroscience, Nagoya City University Graduate School of Medical Sciences, Mizuho-ku, Nagoya 467-8601, Japan
3 Department of Physiology and Pharmacology, School of Medical Sciences, University of New South Wales, Sydney, New South Wales 2052, Australia
4 Molecular and Cellular Biochemistry, Faculty of Dental Science, Kyushu University, Fukuoka 812-8582, Japan
5 Department of Molecular Neurobiology, Nagoya City University Graduate School of Medical Sciences, Nagoya 467-8601, Japan
6 School of Life Science, The Graduate University for Advanced Studies, Hayama 240-0193, Japan
7 Core Research for the Evolutionary Science and Technology, Japan Science and Technology Corporation, Saitama 332-0012, Japan
The Journal of Neuroscience, Volume 27, Issue 7, Pages 1642-1650 - 14 February 2007
 
Back

© Copyright 2024 Sonidel Limited. All Rights Reserved. XML Sitemap : User Sitemap