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0
Product Code: SONIDEL SP100

Desc:Sonoporator
Applic:(hover for application)Application:
  • Delivery of plasmids to cells and tissues for gene therapy-based applications and studies.
  • Delivery of nucleic acids such as siRNA, RNAi etc. to cells and tissues for studies on control of gene expression/gene therapy.
  • Delivery of cancer chemotherapeutic agents to impermeable target cells/tissues.
  • Delivery of agents to cells to study metabolic effects.
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Summary Product List
- STK10 Ultrasound
  Transfection Kit
- SP100 Sonoporator
- SONIDEL MB101 Microbubble
- KTAC4000 Sonoporator
- CUY21 EDIT Electroporator
- CUY21 EDIT-S Electroporator
- CUY21 SC Electroporator
- Electrodes for Electroporation
- LF101 Cell Fusion Device
- LF201 Cell Fusion Device
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Featured Applications
Sonoporation
SONIDEL SP100 and KTAC4000
Electroporation
CUY21 EDIT, CUY21 SC
Electro Cell Fusion
LF101 and LF201

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Featured Device

1
Product Code: SONIDEL STK10

Desc:Ultrasound Transfection Positive Control
Applic:Sonoporation Transfection Kit


Featured Electrode



Product Code: CUY495P10

Application:
Electrodes for Electro Cell Fusion
Description:
Bath w/platinum plate electrodes on petridish, 10mm gap, L20 x W10 x H20mm

Information
- How to order
- Contact us

Vacuum & Electrical Pulse Method for Plant Seed Electroporation


A New Transfer System
For Seeds of Rice Plant, Wheat and Barley, Silk Worm, Yeast, etc

 Vacuum & Electrical Pulse 

 

 Direct gene transfer after the vacuum treatment. Patent:”Electroporation method including the use of depressurization / presurization” PCT/JP03/08937   

Basic Method

  1. Soak mature seeds in water overnight
  2. Transfer the seeds into electroporation buffer
  3. Vacuum treatment
  4. Electroporation on ice
  5. Incubate the seeds on ice for a few hours
  6. Grow the plants under favorable conditions
  7. Select the transformed plants using antibiotics. 
Vacuum chamber and CUY21 EDITVacuum chamber and CUY21 EDITVacuum Chamber & CUY21EDIT Chamber CUY495P10 Electroporation on ice
 

Vacuum Chamber & CUY21EDIT

   Chamber: CUY495P10

Electroporation on ice

 

Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis. Transient gene expression was observed in several plant species and silk worm eggs.
  • No Need for Tissue Culture
  • No Particular Know-How or Skill required
  • Large reduction in handling and labour time
    • Simple
    • Efficient
    • Low-Cost

  The Level of GUS Gene Expression by Fluorescene Assay (Wheat)                        GUS Gene Expression Reference - Wheat       N: Negative control, –: Buffer only, V: Vacuum, E: Electroporation      GUS gene expression reference (Wheat)The level of GUS gene expression by fluorescene assay (Wheat)                  Geneticine Selection of Rice Seeds and or Seedlings     Next Generation (T1) Individual (Rice Plant)                               Not Transformed               npt II gene introduced                    Next Generation (T1) Individual (Rice Plant)   Geneticine Selection of Rice Seeds and/or Seedings  Plant Genetic Engineering Unit, National Institute of Agrobiological Sciences; Takashi Hagio   * Improvement research is in progress in Dr. Hagio’s laboratory.

Gene Transfer System for Plant Seed, Egg & Mircobe

SONIDEL Limited

  1. Current Agrobacterium & Microinjection Methods - Disadvantages
  2. New Vacuum & Electroporation Method - Advantages
  3. New Vacuum & Electroporation Method - Basic Methodology Explained
  4. New Vacuum & Electroporation Method - Apparatus Required
  5. New Vacuum & Electroporation Methodology - Effectiveness
  6. Transformed Rice Plant Cultivation
  7. Transformed Rice Plant Cultivation - Results
  8. Gene Transfer to Silk Worm Eggs
  9. Gene Transfer to Arabidopsis Seed
  10. Gene Transfer to Yest
  11. New Vacuum & Electroporation Method - Improvement

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