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Direct DNA transfer

Direct DNA transfer. Introduce DNA into cells; assay expression immediately or select for permanently transformed cells. Techniques: Chemical induction Electroporation Particle bombardment (Biolistics). Chemically-Induced Transformation. Typically used on cells without walls

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Direct DNA transfer

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  1. Direct DNA transfer Introduce DNA into cells; assay expression immediately or select for permanently transformed cells. Techniques: Chemical induction Electroporation Particle bombardment (Biolistics)

  2. Chemically-Induced Transformation Typically used on cells without walls There are multiple protocols Examples: Put DNA inside artificial membrane vesicles called liposomes, which will fuse with the plasma membrane of recipient cells, delivering the cargo. Bind DNA with polycations that neutralize the charged, sugar-PO4 backbone, and condense the DNA. Some cell types will endocytose this complex. Combine (1) and (2)

  3. Electroporation Use on cells without walls (plant protoplasts or animal cells). High-voltage pulses cause pores to form transiently in cell membrane; DNA pulled in by electrophoresis and diffusion. Drawback - its more cumbersome to regenerate plants from single protoplasts than from the tissue transformations with Agrobacterium

  4. Particle Bombardment Less limitations than electroporation Can use on cells with walls Can transform organelles! Method: Precipitate DNA onto small tungsten or gold particles. Accelerate particles to high speeds and aim them at cells or tissues. Selective growth and regeneration of transgenic plants as described for Agro-mediated transformation.

  5. Original 22-caliber biolistic gun DNA is bound to the microprojectiles, which impact the tissue or immobilized cells at high speeds. J. Sanford & T. Klein, 1988

  6. An Air Rifle for a DNA Gun – Circa 1990 A.Thompson, Bob ?, and D. Herrin

  7. Repairing an organellar gene: ~ 1 x 107 cells of a mutant of Chlamydomonas that had a deletion in the atpB gene for photosynthesis was bombarded with the intact atpB gene. Then, the cells were transferred to minimal medium so that only photosynthetically competent cells could grow. Control plate – cells were shot with tungsten particles without DNA

  8. The Helium Gas Gun – Circa 2000

  9. The Hand-Held Gas Gun Purpose: Introduce DNA into cells that are below the top surface layer of tissues (penetrate into lower layers of a tissue) One interesting use: Making DNA Vaccines in whole animals.

  10. Transgenic Plants In Use on a Large Scale Herbicide-resistant plants Pest-resistant plants Vaccine plants (just starting to be used)

  11. Herbicide-resistant plants Resistant to herbicide “Round-up” (glyphosate), which inhibits EPSP synthase. GEngineered plants contain a bacterial EPSP synthase, which is not inhibited by glyphosate. Advantages: better weed control, less tillage In use: soybeans (dicot), corn, rice, wheat

  12. The function of EPSP synthase is to combine the substrate shikimate-3-phosphate (S3P) with phosphoenolpyruvate (PEP) to form 5-enolpyruvylshikimate-3-phosphate (EPSP).

  13. Pest-resistant plants Resistant to certain insects Lepidopterans, Coleopterans Carry gene(s) for Bacillus thuringiensis (Bt) toxin Toxin proteins produced as a parasporal crystal crystalline material has several proteins Cry and Cyt genes encoded on a plasmid Advantage: less insecticide required, better yield corn, cotton, potatoes Cry5 A Transmission Electron Micrograph of negatively stained spores from Bt2-56 containing a filament (a), and a sac-like structure containing a spore (b) and parasporal body (c).

  14. Insecticide Usage on Bt and non-Bt Crops for 1999-2001

  15. Vaccine plants pioneered by Charlie Arntzen cheap vaccine-delivery system plant produces protein(s) or DNA from the human pathogen, and immunity is induced via food potatoes, bananas being developed for a number of human and animal diseases, including measles, cholera, foot and mouth disease, and hepatitis B and C. Four plant vaccines were successful in phase I clinical trials. C.J. Arntzen et al. (2005) Plant-derived Vaccines and Antibodies: Potential and Limitations. Vaccine 23, 1753-1756.

  16. Concerns that have been raised about cultivating/consuming GM crops (or GMOs) They may be toxic or allergenic. They may become established in the wild and outcompete other plants. They may negatively affect insects or other organisms that use crops. They may outcross to a nearby wild relative spreading the transgene into a wild population.

  17. References on regulation and eco-risk assessment vis-à-vis the cultivation of GM crops Nap et al. (2003) Plant Journal 33, 1-18 Focuses on current status and regulations Conner et al. (2003) Plant Journal 33, 19-46 Focuses on ecological risk assessment GM Crops: A World View. Science, April 2008.

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