These studies were designed to test if a binary vector containing the gfp, bar and oxalate oxidase genes could transform American chestnut somatic embryos; to see if a desiccation treatment during co-cultivation would affect the transformation frequency of different American chestnut somatic embryo clones; to explore the effects of more rapid desiccation; and to see if the antibiotics used to kill the Agrobacterium were interfering with the regeneration of the somatic embryos. Two days of gradual desiccation was found to significantly enhance transient GFP expression frequency. When this treatment was tested on six American chestnut clones, five were transformed and four of these remained embryogenic. Transformation was confirmed by Southern hybridization. Phenotypically normal transgenic shoots were regenerated and rooted. Vascular tissue specific expression of the oxalate oxidase gene was detected in one transgenic line. Carbenicillin, cefotaxime, and tricarcillin were found to not interfere with the regeneration of transformed embryos.
The key to successful transformation of American chestnut is having the correct combination of explant tissue, selectable and scorable markers, and a reliable regeneration system. Rapidly dividing somatic embryos, growing as proembryogenic masses, are a suitable tissue; the bar gene is a suitable selectable marker in conjunction with 1.0 to 10 mg/L phosphirothricin (PPT); and the mgfp5-ER gene is an effective nondestructive scorable marker. We have also found that the more gently the somatic embryos are treated during the inoculation and co-cultivation steps, the higher the transformation efficiency. The average transformation efficiency that can be expected using the described protocol is approx 20 stable and embryogenic transformation events/g of somatic embryo tissue. Cell line and batch-to-batch deviations both upward and downward should be expected. Finally, somatic embryos can be induced to form shoots, which can then be micropropagated and acclimatized.
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