Morrison and Foerster LLC, 425 Market Street, San Francisco, CA 94111, USA.
J Biotechnol. 2012 Oct 31;161(3):349-53. doi: 10.1016/j.jbiotec.2012.06.017. Epub 2012 Jun 27.
Genetically engineered (GE) rootstocks may offer some advantages for biotechnology applications especially in woody perennial crops such as grape or walnut. Transgrafting combines horticultural grafting practices with modern GE methods for crop improvement. Here, a non-GE conventional scion (upper stem portion) is grafted onto a transgenic GE rootstock. Thus, the scion does not contain the genetic modification present in the rootstock genome. We examined transgene presence in walnut and tomato GE rootstocks and non-GE fruit-bearing scions. Mobilization of transgene DNA, protein, and mRNA across the graft was not detected. Though transgenic siRNA mobilization was not observed in grafted tomatoes or walnut scions, transgenic siRNA signal was detected in walnut kernels. Prospective benefits from transgrafted plants include minimized risk of GE pollen flow (Lev-Yadun and Sederoff, 2001), possible use of more than one scion per approved GE rootstock which could help curb the estimated US$136 million (CropLife International, 2011) cost to bring a GE crop to international markets, as well as potential for improved consumer and market acceptance since the consumable product is not itself GE. Thus, transgrafting provides an alternative option for agricultural industries wishing to expand their biotechnology portfolio.
基因工程(GE)砧木可能为生物技术应用提供一些优势,特别是在葡萄或核桃等木本多年生作物中。转基因嫁接将园艺嫁接技术与现代基因工程方法相结合,用于作物改良。在这里,非基因工程常规接穗(上部茎段)嫁接到转基因 GE 砧木上。因此,接穗不含有存在于砧木基因组中的遗传修饰。我们检查了核桃和番茄基因工程砧木和非基因工程果实接穗中的转基因存在情况。未检测到转基因 DNA、蛋白质和 mRNA 在嫁接处的转移。虽然在嫁接的番茄或核桃接穗中未观察到转基因 siRNA 的转移,但在核桃仁中检测到了转基因 siRNA 信号。转基因嫁接植物的预期好处包括最小化基因工程花粉流的风险(Lev-Yadun 和 Sederoff,2001),可能在每个经过批准的基因工程砧木上使用多个接穗,这有助于遏制估计的 1.36 亿美元( CropLife International,2011)将基因工程作物推向国际市场的成本,以及由于可食用产品本身不是基因工程产品,因此可能提高消费者和市场的接受度。因此,转基因嫁接为希望扩大其生物技术组合的农业产业提供了一种替代选择。
