单次转化甘氨酸max可提高大豆种子组织转录本多态性率

K. Lambirth, Adam M. Whaley, J. Schlueter, K. Piller, K. Bost
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引用次数: 2

摘要

几十年来,转基因作物一直被用于加强农业,最近又被应用于制造药品的生物反应器。最近,我们研究了几个内部转基因大豆事件的基因表达谱,发现一个转化组始终与我们的对照不同。在本研究中,我们检测了相同转基因大豆事件外显子组的多态性和序列变异。我们发现,先前不同的大豆品系在种子组织mRNA转录本中也表现出显著增加的多态性水平,其中许多被归类为基因表达修饰因子。这项工作的结果将指导未来的研究,以检测对转基因大豆作物育种和改良有重大意义的新snp控制性状。此外,该研究标志着首次研究转基因大豆种子组织中SNP率的工作,并表明,虽然转基因可能会引起基因表达和核苷酸变异的大量意想不到的变化,但所检测植物的表型和整体健康状况保持不变。
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Transcript Polymorphism Rates in Soybean Seed Tissue Are Increased in a Single Transformant of Glycine max
Transgenic crops have been utilized for decades to enhance agriculture and more recently have been applied as bioreactors for manufacturing pharmaceuticals. Recently, we investigated the gene expression profiles of several in-house transgenic soybean events, finding one transformant group to be consistently different from our controls. In the present study, we examined polymorphisms and sequence variations in the exomes of the same transgenic soybean events. We found that the previously dissimilar soybean line also exhibited markedly increased levels of polymorphisms within mRNA transcripts from seed tissue, many of which are classified as gene expression modifiers. The results from this work will direct future investigations to examine novel SNPs controlling traits of great interest for breeding and improving transgenic soybean crops. Further, this study marks the first work to investigate SNP rates in transgenic soybean seed tissues and demonstrates that while transgenesis may induce abundant unanticipated changes in gene expression and nucleotide variation, phenotypes and overall health of the plants examined remained unaltered.
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