HSSP基因大豆的分子检测和遗传稳定性分析
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国家转基因生物新品种培育重大专项(2016ZX08004003)


Molecular Detection and Genetic Stability Analysis of HSSP Transgenic Soybean
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    摘要:

    HSSP是用大豆密码子改造的10 kD玉米醇溶蛋白基因。在前期研究中,从获得的转基因大豆中筛选到1份单拷贝转基因材料GSDH5。该研究采用染色体步移法获取转基因大豆GSDH5的TDNA插入位点的左边界旁侧序列,对获得的左边界旁侧序列进行分析,设计特异性引物,建立转基因大豆GSDH5特异性检测方法;采用Realtime PCR检测外源基因在转基因大豆不同组织部位(根、茎、叶、花和种子)中的表达量,采用RTPCR和Western blot检测外源基因在转录和翻译水平上的遗传稳定性,并对转基因大豆GSDH5中的粗蛋白、含硫氨基酸含量及主要农艺性状进行测定分析,为培育高含硫氨基酸转基因大豆新品种奠定基础。结果表明:(1)分子鉴定显示,外源基因HSSP和筛选标记基因Bar成功整合到受体大豆‘东农50’基因组中,且以单拷贝的形式整合到大豆基因组中。(2)HSSP基因成功插入到大豆基因组1号染色体非编码区52 873 883 bp处。(3)HSSP基因在转基因大豆GSDH5的种子中特异性表达,且在T2 ~T4代转基因大豆中能够稳定遗传并表达。(4)‘东农50’粗蛋白含量在41.53%~43.32%之间,GSDH5粗蛋白含量在40.18%~43.03%之间,两者相比无显著差异;GSDH5种子中硫氨基酸占种子干样的比例为1.35%,占种子蛋白的比例为3.14%,与转基因受体品种‘东农50’相比,占比显著升高,分别增加了11%和16%。(5)转基因大豆GSDH5植株与受体品种‘东农50’在单株荚数、百粒重、株高、结荚习性、花色、叶形等方面均无显著差异,证明HSSP基因的插入对大豆植株的生长发育无不良影响。研究认为,转基因大豆GSDH5材料具备进一步培育成高含硫氨基酸大豆新品种的潜力。

    Abstract:

    HSSP is a 10 kD Zein gene modified with soybean codon. In the previous study, a single copy of transgenic soybean GSDH5 was screened from the genetically modified soybeans. In this study, the left boundary flanking sequence of the TDNA insertion site of the transformation soybean GSDH5 was obtained by chromosome walking method, and the left boundary flanking sequence was analyzed, the specific primers were designed, and the specific detection method of transformation soybean GSDH5 was established. Realtime PCR was used to detect the expression of foreign genes in different tissue parts of transgenic soybean (root, stem, leaf, flower and seed), RTPCR and Western blot were used to detect the genetic stability of the target gene at the transcriptional and translation levels. The contents of crude protein, sulfurcontaining amino acids and main agronomic characters in the transgenic soybean GSDH5 were determined and analyzed, which laid a foundation for cultivating new varieties of transgenic soybeans with high sulfur amino acids. The results showed that: (1) molecular identification showed that the exogenous gene HSSP and the screening marker gene Bar were successfully integrated into the soybean ‘Dongnong 50’ genome, and were integrated into the soybean genome in the form of single copy. (2) HSSP gene was successfully inserted into 52 873 883 bp of noncoding region of soybean genome 1. (3) HSSP gene was specifically expressed in the seeds of transgenic soybean GSDH5, and could be stably inherited and expressed in T2-T4 transgenic soybeans. (4) The range of crude protein content of ‘Dongnong 50’ was 41.53%-43.32%, and that of GSDH5 was 40.18%-43.03%. There was no significant difference between the two. Sulfur amino acids in GSDH5 seeds accounted for 1.35% of seed dry samples and 3.14% of seed protein, which increased significantly by 11% and 16%, respectively. (5) There were no significant differences between transgenic soybean GSDH5 plant and acceptor variety ‘Dongnong 50’ in pod number per plant, 100seed weight, plant height, pod forming habit, flower color, leaf shape and other aspects, which proved that the insertion of HSSP gene had no adverse effects on the growth and development of soybean plant. It is suggested that the transgenic soybean GSDH5 material has the potential to cultivate new soybean varieties with high sulfur amino acid content.

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郭丹丹,周静文,刘 洋,等.转HSSP基因大豆的分子检测和遗传稳定性分析[J].西北植物学报,2021,41(5):719-726

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  • 在线发布日期: 2021-06-22
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