Transformation of trehalose synthase gene (TPS Gene) into corn inbred line and identification of drought tolerance

Dong Chun-lin; Zhang Ming-yi; Zhang Yan-qin; Yang Li-li; Liang Gai-mei; Sun Jie; Lin Zhong-ping; Gou Jjian-fang

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Transformation of trehalose synthase gene (TPS Gene) into corn inbred line and identification of drought tolerance

机译：海藻糖合酶基因（TPS基因）向玉米自交系的转化及耐旱性鉴定

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Trehalose synthase gene (TPS?gene) was transferred into maize inbred line Zheng58 with the improved pollen tube path method. At the three to five leaf stage, selection with spray Basta (0.7%) solution was conducted, and was then followed by?polymerase chain reaction?(PCR) and PCR-southern detection. The results showed that the new gene was transferred into the plants and integrated into the plant chromosomes. The initial drought-tolerance test in farmland confirmed that the drought resistance of transgenic plants was higher than that of non-transgenic plants. The results show that the new maize drought resistance germplasm can be gained by means of pollen tube path which?is?a feasible, effective and new way for maize drought resistance breeding.

机译：用改进的花粉管通道法将海藻糖合酶基因（TPSα基因）转移到玉米自交系Zheng58中。在三到五叶期，用喷雾Basta（0.7％）溶液进行选择，然后进行“聚合酶链反应”（PCR）和PCR-南方检测。结果表明，该新基因已转移到植物中并整合到植物染色体中。农田的初步耐旱性试验证实，转基因植物的抗旱性高于非转基因植物。结果表明，可以通过花粉管途径获得新的玉米抗旱种质，这是玉米抗旱育种的可行，有效和新途径。

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《African Journal of Biotechnology》 |2011年第68期|共6页
作者
Dong Chun-lin; Zhang Ming-yi; Zhang Yan-qin; Yang Li-li; Liang Gai-mei; Sun Jie; Lin Zhong-ping; Gou Jjian-fang;
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中图分类生物工程学（生物技术）;
关键词
Maizetrehalose synthase gene (TPS Gene)drought resistance;

机译：玉米海藻糖合酶基因（TPS基因）抗旱性;

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1. Transgenic Tobacco Plants harboring the Trehalose Phosphate Synthase TPS gene of Escherichia coli increased Tolerance to Drought Stress [J] . Dong Hoon Lee, Hyunmi Ryu, Han Hong Bae, Research Journal of Biotechnology . 2012,第2期

机译：带有大肠杆菌海藻糖磷酸合酶TPS基因的转基因烟草植物增加了对干旱胁迫的耐受性
2. Cloning and characterization of genes encoding trehalose-6-phosphate synthase (TPS1) and trehalose-6-phosphate phosphatase (TPS2) from Zygosaccharomyces rouxii [J] . Kwon HB, Yeo ET, Hahn SE, FEMS Yeast Research . 2003,第4期

机译：鲁氏合酵母的编码海藻糖6-磷酸合酶（TPS1）和海藻糖6-磷酸磷酸酶（TPS2）的基因的克隆和鉴定
3. Genome-wide identification and comparative analysis of drought related genes in roots of two maize inbred lines with contrasting drought tolerance by RNA sequencing [J] . HAO Lu-yang, SHI Yun-su, XIE Xiao-qing, 农业科学学报（英文版） . 2020,第002期

机译：利用RNA测序对两个玉米自交系根系中干旱相关基因的全基因组鉴定和比较分析
4. EXPRESSION OF THE GRIFOLA FRONDOSA TREHALOSE SYNTHASE GENE AND IMPROVEMENT OF THE DROUGHT-TOLERANCE IN SUGARCANE [C] . SHU-ZHEN ZHANG, BEN-PENG YANG, CUI-LIAN FENG, Symposium of the International Association of Professionals in Sugar and Integrated Technologies . 2006

机译：Grifola Frondosa海藻糖合酶基因的表达及甘蔗干旱耐受性的提高
5. Drought tolerance and genetic diversity among tropical maize inbred lines. [D] . Castillo-Gutierrez, Antonio. 2004

机译：热带玉米自交系的耐旱性和遗传多样性。
6. Genome-wide identification of gene expression in contrasting maize inbred lines under field drought conditions reveals the significance of transcription factors in drought tolerance [O] . Xiaojing Zhang, Xuyang Liu, Dengfeng Zhang, 2011

机译：玉米自交系在田间干旱条件下基因表达的全基因组鉴定揭示了转录因子在耐旱性中的重要性
7. Expression of a Bifunctional Fusion of the Escherichia coli Genes for Trehalose-6-Phosphate Synthase and Trehalose-6-Phosphate Phosphatase in Transgenic Rice Plants Increases Trehalose Accumulation and Abiotic Stress Tolerance without Stunting Growth1 [O] . Jang, In-Cheol, Oh, Se-Jun, Seo, Ju-Seok, 2003

机译：在转基因水稻植物中表达海藻糖6-磷酸合酶和海藻糖-6-磷酸酶的大肠杆菌基因双功能融合蛋白可增加海藻糖积累和非生物胁迫耐受性，且不会阻碍生长1

Transformation of trehalose synthase gene (TPS Gene) into corn inbred line and identification of drought tolerance

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