GmSYP24, a putative syntaxin gene, confers osmotic/drought, salt stress tolerances and ABA signal pathway
文献类型: 外文期刊
第一作者: Chen, Li-Miao
作者: Chen, Li-Miao;Fang, Yi-Sheng;Zhang, Chan-Juan;Hao, Qing-Nan;Cao, Dong;Yuan, Song-Li;Chen, Hai-Feng;Yang, Zhong-Lu;Chen, Shui-Lian;Shan, Zhi-Hui;Liu, Bao-Hong;Jing-Wang;Zhang, Xiao-Juan;Qiu, De-Zhen;Zhou, Xin-An;Chen, Li-Miao;Fang, Yi-Sheng;Zhang, Chan-Juan;Hao, Qing-Nan;Cao, Dong;Yuan, Song-Li;Chen, Hai-Feng;Yang, Zhong-Lu;Chen, Shui-Lian;Shan, Zhi-Hui;Liu, Bao-Hong;Jing-Wang;Zhang, Xiao-Juan;Qiu, De-Zhen;Zhou, Xin-An;Li, Wen-Bin;Li, Wen-Bin;Zhan, Yong
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.379; 五年影响因子:5.133 )
ISSN: 2045-2322
年卷期: 2019 年 9 卷
页码:
收录情况: SCI
摘要: As major environment factors, drought or high salinity affect crop growth, development and yield. Transgenic approach is an effective way to improve abiotic stress tolerance of crops. In this study, we comparatively analyzed gene structures, genome location, and the evolution of syntaxin proteins containing late embryogenesis abundant (LEA2) domain. GmSYP24 was identified as a dehydration-responsive gene. Our study showed that the GmSYP24 protein was located on the cell membrane. The overexpression of GmSYP24 (GmSYP24ox) in soybean and heteroexpression of GmSYP24 (GmSYP24hx) in Arabidopsis exhibited insensitivity to osmotic/drought and high salinity. However, wild type soybean, Arabidopsis, and the mutant of GmSYP24 homologous gene of Arabidopsis were sensitive to the stresses. Under the abiotic stresses, transgenic soybean plants had greater water content and higher activities of POD, SOD compared with non-transgenic controls. And the leaf stomatal density and opening were reduced in transgenic Arabidopsis. The sensitivity to ABA was decreased during seed germination of GmSYP24ox and GmSYP24hx. GmSYP24hx induced up-regulation of ABA-responsive genes. GmSYP24ox alters the expression of some aquaporins under osmotic/drought, salt, or ABA treatment. These results demonstrated that GmSYP24 played an important role in osmotic/drought or salt tolerance in ABA signal pathway.
分类号:
- 相关文献
作者其他论文 更多>>
-
Molecular dissection of hemizygote-dependent dominance of super-early flowering in soybean
作者:Xu, Xin;Yu, Yang;Jiang, Bingjun;Cao, Dong;Zhang, Lixin;Jia, Hongchang;Sun, Xuegang;Chen, Li;Yuan, Shan;Chen, Fulu;Lu, Zefu;Liu, Yanhong;Naser, Mahmoud;Wu, Tingting;Wu, Cunxiang;Sun, Shi;Han, Tianfu;Yu, Yang;Cao, Dong;Zhang, Qingzhu;Han, Tianfu
关键词:Soybean; Hemizygote-dependent dominance; Flowering time; siRNA; DNA methylation
-
Harnessing the MYB51/SWEET20 module to increase soybean yield by facilitating sugar supply to sink organs
作者:Shen, Jiafang;Cao, Dong;Yuan, Songli;Hao, Qingnan;Yang, Hongli;Huang, Yi;He, Lihong;Yuan, Jialing;Yang, Zhonglu;Chen, Shuilian;Shan, Zhihui;Guo, Wei;Chen, Limiao;Chen, Haifeng;Zhang, Chanjuan;Zhou, Xinan;Shen, Jiafang;Li, Xia
关键词:
GmSWEET20 ;GmMYB51 ; Carbohydrate supply; Soybean; Yield -
Exploiting phKL-mediated homoeologous recombinants to map stripe rust resistance gene YrAev from Aegilops variabilis
作者:Hao, Ming;Zhang, Lianquan;Liu, Dengcai;Hao, Ming;Li, Yazhou;Fan, Chaolan;Chen, Hong;Nie, Yongxin;Wang, Fang;Jiang, Bo;Chen, Xue;Chen, Xuejiao;Yuan, Zhongwei;Ning, Shunzong;Liu, Dengcai;Luo, Jiangtao;Pu, Zongjun;Luo, Jiangtao;Pu, Zongjun;Cao, Dong;Liu, Baolong;Chen, Shisheng
关键词:Stripe rust resistance; YrAev; Aegilops variabilis; phKL
-
Efficient Virus-Induced Gene Silencing (VIGS) Method for Discovery of Resistance Genes in Soybean
作者:Deng, Kelin;Lu, Zihua;Yang, Hongli;Chen, Shuilian;Li, Chao;Cao, Dong;Hao, Qingnan;Chen, Haifeng;Shan, Zhihui;Deng, Kelin;Lu, Zihua;Yang, Hongli;Chen, Shuilian;Li, Chao;Cao, Dong;Hao, Qingnan;Chen, Haifeng;Shan, Zhihui;Wang, Hongwei
关键词:soybean; TRV-VIGS;
GmPDS ; gene screening; functional validation -
Creating a zero amylose barley with high soluble sugar content by genome editing
作者:Li, Yun;Jiang, Yanyan;Cao, Dong;Fan, Shiting;Shen, Yuhu;Liu, Baolong;Li, Yun;Cao, Dong;Fan, Shiting;Shen, Yuhu;Liu, Baolong;Jiang, Yanyan;Dang, Bin;Yang, Xijuan;Li, Genying
关键词:Barley; Starch; Waxy; Amylose-free; CRISPR/Cas9 genome editing
-
C-terminally encoded peptide-like genes are associated with the development of primary root at qRL16.1 in soybean
作者:Kumawat, Giriraj;Cao, Dong;Park, Cheolwoo;Xu, Donghe;Kumawat, Giriraj;Cao, Dong
关键词:primary root; C-terminally encoded peptides; root length; genes; soybean
-
An pair of an atypical NLR encoding genes confer Asian soybean rust resistance in soybean
作者:Hao, Qingnan;Zhang, Chanjuan;Chen, Limiao;Cao, Dong;Zhou, Xinan;Hao, Qingnan;Yang, Hongli;Yuan, Songli;Guo, Wei;Shan, Zhihui;Chen, Shuilian;Yang, Zhonglu;Huang, Yi;Chen, Haifeng;Qu, Yanhui;Qin, Lucy;Sheng, Xiaoyan;Wang, Xueyan;Mitra, Chandrani;Zhong, Heng;Dawson, John;Bumann, Eric;Wang, Wenling;Jiang, Yaping;Tang, Guozhu;Carlin, Ryan;Liu, Qingli
关键词:
