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Trihelix转录因子在植物抵御各种逆境胁迫中扮演重要作用,克隆棉花Trihelix转录因子基因并分析其表达特性和功能,为最终利用转基因手段改良棉花抗逆性奠定基础。本文依据生物信息学分析,采用RT-PCR方法从陆地棉中克隆了一个Trihelix转录因子基因,命名为GhGT29(GenBank登录号:JQ013097)。该基因最大开放阅读框(ORF)为1092 bp,编码363个氨基酸,预测分子量为40.9 kDa,等电点为5.45。SMART蛋白结构预测发现,该蛋白含有1个Trihelix家族典型的SANT结构域。系统进化树分析表明,GhGT29属于Trihelix转录因子SH4亚家族,与拟南芥AtSH4-like1、AtSH4-like2亲缘关系最近。实时荧光定量PCR结果表明,GhGT29受高盐、干旱、低温胁迫和ABA诱导表达;GhGT29在陆地棉的根、茎、叶、花、开花后当天胚珠以及开花后12 d(12 DPA)纤维中均有表达,其中在花中表达量最高,在茎中表达量最低。利用拟南芥原生质体系统进行分析,结果显示GhGT29主要定位于细胞核中,并且具有转录激活活性。以上结果表明GhGT29基因可能参与棉花逆境信号通路中对抗逆功能基因表达的调控。 相似文献
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Substrate-specific kinetics of Dicer-catalyzed RNA processing 总被引:2,自引:0,他引:2
Chakravarthy S Sternberg SH Kellenberger CA Doudna JA 《Journal of molecular biology》2010,404(3):392-402
The specialized ribonuclease Dicer plays a central role in eukaryotic gene expression by producing small regulatory RNAs—microRNAs (miRNAs) and short interfering RNAs (siRNAs)—from larger double-stranded RNA (dsRNA) substrates. Although Dicer will cleave both imperfectly base-paired hairpin structures (pre-miRNAs) and perfect duplexes (pre-siRNAs) in vitro, it has not been clear whether these are mechanistically equivalent substrates and how dsRNA binding proteins such as trans-activation response (TAR) RNA binding protein (TRBP) influence substrate selection and RNA processing efficiency. We show here that human Dicer is much faster at processing a pre-miRNA substrate compared to a pre-siRNA substrate under both single and multiple turnover conditions. Maximal cleavage rates (Vmax) calculated by Michaelis-Menten analysis differed by more than 100-fold under multiple turnover conditions. TRBP was found to enhance dicing of both substrates to similar extents, and this stimulation required the two N-terminal dsRNA binding domains of TRBP. These results demonstrate that multiple factors influence dicing kinetics. While TRBP stimulates dicing by enhancing the stability of Dicer-substrate complexes, Dicer itself generates product RNAs at rates determined at least in part by the structural properties of the substrate. 相似文献
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Genjie Wang Ying Tian Qingzhu Hu Xichun Xiao Shuxia Chen 《Journal of cellular biochemistry》2019,120(2):1210-1220
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