当前位置: 首页 > 科学研究 > 最新论文 > 正文 >

Cloning and truncation modification of trehalose-6-phosphate synthase gene from Selaginella pulvinata

作者: 审稿人: 时间: 2014-04-07 点击次数:


Journal: GENE 2013-01年 512卷 2期

Author: Sheng-Mei Zhao, Feng-Ling Fu,Lin Gou, Han-Guang Wang, Gang He,Wan-Chen Li

Abstract:

A homologous sequence was amplified from resurrection plant Selaginella pulvinta by RACE technique, proved to be the full-length cDNA of trehalose-6-phosphate synthase gene by homologous alignment and yeast complementation assay, and nominated as SpTPS1 gene. The open reading frame of this gene was truncated 225 bp at the 5′-end, resulting the N-terminal truncation modification of 75 amino acids for its encoding protein. The TPS1 deletion mutant strain YSH290 of the brewer's yeast transformed by the truncated gene SpTPS1Δ and its original full-length version restored growth on the medium with glucose as a sole carbon source and displayed growth curves with no significant difference, indicating their encoding proteins functioning as TPS enzyme. The TPS activity of the mutant strain transformed by the truncated gene SpTPS1Δ was about six fold higher than that transformed by its original version, reasoning that the extra N-terminal extension of the full-length amino acid sequence acts as an inhibitory domain to trehalose synthesis. However, the trehalose accumulation of the mutant strain transformed by the truncated gene SpTPS1Δ was only 8% higher than that transformed by its original version. This result is explained by the feedback balance of trehalose content coordinated by the comparative activities between trehalose synthase and trehalase. The truncated gene SpTPS1Δ is suggested to be used in transgenic operation, together with the inhibition of trehalase activity by the application of validamycin A or genetic deficiency of the endogenous trehalase gene, for the enhancement of trehalose accumulation and improvement of abiotic tolerance in transgenic plants.

Link: http://www.sciencedirect.com/science/article/pii/S037811191201147X

 

上一篇:Development and Characterization of Simple Sequence Repeat Markers Providing Genome-Wide Coverage and High Resolution in Maize

下一篇:Genome-scale identification of resistance gene analogs and the development of their intron length polymorphism markers in maize