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Cloning and function analysis of a Saussurea involucrata LEA4 gene

Hui Kong, Wenwen Xia, Mengjuan Hou, Nan Ruan, Jin Li, Jianbo Zhu

2022Frontiers in Plant Science23 citationsDOIOpen Access PDF

Abstract

Late embryogenesis abundant proteins (LEA) help adapt to adverse low-temperature environments. The Saussurea involucrate SiLEA4 , which encodes a membrane protein, was significantly up-regulated in response to low temperature stress. Escherichia coli expressing SiLEA4 showed enhanced low-temperature tolerance, as evident from the significantly higher survival numbers and growth rates at low temperatures. Moreover, tomato strains expressing SiLEA4 had significantly greater freezing resistance, due to a significant increase in the antioxidase activities and proline content. Furthermore, they had higher yields due to higher water utilization and photosynthetic efficiency under the same water and fertilizer conditions. Thus, expressing SiLEA4 has multiple advantages: (1) mitigating chilling injury, (2) increasing yields, and (3) water-saving, which also indicates the great potential of the SiLEA4 for breeding applications.

Topics & Concepts

Cloning (programming)BiologyGeneGeneticsFunction (biology)BotanyComputational biologyComputer scienceProgramming languagePhytochemical compounds biological activitiesPlant Reproductive BiologyPlant biochemistry and biosynthesis
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