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CsWRKY13,a novel WRKY transcription factor of Camellia sinensis,involved in lignin biosynthesis and accumulation 被引量:1
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作者 Ruimin Teng Yongxin Wang +5 位作者 Shijia Lin Yi Chen yazhuo yang Ni yang Jingwen Li Jing Zhuang 《Beverage Plant Research》 2021年第1期97-105,共9页
Lignin is an aromatic polymer that provides the necessary mechanical strength for the transport of water and nutrients in higher plants.Lignin biosynthesis and accumulation affect growth and development of tea plants.... Lignin is an aromatic polymer that provides the necessary mechanical strength for the transport of water and nutrients in higher plants.Lignin biosynthesis and accumulation affect growth and development of tea plants.The degree of lignification related to the tenderness of fresh tea leaves determines the quality of tea.WRKY transcription factors play central roles in plant development and physiological processes.However,the roles of WRKY transcription factors in lignin biosynthesis of tea plants remain unclear.In this study,a WRKY gene,CsWRKY13,was cloned from tea plant'Longjing 43'.The open reading frame(ORF)of CsWRKY13 gene was 708 bp,encoding 235 amino acids.Sequence analysis showed that CsWRKY13 contained a conserved WRKYGQK amino acid sequence and a zinc-finger-like motif CX4CX23HXH.Subcellular localization showed that CsWRKY13 was localized in the nucleus.The yeast trans-activation assay showed that CsWRKY13 had no transcriptional activity.Expression analysis showed that the CsWRKY13 gene was highly expressed in the stem.Overexpression of CsWRKY13 in Arabidopsis thaliana reduced lignin content and the expression levels of genes related to lignin biosynthesis in transgenic plants.Most flavonoids pathway related genes were significantly up-regulated.This study shows that CsWRKY13 might function as a negative regulator in regulation of lignin synthesis. 展开更多
关键词 ACTIVATION CAMELLIA BIOSYNTHESIS
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