Substrate Specificity of LACCASE8 Facilitates Polymerization of Caffeyl Alcohol for C-Lignin Biosynthesis in the Seed Coat of Cleome hassleriana
文献类型: 外文期刊
第一作者: Wang, Xin
作者: Wang, Xin;Zhuo, Chunliu;Xiao, Xirong;Wang, Xiaoqiang;Docampo-Palacios, Maite;Chen, Fang;Dixon, Richard A.;Wang, Xin;Zhuo, Chunliu;Xiao, Xirong;Wang, Xiaoqiang;Docampo-Palacios, Maite;Chen, Fang;Dixon, Richard A.;Wang, Xin;Zhuo, Chunliu;Xiao, Xirong;Docampo-Palacios, Maite;Chen, Fang;Dixon, Richard A.
作者机构:
期刊名称:PLANT CELL ( 影响因子:11.277; 五年影响因子:12.061 )
ISSN: 1040-4651
年卷期: 2020 年 32 卷 12 期
页码:
收录情况: SCI
摘要: LACCASE8 from the model system Cleome hassleriana possesses the unusual property of oxidizing caffeyl alcohol but not coniferyl alcohol and plays a critical role in initiating C-lignin polymerization. Catechyl lignin (C-lignin) is a linear homopolymer of caffeyl alcohol found in the seed coats of diverse plant species. Its properties make it a natural source of carbon fibers and high-value chemicals, but the mechanism of in planta polymerization of caffeyl alcohol remains unclear. In the ornamental plant Cleome hassleriana, lignin biosynthesis in the seed coat switches from guaiacyl lignin to C-lignin at similar to 12 d after pollination. Here we found that the transcript profile of the laccase gene ChLAC8 parallels the accumulation of C-lignin during seed coat development. Recombinant ChLAC8 oxidizes caffeyl and sinapyl alcohols, generating their corresponding dimers or trimers in vitro, but cannot oxidize coniferyl alcohol. We propose a basis for this substrate preference based on molecular modeling/docking experiments. Suppression of ChLAC8 expression led to significantly reduced C-lignin content in the seed coats of transgenic Cleome plants. Feeding of C-13-caffeyl alcohol to the Arabidopsis (Arabidopsis thaliana) caffeic acido-methyltransferase mutant resulted in no incorporation of C-13 into C-lignin, but expressing ChLAC8 in this genetic background led to appearance of C-lignin with >40% label incorporation. These results indicate that ChLAC8 is required for C-lignin polymerization and determines lignin composition when caffeyl alcohol is available.
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