文献类型: 外文期刊
第一作者: Yang, Dalin
作者: Yang, Dalin;Liu, Hui;Tan, Bao-Cai;Li, Xiaojie;Zhang, Yafeng;Zhang, Xingwang;Liu, Mingyu;Li, Shengying;Yang, Huanhuan;Koch, Karen E.;Mccarty, Donald R.
作者机构:
期刊名称:NATURE PLANTS ( 影响因子:13.6; 五年影响因子:17.0 )
ISSN: 2055-026X
年卷期: 2024 年 10 卷 9 期
页码:
收录情况: SCI
摘要: A transformation in plant cell wall evolution marked the emergence of grasses, grains and related species that now cover much of the globe. Their tough, less digestible cell walls arose from a new pattern of cross-linking between arabinoxylan polymers with distinctive ferulic acid residues. Despite extensive study, the biochemical mechanism of ferulic acid incorporation into cell walls remains unknown. Here we show that ferulic acid is transferred to arabinoxylans via an unexpected sucrose derivative, 3,6-O-diferuloyl sucrose (2-feruloyl-O-alpha-d-glucopyranosyl-(1 '-> 2)-3,6-O-feruloyl-beta-d-fructofuranoside), formed by a sucrose ferulate cycle. Sucrose gains ferulate units through sequential transfers from feruloyl-CoA, initially at the O-3 position of sucrose catalysed by a family of BAHD-type sucrose ferulic acid transferases (SFT1 to SFT4 in maize), then at the O-6 position by a feruloyl sucrose feruloyl transferase (FSFT), which creates 3,6-O-diferuloyl sucrose. An FSFT-deficient mutant of maize, disorganized wall 1 (dow1), sharply decreases cell wall arabinoxylan ferulic acid content, causes accumulation of 3-O-feruloyl sucrose (alpha-d-glucopyranosyl-(1 '-> 2)-3-O-feruloyl-beta-d-fructofuranoside) and leads to the abortion of embryos with defective cell walls. In vivo, isotope-labelled ferulic acid residues are transferred from 3,6-O-diferuloyl sucrose onto cell wall arabinoxylans. This previously unrecognized sucrose ferulate cycle resolves a long-standing mystery surrounding the evolution of the distinctive cell wall characteristics of cereal grains, biofuel crops and related commelinid species; identifies an unexpected role for sucrose as a ferulate group carrier in cell wall biosynthesis; and reveals a new paradigm for modifying cell wall polymers through ferulic acid incorporation. A key feature of the evolutionary transformation of grass cell walls is the cross-linking of interwoven arabinoxylans via ferulate units. This study discovered an unexpected sucrose ferulate cycle that mediates the feruloylation of arabinoxylan.
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