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对四个分别特异于陆地棉和海岛棉纤维纤维素生产的 CESA 同工型的综合分析。

An integrative analysis of four CESA isoforms specific for fiber cellulose production between Gossypium hirsutum and Gossypium barbadense.

机构信息

National Key Laboratory of Crop Genetic Improvement and National Centre of Plant Gene Research (Wuhan), Huazhong Agricultural University, Wuhan 430070, China.

出版信息

Planta. 2013 Jun;237(6):1585-97. doi: 10.1007/s00425-013-1868-2. Epub 2013 Mar 19.

DOI:10.1007/s00425-013-1868-2
PMID:23508664
Abstract

Cotton fiber is an excellent model system of cellulose biosynthesis; however, it has not been widely studied due to the lack of information about the cellulose synthase (CESA) family of genes in cotton. In this study, we initially identified six full-length CESA genes designated as GhCESA5-GhCESA10. Phylogenetic analysis and gene co-expression profiling revealed that CESA1, CESA2, CESA7, and CESA8 were the major isoforms for secondary cell wall biosynthesis, whereas CESA3, CESA5, CESA6, CESA9, and CESA10 should involve in primary cell wall formation for cotton fiber initiation and elongation. Using integrative analysis of gene expression patterns, CESA protein levels, and cellulose biosynthesis in vivo, we detected that CESA8 could play an enhancing role for rapid and massive cellulose accumulation in Gossypium hirsutum and Gossypium barbadense. We found that CESA2 displayed a major expression in non-fiber tissues and that CESA1, a housekeeping gene like, was predominantly expressed in all tissues. Further, a dynamic alteration was observed in cell wall composition and a significant discrepancy was observed between the cotton species during fiber elongation, suggesting that pectin accumulation and xyloglucan reduction might contribute to cell wall transition. In addition, we discussed that callose synthesis might be regulated in vivo for massive cellulose production during active secondary cell wall biosynthesis in cotton fibers.

摘要

棉花纤维是纤维素生物合成的极佳模式系统;然而,由于缺乏有关棉花纤维素合酶 (CESA) 家族基因的信息,因此其研究尚未得到广泛开展。在本研究中,我们最初鉴定了六个全长 CESA 基因,分别命名为 GhCESA5-GhCESA10。系统发育分析和基因共表达分析表明,CESA1、CESA2、CESA7 和 CESA8 是次生细胞壁生物合成的主要同工型,而 CESA3、CESA5、CESA6、CESA9 和 CESA10 可能参与棉花纤维起始和伸长的初生细胞壁形成。通过基因表达模式、CESA 蛋白水平和体内纤维素生物合成的综合分析,我们检测到 CESA8 可能在陆地棉和海岛棉中对快速和大量纤维素积累发挥增强作用。我们发现 CESA2 在非纤维组织中表达主要,而 CESA1 作为管家基因,在所有组织中均主要表达。此外,在纤维伸长过程中观察到细胞壁组成的动态变化,并且在棉花物种之间观察到明显的差异,这表明果胶积累和木葡聚糖减少可能有助于细胞壁转变。此外,我们讨论了在棉花纤维次生细胞壁生物合成的活跃期,体内可能通过调节胼胝质合成来大量生产纤维素。

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Hemicelluloses negatively affect lignocellulose crystallinity for high biomass digestibility under NaOH and H2SO4 pretreatments in Miscanthus.在芒草的 NaOH 和 H2SO4 预处理中,半纤维素会降低木质纤维素结晶度,从而影响生物质的高消化率。
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Plant Cell Rep. 2024 Feb 21;43(3):76. doi: 10.1007/s00299-024-03147-5.
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