Daily glycome and transcriptome profiling reveals polysaccharide structures and correlated glycosyltransferases critical for cotton fiber growth.

IF 6.2 1区 生物学 Q1 PLANT SCIENCES
Sivakumar Swaminathan, Corrinne E Grover, Alither S Mugisha, Lauren E Sichterman, Youngwoo Lee, Pengcheng Yang, Eileen L Mallery, Josef J Jareczek, Alexis G Leach, Jun Xie, Jonathan F Wendel, Daniel B Szymanski, Olga A Zabotina
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Abstract

Cotton fiber is the most valuable naturally available material for the textile industry and the fiber length and strength are key determinants of its quality. Dynamic changes in the pectin, xyloglucan, xylan, and cellulose polysaccharide epitope content during fiber growth contribute to complex remodeling of fiber cell wall (CW) and quality. Detailed knowledge about polysaccharide compositional and structural alteration in the fiber during fiber elongation and strengthening is important to understand the molecular dynamics of fiber development and improve its quality. Here, large-scale glycome profiling coupled with fiber phenotype and transcriptome profiling was conducted on fiber collected daily covering the most critical window of fiber development. The profiling studies with high temporal resolution allowed us to identify specific polysaccharide epitopes associated with distinct fiber phenotypes that might contribute to fiber quality. This study revealed the critical role of highly branched RG-I pectin epitopes such as β-1,4-linked-galactans, β-1,6-linked-galactans, and arabinogalactans, in addition to earlier reported homogalacturonans and xyloglucans in the formation of cotton fiber middle lamella and contributing to fiber plasticity and elongation. We also propose the essential role of heteroxylans (Xyl-MeGlcA and Xyl-3Ar), as a guiding factor for secondary CW cellulose microfibril arrangement, thus contributing to fiber strength. Correlation analysis of profiles of polysaccharide epitopes from glycome data and expression profiles of glycosyltransferase-encoding genes from transcriptome data identified several key putative glycosyltransferases that are potentially involved in synthesizing the critical polysaccharide epitopes. The findings of this study provide a foundation to identify molecular factors that dictate important fiber traits.

日常糖粒和转录组分析揭示了对棉纤维生长至关重要的多糖结构和相关糖基转移酶。
棉纤维是纺织业最宝贵的天然材料,纤维长度和强度是决定其质量的关键因素。纤维生长过程中果胶、木聚糖、木聚糖和纤维素多糖表位含量的动态变化有助于纤维细胞壁(CW)和质量的复杂重塑。详细了解纤维在伸长和增强过程中的多糖组成和结构变化,对于理解纤维发育的分子动力学和提高纤维质量非常重要。在此,我们对每天采集的纤维进行了大规模的糖蛋白分析以及纤维表型和转录组分析,这些分析覆盖了纤维发育的最关键窗口期。通过高时间分辨率的分析研究,我们确定了与不同纤维表型相关的特定多糖表位,这些表位可能会影响纤维的质量。这项研究揭示了高支链 RG-I 果胶表位的关键作用,如 β-1,4-连接半乳聚糖、β-1,6-连接半乳聚糖和阿拉伯半乳聚糖,以及早先报道的均半乳聚糖和木聚糖,它们在棉纤维中间层的形成中起着关键作用,并有助于纤维的可塑性和伸长。我们还提出了杂氧葡聚糖(Xyl-MeGlcA 和 Xyl-3Ar)的重要作用,它们是次生 CW 纤维素微纤维排列的引导因子,从而有助于纤维强度的提高。通过对来自糖体数据的多糖表位图谱和来自转录组数据的糖基转移酶编码基因的表达图谱进行相关分析,发现了几个可能参与合成关键多糖表位的关键糖基转移酶。本研究的发现为确定决定重要纤维性状的分子因素奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
The Plant Journal
The Plant Journal 生物-植物科学
CiteScore
13.10
自引率
4.20%
发文量
415
审稿时长
2.3 months
期刊介绍: Publishing the best original research papers in all key areas of modern plant biology from the world"s leading laboratories, The Plant Journal provides a dynamic forum for this ever growing international research community. Plant science research is now at the forefront of research in the biological sciences, with breakthroughs in our understanding of fundamental processes in plants matching those in other organisms. The impact of molecular genetics and the availability of model and crop species can be seen in all aspects of plant biology. For publication in The Plant Journal the research must provide a highly significant new contribution to our understanding of plants and be of general interest to the plant science community.
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