代谢组学和转录组学揭示棉花纤维如何过渡到次生壁合成、抑制木质化并延长伸长。
Metabolomic and transcriptomic insights into how cotton fiber transitions to secondary wall synthesis, represses lignification, and prolongs elongation.
作者信息
Tuttle John R, Nah Gyoungju, Duke Mary V, Alexander Danny C, Guan Xueying, Song Qingxin, Chen Z Jeffrey, Scheffler Brian E, Haigler Candace H
机构信息
Department of Crop Science, North Carolina State University, Raleigh, NC, 27695, USA.
Institute for Cellular and Molecular Biology and Center for Computational Biology and Bioinformatics, The University of Texas at Austin, Austin, TX, 78712, USA.
出版信息
BMC Genomics. 2015 Jun 27;16(1):477. doi: 10.1186/s12864-015-1708-9.
BACKGROUND
The morphogenesis of single-celled cotton fiber includes extreme elongation and staged cell wall differentiation. Designing strategies for improving cotton fiber for textiles and other uses relies on uncovering the related regulatory mechanisms. In this research we compared the transcriptomes and metabolomes of two Gossypium genotypes, Gossypium barbadense cv Phytogen 800 and G. hirsutum cv Deltapine 90. When grown in parallel, the two types of fiber developed similarly except for prolonged fiber elongation in the G. barbadense cultivar. The data were collected from isolated fibers between 10 to 28 days post anthesis (DPA) representing: primary wall synthesis to support elongation; transitional cell wall remodeling; and secondary wall cellulose synthesis, which was accompanied by continuing elongation only in G. barbadense fiber.
RESULTS
Of 206 identified fiber metabolites, 205 were held in common between the two genotypes. Approximately 38,000 transcripts were expressed in the fiber of each genotype, and these were mapped to the reference set and interpreted by homology to known genes. The developmental changes in the transcriptomes and the metabolomes were compared within and across genotypes with several novel implications. Transitional cell wall remodeling is a distinct stable developmental stage lasting at least four days (18 to 21 DPA). Expression of selected cell wall related transcripts was similar between genotypes, but cellulose synthase gene expression patterns were more complex than expected. Lignification was transcriptionally repressed in both genotypes. Oxidative stress was lower in the fiber of G. barbadense cv Phytogen 800 as compared to G. hirsutum cv Deltapine 90. Correspondingly, the G. barbadense cultivar had enhanced capacity for management of reactive oxygen species during its prolonged elongation period, as indicated by a 138-fold increase in ascorbate concentration at 28 DPA.
CONCLUSIONS
The parallel data on deep-sequencing transcriptomics and non-targeted metabolomics for two genotypes of single-celled cotton fiber showed that a discrete developmental stage of transitional cell wall remodeling occurs before secondary wall cellulose synthesis begins. The data showed how lignification can be transcriptionally repressed during secondary cell wall synthesis, and they implicated enhanced capacity to manage reactive oxygen species through the ascorbate-glutathione cycle as a positive contributor to fiber length.
背景
单细胞棉纤维的形态发生包括极度伸长和阶段性细胞壁分化。设计改良用于纺织及其他用途的棉纤维的策略依赖于揭示相关调控机制。在本研究中,我们比较了两个棉属基因型,即海岛棉品种Phytogen 800和陆地棉品种Deltapine 90的转录组和代谢组。当平行种植时,除了海岛棉品种的纤维伸长时间更长外,两种类型的纤维发育相似。数据收集自开花后10至28天(DPA)分离的纤维,代表:支持伸长的初生壁合成;过渡细胞壁重塑;以及次生壁纤维素合成,其中只有海岛棉纤维在次生壁纤维素合成的同时还伴有持续伸长。
结果
在鉴定出的206种纤维代谢物中,两种基因型共有205种。每个基因型的纤维中约有38,000个转录本表达,这些转录本被映射到参考集并通过与已知基因的同源性进行解释。在基因型内部和之间比较了转录组和代谢组的发育变化,有几个新的发现。过渡细胞壁重塑是一个独特的稳定发育阶段,持续至少四天(18至21 DPA)。基因型之间选定的细胞壁相关转录本的表达相似,但纤维素合酶基因的表达模式比预期更复杂。两种基因型中木质化在转录水平上均受到抑制。与陆地棉品种Deltapine 90相比,海岛棉品种Phytogen 800的纤维中氧化应激较低。相应地,海岛棉品种在其延长的伸长期间具有增强的活性氧管理能力,如在28 DPA时抗坏血酸浓度增加138倍所示。
结论
两种基因型单细胞棉纤维的深度测序转录组学和非靶向代谢组学的平行数据表明,在次生壁纤维素合成开始之前会发生一个离散的过渡细胞壁重塑发育阶段。数据显示了在次生细胞壁合成过程中木质化如何在转录水平上受到抑制,并且表明通过抗坏血酸-谷胱甘肽循环增强活性氧管理能力是纤维长度增加的一个积极因素。
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