Comparative transcriptome analysis uncovers cell wall reorganization and repressed cell division during cotton fiber initiation.

Q2 Biochemistry, Genetics and Molecular Biology BMC Developmental Biology Pub Date : 2021-10-29 DOI:10.1186/s12861-021-00247-3

Wenyuan Liu, Yanjia Lv, Xiaoyue Li, Zongqin Feng, Lichen Wang

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引用次数: 2

Abstract

Background: Tetraploid cotton plants serve as prime natural fiber source for the textile industry. Although various omics studies have revealed molecular basis for fiber development, a better understanding of transcriptional regulation mechanism regulating lint fiber initiation is necessary to meet global natural fiber demand.

Results: Here, we aimed to perform transcriptome sequencing to identify DEGs (differentially expressed genes) in ovules of the cotton variety Xu142 and its fibreless mutant Xu142fl during early lint fiber initiation period. Totally, 5516 DEGs including 1840 upregulated and 3676 downregulated were identified. GO enrichment analysis revealed that the downregulated DEGs were mainly associated with biological processes such as transcription related biosynthesis and metabolism, organic cyclic compound biosynthesis and metabolism, photosynthesis, and plant cell wall organization, with molecular functions involving transcription related binding, organic cyclic compound binding, and dioxygenase activity, while the upregulated DEGs were associated with DNA replication and phospholipid biosynthetic related processes. Among the 490 DEGs annotated as transcription factor genes, 86.5% were downregulated in the mutant including the Malvaceae-specific MMLs, expression patterns of which were confirmed during the central period of lint fiber initiation. Investigation of the 16 genes enriched in the cell wall organization revealed that 15 were EXPA coding genes.

Conclusions: Overall, our data indicate that lint fiber initiation is a complicated process involving cooperation of multiple transcription factor families, which might ultimately lead to the reorganization of the cell wall and terminated cell division of the differentiating fiber initials.

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比较转录组分析揭示了棉纤维起始过程中细胞壁重组和抑制细胞分裂。

背景:四倍体棉花是纺织工业的主要天然纤维来源。虽然各种组学研究已经揭示了纤维发育的分子基础，但更好地了解棉绒纤维形成的转录调控机制是满足全球天然纤维需求的必要条件。结果:本研究旨在通过转录组测序鉴定棉花品种Xu142及其无纤维突变体Xu142fl胚珠在棉绒纤维形成初期的差异表达基因(DEGs)。共鉴定出5516个基因，其中上调1840个，下调3676个。GO富集分析表明，下调的DEGs主要与转录相关的生物合成代谢、有机环化合物合成代谢、光合作用、植物细胞壁组织等生物过程有关，其分子功能涉及转录相关的结合、有机环化合物结合、双加氧酶活性等。而上调的deg则与DNA复制和磷脂生物合成相关过程有关。在490个转录因子基因中，86.5%的基因在突变体中被下调，其中包括malvaceaceae特异的mls，其表达模式在皮棉纤维起始的中心时期得到证实。对细胞壁组织富集的16个基因进行分析，其中15个为EXPA编码基因。结论:总体而言，我们的数据表明，皮棉纤维的起始是一个复杂的过程，涉及多个转录因子家族的合作，最终可能导致细胞壁的重组和分化纤维首字母的细胞分裂终止。

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BMC Developmental Biology 生物-发育生物学

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0.00%

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>12 weeks

期刊介绍： BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.