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甘薯近缘野生种三裂叶薯甘氨酸丰富 RNA 结合蛋白家族的全基因组鉴定和表达分析。

Genome-wide identification and expression analysis of glycine-rich RNA-binding protein family in sweet potato wild relative Ipomoea trifida.

机构信息

Institute of Integrative Plant Biology, School of Life Science, Jiangsu Normal University, Xuzhou 221116, Jiangsu Province, China; Key Lab of Phylogeny and Comparative Genomics of the Jiangsu province, Jiangsu Normal University, Xuzhou 221116, Jiangsu Province, China.

Institute of Integrative Plant Biology, School of Life Science, Jiangsu Normal University, Xuzhou 221116, Jiangsu Province, China.

出版信息

Gene. 2019 Feb 20;686:177-186. doi: 10.1016/j.gene.2018.11.044. Epub 2018 Nov 16.

DOI:10.1016/j.gene.2018.11.044
PMID:30453066
Abstract

Glycine-rich RNA-binding proteins (GRPs) contain RNA recognition motif (RRM) and glycine-rich domains at the N- or C-terminus, respectively, and they participate in varied physiological and biochemical processes, as well as environmental stresses. Sweet potato from the genus Ipomoea is one of the most important crops. However, the role of the GRP gene family in Ipomoea plant species has not been reported yet. At the same time, the genome of sweet potato remains to be elucidated, but the genome of I. trifida which is most probably the progenitor of the sweet potato was released recently. In this regard, we carried out genome-wide analysis of GRP family members in I. trifida. Here, we identified nine GRP genes in I. trifida and investigated their motif distribution, promoters and gene structure. Subsequently, we performed phylogenetic analysis with the GRP genes from I. trifida, Arabidopsis thaliana, Zea mays L. and Oryza sativa to investigate their phylogenetic relationship. Moreover, we studied the expression patterns of ItGRPs in the roots, stems, young and mature leaves and flowers and found that ItGRP genes were tissue-specific. Meanwhile, the expression profiles under four abiotic stress conditions, including heat, cold, salt and drought stress treatments, revealed that some genes were markedly up-regulated or down-regulated. Taken together, our findings will provide reference to studies on the function of GRP genes in the development and stress response of I. trifida.

摘要

甘氨酸丰富的 RNA 结合蛋白 (GRPs) 分别在 N 或 C 末端含有 RNA 识别基序 (RRM) 和甘氨酸丰富结构域,它们参与多种生理和生化过程以及环境胁迫。番薯属的番薯是最重要的作物之一。然而,GRP 基因家族在番薯属植物物种中的作用尚未报道。同时,番薯的基因组仍有待阐明,但最近发布了最有可能是番薯祖先的 Ipomoea trifida 的基因组。在这方面,我们对 I. trifida 中的 GRP 家族成员进行了全基因组分析。在这里,我们在 I. trifida 中鉴定了 9 个 GRP 基因,并研究了它们的基序分布、启动子和基因结构。随后,我们用 I. trifida、拟南芥、玉米和水稻的 GRP 基因进行了系统发育分析,以研究它们的系统发育关系。此外,我们研究了 ItGRPs 在根、茎、幼叶和成熟叶以及花中的表达模式,发现 ItGRP 基因具有组织特异性。同时,在热、冷、盐和干旱胁迫处理等四种非生物胁迫条件下的表达谱表明,一些基因明显上调或下调。总之,我们的研究结果将为研究 GRP 基因在 I. trifida 发育和应激反应中的功能提供参考。

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