Expansion and diversification of the Glycine max (Gm) ERD15-like subfamily of the PAM2-like superfamily.

IF 3.6 3区 生物学 Q1 PLANT SCIENCES Planta Pub Date : 2024-09-27 DOI:10.1007/s00425-024-04538-4
Otto T Fraga, Lucas A C Silva, José Cleydson F Silva, Rosângela Bevitori, Fredy D A Silva, Welison A Pereira, Pedro A B Reis, Elizabeth P B Fontes
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Abstract

Main conclusion: Despite modulating senescence and drought responses, the GmERD15-like subfamily members are differentially induced by multiple stresses and diverge partially in stress signaling functions. The PAM2 motif represents a binding site for poly (A)-binding proteins (PABPs), often associated with RNA metabolism regulation. The PAM2-containing protein ERD15 stands out as a critical regulator of diverse stress responses in plants. Despite the relevance of the PAM2 motif, a comprehensive analysis of the PAM2 superfamily and ERD15-like subfamily in the plant kingdom is lacking. Here, we provide an extensive in silico analysis of the PAM2 superfamily and the ERD15-like subfamily in soybean, using Arabidopsis and rice sequences as prototypes. The Glycine max ERD15-like subfamily members were clustered in pairs, likely originating from DNA-based gene duplication, as the paralogs display high sequence conservation, similar exon/intron genome organization, and are undergoing purifying selection. Complementation analyses of an aterd15 mutant demonstrated that the plant ERD15-like subfamily members are functionally redundant in response to drought, osmotic stress, and dark-induced senescence. Nevertheless, the soybean members displayed differential expression profiles, biochemical activity, and subcellular localization, consistent with functional diversification. The expression profiles of Glyma04G138600 under salicylic acid (SA) and abscisic acid (ABA) treatments differed oppositely from those of the other GmERD15-like genes. Abiotic stress-induced coexpression analysis with soybean PABPs showed that Glyma04G138600 was clustered separately from other GmERD15s. In contrast to the AtERD15 stress-induced nuclear redistribution, Glyma04G138600 and Glyma02G260800 localized to the cytoplasm, while Glyma03G131900 fractionated between the cytoplasm and nucleus under normal and stress conditions. These data collectively indicate that despite modulating senescence and drought responses, the GmERD15-like subfamily members are differentially induced by multiple stresses and may diverge partially in stress signaling functions.

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PAM2 样超家族中 Glycine max (Gm) ERD15 样亚家族的扩展和多样化。
主要结论:尽管GmERD15-like亚家族成员能调节衰老和干旱反应,但它们受多种胁迫的诱导程度不同,在胁迫信号转导功能上也存在部分差异。PAM2基序代表多聚(A)结合蛋白(PABPs)的结合位点,通常与 RNA 代谢调控有关。含 PAM2 的蛋白质 ERD15 是植物多种胁迫反应的关键调节因子。尽管 PAM2 基因具有重要意义,但目前还缺乏对植物界中 PAM2 超家族和 ERD15 类亚家族的全面分析。在这里,我们以拟南芥和水稻序列为原型,对大豆中的 PAM2 超家族和 ERD15 样亚家族进行了广泛的硅分析。Glycine max ERD15-like亚家族成员成对聚集,很可能源于基于DNA的基因复制,因为这些旁系亲属显示出高度的序列保守性、相似的外显子/内含子基因组结构,并且正在经历纯化选择。对terd15突变体的互补分析表明,植物ERD15-like亚家族成员在应对干旱、渗透胁迫和黑暗诱导的衰老方面存在功能冗余。然而,大豆成员在表达谱、生化活性和亚细胞定位方面存在差异,这与功能多样化是一致的。在水杨酸(SA)和脱落酸(ABA)处理下,Glyma04G138600 的表达谱与其他 GmERD15 样基因的表达谱截然不同。非生物胁迫诱导的与大豆 PABPs 的共表达分析表明,Glyma04G138600 与其他 GmERD15s 分开聚类。与 AtERD15 应激诱导的核重新分布不同,Glyma04G138600 和 Glyma02G260800 定位于细胞质,而 Glyma03G131900 则在正常和应激条件下分布于细胞质和细胞核之间。这些数据共同表明,尽管GmERD15-like亚家族成员调节衰老和干旱响应,但它们受多种胁迫的诱导程度不同,在胁迫信号转导功能上可能存在部分差异。
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来源期刊
Planta
Planta 生物-植物科学
CiteScore
7.20
自引率
2.30%
发文量
217
审稿时长
2.3 months
期刊介绍: Planta publishes timely and substantial articles on all aspects of plant biology. We welcome original research papers on any plant species. Areas of interest include biochemistry, bioenergy, biotechnology, cell biology, development, ecological and environmental physiology, growth, metabolism, morphogenesis, molecular biology, new methods, physiology, plant-microbe interactions, structural biology, and systems biology.
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