Genome-wide identification and analysis of SPL gene family in chickpea (Cicer arietinum L.).

IF 2.5 3区 生物学 Q3 CELL BIOLOGY Protoplasma Pub Date : 2024-07-01 Epub Date: 2024-02-21 DOI:10.1007/s00709-024-01936-z
Shilpy Singh, Afsana Praveen, Pooja Bhadrecha
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Abstract

A transcription factor in plants encodes SQUAMOSA promoter binding protein-like (SPL) serves a broad spectrum of important roles for the plant, like, growth, flowering, and signal transduction. A gene family that encodes SPL proteins is documented in various model plant species, including Arabidopsis thaliana and Oryza sativa. Chickpea (Cicer arietinum), a leguminous crop, has not been thoroughly explored with regard to the SPL protein-encoding gene family. Chickpea SPL family genes were located and characterized computationally using a genomic database. Gene data of chickpea were obtained from the phytozome repository and was examined using bioinformatics methods. For investigating the possible roles of SPLs in chickpea, genome-wide characterization, expression, as well as structural analyses of this SPL gene family were performed. Cicer arietinum genome had 19 SPL genes, whereas, according to phylogenetic analysis, the SPLs in chickpea are segregated among four categories: Group-I has 2 introns, Group-II and IV have 1-2 introns (except CaSPL13 and CaSPL15 having 3 introns), and Group-III has 9 introns (except CaSPL1 and CaSPL11 with 1 and 8 introns, respectively). The SBP domain revealed that SPL proteins featured two zinc-binding sites, i.e., C3H and C2HC and one nuclear localization signal. All CaSPL proteins are found to contain highly conserved motifs, i.e., Motifs 1, 2, and 4, except CaSPL10 in which Motifs 1 and 4 were absent. Following analysis, it was found that Motifs 1 and 2 of the chickpea SBP domain are Zinc finger motifs, and Motif 4 includes a nuclear localization signal. All pairs of CaSPL paralogs developed by purifying selection. The CaSPL promoter investigation discovered cis-elements that are responsive to stress, light, and phytohormones. Examination of their expression patterns highlighted major CaSPLs to be evinced primarily among younger pods and flowers. Indicating their involvement in the plant's growth as well as development, along with their capacity to react as per different situations by handling the regulation of target gene's expression, several CaSPL genes are also expressed under certain stress conditions, namely, cold, salt, and drought. The majority of the CaSPL genes are widely expressed and play crucial roles in terms of the plant's growth, development, and responses to the environmental-stress conditions. Our work provides extensive insight into the gene family CaSPL, which might facilitate further studies related to the evolution and functions of the SPL genes for chickpea and other plant species.

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鹰嘴豆(Cicer arietinum L.)中 SPL 基因家族的全基因组鉴定和分析。
植物中的一种转录因子编码 SQUAMOSA 启动子结合蛋白样(SPL),在植物的生长、开花和信号转导等方面发挥着广泛的重要作用。在拟南芥(Arabidopsis thaliana)和大豆(Oryza sativa)等多种模式植物中都有编码 SPL 蛋白的基因家族。鹰嘴豆(Cicer arietinum)作为一种豆科作物,其 SPL 蛋白编码基因家族尚未得到深入研究。利用基因组数据库对鹰嘴豆 SPL 家族基因进行了定位和特征计算。鹰嘴豆的基因数据来自植物组资源库,并使用生物信息学方法进行了检验。为了研究 SPL 在鹰嘴豆中可能发挥的作用,对 SPL 基因家族进行了全基因组表征、表达和结构分析。鹰嘴豆基因组中有 19 个 SPL 基因,而根据系统进化分析,鹰嘴豆中的 SPL 分成四类:第 I 组有 2 个内含子,第 II 组和第 IV 组有 1-2 个内含子(除了 CaSPL13 和 CaSPL15 有 3 个内含子),第 III 组有 9 个内含子(除了 CaSPL1 和 CaSPL11 分别有 1 个和 8 个内含子)。SBP结构域显示,SPL蛋白具有两个锌结合位点,即C3H和C2HC,以及一个核定位信号。所有 CaSPL 蛋白都含有高度保守的图案,即图案 1、图案 2 和图案 4,只有 CaSPL10 蛋白不含图案 1 和图案 4。经过分析发现,鹰嘴豆 SBP 结构域的动点 1 和 2 是锌指动点,动点 4 包括一个核定位信号。所有对 CaSPL 准同源物都是通过纯化选择产生的。CaSPL 启动子调查发现了对胁迫、光和植物激素有反应的顺式元件。对其表达模式的研究表明,主要的 CaSPLs 主要出现在幼嫩的豆荚和花中。一些 CaSPL 基因在某些胁迫条件(即寒冷、盐分和干旱)下也会表达,这表明它们参与了植物的生长和发育,并能通过调控目标基因的表达对不同情况做出反应。大多数 CaSPL 基因表达广泛,在植物的生长、发育和对环境胁迫条件的反应中发挥着关键作用。我们的工作为深入了解 CaSPL 基因家族提供了广阔的视野,有助于进一步研究鹰嘴豆和其他植物物种 SPL 基因的进化和功能。
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来源期刊
Protoplasma
Protoplasma 生物-细胞生物学
CiteScore
6.60
自引率
6.90%
发文量
99
审稿时长
4-8 weeks
期刊介绍: Protoplasma publishes original papers, short communications and review articles which are of interest to cell biology in all its scientific and applied aspects. We seek contributions dealing with plants and animals but also prokaryotes, protists and fungi, from the following fields: cell biology of both single and multicellular organisms molecular cytology the cell cycle membrane biology including biogenesis, dynamics, energetics and electrophysiology inter- and intracellular transport the cytoskeleton organelles experimental and quantitative ultrastructure cyto- and histochemistry Further, conceptual contributions such as new models or discoveries at the cutting edge of cell biology research will be published under the headings "New Ideas in Cell Biology".
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