Insights into cucumber (Cucumis sativus) genetics: Genome-wide discovery and computational analysis of the Calreticulin Domain-Encoding gene (CDEG) family

IF 4.4 2区 生物学 Q1 Agricultural and Biological Sciences Saudi Journal of Biological Sciences Pub Date : 2024-02-13 DOI:10.1016/j.sjbs.2024.103959
Pravej Alam, Thamer Albalawi
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Abstract

Cucumber is an essential vegetable crop throughout the world. Cucumber development is vital for accomplishing both quality and productivity requirements. Meanwhile, numerous factors have resulted in substantial cucumber losses. However, the calreticulin domain-encoding genes (CDEGs) in cucumber were not well-characterized and had little function. In the genome-wide association study (GWAS), we recognized and characterized the CDEGs in Cucumis sativus (cucumber). Through a comprehensive study of C. sativus, our research has unveiled the presence of three unique genes, denoted as CsCRTb, CsCRT3, and CsCNX1, unevenly distributed on three chromosomes in the genome of C. sativus. In accordance to the phylogenetic investigation, these genes may be categorized into three subfamilies. Based on the resemblance with AtCDE genes, we reorganized the all CsCDE genes in accordance with international nomenclature. The expression analysis and cis-acting components revealed that each of CsCDE gene promoter region enclosed number of cis-elements connected with hormone and stress response. According to subcellular localization studies demonstrated that, they were found in deferent locations of the cell such as endoplasmic reticulum, plasma membrane, golgi apparatus, and vacuole, according to subcellular localization studies. Chromosomal distribution analysis and synteny analysis demonstrated the probability of segmental or tandem duplications within the cucumber CDEG gene family. Additionally, miRNAs displayed diverse modes of action, including mRNA cleavage and translational inhibition. We used the RNA seq data to analyze the expression of CDEG genes in response to cold stress and also improved cold tolerance, which was brought on by treating cucumber plants to an exogenous chitosan oligosaccharide spray. Our investigation revealed that these genes responded to this stress in a variety of ways, demonstrating that they may adapt quickly to environmental changes in cucumber plants. This study provides a base for further understanding in reference to CDE gene family and reveals that genes play significant functions in cucumber stress responses.

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黄瓜(Cucumis sativus)遗传学透视:钙调蛋白域编码基因(CDEG)家族的全基因组发现与计算分析
黄瓜是全世界不可或缺的蔬菜作物。黄瓜的发展对于达到质量和产量要求至关重要。与此同时,众多因素造成了黄瓜的大量损失。然而,黄瓜中的钙网织蛋白结构域编码基因(CDEGs)并没有得到很好的表征,功能也很少。在全基因组关联研究(GWAS)中,我们认识并描述了黄瓜中的 CDEGs。通过对黄瓜的全面研究,我们发现了三个独特的基因,即 CsCRTb、CsCRT3 和 CsCNX1,它们不均匀地分布在黄瓜基因组的三条染色体上。根据系统发育调查,这些基因可分为三个亚家族。根据与 AtCDE 基因的相似性,我们按照国际命名法对所有 CsCDE 基因进行了重组。表达分析和顺式作用元件显示,每个 CsCDE 基因的启动子区域都包含一些与激素和胁迫反应有关的顺式元件。亚细胞定位研究表明,它们存在于细胞的不同位置,如内质网、质膜、高尔基体和液泡。染色体分布分析和同源染色体分析表明,黄瓜 CDEG 基因家族可能存在节段或串联重复。此外,miRNA 的作用模式多种多样,包括 mRNA 切割和翻译抑制。我们利用 RNA seq 数据分析了 CDEG 基因在应对寒冷胁迫时的表达情况,以及通过向黄瓜植株喷洒外源壳聚糖寡糖而提高的耐寒性。我们的研究发现,这些基因以多种方式对这种胁迫做出反应,表明它们可以快速适应黄瓜植株的环境变化。这项研究为进一步了解 CDE 基因家族提供了基础,并揭示了这些基因在黄瓜胁迫响应中的重要功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
9.30
自引率
4.50%
发文量
551
审稿时长
34 days
期刊介绍: Saudi Journal of Biological Sciences is an English language, peer-reviewed scholarly publication in the area of biological sciences. Saudi Journal of Biological Sciences publishes original papers, reviews and short communications on, but not limited to: • Biology, Ecology and Ecosystems, Environmental and Biodiversity • Conservation • Microbiology • Physiology • Genetics and Epidemiology Saudi Journal of Biological Sciences is the official publication of the Saudi Society for Biological Sciences and is published by King Saud University in collaboration with Elsevier and is edited by an international group of eminent researchers.
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