Genome-wide profiling of bZIP transcription factors in Camelina sativa: implications for development and stress response.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-10-14 DOI:10.1186/s12863-024-01270-6
Shahroz Rahman, Abdul Rehman Ikram, Latifa AlHusnain, Sajid Fiaz, Muhammad Umar Rafique, Muhammad Amjad Ali, Muneera D F AlKahtani, Kotb A Attia, Farrukh Azeem
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Abstract

Background: The bZIP transcription factor family, characterized by a bZIP domain, plays vital roles in plant stress responses and development. While this family has been extensively studied in various plant species, its specific functions in Camelina sativa (False Flax) remain underexplored.

Methods and results: This study identified 71 bZIP transcription factors in C. sativa, classified into nine distinct groups based on phylogenetic analysis. Subcellular localization predicted a nucleus-specific expression for these bZIPs. Analysis of GRAVY scores revealed a range from 0.469 to -1.256, indicating a spectrum from hydrophobic to hydrophilic properties. Motif analysis uncovered 10 distinct motifs, with one motif being universally present in all CsbZIPs. Conserved domain analysis highlighted several domains beyond the core bZIP domain. Protein-protein interaction predictions suggested a robust network involving CsbZIPs. Moreover, promoter analysis revealed over 60 types of cis-elements, including those responsive to stress. Expression studies through RNA-seq and Real-time RT-qPCR demonstrated high expression of CsbZIPs in roots, leaves, flowers, and stems. Specifically, CsbZIP01, CsbZIP02, CsbZIP44, and CsbZIP60 were consistently up-regulated under cold, salt, and drought stresses, whereas CsbZIP34 and CsbZIP35 were down-regulated.

Conclusion: This study presents the first comprehensive genome-wide profiling of bZIP transcription factors in Camelina sativa, providing novel insights into their roles in plant development and stress response mechanisms. By identifying and characterizing the bZIP gene family in C. sativa, this research offers new opportunities for improving stress tolerance and crop resilience through targeted genetic approaches, addressing key challenges in agriculture under changing environmental conditions.

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荠菜中 bZIP 转录因子的全基因组剖析:对发育和应激反应的影响。
背景:以 bZIP 结构域为特征的 bZIP 转录因子家族在植物胁迫反应和发育过程中发挥着重要作用。虽然该家族已在多种植物物种中得到广泛研究,但其在荠菜(假亚麻)中的具体功能仍未得到充分探索:本研究在荠属植物中发现了 71 个 bZIP 转录因子,根据系统发育分析将其分为 9 个不同的组。亚细胞定位预测了这些 bZIPs 在细胞核中的特异性表达。对 GRAVY 分数的分析表明,其范围在 0.469 到 -1.256 之间,表明其具有从疏水到亲水的特性。基团分析发现了 10 个不同的基团,其中一个基团普遍存在于所有 CsbZIPs 中。保守结构域分析强调了核心 bZIP 结构域之外的几个结构域。蛋白质与蛋白质之间的相互作用预测表明,一个强大的网络涉及 CsbZIPs。此外,启动子分析还发现了 60 多种顺式元件,包括那些对压力有反应的元件。通过 RNA-seq 和实时 RT-qPCR 进行的表达研究表明,CsbZIPs 在根、叶、花和茎中的表达量很高。具体而言,CsbZIP01、CsbZIP02、CsbZIP44 和 CsbZIP60 在冷、盐和干旱胁迫下持续上调,而 CsbZIP34 和 CsbZIP35 则下调:本研究首次对荠菜中的 bZIP 转录因子进行了全基因组范围的全面分析,为了解它们在植物发育和胁迫响应机制中的作用提供了新的视角。通过鉴定和描述荠菜中的 bZIP 基因家族,这项研究为通过有针对性的遗传方法提高作物的抗逆性和恢复力提供了新的机遇,从而解决了农业在不断变化的环境条件下面临的关键挑战。
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