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珍珠粟bZIP基因家族的全基因组鉴定及其在非生物胁迫、植物激素处理下的转录谱分析;以及……的功能表征

"Genome-wide identification of bZIP gene family in Pearl millet and transcriptional profiling under abiotic stress, phytohormonal treatments; and functional characterization of ".

作者信息

Jha Deepak Kumar, Chanwala Jeky, Barla Preeti, Dey Nrisingha

机构信息

Division of Plant and Microbial Biotechnology, Institute of Life Sciences, Bhubaneswar, India.

Regional Centre for Biotechnology, Faridabad, India.

出版信息

Front Plant Sci. 2024 Feb 26;15:1352040. doi: 10.3389/fpls.2024.1352040. eCollection 2024.

DOI:10.3389/fpls.2024.1352040
PMID:38469329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10925649/
Abstract

Abiotic stresses are major constraints in crop production, and are accountable for more than half of the total crop loss. Plants overcome these environmental stresses using coordinated activities of transcription factors and phytohormones. Pearl millet an important C4 cereal plant having high nutritional value and climate resilient features is grown in marginal lands of Africa and South-East Asia including India. Among several transcription factors, the basic leucine zipper (bZIP) is an important TF family associated with diverse biological functions in plants. In this study, we have identified 98 bZIP family members (PgbZIP) in pearl millet. Phylogenetic analysis divided these genes into twelve groups (A-I, S, U and X). Motif analysis has shown that all the PgbZIP proteins possess conserved bZIP domains and the exon-intron organization revealed conserved structural features among the identified genes. Cis-element analysis, RNA-seq data analysis, and real-time expression analysis of genes suggested the potential role of selected genes in growth/development and abiotic stress responses in pearl millet. Expression profiling of selected under various phytohormones (ABA, SA and MeJA) treatment showed differential expression patterns of genes. Further, PgbZIP9, a homolog of AtABI5 was found to localize in the nucleus and modulate gene expression in pearl millet under stresses. Our present findings provide a better understanding of genes in pearl millet and lay a good foundation for the further functional characterization of multi-stress tolerant genes, which could become efficient tools for crop improvement.

摘要

非生物胁迫是作物生产中的主要限制因素,占作物总损失的一半以上。植物通过转录因子和植物激素的协同活动来克服这些环境胁迫。珍珠粟是一种重要的C4谷类植物,具有高营养价值和气候适应特性,生长在非洲和东南亚(包括印度)的边缘土地上。在几种转录因子中,基本亮氨酸拉链(bZIP)是一个重要的转录因子家族,与植物的多种生物学功能相关。在本研究中,我们在珍珠粟中鉴定出98个bZIP家族成员(PgbZIP)。系统发育分析将这些基因分为12组(A-I、S、U和X)。基序分析表明,所有PgbZIP蛋白都具有保守的bZIP结构域,外显子-内含子组织揭示了所鉴定基因之间的保守结构特征。顺式元件分析、RNA测序数据分析和基因的实时表达分析表明,所选基因在珍珠粟的生长/发育和非生物胁迫响应中具有潜在作用。在各种植物激素(ABA、SA和MeJA)处理下对所选基因的表达谱分析显示了基因的差异表达模式。此外,发现AtABI5的同源物PgbZIP9定位于细胞核,并在胁迫下调节珍珠粟中的基因表达。我们目前的研究结果有助于更好地理解珍珠粟中的基因,并为多胁迫耐受性基因的进一步功能表征奠定良好基础,这些基因可能成为作物改良的有效工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a060/10925649/17aabf817955/fpls-15-1352040-g010.jpg
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