辣椒HD-ZIP基因家族对盐胁迫的全基因组特征及表达分析

IF 2.6 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
International Journal of Genomics Pub Date : 2021-01-25 eCollection Date: 2021-01-01 DOI:10.1155/2021/8105124
Zhongrong Zhang, Ranran Zhu, Xuehua Ji, Hui Ji Li, Hui Lv, Hai Ying Zhang
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引用次数: 11

摘要

HD-ZIP是植物中一类独特的转录因子,与植物生长发育的调控、对非生物胁迫的响应、抗病性等密切相关。然而,人们对辣椒HD-ZIP基因家族知之甚少。本研究对辣椒HD-ZIP家族的40个成员进行了基因组分析。分析表明,Ca-HD-ZIP的内含子数量在1 ~ 17个之间;氨基酸数量在119 ~ 841之间;理论等电点在4.54 ~ 9.85之间;分子量在14.04 ~ 92.56之间;它们大多数是不稳定的蛋白质。系统发育树将CaHD-ZIP分为4个亚科;40个CaHD-ZIP基因位于不同的染色体上,均含有基序1;6个谬误推理基因中的2对CaHD-ZIP平行基因为片段重复,发生在5828 ~ 8824万年前。HD-Z-IP家族的起始密码子上游存在多个与压力相关的作用元件。蛋白相互作用网络证实ATML1 (CaH-DZ22、CaHDZ32)与At4g048909 (CaHDZ12、CaHDZ31)之间存在共表达现象,且三个区域高度同源。不同组织和发育阶段CaHD-ZIP基因的表达水平不同,说明CaHD-ZIP可能参与辣椒发育过程中的生物学功能。另外,辣椒HD-ZIP I和II基因在盐胁迫中起主要作用。CaHDZ03、cahdz10、CaHDZ17、CaHDZ25、CaHDZ34和CaHDZ35在盐胁迫下受到显著诱导。值得注意的是,拟南芥AtHB12和AtHB7基因的同源基因CaHDZ07、CaHDZ17、CaHDZ26和CaHDZ30的表达在盐胁迫下显著上调。CaHDZ03具有两个紧密相连的ABA作用元件,在盐胁迫下,其表达量在4 h时显著增加。qRT-P-CR和转录分析显示,CaHDZ03和CaHDZ10在短期盐胁迫下表达上调,而CaHDZ10在长期盐胁迫下表达下调,这为研究Ca-HDZIP在非生物胁迫下的功能提供了理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genome-Wide Characterization and Expression Analysis of the HD-ZIP Gene Family in Response to Salt Stress in Pepper.

Genome-Wide Characterization and Expression Analysis of the HD-ZIP Gene Family in Response to Salt Stress in Pepper.

Genome-Wide Characterization and Expression Analysis of the HD-ZIP Gene Family in Response to Salt Stress in Pepper.

Genome-Wide Characterization and Expression Analysis of the HD-ZIP Gene Family in Response to Salt Stress in Pepper.

HD-ZIP is a unique type of transcription factor in plants, which are closely linked to the regulation of plant growth and development, the response to abiotic stress, and disease resistance. However, there is little known about the HD-ZIP gene family of pepper. In this study, 40 HD-ZIP family members were analyzed in the pepper genome. The analysis indicated that the introns number of Ca-HD-ZIP varied from 1 to 17; the number of amino acids was between 119 and 841; the theoretical isoelectric point was between 4.54 and 9.85; the molecular weight was between 14.04 and 92.56; most of them were unstable proteins. The phylogenetic tree divided CaHD-ZIP into 4 subfamilies; 40 CaHD-ZIP genes were located on different chromosomes, and all of them contained the motif 1; two pairs of CaHD-ZIP parallel genes of six paralogism genes were fragment duplications which occurred in 58.28~88.24 million years ago. There were multiple pressure-related action elements upstream of the start codon of the HD-Z-IP family. Protein interaction network proved to be coexpression phenomenon between ATML1 (CaH-DZ22, CaHDZ32) and At4g048909 (CaHDZ12, CaHDZ31), and three regions of them were highly homology. The expression level of CaHD-ZIP gene was different with tissues and developmental stages, which suggested that CaHD-ZIP may be involved in biological functions during pepper progress. In addition, Pepper HD-ZIP I and II genes played a major role in salt stress. CaHDZ03, CaHDZ 10, CaHDZ17, CaHDZ25, CaHDZ34, and CaHDZ35 were significantly induced in response to salt stress. Notably, the expression of CaHDZ07, CaHDZ17, CaHDZ26, and CaHDZ30, homologs of Arabidopsis AtHB12 and AtHB7 genes, was significantly upregulated by salt stresses. CaHDZ03 possesses two closely linked ABA action elements, and its expression level increased significantly at 4 h under salt stress. qRT-P-CR and transcription analysis showed that the expression of CaHDZ03 and CaHDZ10 was upregulated under short-term salt stress, but CaHDZ10 was downregulated with long-term salt stress, which provided a theoretical basis for research the function of Ca-HDZIP in response to abiotic stress.

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来源期刊
International Journal of Genomics
International Journal of Genomics BIOCHEMISTRY & MOLECULAR BIOLOGY-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
CiteScore
5.40
自引率
0.00%
发文量
33
审稿时长
17 weeks
期刊介绍: International Journal of Genomics is a peer-reviewed, Open Access journal that publishes research articles as well as review articles in all areas of genome-scale analysis. Topics covered by the journal include, but are not limited to: bioinformatics, clinical genomics, disease genomics, epigenomics, evolutionary genomics, functional genomics, genome engineering, and synthetic genomics.
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