腰果(anacardium occidentale)植物特异性dof转录因子基因家族的全基因组鉴定与表征

Maira Shakeel, Muhammad Shafiq, Syed Agha Armaghan Asad Abbas, Muhammad Haseeb, Numan Ali, Aqdas Batool, Muhammad Rizwan Tariq, Muhammad Saleem Haider
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引用次数: 0

摘要

单指结合蛋白(one-finger protein, Dof)属于植物特异性转录因子(plant specific transcription factors, PSTFs)基因家族。这些转录因子在植物的许多生物过程中具有多种作用。然而,关于它们在腰果中的作用的研究有限。在腰果基因组中共发现67个Dof基因,并与拟南芥和莴苣的Dof基因进行比较,将其划分为A、B1、B2、C1、C2、D、E1、E2、F1、F2和F3 11个亚群。除A亚群和F1亚群外,其余9个亚群中均存在腰果多夫基因。本文详细讨论了腰果Dof基因的基因结构、染色体位置、系统发育、亚细胞定位、顺式调控分析、蛋白质基序和进化模式。在腰果中发现的唯一重复类型是片段重复,这主要是Dof基因大家族的原因。顺式调控元件(CREs)分析表明,其中存在光、乙烯、种子、昼夜节律、分生组织和生长素敏感元件,对这些因子特别敏感。本文还比较分析了莴苣、腰果和拟南芥中Dof基因的进化或系统发育关系。该研究为全面了解腰果Dof基因家族提供了依据,可为其基因家族成员的功能分析和克隆提供指导。
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GENOME-WIDE IDENTIFICATION AND CHARACTERIZATION OF PLANT-SPECIFIC DOF TRANSCRIPTION FACTOR GENE FAMILY IN CASHEW (ANACARDIUM OCCIDENTALE)
DNA binding with one-finger (Dof) protein belongs to the plant-specific transcription factors (PSTFs) gene family. These transcription factors have a variety of roles in many biological processes in plants. However, there is limited research on their role in Cashew. A total of 67 Dof genes were found in the cashew genome and were classified into 11 subgroups (A, B1, B2, C1, C2, D, E1, E2, F1, F2, and F3) by comparing them with Dof genes from Arabidopsis and lettuce. Cashew Dof genes were present in 9 of these subgroups, except for A and F1. This article provides a detailed discussion of the gene structures, chromosome positions, phylogeny, subcellular localization, cis-regulatory analysis, protein motifs, and evolutionary patterns of Dof genes in cashew. The only type of duplication found in cashew was segmental duplication, which mainly contributes to the large Dof gene family. The analysis of cis-regulatory elements (CREs) revealed the presence of light, ethylene, seed, circadian, meristem, and auxin-sensitive elements, which are particularly sensitive to these factors. The article also includes a comparative analysis of the evolutionary or phylogenetic relationships between Dof genes from lettuce, cashew, and Arabidopsis. This study provides a comprehensive understanding of the Dof gene family in cashew and can serve as a guide for functional analysis and cloning of its gene family members.
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