胡萝卜(Dacus carota)植物特异性 YABBY 转录因子基因家族的全基因组分析及其与拟南芥的比较。

IF 1.9 Q3 GENETICS & HEREDITY
Mujahid Hussain, Muhammad Mubashar Javed, Adnan Sami, Muhammad Shafiq, Qurban Ali, Hafiz Sabah-Ud-Din Mazhar, Javaria Tabassum, Muhammad Arshad Javed, Muhammad Zeeshan Haider, Muhammad Hussain, Irfan Ali Sabir, Daoud Ali
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引用次数: 0

摘要

YABBY 基因家族是植物特异性转录因子,具有 DNA 结合域,参与开花植物的花柱、花期和侧生器官极性发育等多种功能的调控。研究人员以胡萝卜(Daucus carota)基因组为基础参考,利用计算方法鉴定了 YABBY 基因家族的成员。通过分析基因的结构、染色体的位置、蛋白质结构和系统发育调查、合成和转录组分析以及 miRNA 靶标,揭示了胡萝卜中隐藏的 YABBY 基因家族的结构和功能特征。随后的研究得出结论,11个特异的YABBY基因不规则地分布在全部9条染色体上,其蛋白质组合成5个亚群,即AtINO、AtCRC、AtYAB5、AtAFO和AtYAB2。胡萝卜中 YABBY 基因的广泛分布是由于节段重复造成的,当把节段重复等同于串联重复时,这种重复被检测到是普遍存在的。转录组分析表明,其中一个 DcYABBY 基因在胡萝卜直根花青素色素形成过程中高度表达。顺式调控元件(CREs)分析揭示了对光照、细胞周期调控、干旱诱导能力、ABA 激素、种子和分生组织表达有特别响应的元件。此外,通过对胡萝卜和拟南芥 YABBY 家族基因的相对研究,发现了 5 个具有共同特征的亚家族。对基因组中 YABBY 基因的全面评估为克隆和了解其在胡萝卜中的功能特性提供了方向。我们的研究揭示了 YABBY 基因在胡萝卜中的全基因组分布和作用,并与拟南芥进行了最佳拟合比较。
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 analysis of plant specific YABBY transcription factor gene family in carrot (Dacus carota) and its comparison with Arabidopsis.

YABBY gene family is a plant-specific transcription factor with DNA binding domain involved in various functions i.e. regulation of style, length of flowers, and polarity development of lateral organs in flowering plants. Computational methods were utilized to identify members of the YABBY gene family, with Carrot (Daucus carota) 's genome as a foundational reference. The structure of genes, location of the chromosomes, protein motifs and phylogenetic investigation, syntony and transcriptomic analysis, and miRNA targets were analyzed to unmask the hidden structural and functional characteristics YABBY gene family in Carrots. In the following research, it has been concluded that 11 specific YABBY genes irregularly dispersed on all 9 chromosomes and proteins assembled into five subgroups i.e. AtINO, AtCRC, AtYAB5, AtAFO, and AtYAB2, which were created on the well-known classification of Arabidopsis. The wide ranges of YABBY genes in carrots were dispersed due to segmental duplication, which was detected as prevalent when equated to tandem duplication. Transcriptomic analysis showed that one of the DcYABBY genes was highly expressed during anthocyanin pigmentation in carrot taproots. The cis-regulatory elements (CREs) analysis unveiled elements that particularly respond to light, cell cycle regulation, drought induce ability, ABA hormone, seed, and meristem expression. Furthermore, a relative study among Carrot and Arabidopsis genes of the YABBY family indicated 5 sub-families sharing common characteristics. The comprehensive evaluation of YABBY genes in the genome provides a direction for the cloning and understanding of their functional properties in carrots. Our investigations revealed genome-wide distribution and role of YABBY genes in the carrots with best-fit comparison to Arabidopsis thaliana.

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