Fasulyede Tuz ve Kuraklık Stresi Altında PIF Gen Ailesinin Genom Çapında Analizi ve Karakterizasyonu

Ahmed Sidar Aygören, Recep Aydinyurt, Sümeyra Uçar, Ayşe Gül Kasapoğlu, E. Yaprak, Burak Öner, Selman Muslu, Murat Isiyel, Emre Ilhan, M. Aydın, M. Turan
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Abstract

Plant growth and development are regulated by light, which is a significant environmental component. It is involved in seedling de-etiolation, phototropism, shadow escaping, seed germination, circadian rhythms, and blooming timing, among other reactions in the plant life cycle (collectively termed photomorphogenesis). These light responses are controlled by phytochromes, which interact with a variety of partner proteins. The purpose of this study was to identify and describe members of the phytochrome-interacting factors (PIFs) gene family including the basic helix loop helix (bHLH) binding site in Phaseolus vulgaris plants, as well as to investigate their responses to salt and drought stress. Various tools in silico approaches were used to identify five Pvul-PIF gene families in the P. vulgaris genome. This gene family contained 324 to 726 amino acids and has molecular weights ranging from 35.11 kDa to 77.67 kDa. The theoretical isoelectric points range from 6.03 (Pvul-PIF-3.3) to 8.30 (Pvul-PIF-3.2). Pvul-PIF proteins were shown to be clustered in three main groups with Arabidopsis thaliana, Populus trichocarpa, Solanum lycopersicum, Zea mays, Arachis hypogaea L., Oryza sativa, Vitis vinifera, Glycine max, and Phaseolus vulgaris species as a result of the phylogenetic study. Segmental duplication was detected between Pvul-PIF-3.2, Pvul-PIF-3.3 and Pvul-PIF-3.1 genes, Pvul-PIF-4.1 and Pvul-PIF-4.2 genes and Pvul-PIF-3.3 and Pvul-PIF-3.1 genes. When the expression patterns of the Pvul-PIF genes were examined, it was observed that they had different levels of expression under salt and drought stress and that they may be involved in specific biological and molecular processes in response to different abiotic and biotic stresses. The results of this research, which were established for the first time in the response to salt and drought stress in P. vulgaris of the PIF gene family, will be a valuable source of knowledge and additional information in the fields of plant biotechnology, agricultural biotechnology, and molecular biology.
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紫色和魔法压力洪流下PIF一代家族灭绝的分析与表征
植物的生长发育受光的调控,光是一个重要的环境因素。它参与了幼苗去黄化、向光性、避影、种子萌发、昼夜节律和开花时间,以及植物生命周期中的其他反应(统称为光形态发生)。这些光反应是由光敏色素控制的,光敏色素与多种伴侣蛋白相互作用。本研究旨在鉴定和描述菜豆(Phaseolus vulgaris)植物光敏色素相互作用因子(pif)基因家族成员,包括基本螺旋环螺旋(bHLH)结合位点,并研究其对盐和干旱胁迫的响应。利用各种工具和计算机方法鉴定了5个pvulo - pif基因家族。该基因家族包含324 ~ 726个氨基酸,分子量为35.11 ~ 77.67 kDa。理论等电点范围从6.03 (pvull - pif -3.3)到8.30 (pvull - pif -3.2)。系统发育研究表明,pvul1 - pif蛋白主要聚集在拟南芥、毛杨、番茄茄、玉米、花生、稻谷、葡萄、甘氨酸和菜豆3个类群中。pvulk - pif -3.2、pvulk - pif -3.3与pvulk - pif -3.1、pvulk - pif -4.1与pvulk - pif -4.2、pvulk - pif -3.3与pvulk - pif -3.1基因存在片段重复。通过对pvull - pif基因表达模式的分析,发现pvull - pif基因在盐胁迫和干旱胁迫下表达水平不同,可能参与了不同生物胁迫和非生物胁迫下的特定生物学和分子过程。本研究首次建立了PIF基因家族植物对盐和干旱胁迫的响应,将为植物生物技术、农业生物技术和分子生物学等领域提供宝贵的知识和补充信息。
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