马铃薯 GATA 转录因子在光波长组合和干旱胁迫下的全基因组特征和表达分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-01 DOI:10.1002/pld3.569
Emre Aksoy, Caner Yavuz, Ayten Kübra Yagiz, Necdet Mehmet Unel, M. Baloğlu
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引用次数: 0

摘要

摘要 GATA是真核生物中许多生物体内保守的重要转录因子家族之一,在许多途径中具有不同的生物学作用,特别是在植物的光调节中。虽然 GATA 转录因子(TFs)已在不同作物物种中被发现,但在马铃薯中它们在非生物胁迫耐受性中的作用尚未被研究。在本研究中,我们通过硅分析鉴定了马铃薯(Solanum tuberosum)中的 32 个 GATA TFs,并在耐旱栽培品种(Sante)和敏感栽培品种(Agria)中研究了所选 6 个基因在光照、干旱和联合(光照 + 干旱)胁迫条件下的表达水平。根据系统发育的结果,StGATA TFs 被分为四个主群(I、II、III 和 IV),在 I 和 II 中又有不同的亚群(分别为 8 个和 5 个)。StGATA 基因均匀地定位在每条染色体上,具有保守的外显子/内含子结构。StGATA 家族中顺式元件的存在进一步证实了其可能参与了非生物胁迫耐受性和光反应、组织特异性表达以及激素调控。其他 PPI 调查表明,这些网络,尤其是第一、第二和第四组网络,在光和干旱胁迫响应中发挥了重要作用。从这些组中选择了六个 StGATAs 进行表达谱分析,在紫光、红光、干旱和联合胁迫(蓝光 + 干旱和紫光 + 干旱)条件下,它们在桑特和阿格瑞亚的表达主要下调。分析了所选 StGATAs、StGATA3、StGATA24 和 StGATA29 的相互作用组,并检测了具有 GATA motif 的入选种的表达情况。结果表明,目标蛋白、细胞周期蛋白-P3-1、含 SPX 结构域蛋白 1、线粒体钙单运蛋白 2、丝裂原活化蛋白激酶激酶 YODA 和剪接因子 3 B 亚基 4-like 主要在植物色素介导的气孔模式、发育和活性中发挥作用。了解马铃薯植物干旱胁迫与光反应机制之间的相互作用至关重要。通过操纵在这些途径中发挥作用的TFs,最终有可能提高马铃薯对气候变化的适应能力。
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Genome‐wide characterization and expression analysis of GATA transcription factors under combination of light wavelengths and drought stress in potato
Abstract GATA is one of the prominent transcription factor families conserved among many organisms in eukaryotes and has different biological roles in many pathways, particularly in light regulation in plants. Although GATA transcription factors (TFs) have been identified in different crop species, their roles in abiotic stress tolerance have not been studied in potato. In this study, we identified 32 GATA TFs in potato ( Solanum tuberosum ) by in silico analyses, and expression levels of selected six genes were investigated in drought‐tolerant (Sante) and sensitive (Agria) cultivars under light, drought, and combined (light + drought) stress conditions. According to the phylogenetic results, StGATA TFs were divided into four main groups (I, II, III, and IV) and different sub‐groups in I and II (eight and five, respectively). StGATA genes were uniformly localized to each chromosome with a conserved exon/intron structure. The presence of cis‐elements within the StGATA family further supported the possible involvement in abiotic stress tolerance and light response, tissue‐specific expression, and hormonal regulation. Additional PPI investigations showed that these networks, especially for Groups I, II, and IV, play a significant role in response to light and drought stress. Six StGATAs were chosen from these groups for expressional profiling, and their expression in both Sante and Agria was mainly downregulated under purple and red lights, drought, and combined stress (blue + drought and purple + drought). The interactomes of selected StGATAs, StGATA3, StGATA24, and StGATA29 were analyzed, and the accessions with GATA motifs were checked for expression. The results showed that the target proteins, cyclin‐P3‐1, SPX domain‐containing protein 1, mitochondrial calcium uniporter protein 2, mitogen‐activated protein kinase kinase kinase YODA, and splicing factor 3 B subunit 4‐like, mainly play a role in phytochrome‐mediated stomatal patterning, development, and activity. Understanding the interactions between drought stress and the light response mechanisms in potato plants is essential. It will eventually be possible to enhance potato resilience to climate change by manipulating the TFs that play a role in these pathways.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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