甘薯叶片、块根和纤维根组织特异性高温胁迫响应基因的转录组分析与鉴定

IF 0.2 Q4 HORTICULTURE Journal of Horticultural Sciences Pub Date : 2023-06-30 DOI:10.24154/jhs.v18i1.2131
K. Senthilkumar, S. Raju, R. Velumani, Sridhar Gutam
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引用次数: 0

摘要

甘薯是一种重要的粮食作物,其生产受到包括高温在内的环境胁迫的影响。利用芯片技术研究了高温胁迫下甘薯不同组织的基因表达模式和分子响应。分析表明,高温胁迫下,叶片、纤维根和贮藏根组织中与多种蛋白质和酶相关的关键基因和通路的表达发生了变化。在组织中观察到组织特异性反应,包括常见的和独特的细胞反应。途径分析揭示了高温胁迫下参与DNA复制、代谢、转运、信号传导和应激反应的基因的差异调控。dnaj结构域蛋白(IpDnaJ)、核蛋白(pepf5)、热休克蛋白90.1 (IpHsp90.1)、ABC转运蛋白(IpABC)水解酶(IpNUDX1)和替代氧化酶1a (IpAO1a) 6个基因在叶片、纤维根和块根组织中表达上调。这6个基因可能在甘薯叶片、纤维根和块根组织耐高温胁迫中起重要作用。这些信息为甘薯叶片、块根和纤维根组织特异性高温胁迫响应基因的研究提供了有价值的见解。这些数据集将有助于选择候选基因和途径进行进一步的功能和基因组分析,促进甘薯抗逆性增强的遗传改良。
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Transcriptome analysis and identification of leaf, tuberous root and fibrous root tissue-specific high temperature stress-responsive genes in sweet potato
Sweet Potato is an important food crop, and its production is affected by environmental stresses, including high temperature. The gene expression patterns and molecular responses in different tissues of sweet potato under high temperature stress were studied using microarray data sets. Analysis revealed that modulation in the expression of key genes and pathways associated with various proteins including enzymes under high temperature stress in leaf, fibrous root and storage root tissues. Tissue-specific responses, with both common and unique cellular responses were observed among the tissues. Pathway analysis revealed the differential regulation of genes involved in DNA replication, metabolism, transport, signaling, and stress response during high temperature stress. Six genes viz., DnaJ-domain protein (IpDnaJ), nuclear protein (IpELF5), heat shock protein 90.1 (IpHsp90.1), ABC   transporter   (IpABC)   hydrolase (IpNUDX1)   and alternative oxidase 1a (IpAO1a), were up-regulated in the leaf, fibrous root and tuberous root tissues. These six genes might play an important role in imparting high temperature stress tolerance in the leaf, fibrous root and tuberous root tissues of sweet potato. The information generated provides valuable insights on leaf, tuberous root and fibrous root tissue-specific high temperature stress-responsive genes in sweet potato. These datasets will be helpful in selecting candidate genes and pathways for further functional and genomic analyses, facilitating the genetic improvement of sweet potato with enhanced stress tolerance.
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来源期刊
Journal of Horticultural Sciences
Journal of Horticultural Sciences Agricultural and Biological Sciences-Plant Science
CiteScore
0.30
自引率
0.00%
发文量
0
审稿时长
6 weeks
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