Salt Stress-Responsive Protein Interaction in Hordeum vulgare

Walailak Journal of Science and Technology (WJST) Pub Date : 2019-07-22 DOI:10.48048/WJST.2020.5029

Rajeswari Somasundaram, Somasundaram Arumugam, Neeru Sood

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Abstract

Salt stress affects crop productivity by altering the biology of the plant and limiting productivity. Hordeum vulgare is the most tolerant cereal crop, with rich genetic resources. The underlying molecular mechanism involved in salt stress response is yet to be comprehensively addressed. A total of 305 proteins are involved in the network. We attempted to find relationships between a few representative stress-responsive proteins of osmotic (pip1), ionic (K+/Na+ ratio in the leaf sheath, HvHAK, HAK4, NHX1 and Ha1), and oxidative stress (APX, CAT1, SOD1) from the public protein database to identify the most influential protein in the network. Further, the salt response proteins were analyzed for their enriched protein domains, Kyoto Encyclopedia of Genes and Genomes pathways, molecular functions, and cell localization. The graph theory analysis of the large data could provide clues for the identification of potential biomarkers for salt stress in barley. An experiment was performed in three accessions of H. vulgare to identify the reliability of the theoretical network relationship in biological systems. The expression of the above-mentioned proteins was further experimentally proven based on the expression and assay.

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盐胁迫应答蛋白的相互作用

盐胁迫通过改变植物的生物学特性和限制生产力来影响作物的生产力。小麦是最耐寒的谷类作物，遗传资源丰富。盐胁迫反应的潜在分子机制尚未得到全面研究。该网络共涉及305种蛋白质。我们试图从公共蛋白数据库中寻找渗透(pip1)，离子(叶鞘中K+/Na+比值，HvHAK, HAK4, NHX1和Ha1)和氧化应激(APX, CAT1, SOD1)等几个具有代表性的应激响应蛋白之间的关系，以确定网络中最具影响力的蛋白。此外，还分析了盐反应蛋白的富集蛋白结构域、京都基因和基因组百科全书通路、分子功能和细胞定位。大数据的图论分析可以为大麦盐胁迫潜在生物标志物的鉴定提供线索。在三种植物中进行了实验，以确定生物系统中理论网络关系的可靠性。通过表达和实验进一步证实了上述蛋白的表达。

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Walailak Journal of Science and Technology (WJST)

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