【摘 要】
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In this study,TMT based high-throughput proteomic and GC-MS based metabolomics methods were performed on the two wild barley genotypes (XZ153,tolerant and XZ141,sensitive),and a low-K tolerance cultiv
【机 构】
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College of Agriculture & Biotechnology,Zhejiang University
论文部分内容阅读
In this study,TMT based high-throughput proteomic and GC-MS based metabolomics methods were performed on the two wild barley genotypes (XZ153,tolerant and XZ141,sensitive),and a low-K tolerance cultivar (Ludaomai),to investigate the genotypic difference in response to low-K stress.Totally 288 differentially expressed proteins were identified between low-K and normal K treated plants.Among them,129 proteins related to low-K tolerance were mainly involved in defense,transcription,signal transduction,energy,and protein synthesis.
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