Yanan Liu, Shixian Sun, Yanan Zhang, Miaomiao Song, Yunyun Tian, Peter J. Lockhart, Xin Zhang, Ying Xu, Zhenhua Dang
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Lockhart, Xin Zhang, Ying Xu, Zhenhua Dang","doi":"10.1002/glr2.12071","DOIUrl":null,"url":null,"abstract":"<div>\n \n \n <section>\n \n <h3> Background</h3>\n \n <p>Long-term overgrazing has led to severe degradation of grasslands, posing a significant threat to the sustainable use of grassland resources.</p>\n </section>\n \n <section>\n \n <h3> Methods</h3>\n \n <p>Based on the investigation of changes in functional traits and photosynthetic physiology of <i>Stipa breviflora</i> under no grazing, moderate grazing, and heavy grazing treatments, the changes in expression patterns of genes and proteins associated with different grazing intensities were assessed through integrative transcriptomic and proteomic analyses.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>Differentially expressed genes and proteins were identified under different grazing intensities. They were mainly related to RNA processing, carbon metabolism, and secondary metabolite biosynthesis. 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引用次数: 0
摘要
在研究无牧、适度放牧和重度放牧处理下禾本科植物功能性状和光合生理变化的基础上,通过转录组和蛋白质组的综合分析,评估了不同放牧强度下相关基因和蛋白质表达模式的变化。它们主要与 RNA 处理、碳代谢和次生代谢物的生物合成有关。这些研究结果表明,长期放牧会导致分子表型可塑性,从而影响 S. breviflora 的各种生物过程和代谢途径。相关性分析表明,转录组与蛋白质组之间的相关性较低,这表明在蒲公英对放牧的响应过程中,基因表达在转录后和翻译水平上受到大规模调控。我们的研究深入揭示了马齿苋对放牧的适应机制,为制定更有效的草原保护和利用措施提供了科学依据。
Integrated transcriptome and proteome analyses reveal potential mechanisms in Stipa breviflora underlying adaptation to grazing
Background
Long-term overgrazing has led to severe degradation of grasslands, posing a significant threat to the sustainable use of grassland resources.
Methods
Based on the investigation of changes in functional traits and photosynthetic physiology of Stipa breviflora under no grazing, moderate grazing, and heavy grazing treatments, the changes in expression patterns of genes and proteins associated with different grazing intensities were assessed through integrative transcriptomic and proteomic analyses.
Results
Differentially expressed genes and proteins were identified under different grazing intensities. They were mainly related to RNA processing, carbon metabolism, and secondary metabolite biosynthesis. These findings suggest that long-term grazing leads to molecular phenotypic plasticity, affecting various biological processes and metabolic pathways in S. breviflora. Correlation analysis revealed low correlation between the transcriptome and the proteome, indicating a large-scale regulation of gene expression at the posttranscriptional and translational levels during the response of S. breviflora to grazing. The expression profiles of key genes and proteins involved in photosynthesis and phenylpropanoid metabolism pathways suggested their synergistic response to grazing in S. breviflora.
Conclusions
Our study provides insight into the adaptation mechanisms of S. breviflora to grazing and provides a scientific basis for the development of more efficient grassland protection and utilization practices.
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