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基于系统的方法来解析苹果表面烫伤所涉及的网络和个体因素。

Systems-Based Approaches to Unravel Networks and Individual Elements Involved in Apple Superficial Scald.

作者信息

Karagiannis Evangelos, Tanou Georgia, Scossa Federico, Samiotaki Martina, Michailidis Michail, Manioudaki Maria, Laurens François, Job Dominique, Fernie Alisdair R, Orsel Mathilde, Molassiotis Athanassios

机构信息

Laboratory of Pomology, Department of Agriculture, Aristotle University of Thessaloniki, Thessaloniki, Greece.

Institute of Soil and Water Resources, ELGO-DEMETER, Thessaloniki, Greece.

出版信息

Front Plant Sci. 2020 Feb 13;11:8. doi: 10.3389/fpls.2020.00008. eCollection 2020.

DOI:10.3389/fpls.2020.00008
PMID:32117359
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7031346/
Abstract

Superficial scald is a major physiological disorder in apple fruit that is induced by cold storage and is mainly expressed as brown necrotic patches on peel tissue. However, a global view of the gene-protein-metabolite interactome underlying scald prevention/sensitivity is currently missing. Herein, we have found for the first time that cold storage in an atmosphere enriched with ozone (O) induced scald symptoms in 'Granny Smith' apple fruits during subsequent ripening at room temperature. In contrast, treatment with the ethylene perception inhibitor 1-methylcyclopropene (1-MCP) reversed this O-induced scald effect. Amino acids, including branched-chain amino acids, were the most strongly induced metabolites in peel tissue of 1-MCP treated fruits. Proteins involved in oxidative stress and protein trafficking were differentially accumulated prior to and during scald development. Genes involved in photosynthesis, flavonoid biosynthesis and ethylene signaling displayed significant alterations in response to 1-MCP and O. Analysis of regulatory module networks identified putative transcription factors (TFs) that could be involved in scald. Subsequently, a transcriptional network of the genes-proteins-metabolites and the connected TFs was constructed. This approach enabled identification of several genes coregulated by TFs, notably encoding glutathione -transferase (GST) protein(s) with distinct signatures following 1-MCP and O treatments. Overall, this study is an important contribution to future functional studies and breeding programs for this fruit, aiding to the development of improved apple cultivars to superficial scald.

摘要

表面烫伤是苹果果实中的一种主要生理病害,由冷藏引起,主要表现为果皮组织上的褐色坏死斑块。然而,目前尚缺乏对烫伤预防/敏感性潜在的基因-蛋白质-代谢物相互作用组的全面认识。在此,我们首次发现,在富含臭氧(O)的气氛中冷藏会在后续室温成熟期间诱导“澳洲青苹”苹果果实出现烫伤症状。相比之下,用乙烯感知抑制剂1-甲基环丙烯(1-MCP)处理可逆转这种由臭氧诱导的烫伤效应。包括支链氨基酸在内的氨基酸是1-MCP处理果实的果皮组织中诱导程度最强的代谢物。参与氧化应激和蛋白质运输的蛋白质在烫伤发展之前和期间有差异地积累。参与光合作用、类黄酮生物合成和乙烯信号传导的基因对1-MCP和臭氧有显著变化。调控模块网络分析确定了可能参与烫伤的假定转录因子(TFs)。随后,构建了基因-蛋白质-代谢物和相关TFs的转录网络。这种方法能够鉴定出由TFs共同调控的几个基因,特别是编码在1-MCP和臭氧处理后具有不同特征的谷胱甘肽转移酶(GST)蛋白的基因。总体而言,本研究对该果实未来的功能研究和育种计划做出了重要贡献,有助于培育出对表面烫伤有抗性的改良苹果品种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/57153525dc91/fpls-11-00008-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/7adedd91ef79/fpls-11-00008-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/57153525dc91/fpls-11-00008-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/7adedd91ef79/fpls-11-00008-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/734c1a12f577/fpls-11-00008-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2af8/7031346/fc9ffc866fbc/fpls-11-00008-g003.jpg
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