Please use this identifier to cite or link to this item: http://223.31.159.10:8080/jspui/handle/123456789/917
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dc.contributor.authorGayen, Dipak-
dc.contributor.authorBarua, Pragya-
dc.contributor.authorLande, Nilesh Vikram-
dc.contributor.authorVarshney, Swati-
dc.contributor.authorSengupta, Shantanu-
dc.contributor.authorChakraborty, Subhra-
dc.contributor.authorChakraborty, Niranjan-
dc.date.accessioned2019-02-11T06:07:54Z-
dc.date.available2019-02-11T06:07:54Z-
dc.date.issued2019-
dc.identifier.citationEnvironmental and Experimental Botany, 160: 12-24en_US
dc.identifier.issn0098-8472-
dc.identifier.urihttp://223.31.159.10:8080/jspui/handle/123456789/917-
dc.descriptionAccepted: 9 January 2019en_US
dc.description.abstractChloroplast is a semi-autonomous organelle in plants and other photosynthetic eukaryotes, playing a fundamental role of regulating photosynthesis. It is also responsible for sustaining essential biosynthetic reactions including synthesis of amino acids, fatty acids and terpenes. Photosynthesis, the conversion of light energy into chemical energy, serves as the sensor of environmental changes and augments different cellular functions to initiate adaptive responses. However, the molecular processes and regulatory mechanisms of dehydration tolerance adopted by chloroplast remain largely unknown. To gain a better understanding of dehydration response, a chloroplast proteome map of rice was developed. Four-week-old rice seedlings were subjected to dehydration by withholding water for 9 d, and the magnitude of dehydration-induced damage to the chloroplast was monitored. The iTRAQ-based quantitative proteome analysis led to the identification of 40 differentially regulated proteins (DRPs). The DRPs were presumably involved in a wide array of metabolic processes including chloroplast energy metabolism, photosynthesis and defense response. Furthermore, dehydration-induced changes in the metabolite profile and network analysis revealed a high abundance of branched chain amino acids and sugar that might reduce osmotic potential, thereby protecting cellular integrity. The proteomics approach revealed altered status of major photosynthesis related proteins, while cell metabolite profile demonstrated alteration of tricarboxylic acid cycle intermediates, indicating dehydration-triggered alterations in ATP production and energy metabolism. Altogether, these results demonstrated that the global regulation of chloroplast proteome is intimately linked to cellular metabolic rewiring of adaptive responses, which may favor genetic manipulation of crop species for better adaptation.en_US
dc.description.sponsorshipThis work was supported by grants from the Department of Biotechnology (DBT), India (BT/AGR/CG-PhaseII/01/2014) and National Institute of Plant Genome Research, New Delhi to N.C. We thank Department of Science and Technology (DST), India for SERBNational Post-Doctoral Fellowship (PDF/2016/002615) granted to D.G. and Department of Biotechnology (DBT) for providing pre-doctoral fellowship to P.B. We also acknowledge Council of Scientific & Industrial Research (CSIR), India for providing pre-doctoral fellowship to N.V.L. We thank Mr. Jasbeer Singh for manuscript layout and format.en_US
dc.language.isoen_USen_US
dc.publisherElsevier B.V.en_US
dc.subjectAdaptive responsesen_US
dc.subjectCereal cropen_US
dc.subjectDehydration responseen_US
dc.subjectOrganellar proteomeen_US
dc.subjectUntargeted metabolomeen_US
dc.subjectPhotosynthesisen_US
dc.subjectSemi-autonomous organelleen_US
dc.subjectWater-use efficiencyen_US
dc.titleDehydration-responsive alterations in the chloroplast proteome and cell metabolomic profile of rice reveals key stress adaptation responsesen_US
dc.typeArticleen_US
dc.identifier.officialurlhttps://www.sciencedirect.com/science/article/pii/S0098847218316514en_US
dc.identifier.doihttps://doi.org/10.1016/j.envexpbot.2019.01.003en_US
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