<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea"^^ . "Understanding the molecular differences in plant genotypes\r\ncontrasting for heat sensitivity can provide useful insights into\r\nthe mechanisms that confer heat tolerance in plants. We focused\r\non comparative physiological and proteomic analyses\r\nof heat sensitive (ICC16374) and tolerant (JG14) genotypes\r\nof chickpea (Cicer arietinum L.) when subjected to heat stress\r\nat anthesis. Heat stress reduced seed germination, leaf water\r\ncontent, chlorophyll content and membrane integrity with\r\na greater impact on sensitive genotype than on the tolerant\r\nones that had higher total antioxidant capacity and osmolyte\r\naccumulation, and consequently less oxidative damage. Comparative\r\ngel-free proteome profiles indicated differences in the\r\nexpression levels and regulation of common proteins that are\r\nassociated with heat tolerance in contrasting genotypes under\r\nheat stress. Several crucial heat induced and heat responsive\r\nproteins were identified and categorized based on ontology\r\nand pathway analysis. The proteins which are essentially related\r\nto the electron transport chain in photosynthesis, aminoacid\r\nbiosynthesis, ribosome synthesis and secondary metabolite\r\nsynthesis may play key roles in inducing heat tolerance.\r\nIn addition, our study also provides evidence that the foliar\r\napplication of nitric oxide (NO) donor can enhance heat and\r\ndrought stress tolerance by modulating a number of proteins\r\nin chickpea. Understanding the active metabolic adjustments\r\nin tolerant genotype under stress and inducing the stress tolerance\r\nin sensitive genotype by exogenous NO application offers\r\na comprehensive and systematic approach to tackle heat and\r\ndrought stress in chickpea. This study potentially contributes\r\nto improved stress resilience by offering valuable insights on\r\nthe mechanisms of heat and drought tolerance in chickpea."^^ . "2017-02" . . . . . . . . . . . . . . "K K"^^ . "Sharma"^^ . "K K Sharma"^^ . . "P"^^ . "Bhatnagar-Mathur"^^ . "P Bhatnagar-Mathur"^^ . . "P"^^ . "Santisree"^^ . "P Santisree"^^ . . . . "InterDrought-V"^^ . . . . . "Hyderabad, India"^^ . . . . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (PDF)"^^ . . . . . "Abstract_Book_411.pdf"^^ . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (Other)"^^ . . . . . . "preview.jpg"^^ . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (Other)"^^ . . . . . . "medium.jpg"^^ . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (Other)"^^ . . . . . . "small.jpg"^^ . . . "Heat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea (Other)"^^ . . . . . . "indexcodes.txt"^^ . . "HTML Summary of #10212 \n\nHeat induced differential proteomic changes reveal molecular mechanisms responsible for heat tolerance in chickpea\n\n" . "text/html" . . . "Abiotic Stress"@en . . . "Drought Tolerance"@en . . . "Molecular Biology"@en . . . "Chickpea"@en . . . "Drought"@en . .