In a previous transcriptomic analysis,abscisic acid(ABA)was found to affect the abundance of a number of transcripts in leaves of Cabernet Sauvignon grapevines with roots that had been exposed to 10μM ABA for 2 h.Oth...In a previous transcriptomic analysis,abscisic acid(ABA)was found to affect the abundance of a number of transcripts in leaves of Cabernet Sauvignon grapevines with roots that had been exposed to 10μM ABA for 2 h.Other work has indicated that ABA affects protein abundance and protein phosphorylation as well.In this study we investigated changes in protein abundance and phosphorylation of Cabernet Sauvignon grapevine leaves.Protein abundance was assessed by both label-free and isobaric-label quantitive proteomic methods.Each identified common proteins,but also additional proteins not found with the other method.Overall,several thousand proteins were identified and several hundred were quantified.In addition,hundreds of phosphoproteins were identified.Tens of proteins were found to be affected in the leaf after the roots had been exposed to ABA for 2 h,more than half of them were phosphorylated proteins.Many phosphosites were confirmed and several new ones were identified.ABA increased the abundance of some proteins,but the majority of the proteins had their protein abundance decreased.Many of these proteins were involved in growth and plant organ development,including proteins involved in protein synthesis,photosynthesis,sugar and amino-acid metabolism.This study provides new insights into how ABA regulates plant responses and acclimation to water deficits.展开更多
基金This work was funded by the College of Agriculture and Natural Resources at the University of NevadaReno with a Nevada Agriculture Experimental Station Multi-State Hatch Grant(Grant#NEV00345).
文摘In a previous transcriptomic analysis,abscisic acid(ABA)was found to affect the abundance of a number of transcripts in leaves of Cabernet Sauvignon grapevines with roots that had been exposed to 10μM ABA for 2 h.Other work has indicated that ABA affects protein abundance and protein phosphorylation as well.In this study we investigated changes in protein abundance and phosphorylation of Cabernet Sauvignon grapevine leaves.Protein abundance was assessed by both label-free and isobaric-label quantitive proteomic methods.Each identified common proteins,but also additional proteins not found with the other method.Overall,several thousand proteins were identified and several hundred were quantified.In addition,hundreds of phosphoproteins were identified.Tens of proteins were found to be affected in the leaf after the roots had been exposed to ABA for 2 h,more than half of them were phosphorylated proteins.Many phosphosites were confirmed and several new ones were identified.ABA increased the abundance of some proteins,but the majority of the proteins had their protein abundance decreased.Many of these proteins were involved in growth and plant organ development,including proteins involved in protein synthesis,photosynthesis,sugar and amino-acid metabolism.This study provides new insights into how ABA regulates plant responses and acclimation to water deficits.
