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Integrated proteome analyses of wheat glume and awn reveal central drought response proteins under water deficit conditions.

J. Plant Physiol.. 2019; 
DengXiong,ZhenShoumin,LiuDongmiao,LiuYue,LiMengfei,LiuNannan,YanYue
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Protein Tools First, subcellular locations of the identified DAPs were predicted according to the integration of prediction results of the WoLF PSORT (http://www.genscript.com/ wolf-psort.html), Plant-mPLoc (http://www.csbio.sjtu.edu.cn/bioinf/plant-multi/), CELLO version 2.5 (http://cello.life.nctu.edu.tw/), FUEL-mLoc Server (http://bioinfo.eie.polyu. edu.hk/FUEL-mLoc/), and UniProtKB. Get A Quote

摘要

Integrated proteome analyses revealed differentially accumulated proteins in the non-leaf green organs in wheat glume and awn that play important roles in photosynthesis and drought resistance. Two non-leaf green organs in wheat, glume and awn, have photosynthetic potential, contribute to grain yield, and also play roles in resistance to adverse conditions. We performed the first integrated proteome analysis of wheat glume and awn in response to water deficit. Water deficit caused a significant decrease in important agronomic traits and grain yield. A total of 120 and 77 differentially accumulated protein (DAP) spots, representing 100 and 67 unique proteins responsive to water deficit, were identifi... More

关键词

2D-DIGE,Awn,Bread wheat,Glume,Proteome,Water def