Plant Proteomic Research 2.0
Komatsu, Setsuko
Plant Proteomic Research 2.0
English[eng]
14-3-3 proteins||n/a||targeted two-dimensional electrophoresis||somatic embryogenesis||nitrogen metabolism||subtilase||Sporisorium scitamineum||non-orthodox seed||antioxidant activity||sweet potato plants infected by SPFMV||photosynthesis||B. acuminata petals||chlorophyll deficiency||seed proteomics||imbibition||pollination||Sarpo Mira||qRT-PCR||holm oak||tuber phosphoproteome||isobaric tags for relative and absolute quantitation (iTRAQ)||Quercus ilex||nucleotide pyrophosphatase/phosphodiesterase||lettuce||?-subunit||protein phosphatase||germination||drought stress||pyruvate biosynthesis||weakening of carbon metabolism||differential proteins||heterotrimeric G protein||organ||LC-MS-based proteomics||potato proteomics||smut||gel-free/label-free proteomics||? subunit||shotgun proteomics||2D||chloroplast||proteome functional annotation||Phalaenopsis||Clematis terniflora DC.||wheat||Dn1-1||carbon metabolism||physiological responses||Zea mays||phenylpropanoid biosynthesis||ISR||mass spectrometric analysis||patatin||leaf||pea (Pisum sativum L.)||maize||ergosterol||Camellia sinensis||seed storage proteins||silver nanoparticles||elevated CO2||metacaspase||SPV2 and SPVG||SnRK1||MALDI-TOF/TOF||(phospho)-proteomics||leaf spot||rice isogenic line||wheat leaf rust||pathway analysis||phosphoproteome||sugarcane||senescence||Oryza sativa L.||Arabidopsis thaliana||heat stress||gene ontology||innate immunity||Pseudomonas syringae||bolting||chlorophylls||shoot||Simmondsia chinensis||RT-qPCR||stresses responses||Solanum tuberosum||seeds||GC-TOF-MS||sucrose||proteome||Puccinia recondita||cultivar||Zea mays L.||secondary metabolism||ROS||Ricinus communis L.||after-ripening||cadmium||Stagonospora nodorum||virus induced gene silencing||quantitative proteomics||sweet potato plants non-infected by SPFMV||affinity chromatography||population variability||GS3||fungal perception||ammonium||transcriptome profiling||mass spectrometry analysis||papain-like cysteine protease (PLCP)||cold stress||nitrate||late blight disease||early and late disease stages||seed imbibition||lesion mimic mutant||protease||proteome map||seed dormancy||petal||2-DE proteomics||2D DIGE||root||Phytophthora infestans||differentially abundant proteins (DAPs)||polyphenol oxidase||degradome||flavonoid||14-3-3||caspase-like||proteomics||RGG4||co-infection||plasma membrane||chlorotic mutation||Medicago sativa||RGG3||glycolysis||barley||2-DE||protein phosphorylation||western blotting||N utilization efficiency||rice||plant pathogenesis responses||high temperature||data-independent acquisition||pattern recognition receptors||vegetative storage proteins||leaf cell wall proteome||plant-derived smoke||iTRAQ||starch||proteome profiling||Morus
Plant Proteomic Research 2.0
English[eng]
14-3-3 proteins||n/a||targeted two-dimensional electrophoresis||somatic embryogenesis||nitrogen metabolism||subtilase||Sporisorium scitamineum||non-orthodox seed||antioxidant activity||sweet potato plants infected by SPFMV||photosynthesis||B. acuminata petals||chlorophyll deficiency||seed proteomics||imbibition||pollination||Sarpo Mira||qRT-PCR||holm oak||tuber phosphoproteome||isobaric tags for relative and absolute quantitation (iTRAQ)||Quercus ilex||nucleotide pyrophosphatase/phosphodiesterase||lettuce||?-subunit||protein phosphatase||germination||drought stress||pyruvate biosynthesis||weakening of carbon metabolism||differential proteins||heterotrimeric G protein||organ||LC-MS-based proteomics||potato proteomics||smut||gel-free/label-free proteomics||? subunit||shotgun proteomics||2D||chloroplast||proteome functional annotation||Phalaenopsis||Clematis terniflora DC.||wheat||Dn1-1||carbon metabolism||physiological responses||Zea mays||phenylpropanoid biosynthesis||ISR||mass spectrometric analysis||patatin||leaf||pea (Pisum sativum L.)||maize||ergosterol||Camellia sinensis||seed storage proteins||silver nanoparticles||elevated CO2||metacaspase||SPV2 and SPVG||SnRK1||MALDI-TOF/TOF||(phospho)-proteomics||leaf spot||rice isogenic line||wheat leaf rust||pathway analysis||phosphoproteome||sugarcane||senescence||Oryza sativa L.||Arabidopsis thaliana||heat stress||gene ontology||innate immunity||Pseudomonas syringae||bolting||chlorophylls||shoot||Simmondsia chinensis||RT-qPCR||stresses responses||Solanum tuberosum||seeds||GC-TOF-MS||sucrose||proteome||Puccinia recondita||cultivar||Zea mays L.||secondary metabolism||ROS||Ricinus communis L.||after-ripening||cadmium||Stagonospora nodorum||virus induced gene silencing||quantitative proteomics||sweet potato plants non-infected by SPFMV||affinity chromatography||population variability||GS3||fungal perception||ammonium||transcriptome profiling||mass spectrometry analysis||papain-like cysteine protease (PLCP)||cold stress||nitrate||late blight disease||early and late disease stages||seed imbibition||lesion mimic mutant||protease||proteome map||seed dormancy||petal||2-DE proteomics||2D DIGE||root||Phytophthora infestans||differentially abundant proteins (DAPs)||polyphenol oxidase||degradome||flavonoid||14-3-3||caspase-like||proteomics||RGG4||co-infection||plasma membrane||chlorotic mutation||Medicago sativa||RGG3||glycolysis||barley||2-DE||protein phosphorylation||western blotting||N utilization efficiency||rice||plant pathogenesis responses||high temperature||data-independent acquisition||pattern recognition receptors||vegetative storage proteins||leaf cell wall proteome||plant-derived smoke||iTRAQ||starch||proteome profiling||Morus