TY - BOOK TI - Plant Proteomic Research 4.0 SN - 9783036526621 PY - 2022/// CY - Basel PB - MDPI - Multidisciplinary Digital Publishing Institute KW - Research & information: general KW - bicssc KW - ABPP KW - amylose KW - apoplast KW - Arabidopsis KW - cell death KW - cooking and eating quality KW - data-independent acquisition KW - dehydrins KW - DIA-based quantitative proteomics KW - drought tolerance KW - ER proteome KW - fermentation KW - field-omics KW - flooding KW - floral thermogenesis KW - GBSSI KW - glycoprotein folding KW - heat-stable proteome KW - high temperature KW - intrinsically disordered proteins KW - kinase motif KW - label-free quantitation KW - late embryogenesis abundant KW - LEA transcripts KW - male gametophyte KW - McHB7 KW - Mesembryanthemum crystallinum KW - metabolomics KW - mutant soybean KW - n/a KW - Nelumbo nucifera KW - peptide markers KW - phosphoproteomics KW - phosphorylation KW - physiological characteristics KW - Phytophthora infestans KW - plant pathogenesis responses KW - pollen tube KW - posttranslational modification KW - potato KW - protein-protein interaction network KW - proteomics KW - quantitative proteomics KW - Quercus ilex KW - rice KW - rice endosperm KW - root hair KW - salt stress KW - seed germination KW - serine hydrolases KW - signal transduction KW - starch biosynthesis KW - starch functionality KW - sucrose and starch metabolism KW - targeted post-acquisition proteomics KW - time series analysis KW - transcription factor KW - waxy KW - WGCNA KW - wheat KW - β-glycosidases N1 - Open Access N2 - As an important tool of systems biology, proteomics has enabled a deep understanding of different plant processes and functions. Complemented with genomic data, computational tools, and improved sample preparation strategies, proteomics has an unprecedented opportunity to characterize plant proteoforms in high spatial and temporal resolution. This special issue of Plant Proteomic Research 4.0 captures the recent advancements in proteomics and addresses the current challenges of plant stress response and resilience in the ever-changing climate. It contains 12 articles, including three reviews and nine original research articles. The three reviews deal with pollen phosphoproteomics, starch biosynthesis-related proteins and posttranslational modifications (PTMs) in rice developing seeds, and PTMs of waxy proteins in rice grain. The nine research articles include three related to temperature, two on water stress, two on salt stress, one on fungal pathogen, and the last one on field-grown potato apoplast proteome. The articles reflect the current frontiers of plant proteomics, focusing on themes of environmental stresses, proteoforms/PTMs, crop species, and new development in data-independent acquisition mass spectrometry. They provide readers insights into current technologies, their utility in understanding plant growth and resilience, as well as directions of proteomics in the frontiers of systems biology and synthetic biology UR - https://directory.doabooks.org/handle/20.500.12854/78784 UR - https://mdpi.com/books/pdfview/book/4878 ER -