Plant non-canonical peptides: From identification to mechanisms
Shunxi Wang, Jinghua Zhang, Xiaojing Gao, Xiaodong Bao, Shanshan Liu, Ritian Qin, Benge Xin, Pengpeng Li, Bokai Zhang, Liuji Wu

TL;DR
This review explores plant peptides, their roles in growth and immunity, and how new technologies can help discover and use them for crop improvement.
Contribution
The paper systematically summarizes strategies for plant peptide identification and proposes integrating high-throughput technologies for future research.
Findings
Plant peptides are classified into canonical, non-canonical, and non-ribosomal types with diverse functions.
Peptidogenomics and mass spectrometry have expanded the known plant peptidome by identifying peptides from non-coding regions.
Integrating functional genomics and synthetic biology is suggested to enhance crop improvement through peptides.
Abstract
Plant peptides have emerged as key regulators of plant growth, development, immunity, and environmental adaptation. Early studies in crops demonstrate the potential application of certain peptides, such as systemin and plant elicitor peptides, to enhance disease resistance. Based on their structure and function, plant peptides are typically classified into canonical peptides, non-canonical peptides, and non-ribosomal peptides. Advances in peptidogenomics and mass spectrometry enable genome-wide discovery of numerous endogenous peptides, including those translated from untranslated regions and non-coding RNAs, greatly expanding the known plant peptidome. This review provides a comprehensive overview of plant peptides, including their classification, biosynthesis, and functional mechanisms in regulating diverse biological processes. Importantly, it systematically summarizes the historical…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsBiochemical and Structural Characterization · Antimicrobial Peptides and Activities · RNA and protein synthesis mechanisms
