Proteins usually assemble oligomers or high-order complexes to increase their efficiency and spe-cificity in biological processes. The dynamic equilibrium of complex formation and disruption imposes reversible regulation of protein function. MicroProteins are small, single-domain proteins that directly bind target protein complexes and disrupt their assembly. Growing evidence shows that microProteins are efficient regulators of protein activity at the post-translational level. In the last few decades, thousands of plant micro-Proteins have been predicted by computational approaches, but only a few have been ex-perimentally validated. Recent studies highlighted the mechanistic working modes of newly-identified microProteins in Arabidopsis and other plant species. Here, we review characterized mi-croProteins, including their biological roles, regu-latory targets, and modes of action. In particular, we focus on microProtein-directed allosteric modulation of key components in light signaling pathways, and we summarize the biogenesis and evolutionary trajectory of known microProteins in plants. Understanding the regulatory mechanisms of microProteins is an important step towards potential utilization of microProteins as versatile biotechnological tools in crop bioengineering.

Qingqing Wu;Shangwei Zhong;Hui Shi

College of Life Sciences,Capital Normal University,and Beijing Key Laboratory of Plant Gene Resources and Biotechnology for Carbon Reduction and Environmental Improvement,Beijing 100048,China;State Key Laboratory of Protein and Plant Gene Research,School of Life Sciences,Peking University,Beijing 100871,China;National Engineering Laboratory of Crop Stress Resistance Breeding,School of Life Sciences,Anhui Agricultural University,Hefei 230036,China

植物学报（英文版）

[1]Qingqing Wu;Shangwei Zhong;Hui Shi-.MicroProteins: Dynamic and accurate regulation of protein activity)[J].植物学报（英文版）,2022(04):812-820

MicroProteins,cificity,microProteins,croProteins,microProtein

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