The biomolecular condensates (BCs) formed by proteins through phase separation provide the necessary space and raw materials for the orderly progression of cellular activities, and on this basis, various membraneless organelles (MLOs) are formed. The occurrence of eukaryotic phase separation is driven by multivalent interactions from intrinsically disordered regions (IDRs) and/or specific protein/nucleic acid binding domains and is regulated by various environmental factors. In plant and animal cells, the MLOs involved in gene expression regulation, stress response, and mitotic control display similar functions and mechanisms. In contrast, the phase separation related to reproductive development and immune regulation differs significantly between the two kingdoms owing to their distinct cell structures and nutritional patterns. In addition, animals and plants each exhibit unique protein phase separation activities, such as neural regulation and light signal response. By comparing the similarities and differences in the formation mechanism and functional regulation of known protein phase separation, we elucidated its importance in the evolution, differentiation, and environmental adaptation of both animals and plants. The significance of studying protein phase separation for enhancing biological quality of life has been further emphasized.
Keywords: Animals; biomolecular condensates (BCs); environmental adaptation; membraneless organelles (MLOs); phase separation; plants.