RUI ZHANG#, YANLONG LI, YAWEI LI, HUANHUAN MA, CHUNYANG ZUO, JING YANG, YIZAN MA, JIE KONG, XUN WEI, LONGFU ZHU, ALICE Y. CHEUNG, XIANLONG ZHANG, LING MIN*

Science Advances, 8 Oct 2025, Vol 11, Issue 41, DOI: 10.1126/sciadv.ady1386

Abstract

High-temperature stress in plant stamens frequently causes male sterility, limiting crop yields. Gene duplication resulting from polyploidization offers insights into plant adaptation to environmental stress. Here, we reveal that extensive duplication of GhRALF30L, which encodes an intrinsically disordered small peptide, contributes to thermotolerance in cotton male reproductive organs. Polyploidization has driven the formation of 23 GhRALF30L genes in allotetraploid cotton, whereas only four or five homologs are identified in its two diploid ancestors. Expression and functional analyses confirm that GhRALF30L regulates thermotolerance in a dosage-dependent manner, with reduced dosage decreasing heat resistance. Under heat stress, GhRALF30L interacts with GhFERA1/GhCAPA1 and enhances their condensation at the plasma membrane, which activates heat stress responses by up-regulating the expression of heat shock factors (HSFs), heat shock proteins (HSPs), and reactive oxygen species scavenging genes. Our findings demonstrate that the GhRALF30L gene cluster, resulting from polyploidization, confers thermotolerance through facilitating the condensation of GhFERA1/GhCAPA1.

论文链接：https://doi.org/10.1126/sciadv.ady1386