BrACOS5 mutations induced male sterility via impeding pollen exine formation in Chinese cabbage ( Brassica rapa L. ssp. pekinensis )

Key message BrACOS5 mutations led to male sterility of Chinese cabbage verified in three allelic male-sterile mutants. Abstract Chinese cabbage ( Brassica rapa L. ssp. pekinensis ) is one of the major vegetable crops in East Asia, and the utilization of male-sterile line is an important measure for its hybrid seed production. Herein, we isolated three allelic male-sterile mutants, msm1-1 , msm1-2 and msm1-3 , from an ethyl methane sulfonate (EMS) mutagenized population of Chinese cabbage double-haploid (DH) line ‘FT’, whose microspores were completely aborted with severely absent exine, and tapetums were abnormally developed. Genetic analyses indicated that the three male-sterile mutants belonged to allelic mutation and were triggered by the same recessive nuclear gene. MutMap-based gene mapping and kompetitive allele-specific PCR (KASP) analysis demonstrated that three different single-nucleotide polymorphisms (SNPs) of BraA09g012710.3C were responsible for the male sterility of msm1-1/2/3 , respectively. BraA09g012710.3C is orthologous of Arabidopsis thaliana ACOS5 ( AT1G62940 ), encoding an acyl-CoA synthetase in sporopollenin biosynthesis, and specifically expressed in anther, so we named BraA09g012710.3C as BrACOS5 . BrACOS5 localizes to the endoplasmic reticulum (ER). Mutations of BrACOS5 resulted in decreased enzyme activities and altered fatty acid contents in msm1 anthers. As well as the transcript accumulations of putative orthologs involved in sporopollenin biosynthesis were significantly down-regulated excluding BrPKSA . These results provide strong evidence for the integral role of BrACOS5 in conserved sporopollenin biosynthesis pathway and also contribute to uncovering exine development pattern and underlying male sterility mechanism in Chinese cabbage.