A dwarf mutant with short branches (csdf) was identified from EMS-induced mutagenesis. Bulked segregant analysis sequencing and map-based cloning revealed CsKAO encoding ent-kaurenoic acid oxidase as the causal gene. Plant architecture is the primary target of artificial selection during domestication and improvement based on the determinate function for fruit yield. Plant architecture is regulated by complicated genetic networks, more underlying mechanism remains to be elucidated. Here, we identified a dwarf mutant (csdf) in an EMS-induced cucumber population, and genetic analysis revealed the mutated phenotype is controlled by a single recessive gene. Optical microanalysis showed the decrease in cell length is mainly contribute to the dwarf phenotype. By strategy of BSA-seq combined with map-based cloning, CsaV3_6G006520 (CsKAO) on chromosome 6 was identified as the candidate gene for csdf. Gene cloning and sequence alignment revealed a G to A mutation in the sixth exon, which causes the premature stop codon in CsKAO of csdf. Expression analysis revealed CsKAO was expressed in various tissues with abundant transcripts, and has significant differences between WT and csdf. Gene annotation indicated CsKAO encodes a cytochrome P450 family ent-kaurenoic acid oxidase which functioned in GA biosynthesis. GA-relevant analysis showed that endogenous GA contents were significantly decreased and the dwarfism phenotype could be restored by exogenous GA3 treatment; while, some of the representative enzyme genes involved in the GA pathway were up-regulated in csdf. Besides, IAA content is decreased in the terminal bud and increased in the lateral bud in csdf as well as several IAA-related genes are differentially expressed. Overall, those findings suggest that CsKAO regulated plant height via the influence on GAs pathways, and IAA might interact with GAs on plant architecture morphogenesis in cucumber.
© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.