Less hairy leaf 1, an RNaseH-like protein, regulates trichome formation in rice through auxin

The trichomes of rice leaves are formed by the differentiation and development of epidermal cells. Plant trichomes play an important role in stress resistance and protection against direct ultraviolet irradiation. However, the development of rice trichomes remains poorly understood. In this study, we conducted ethylmethane sulfonate (EMS)-mediated mutagenesis on the wild-type (WT) indica rice 'Xida 1B'. Phenotypic analysis led to the screening of a mutant that is defective in trichome development, designated lhl1 (less hairy leaf 1). We performed map-based cloning and localized the mutated gene to the 70-kb interval between the molecular markers V-9 and V-10 on chromosome 2. The locus LOC_Os02g25230 was identified as the candidate gene by sequencing. We constructed RNA interference (LHL1-RNAi) and overexpression lines (LHL1-OE) to verity the candidate gene. The leaves of the LHL1-RNAi lines showed the same trichome developmental defects as the lhl1 mutant, whereas the trichome morphology on the leaf surface of the LHL1-OE lines was similar to that of the WT, although the number of trichomes was significantly higher. Quantitative real-time PCR (RT-qPCR) analysis revealed that the expression levels of auxin-related genes and positive regulators of trichome development in the lhl1 mutant were down-regulated compared with the WT. Hormone response analysis revealed that LHL1 expression was affected by auxin. The results indicate that the influence of LHL1 on trichome development in rice leaves may be associated with an auxin pathway.

Automated summary

The trichomes of rice leaves are formed by the differentiation and development of epidermal cells. Plant trichomes play a crucial role in stress resistance and protection against direct ultraviolet irradiation. This study identified and characterized a mutant, lhl1 (less hairy leaf 1), which exhibited defective trichome development in rice leaves. The gene responsible for this phenotype, LOC_Os02g25230, was identified and its role in trichome development was verified through RNA interference and overexpression experiments.