Cytokinin oxidase/dehydrogenase family genes exhibit functional divergence and overlap in rice growth and development, especially in control of tillering

Systematic analysis of mutants of CKXfamily genes in rice reveals that tillering is inhibited by CKX4 and CKX9, and promoted by CKX1 and CKX2. Cytokinins play key roles in plant growth and development, and hence their biosynthesis and degradation have been extensively studied. Cytokinin oxidase/dehydrogenases (CKXs) are a group of enzymes that regulate oxidative cleavage to maintain cytokinin homeostasis. In rice, 11 CKX genes have been identified to date; however, most of their functions remain unknown. In this study, we comprehensively examined the expression patterns and functions of the CKXs in rice by using CRISPR/Cas9 technology to construct mutants of all 11 genes. The results revealed that the ckx single-mutants and higher-order ckx4 ckx9 mutant lines showed functional overlaps and sub-functionalization. Notably, the ckx1 ckx2 and ckx4 ckx9 double-mutants displayed contrasting phenotypic changes in tiller number and panicle size compared to the wild-type. In addition, we identified several genes with significantly altered expression in both the ckx4 and ckx9 single-mutant and double-mutant plants. Many of the differentially expressed genes were found to be associated with auxin and cytokinin pathways, and cytokinins in the ckx4 ckx9 double-mutant were increased compared to the wild-type. Taken together, our findings provide new insights into the functions of CKX genes in rice growth and may provide the foundations for future studies aimed at improving rice yield.

Automated summary

Systematic analysis of mutants of CKX family genes in rice reveals the inhibitory effects of CKX4 and CKX9 on tillering and the promoting effects of CKX1 and CKX2. This study provides new insights into the functions of CKX genes in rice growth and may contribute to improving rice yield in the future.