Cytokinin (CK) signaling plays an important role in regulating plant development and physiological functions. Type-A response regulators (Type-A RRs) are part of two-component signal system (TCS). Phylogenetic analysis of TCS components in rice and Arabidopsis indicates that most of rice and Arabidopsis type-A RRs are in different clades. My study focuses on whether OsRR9 and OsRR10, which has high similarity of rice. Participate in the regulation of physiological and stress responses. Both OsRR9 and OsRR10 are highly expressed in seedlings and booting stages, mainly in the shoot. OsRR9/10 are significantly up-regulated in response to heat stress. To understand the function of OsRR9 and OsRR10, we used an insertion mutant and generated CRISPR/Cas9-edited mutants to evaluate the role of OsRR9 and OsRR10. OsRR9 knockdown mutant shows delayed growth during seedlings stage. By conducting dark-induced chlorophyll degradation and callus regeneration experiments, we found that OsRR9 knockdown mutant is more sensitive to CK than WT. Besides, additional CRISPR/Cas9 mutants were generated, mutation rates of CRISPR/Cas9-edited mutants in OsRR9 and OsRR10 are over 80%, mainly occuring in 1 bp deletions but the transcription still can be detected. Our results show that CRISPR/Cas9-edited mutants were more sensitivity to BA, as indicated by the delay of leaf senescence, and the induction of callus regeneration. Moreover, the opposite response between insertion and CRISPR/Cas9-edited mutant may be caused by the different transcription levels of type-A other OsRRs family. Above all, OsRR9/10 regulates plant growth and plays a role as a negative regulator in CK signaling transduction.