Background
The OVATE gene family is a new class of transcriptional repressors, which play an important regulatory role in plant growth and development. Many studies have proved that the OVATE gene family can regulate the development of plant tissues and organs and resist stress, but its quantity and functional role in
Rosa roxburghii
remain unknown.
Results
In this study, 14 OVATE family members were identified by re-annotating the genome of
Rosa roxburghii
, and these members were unevenly distributed on 6 chromosomes. Evolutionary analysis indicated that these family members were classified into three groups. In their promoter regions, many hormone-related cis-acting elements such as ABA, GA, and MeJA were identified. Segmental duplication is an important driving force for the expansion of the OVATE family in
Rosa roxburghii
. Transcriptome sequencing and RT-qPCR analysis showed that OVATE gene family had a specific tissue expression pattern in
Rosa roxburghii
. For instance, the expression level of gene Rr602241 in leaves was more than 4 times that of other tissues. The gene Rr101515 was highly expressed in FR1 and FR4 stages of fruit tree development, and was highly homologous to the gene regulating fruit shape in tomatoes. These results suggest that members of the OVATE gene family may have diverse functions in different tissues. Furthermore, based on the transcriptome data of eight tissues, a transcriptional regulatory co-expression network of different transcription factors and 14 OVATE genes was constructed.
Conclusion
In conclusion, our study provides the expression profiles of the OVATE family and reveals the potential functional roles of different members in the growth and development of
Rosa roxburghii
Tratt.
Supplementary Information
The online version contains supplementary material available at 10.1186/s12870-024-05775-1.