AI Article Synopsis
- - The study focuses on the R2R3-MYB transcription factors in the Siberian apricot (Prunus sibirica), which are important for plant responses to environmental stresses like frost, particularly during flowering when kernel yield is affected.
- - Researchers identified 116 PsMYB genes on eight chromosomes, grouped them into 30 subgroups, and found that several are responsive to cold stress, indicating their potential role in protecting the plant during low temperatures.
- - Findings from the analysis, including protein interactions and gene expression in various tissues under cold conditions, suggest that these PsMYBs are crucial for the growth and development of Siberian apricot and could assist in developing cold-resistant varieties in the future.
Article Abstract
Background: The R2R3-MYB transcription factors in plants participate in various physiological and biochemical processes and responds to various external stimuli. Prunus sibirica (known as Siberian apricot) is a drupe tree species that produces extremely high nutritional value kernels. However, it is susceptiblility to frost damage during the flowering period, results in a marked reduction in kernel yield.
Results: In this study, the MYB gene family of P. sibirica (PsMYB) was systematically analyzed, and 116 R2R3-MYB genes that were distributed unevenly over eight chromosomes were ultimately screened. Phylogenetic analysis divided these 116 genes into 30 subgroups. We discovered that 37 PsMYBs had cold stress-responsive promoters, and six PsMYBs were annotated to be associated with cold response. Intraspecific homology analysis identified segmental duplication as the primary gene amplification mechanism, and homology analysis of the PsMYB genes with those of five other species revealed phylogenetic relationships with Rosaceae species. Protein interaction studies revealed collaborative regulation of the PsMYB proteins with Arabidopsis protein, and transcriptome analysis identified PsMYB genes that were highly expressed at low temperatures. Additionally, the expression levels of 22 PsMYBs in different tissue parts of P. sibirica and under different low-temperature stress conditions were evaluated using quantitative real-time PCR, with the results verifying that PsMYBs are specifically expressed in different plant parts and may be involved in the growth and development of P. sibirica species. Genes upregulated after exposure to low-temperature stress and likely involved in cold response were identified.
Conclusion: This study lays a foundation for understanding the molecular biology of PsMYBs in P. sibirica and provides a theoretical basis for the future study of transgenic lines with cold resistance during the flowering period of this tree.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11472476 | PMC |
| http://dx.doi.org/10.1186/s12864-024-10868-0 | DOI Listing |
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