Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH o...Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH of the soil.Even though it is important for gardening,we still don’t know much about the molecular processes that lead to flower growth.The purpose of this study was to find and study SNP-related genes and transcription factors that are connected to the growth of H.macrophylla flowers.Genome-wide SNP analysis identified 11 SNPs associated with MYB transcription factors and 10 SNPs linked to a MADS-box SEP1 gene,highlighting their potential role in inflorescence-type regulation.These SNPs provide genomic resources for functional validation and markerassisted breeding in Hydrangea macrophylla.We found the MYB and MADS-box gene families,which are important for pigmentation and flower organ identity,through an analysis of the transcriptome and gene expression.The MYB family has 731R-MYBs,105 R2R3-MYBs,and 43R-MYBs.TheMADS-box family had 42 Type I(M-type)members and 36 Type II(MIKC-type)members.Motif and phylogenetic analysis showed that certain domains were preserved.For example,R2R3-MYBs and MIKC-type MADS genes are grouped with Arabidopsis orthologs,which suggests that their functions are also preserved.There was a clear link between the greatest expression ofMADS-box genes and the distinct phases of floral bud differentiation.Some MYB genes,on the other hand,showed alternative expression patterns that may help petals or sepals develop.qRT-PCR validation of representative MYB and MADS-box genes corroborated the transcriptome-based expression profiles,supporting their role in flower development and inflorescence-type regulation.展开更多
基金funded by Science and Technology Research Project of Shanghai Greening and City Appearance Administration in 2023(G232406).
文摘Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH of the soil.Even though it is important for gardening,we still don’t know much about the molecular processes that lead to flower growth.The purpose of this study was to find and study SNP-related genes and transcription factors that are connected to the growth of H.macrophylla flowers.Genome-wide SNP analysis identified 11 SNPs associated with MYB transcription factors and 10 SNPs linked to a MADS-box SEP1 gene,highlighting their potential role in inflorescence-type regulation.These SNPs provide genomic resources for functional validation and markerassisted breeding in Hydrangea macrophylla.We found the MYB and MADS-box gene families,which are important for pigmentation and flower organ identity,through an analysis of the transcriptome and gene expression.The MYB family has 731R-MYBs,105 R2R3-MYBs,and 43R-MYBs.TheMADS-box family had 42 Type I(M-type)members and 36 Type II(MIKC-type)members.Motif and phylogenetic analysis showed that certain domains were preserved.For example,R2R3-MYBs and MIKC-type MADS genes are grouped with Arabidopsis orthologs,which suggests that their functions are also preserved.There was a clear link between the greatest expression ofMADS-box genes and the distinct phases of floral bud differentiation.Some MYB genes,on the other hand,showed alternative expression patterns that may help petals or sepals develop.qRT-PCR validation of representative MYB and MADS-box genes corroborated the transcriptome-based expression profiles,supporting their role in flower development and inflorescence-type regulation.
