Identification of watermelon H3K4 and H3K27 genes and their expression profiles during watermelon fruit development.

Autor: Qiao, Yang, Li, Yan-Ge, Wei, Tong-Lu, Liu, Hai-Nan, Pei, Mao-Song, Zhu, Xue-Jie, Zhu, Zhong-Hou, Guo, Da-Long
Zdroj: Molecular Biology Reports; Oct2023, Vol. 50 Issue 10, p8259-8270, 12p
Abstrakt: Background: The ClaH3K4s and ClaH3K27s gene families are subfamilies of the SET family, each with a highly conserved SET structure domain and a PHD structural domain. Both participate in histone protein methylation, which affects the chromosome structure and gene expression, and is essential for fruit growth and development. Methods and results: In order to demonstrate the structure and expression characteristics of ClaH3K4s and ClaH3K27s in watermelon, members of the watermelon H3K4 and H3K27 gene families were identified, and their chromosomal localization, gene structure, and protein structural domains were analyzed. The phylogeny and covariance of the gene families with other species were subsequently determined, and the expression profiles were obtained by performing RNA-Seq and qRT-PCR. The watermelon genome had five H3K4 genes with 3207-8043 bp nucleotide sequence lengths and four H3K27 genes with a 1107-5499 bp nucleotide sequence. Synteny analysis revealed the close relationship between watermelon and cucumber, with the majority of members displaying a one-to-one covariance. Approximately half of the 'Hua-Jing 13 watermelon' ClaH3K4s and ClaH3K27s genes were expressed more in the late fruit development stages, while the changes were minimal for the remaining half. H3K4-2 expression was observed to be slightly greater on day 21 compared to other periods. Moreover, ClaH3K27-1 and ClaH3K27-2 were hardly expressed throughout the developing period, and ClaH3K27-4 exhibited the highest expression. Conclusion: These results serve as a basis for further functional characterization of the H3K4 and H3K27 genes in the fruit development of watermelon. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index