不同花球颜色的花椰菜自交系转录组分析 = Transcriptome Analysis of Different Cauliflower Curd Color Inbred Lines
2025
Zhang, Quan | Budahn, Holger | Xu, Junyong | Ding, Yunhua
Taking different curd-colored inbred lines P535 (purple curd) and W535 (white curd) as the test materials, their curd tissue samples were taken at the young curd stage to identify differentially expressed genes and pathways through transcriptome sequencing, in order to further analyze the genetic basis of cauliflower bulb color formation. The results showed that there were 291 differentially expressed genes between P535 and W535, of which 102 genes were upregulated in P535, and 189 genes were downregulated. GO enrichment analysis and KEGG enrichment analysis revealed that the differentially expressed genes were mainly concentrated in pathways such as flavonoid biosynthesis, flavonoid biosynthesis, isoflavone synthesis, and anthocyanin synthesis. Homologous analysis of differentially expressed genes found that 13 anthocyanin synthesis-related genes were significantly upregulated in P535, including a MYB transcription factor BoPAP1, which was speculated to further promote the expression of anthocyanin synthesis structural genes due to the upregulation of BoPAP1 expression, population genotype identification confirms the correlation between BoPAP1 variation and curd color. Sequence analysis showed that the variation in the promoter of BoPAP1 was different from which have been published, indicating that a new natural variation in the regulation caused the cauliflower purple curd formation.
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Библиографическая информация
Издатель Bei fang yuan yi bian ji bu | 北方园艺编辑部
ISSN 1001-0009Эту запись предоставил Julius Kühn Institute