Chromosome-scale genome assembly and insights into the metabolome and gene regulation of leaf color transition in an important oak species, Quercus dentata

生物 代谢组 染色体 基因 基因组 遗传学 比例(比率) 计算生物学 进化生物学 代谢组学 生物信息学 地理 地图学
作者
Jian‐Feng Mao,Zenghui Hu,Pingsheng Leng,Wenbo Wang,Yan Xue-Mei,Yi Zheng
出处
期刊:CERN European Organization for Nuclear Research - Zenodo [European Organization for Nuclear Research]
被引量:1
标识
DOI:10.5281/zenodo.7538806
摘要

Quercus dentata Thunb., a dominant forest tree species in northern China, has significant ecological and ornamental value due to its adaptability and beautiful autumn coloration, with color changes from green to yellow into red resulting from the autumnal shifts in leaf pigmentation. However, the key genes and molecular regulatory mechanisms for leaf color transition remain to be investigated. First, we presented a high-quality chromosome-scale assembly for Q. dentata. This 893.54 Mb sized genome (contig N50=4.21 Mb, scaffold N50=75.55 Mb; 2n=24) harbors 31,584 protein-coding genes. Second, our metabolome analyses uncovered pelargonidin-3-O-glucoside, cyanidin-3-O-arabinoside, and cyanidin-3-O-glucoside as the main pigments involved in leaf color transition. Third, gene co-expression further identified the MYB-bHLH-WD40 (MBW) transcription activation complex as central to anthocyanin biosynthesis regulation. Notably, transcription factor (TF) QdNAC (QD08G038820) was highly co-expressed with this MBW complex and may regulate anthocyanin accumulation and chlorophyll degradation during leaf senescence through direct interaction with another TF, QdMYB (QD01G020890), as revealed by our further protein-protein and DNA-protein interaction assays. Our high-quality genome assembly, metabolome and transcriptome resources further enrich Quercus genomics, and will facilitate upcoming exploration of ornamental values and environmental adaptability in this important genus.
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