基因复制
生物
青蒿
遗传学
基因
基因组
串联外显子复制
染色体
青蒿素
基因簇
基因家族
同源重组
功能(生物学)
突变
倍半萜内酯
次生代谢
焦磷酸法尼酯
功能分歧
基因转化
基因组DNA
异位表达
比较基因组学
基因座(遗传学)
功能基因组学
系统发育学
染色体重排
转化(遗传学)
节段重复
基因组进化
萜烯
作者
Xinlian Chen,Baosheng Liao,Duan Wu,Chunyu Li,Zhengping Li,Zhihai Huang,Lixin Duan,Qi Shen
出处
期刊:Plant Journal
[Wiley]
日期:2025-12-01
卷期号:124 (5): e70548-e70548
摘要
Artemisia argyi, a perennial herb of the Asteraceae family, possesses significant therapeutic and economic value. We present a 7.88 Gb chromosome-level haplotype-resolved genome assembly, revealing its unique evolutionary trajectory. The karyotype (2n = 34) of A. argyi is that of an autotetraploid, which underwent gametic chromosome fusion prior to species-specific whole-genome duplication (WGD-3). The genome exhibits pronounced multivalent chromosome pairing and frequent recombination among homologous groups. Asymmetrical evolution following WGD-3 is a hallmark feature, evidenced by imbalanced allelic gene loss and widespread neofunctionalization. The terpene synthase (TPS) gene family exemplifies this pattern, having expanded through four duplication events in A. argyi. Recent tandem duplications and allelic functional differentiation have generated substantial gene functional diversity. Notably, we identified a tandem-duplicated six-copy ADS homolog (AarADS)-a key TPS gene in the artemisinin biosynthetic pathway of Artemisia annua (AanADS)-localized exclusively to a single chromosome in A. argyi. Unlike AanADS, which converts farnesyl pyrophosphate (FPP) to amorpha-4,11-diene, AarADS catalyzes FPP to α-bisabolol. Evolutionary analysis suggested that AanADS acquired its specialized function via a derived mutation in the A. annua lineage. This study elucidates the genomic evolution underpinning A. argyi's distinctive medicinal properties.
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