| Autor: |
Liao, Xuezhu, Xie, Dejin, Bao, Tingting, Hou, Mengmeng, Li, Cheng, Nie, Bao, Sun, Shichao, Peng, Dan, Hu, Haixiao, Wang, Hongru, Tao, Yongfu, Zhang, Yu, Li, Wei, Wang, Li |
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| Zdroj: |
Nature Communications; 10/29/2024, Vol. 15 Issue 1, p1-15, 15p |
| Abstrakt: |
Evolutionary dynamics of inversion and its impact on biochemical traits are a puzzling question. Here, we show abundance of inversions in three Curcuma species (turmeric, hidden ginger and Siam tulip). Genes within inversions display higher long terminal repeat content and lower expression level compared with genomic background, suggesting inversions in Curcuma experience relaxed genetic constraints. It is corroborated by depletion of selected SNPs and enrichment of deleterious mutations in inversions detected among 56 Siam tulip cultivars. Functional verification of tandem duplicated terpene synthase (TPS) genes reveals that genes within inversions become pseudogenes, while genes outside retain catalytic function. Our findings suggest that inversions act as a counteracting force against tandem duplication in balancing birth and death of TPS genes and modulating terpenoid contents in Curcuma. This study provides an empirical example that inversions are likely not adaptive but affect biochemical traits. Evolutionary dynamics of inversions and their impact on biochemical traits are unclear. Here, the authors report the genome assemblies of three Curcuma species and find that terpene synthase genes quite often become pseudogenes inside an inversion, indicating inversions act as a counteracting force against gene tandem duplication. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
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