Your search keyword '"derived base (DB)"' showing total 2 results

1. A Genomic Quantitative Study on the Contribution of the Ancestral-State Bases Relative to Derived Bases in the Divergence and Local Adaptation of Populus davidiana.

Author

Zhao, Dandan, Zhang, Jianguo, Hui, Nan, Wang, Li, Tian, Yang, Ni, Wanning, Long, Jinhua, Jiang, Li, Li, Yi, Diao, Songfeng, Li, Jinhua, Tembrock, Luke R., Wu, Zhiqiang, and Wang, Zhaoshan

Subjects

*POPLARS, *NATURAL selection, *QUANTITATIVE research, *MOLECULAR evolution, *NEOGENE Period, *NUCLEOTIDE sequencing

Abstract

Identifying alleles associated with adaptation to new environments will advance our understanding of evolution from the molecular level. Previous studies have found that the Populus davidiana southwest population in East Asia has differentiated from other populations in the range. We aimed to evaluate the contributions of the ancestral-state bases (ASBs) relative to derived bases (DBs) in the local adaptation of P. davidiana in the Yunnan–Guizhou Plateau from a quantitative perspective using whole-genome re-sequencing data from 90 P. davidiana samples from three regions across the species range. Our results showed that the uplift of the Qinghai–Tibet Plateau during the Neogene and associated climate fluctuations during the Middle Pleistocene were likely an important factor in the early divergence of P. davidiana. Highly differentiated genomic regions between populations were inferred to have undergone strong linked natural selection, and ASBs are the chief means by which populations of P. davidiana adapt to novel environmental conditions; however, when adapting to regions with high environmental differences relative to the ancestral range, the proportion of DBs was significantly higher than that of background regions, as ASBs are insufficient to cope with these environments. Finally, a number of genes were identified in the outlier region. [ABSTRACT FROM AUTHOR]

Published

2023

2. A Genomic Quantitative Study on the Contribution of the Ancestral-State Bases Relative to Derived Bases in the Divergence and Local Adaptation of Populus davidiana

Author

Dandan Zhao, Jianguo Zhang, Nan Hui, Li Wang, Yang Tian, Wanning Ni, Jinhua Long, Li Jiang, Yi Li, Songfeng Diao, Jinhua Li, Luke R. Tembrock, Zhiqiang Wu, and Zhaoshan Wang

Subjects

whole-genome re-sequencing, ancestral-state base (ASB), derived base (DB), linked selection, demographic histories, Genetics, Genetics (clinical)

Abstract

Identifying alleles associated with adaptation to new environments will advance our understanding of evolution from the molecular level. Previous studies have found that the Populus davidiana southwest population in East Asia has differentiated from other populations in the range. We aimed to evaluate the contributions of the ancestral-state bases (ASBs) relative to derived bases (DBs) in the local adaptation of P. davidiana in the Yunnan–Guizhou Plateau from a quantitative perspective using whole-genome re-sequencing data from 90 P. davidiana samples from three regions across the species range. Our results showed that the uplift of the Qinghai–Tibet Plateau during the Neogene and associated climate fluctuations during the Middle Pleistocene were likely an important factor in the early divergence of P. davidiana. Highly differentiated genomic regions between populations were inferred to have undergone strong linked natural selection, and ASBs are the chief means by which populations of P. davidiana adapt to novel environmental conditions; however, when adapting to regions with high environmental differences relative to the ancestral range, the proportion of DBs was significantly higher than that of background regions, as ASBs are insufficient to cope with these environments. Finally, a number of genes were identified in the outlier region.

Published

2023