Your search keyword '"Nuclear gene"' showing total 2 results

1. Amplicon capture phylogenomics provides new insights into the phylogeny and evolution of alpine Parnassius butterflies (Lepidoptera: Papilionidae).

Author

Tian, Xiao, Mo, ShiFang, Liang, Dan, Wang, HouShuai, and Zhang, Peng

Subjects

*PAPILIONIDAE, *MITOCHONDRIAL DNA, *PHYLOGENY, *LEPIDOPTERA, *BUTTERFLIES, *MOLECULAR phylogeny, *MOUNTAIN soils

Abstract

The alpine butterfly genus Parnassius is a popular model group for studying biogeography, evolution, conservation biology, and ecology. Despite its scientific importance, a comprehensive and robust phylogeny of this group is still lacking. In this study, we used an amplicon capture strategy to sequence 144 nuclear protein‐coding genes and complete mitochondrial genomes for 60 Parnassius specimens covering 42 species and all eight subgenera of Parnassius. Our results strongly support the monophyly of the genus and eight subgenera. The relationships among subgenera are robustly resolved as (Sachaia, (Kreizbergia, (Driopa, (Parnassius, (Tadumia, Lingamius), (Kailasius, Koramius))))), which is different from all previous results. Biogeographic and divergence time analyses indicate that the ancestor of Parnassius originated in an area including the Himalayas and Tibetan Plateau (HTP) and Mongolian steppes in the middle Miocene approximately 13.19 Mya. The middle Miocene global cooling event (starting from ~13.9 Mya) probably provided climatic opportunities for the diversification of cold‐adapted Parnassius. The ancestral state reconstruction analyses suggest that the ancestor of Parnassius butterflies most likely lived in a medium elevational area (2000–4000 m) and fed on Papaveraceae plants. The host shift from Papaveraceae to Crassulaceae in the subgenus Parnassius increases the species diversity of this subgenus, concurring with the "escape and radiate" hypothesis. Overall, our work provides valuable nuclear gene and mitochondrial genome data and a robust phylogenetic framework of Parnassius for future studies of the taxonomy, evolution, and ecology of this group. [ABSTRACT FROM AUTHOR]

Published

2023

2. Insights into the evolutionary history and taxonomic status of Sinopteris (Pteridaceae).

Author

Wang, Lei, Yang, Wenli, Zhang, Xianchun, Zhang, Danke, and Zhang, Gangmin

Subjects

*CHLOROPLAST DNA, *PTERIDACEAE, *TIME perception, *MIOCENE Epoch, *PHYLOGENY, *MONSOONS

Abstract

[Display omitted] • We obtain a well-resolved phylogeny of Aleuritopteris and Sinopteris based on the chloroplast genome and three nuclear genes. • Sinopteris originated in the late Miocene (ca. 6.96 Ma), accompanied by the sharp Intensifications of Asian Monsoon, and began to diversify at 2.34 Ma after the intense uplift of the Hengduan Mountains. • Core morphological characters of monangial sori and subsessile sporangium of Sinopteris are clearly derived characters rather than the early diverged ones. • Both the Molecular phylogenetic and morphological analyses indicate that Sinopteris is not an early diverged taxon, supporting the inclusion of Sinopteris in Aleuritopteris. As an endemic Chinese genus, Sinopteris C. Chr. & Ching was once considered an early diverged taxon of cheilanthoid ferns, and its taxonomic status has long been controversial. In this study, eight datasets spanning the complete chloroplast genomes and three nuclear genes were used to reconstruct the phylogeny of Sinopteris and its relatives. In addition, combining morphological analyses, divergence time estimation, and ancestral trait reconstruction, the origin and evolutionary history of Sinopteris were comprehensively discussed. Based on the complete chloroplast genome dataset, our analyses yielded a phylogram with all clades strongly supported (ML-BS = 100, BI-PP = 1.0), and the topology was almost identical to that based on the concatenated sequences of nrDNA, CRY 2, and IBR 3. Two species of Sinopteris were united and sister to Aleuritopteris niphobola (C. Chr.) Ching. They constituted a stable monophyletic group embedded in Aleuritopteris Fée. This was also consistent with the results of morphological analyses. Divergence time estimation indicated that the clade of Aleuritopteris and Sinopteris originated in the early Miocene (ca. 16.80 Ma) and experienced two rapid diversifications, which could coincide with environmental heterogeneity caused by the progressive uplift of the Himalayas and the intense uplift of the Hengduan Mountains. Sinopteris originated in the late Miocene (ca. 6.96 Ma), accompanied by the sharp intensifications of Asian Monsoon, and began to diversify at 2.34 Ma, following the intense uplift of the Hengduan Mountains. Ancestral character reconstruction showed that monangial sori and subsessile sporangia were clearly late derived states rather than early diverged states. Both the molecular phylogenetic and morphological analyses support the inclusion of Sinopteris in Aleuritopteris. [ABSTRACT FROM AUTHOR]

Published

2023