Yang Yanci, Zhou Tao, Qian Zengqiang, Zhao Guifang
Key Laboratory of Resource Biology and Biotechnology in Western China (Ministry of Education), College of Life Sciences, Northwest University, Xi'an, China; School of Biological Science and Technology, Baotou Teachers' College, Baotou, China.
School of Pharmacy, Xi'an Jiaotong University, Xi'an, China.
Genomics. 2021 May;113(3):1438-1447. doi: 10.1016/j.ygeno.2021.03.013. Epub 2021 Mar 17.
China is a second center of oak diversity but with less intensively systematic studies. Here, with 49 species representing all four sections in China, we firstly gave insight into the comprehensive phylogenetic relationships of Chinese oaks based on 54 complete plastid genomes. Our results recovered a robust phylogenetic framework and provided strong support for most nodes. The phylogenetic tree supported Quercus section Ilex as not monophyletic, in which Quercus section Cyclobalanopsis and Quercus section Cerris were nested. Most likely, incomplete lineage sorting and/or introgression among ancestral lineages in these three sections resulted in this complex pattern. The current distribution, diversification and molecular differentiation of Q. sect. Ilex in China are likely consequences of local adaptation to the geographic and paleoclimatic changes, which were driven by the uplift of Tibetan Plateau, the Hengduan Mountains and the Himalayas.
中国是橡树多样性的第二个中心,但系统研究较少。在这里,我们以代表中国所有四个组的49个物种为研究对象,首次基于54个完整的质体基因组,深入了解了中国橡树的综合系统发育关系。我们的结果恢复了一个强大的系统发育框架,并为大多数节点提供了有力支持。系统发育树支持冬青栎组不是单系的,其中青冈组和栗栎组嵌套在其中。很可能,这三个组中祖先谱系之间不完全的谱系分选和/或基因渗入导致了这种复杂的模式。中国冬青栎组目前的分布、多样化和分子分化可能是对地理和古气候变化局部适应的结果,这些变化是由青藏高原、横断山脉和喜马拉雅山脉的隆升驱动的。
