Your search keyword '"Zhaobin Song"' showing total 5 results

1. The complete mitochondrial genome of Triplophysa lixianensis (Teleostei: Cypriniformes: Balitoridae) with phylogenetic consideration

Author

Wei Li, Pengfei Yan, Huifang Jing, Xiaoyan Li, and Zhaobin Song

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Mitochondrial DNA, Phylogenetic tree, Ribosomal RNA, Biology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Stop codon, 03 medical and health sciences, 030104 developmental biology, Start codon, Codon usage bias, Transfer RNA, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

The complete mitochondrial genome of Triplophysa lixianensis was 16,570 bp in size and consisted of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, two ribosomal RNA (rRNA) genes as well as a control region. The gene arrangement, nucleotide composition, and the codon usage pattern of the mitochondrial genome of T . lixianensis were similar to those of other kinds of teleosts. Nucleotide composition of the whole mitogenome was 27.81% A, 28.45% T, 25.36% C, and 18.38% G. All protein-coding genes initiated with a typical ATG start codon except for COXI, which was started with GTG. Meanwhile, seven of the protein-coding genes shared the TAA or TAG as the stop codon, the other six utilized the incomplete stop codon TA or T. All tRNA genes can be folded into the typical cloverleaf structure. Phylogenetic trees, which were based on the 12 concatenated protein-coding genes, were constructed using the Bayesian and maximum likelihood methods. The result showed that the molecular genetic position was identical to the traditional taxonomy.

Published

2016

2. Two novel mitogenomes of Dipodidae species and phylogeny of Rodentia inferred from the complete mitogenomes

Author

Zhaobin Song, JaKe Owens, Chaochao Yan, Wenqi Ma, Shaoyin Liu, Xiuyue Zhang, Feiyun Tu, Hao Yue, Zhenxin Fan, and Chengzhong Yang

Subjects

biology, Phylogenetic tree, Zoology, Dipodinae, biology.organism_classification, Biochemistry, Dipodidae, Monophyly, Tandem repeat, Evolutionary biology, Phylogenetics, Clade, Muroidea, Ecology, Evolution, Behavior and Systematics

Abstract

Two novel mitogenomes of Eozapus setchuanus (KJ648495) and Sicista concolor (KJ648496) were reported and their total lengths were 16,630 bp and 16,493 bp, respectively. Both mitogenomes which were analogous to other rodent mitogenomes, contained 13 protein-coding genes, 22 tRNAs, 2 rRNAs, and a control region. Specifically, the ND2 gene of S. concolor has three amino acids lesser than that of two other Dipodidae species (E. setchuanus and Jaculus jaculus) due to a premature termination codon in the 3′ end. We detected a tandem repeat cluster of 221 bp and 274 bp in the control region of S. concolor and E. setchuanus, respectively. Along with phylogenetic relationship analysis, we speculated that the tandem repeats in control regions might be common in Dipodinae species. Our phylogenetic analysis using concatenated mitochondrial gene datasets suggested five suborder and 16 family monophyletic groups in 54 rodent taxa sampled and strongly supported a basal position of the squirrel-related clade (PP = 1; BP = 100). Dipodidae had a sister-group relationship with Muroidea, and Sicistinae was in the base of Dipodidae clade. The complete mitochondrial genomes showed high resolution in deep-level phylogenetic relationship reconstructions of Rodentia.

Published

2015

3. Mitochondrial genetic diversity and population structure of a vulnerable freshwater fish, rock carp (Procypris rabaudi) in upper Yangtze River drainage

Author

Xiuyue Zhang, Jun Song, Zhaobin Song, Feixia Hou, and Bisong Yue

Subjects

mtDNA control region, education.field_of_study, Genetic diversity, biology, Ecology, Population, biology.organism_classification, Biochemistry, Coalescent theory, Freshwater fish, Genetic variability, Carp, education, Endemism, Ecology, Evolution, Behavior and Systematics

Abstract

Rock carp (Procypris rabaudi (Tchang)) is an endemic species in the upper Yangtze River drainage. The genetic variability and population structure of eight populations (Mudong (MD), Hejiang (HJ), Wanzhou (WZ), Xishui (XS), Nantan (NT), Cangxi (CX), Tongjiang (TJ) and Wulong (WL)) were investigated based on mitochondrial DNA control region. According to the river dimensions, MD, HJ, WZ, WL and CX were defined as large river populations, while TJ, XS and NT were defined as small. The total genetic diversity level of rock carp was moderate (h = 0.858, π = 0.0079). Genetic differentiations among populations in small rivers were greater than those among populations in large rivers, and small rivers showed significant differentiation from large rivers. Analysis from the coalescent-based method showed that there were asymmetric gene flows among four large river populations (CX, HJ, MD and WZ). Demographic analyses suggested that the species as a whole and the WZ population experienced population expansion, while the HJ, NT, and MD populations experienced bottlenecks. The analysis of genetic diversity and population structure suggested that the WL, TJ, CX, NT and XS populations should be protected and managed separately, and that the HJ, MD and WZ populations should be considered as a genetic management unit.

Published

2014

4. Characterization of microsatellite loci in Schizopygopsis chengi chengi and their utilization in assessment of the genetic diversity in Schizopygopsis chengi baoxingensis

Author

Feixia Hou, Zhaobin Song, Haibin Zhang, Bo Wu, and Xiuyue Zhang

Subjects

Genetics, education.field_of_study, Genetic diversity, Mitochondrial DNA, Subfamily, Population, Schizopygopsis, Biology, Subspecies, biology.organism_classification, Biochemistry, Microsatellite, Allele, education, Ecology, Evolution, Behavior and Systematics

Abstract

Schizopygopsis chengi, which belongs to the subfamily Schizothoracinae, comprises two subspecies, Schizopygopsis chengi chengi and Schizopygopsis chengi baoxingensis. S. c. chengi inhabits streams and lakes in upper reaches of the Dadu River. S. c. baoxingensis occurs as a single population endemic to the Baoxing River in China. In order to provide the reliable molecular markers for genetic investigation of S. chengi, eleven tetranucleotide microsatellite loci were developed from GATA-enriched library. The polymorphism of the loci was tested in 25 S. c. chengi individuals and the results showed that the loci were highly polymorphic. Eight loci were successfully amplified in S. c. baoxingensis. Sixty-seven different alleles were observed in the 82 S. c. baoxingensis individuals, and AI, HO, and PIC were 2.258, 0.549 and 0.572, respectively. The level of genetic diversity based on microsatellite loci was different from the previous studies based on mitochondrial DNA for S. c. baoxingensis, suggesting combined analysis of nuclear and mitochondrial DNA was required.

Published

2013

5. An observation of the loss of genetic variability in prenant’s schizothoracin, Schizothorax prenanti, inhabiting a plateau lake

Author

Yang Liu, Xiuyue Zhang, Bisong Yue, Xuefei Zhang, Zhaobin Song, and Jingjing Liang

Subjects

mtDNA control region, Conservation genetics, geography, education.field_of_study, Genetic diversity, Plateau, geography.geographical_feature_category, biology, Ecology, Population, biology.organism_classification, Biochemistry, Schizothorax prenanti, Gene flow, Genetic variability, education, Ecology, Evolution, Behavior and Systematics

Abstract

Prenant’s schizothoracin (Schizothorax prenanti) was found naturally distributed in a plateau lake (Lake Wuxu) in upper reaches of the River Jiulong. The genetic diversities of the populations from L. Wuxu and R. Jiulong were investigated according to analysis of mtDNA control region and compared against three other reported river populations. The L. Wuxu population showed lower haplotype (h = 0.74) and nucleotide (π = 0.001) diversities compared to the R. Jiulong population (h = 0.87; π = 0.012); the lake population had suffered from a bottleneck, which might contribute to its low genetic diversity; the lake population significantly differentiated from the river populations, and significant gene flow was hardly found between river populations and L. Wuxu population, suggesting that there is a strong population structure between the lake and river populations. The L. Wuxu population was ecologically isolated from the R. Jiulong population, while the relatively low genetic variability had not affected its viability.

Published

2011