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

Publication date: June 2015 Source:Biochemical Systematics and Ecology, Volume 60 Author(s): Hao Yue , Chaochao Yan , Feiyun Tu , Chengzhong Yang , Wenqi Ma , Zhenxin Fan , Zhaobin Song , JaKe Owens , Shaoyin Liu , Xiuyue Zhang 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 reconstruction...
Source: Biochemical Systematics and Ecology - Category: Biochemistry Source Type: research
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