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Hung Sun Koh, Beong Kug Yang, Bae Keun Lee, Kyung Hee Jang, Seong Teak In, Jong Hyek Lee, Kwang Seon Kim, Gu Hee Kweon 충북대학교 동물의학연구소 2012 Journal of Biomedical and Translational Research Vol.13 No.4
To identify subspecies of the sika deer, Cervus nippon, and to select C. n. hortulorum individuals for restoration of this subspecies in Korea, we obtained cytochrome b partial sequences (375 bp) of sika deer (C. nippon) from deer farms in northeastern China, North Korea, mainland Korea, and Jeju Island. Based on noninvasive samples, these cytochrome b sequences were compared with the corresponding haplotypes of sika deer, which were obtained from GenBank. We identified five individuals of sika deer from deer farms in northeastern China and North Korea as C. n. hortulorum, and found that interbreeding between individuals belonging to different subspecies is common on deer farms in far-eastern Asia. We concluded that the five C. n. hortulorum individuals on deer farms from northeastern China and North Korea, detected in this study, cannot be considered as pure descendants of C. n. hortulorum in the wild.
고흥선,Beong Kug Yang,Bae Keun Lee,Kyung Hee Jang,Seong Teak In,Jong Hyek Lee,Kwang Seon Kim,Gu Hee Kweon 충북대학교 동물의학연구소 2012 Journal of Biomedical and Translational Research Vol.13 No.4
To identify subspecies of the sika deer, Cervus nippon, and to select C. n. hortulorum individuals for the restoration of this subspecies in Korea, we obtained cytochrome b partial sequences (375 bp) of sika deer (C. nippon) in deer farms from northeastern China, North Korea, mainland Korea, and Jeju Island, based on noninvasive samples: these cytochrome b sequences were compared to the corresponding haplotypes of sika deer, obtained from GenBank. We identified five individuals of sika deer from deer farms in northeastern China and North Korea as C. n. hortulorum, and found that interbreeding between individuals belonging to different subspecies is common in deer farms from far-eastern Asia. We concluded that the five C. n. hortulorum individuals in deer farms from northeastern China and North Korea, detected in this study, cannot be considered as pure descendants of C. n. hortulorum in the wild.
Hung Sun Koh,Beong Kug Yang,Bae Keun Lee,Kyung Hee Jang,Davaa Bazarsad,Nam Jeong Park 한국동물분류학회 2010 Animal Systematics, Evolution and Diversity Vol.26 No.3
To identify Korean red-backed voles (Myodes regulus) from Korea by mitochondrial DNA (mtDNA) sequencing, we obtained mtDNA control region sequences of 17 red-backed voles from Korea and northeast China, and these sequences were compared with the corresponding haplotypes of Myodes obtained from GenBank. We identified five red-backed voles from Mt. Changbai and Harbin as M. rufocanus and another three redbacked voles from Harbin as M. rutilus, respectively. Moreover, nine red-backed voles from Korea, showing the average nucleotide distance of 0.66% among nine haplotypes, were different from other species of Myodes, and the average distance between nine haplotypes of red-backed voles from Korea and seven haplotypes of M. rufocanus was 6.41%, whereas the average distance between nine haplotypes of red-backed voles from Korea and five haplotypes of M. rutilus was 14.8%. We identified the red-backed voles from Korea as M. regulus, and found that M. regulus is distinct in its mtDNA control region sequences as well, although we propose further analyses with additional specimens from East Asia using nuclear and mtDNA markers to confirm the distinctness of M. regulus.
Koh, Hung-Sun,Yang, Beong-Kug,Lee, Bae-Keun,Jang, Kyung-Hee,Bazarsad, Davaa,Park, Nam-Jeong The Korean Society of Systematic Zoology 2010 Korean Journal of Systematic Zoology Special Issue Vol.26 No.3
To identify Korean red-backed voles (Myodes regulus) from Korea by mitochondrial DNA (mtDNA) sequencing, we obtained mtDNA control region sequences of 17 red-backed voles from Korea and northeast China, and these sequences were compared with the corresponding haplotypes of Myodes obtained from GenBank. We identified five red-backed voles from Mt. Changbai and Harbin as M. rufocanus and another three redbacked voles from Harbin as M. rutilus, respectively. Moreover, nine red-backed voles from Korea, showing the average nucleotide distance of 0.66% among nine haplotypes, were different from other species of Myodes, and the average distance between nine haplotypes of red-backed voles from Korea and seven haplotypes of M. rufocanus was 6.41%, whereas the average distance between nine haplotypes of red-backed voles from Korea and five haplotypes of M. rutilus was 14.8%. We identified the red-backed voles from Korea as M. regulus, and found that M. regulus is distinct in its mtDNA control region sequences as well, although we propose further analyses with additional specimens from East Asia using nuclear and mtDNA markers to confirm the distinctness of M. regulus.