| Citation: |
XIAO Wu-han, ZHANG Ya-ping. MITOCHONDRIAL DNA DIVERSITY IN POPULATIONS OF XENOCYPRIS ARGENTEA AS REVEALED BY RESTRICTION ANALYSIS[J]. ACTA HYDROBIOLOGICA SINICA, 2000, 24(1): 1-10.
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Billington N. Hebert P D N. Mitochondrial DNA diversity in fishes and its implications for introductions[J].Can.J.Fish.Aquat. Sci.,1991,48(suppl.l):80~94[2] Avise J C.,et al.,Intraspecific phylogeography: the mitochondrial DNA bridge between population geneticsand systematics [J]. Ann. Rev. Ecol. Sys., 1987, 18:489-522[3] 陈宜瑜等著,中国动物志硬骨鱼纲鲤形目(中卷)[M].北京:科学出版社,1998:208-224[4] 肖武汉等,一种从鱼类卵巢制备地高辛标记mtDNA探针的简易方法[J].动物学研究,1997,18:58,72,78[5] 王文等,云南4种少数民族的随机扩增多态DNA分析[J].科学通报,1994,39(20):1900-1903[6] Nei M. Li W H. Mathematical model for studying genetic variation in terms of restriction endonucleases [J].Proc. Natl. Acad. Sci. USA, 1979, 76(10):5260~5273[7] Felsenstein J., In: PHYLIP ver 3.5c. Department of Genetics [M], University of Washington, Seattle. 1993[8] 罗静等,鲫鱼遗传多样性的初步研究[J].遗传学报,1998(印刷中)[9] 李思发等,长江中下游鲢鳙草青四大家鱼线粒体DNA多样性分析[J].动物学报,1998,44(1):82-93[10] 王宾贤等,银鲴性腺发育和胚胎发育的观察[J].水生生物学集刊,1984,8(3):271-282[11] Grewe P M., et al., Mitochondrial DNA variation among Lake trout (Salvelinus namaycush) strains stockedinto Lake Ontario[J]. Can. J. Fish. Aquat. Sci., 1993, 50:2397-2403[12] 朱居宏,梁子湖密鲴的生物学[J].水生生物学集刊,1960,(2):159-169[13] Birt T P.,et al.,Mitochondrial DNA variation reveals genetically distinct sympatric populations ofanadromous and nonanadromous Atlantic salmon [J], Salmo salar. Can. J. Fish.AAquat. Sci., 1991, 48:577-582[14] Mcveigh H P., et al., Mitochondrial DNA differentiation of sympatric populations of brown trout, Samotrutta L., from Lough melvin, Ireland [J]. Can. J. Fish. Aquat. Sci., 1995, 52:1617-1622[15] 曹丽琴、孟庆闻,中国鲴亚科同工酶和骨骼特征及系统演化的探讨[J].动物分类学报,1992,17(3):366-376[16] Bermingham E. Avise J C. Molecular zoogeography of freshwaterfishes in the Southeastem United States[J].Genetics, 1986, 113:939-965[17] Cantatore P M., et al., Evolutionary analysis of cytochrome b sequence in some Petciformes: Evidence fora slower rate of evolution than in mammals[J]. J. Mol. Evol., 1994, 39:589-597[18] 刘焕章,鳜类的骨骼解剖和系统发育研究[D].1993,中国科学院水生生物研究所博士学位论文
Billington N. Hebert P D N. Mitochondrial DNA diversity in fishes and its implications for introductions[J].Can.J.Fish.Aquat. Sci.,1991,48(suppl.l):80~94[2] Avise J C.,et al.,Intraspecific phylogeography: the mitochondrial DNA bridge between population geneticsand systematics [J]. Ann. Rev. Ecol. Sys., 1987, 18:489-522[3] 陈宜瑜等著,中国动物志硬骨鱼纲鲤形目(中卷)[M].北京:科学出版社,1998:208-224[4] 肖武汉等,一种从鱼类卵巢制备地高辛标记mtDNA探针的简易方法[J].动物学研究,1997,18:58,72,78[5] 王文等,云南4种少数民族的随机扩增多态DNA分析[J].科学通报,1994,39(20):1900-1903[6] Nei M. Li W H. Mathematical model for studying genetic variation in terms of restriction endonucleases [J].Proc. Natl. Acad. Sci. USA, 1979, 76(10):5260~5273[7] Felsenstein J., In: PHYLIP ver 3.5c. Department of Genetics [M], University of Washington, Seattle. 1993[8] 罗静等,鲫鱼遗传多样性的初步研究[J].遗传学报,1998(印刷中)[9] 李思发等,长江中下游鲢鳙草青四大家鱼线粒体DNA多样性分析[J].动物学报,1998,44(1):82-93[10] 王宾贤等,银鲴性腺发育和胚胎发育的观察[J].水生生物学集刊,1984,8(3):271-282[11] Grewe P M., et al., Mitochondrial DNA variation among Lake trout (Salvelinus namaycush) strains stockedinto Lake Ontario[J]. Can. J. Fish. Aquat. Sci., 1993, 50:2397-2403[12] 朱居宏,梁子湖密鲴的生物学[J].水生生物学集刊,1960,(2):159-169[13] Birt T P.,et al.,Mitochondrial DNA variation reveals genetically distinct sympatric populations ofanadromous and nonanadromous Atlantic salmon [J], Salmo salar. Can. J. Fish.AAquat. Sci., 1991, 48:577-582[14] Mcveigh H P., et al., Mitochondrial DNA differentiation of sympatric populations of brown trout, Samotrutta L., from Lough melvin, Ireland [J]. Can. J. Fish. Aquat. Sci., 1995, 52:1617-1622[15] 曹丽琴、孟庆闻,中国鲴亚科同工酶和骨骼特征及系统演化的探讨[J].动物分类学报,1992,17(3):366-376[16] Bermingham E. Avise J C. Molecular zoogeography of freshwaterfishes in the Southeastem United States[J].Genetics, 1986, 113:939-965[17] Cantatore P M., et al., Evolutionary analysis of cytochrome b sequence in some Petciformes: Evidence fora slower rate of evolution than in mammals[J]. J. Mol. Evol., 1994, 39:589-597[18] 刘焕章,鳜类的骨骼解剖和系统发育研究[D].1993,中国科学院水生生物研究所博士学位论文
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