昆明细胞库发表的部分论文 施立明。冷冻动物园—野生动物细胞库的建立和应用。生物学通报,6:31-35,1989。 施立明。 遗传多样性及其保存。生物科学信息,2:158-164,1990。 王金焕, 苏 榕, 苏伟婷, 成 诚, 魏曙光, 丁海华, 段 英, 李生斌, 佴文惠。朱鹮细胞系的建立及其生物学特性观察。动物学研究,33(6): 591-596, 2012。 毛秀光,王金焕,苏伟婷,张礼标,赵旭东,韦力,佴文惠,杨凤堂。2007。中国4种蝙蝠的G-带和C-带。动物学杂志,42:33-40。 田颖,佴文惠,王金焕,杨云飞,杨凤堂。比较染色体涂色显示小熊猫(Ailurus fulgens)具有高度保守的核型。遗传学报,29(2):124-127,2002。 佴文惠,陈玉泽,刘瑞清。水貂的染色体研究。兽类学报, 18:192-195,1998。 余定会, 杨凤堂,刘瑞清。利用染色体涂染方法建立人和白眉长臂猿(Hylobates hoolock)的比较染色体图谱。遗传学报,24: 417-423,1997。 刘瑞清,佴文惠, 陈玉泽。石貂的染色体研究。动物学研究,16:275-279,1995。 Nie Wenhui, O’Brien PCM, Fu Beiyuan, Wang Jinhuan, Su Weiting, He Kai, Bed’hom Bertrand, Volobouev Vitaly, Ferguson-Smith MA, Dobigny Gauthier, Yang Fengtang. Multidirectional chromosome painting substantiates the occurrence of extensive genomic reshuffling within Accipitriformes. BMC Evolutionary Biology, 15:205, 2015. Zhao Bo, Zhang Weidao, Duan Yingliang, Lu Yongqing, Cun Yixuan, Li Chaohui, Guo Kun, Nie Wenhui, Li Lei, Zhang Rugang, Zheng Ping. Filia is an ESC-specific regulator of DNA damage response and safeguards genomic stability. Cell Stem Cell, 16, 1–15, 2015. Romanenko SA, Perelman PL, Trifonov VA, Serdyukova NA, Li T, Fu B, O’Brien PCM, Ng BL, Nie Wenhui, Liehr T, Stanyon S, Graphodatsky AS, Yang F. A First Generation Comparative Chromosome Map between Guinea Pig (Cavia porcellus) and Humans. Plos One, 10: e0127937, 2015. Sun S, Jiang P, Su W, Xiang Y, Li J, Zeng L, Yang S. Wild chrysanthemum extract prevents UVB radiationinduced acute cell death and photoaging. Cytotechnology, 64:95–105, 2014. Ye J, Ma L, Yang L, Wang J, Wang Y, Guo H, Gong N, Nie W, Zhao S. Partial AZFc duplications not deletions are associated with male infertility in the Yi population of Yunnan Province,China. J Zhejiang Univ-Sci B (Biomed & Biotechnol), 14: 807-815, 2013. Nie W. Molecular Cytogenetic Studies in Strepsirrhine, Primates, Dermoptera and Scandentia. Cytogenet Genome Res, 137: 246-258, 2012. Perelman PL, Beklemisheva VR, Yudkin DV, Petrina TN, Rozhnov VV, Nie W, Graphodatsky AS. Comparative Chromosome Painting in Carnivora and Pholidota. Cytogenet Genome Res, 137: 174-193, 2012. He K, Wang J, Su W, Li Q, Nie W, Jiang X. Karyotype of the Gansu mole (Scapanulus oweni): further evidence for karyotypic stability in talpid. Mammal Study, 37: 341–348, 2012. Nie W, Wang J, Su W, Wang D, Tanomtong A, Perelman PL, Graphodatsky AS, Yang F. Chromosomal rearrangements and karyotype evolution in carnivores revealed by chromosome painting. Heredity, 108:17–27, 2011. Kulemzina AI, Nie W, Trifonov VA, Staroselec Y, Vasenkov DA, Volleth M, Yang F, Graphodatsky AS. Comparative chromosome painting of four Siberian Vespertilionidae species with Aselliscus stoliczkanus and Human Probes. Cytogenet Genome Res, 134:200-205, 2011. Wang J, Su W, Nie W, Wang J, Xiao W, Wang D. Establishment and characterization of fibroblast cell lines from the skin of the Yangtze finless porpoise. In Vitro Cell Dev Biol—Animal, 47: 618–630, 2011. Liu Y, Ye J, Fu B, Ng BL, Wang J, Su W, Yang F, Nie W. Molecular cytogenetic characterization of the genome organization of the 6-banded armadillo (Euphractus sexcinctus). Cytogenet Genome Res, 132:31–40, 2011. Ye J, Nie W, Wang J, Su W, Jing M, Graphodatsky AS, Yang F. Genome-wide comparative chromosome map between human and the Forrest’s pika (Ochotona forresti) established bycross-species chromosome painting: Further support for the glires hypothesis. Cytogenet Genome Res, 132:41-46, 2011. Kulemzina AI, Nie W, Trifonov VA, Staroselec Y, Vasenkov DA, Volleth M, Yang F, Graphodatsky AS. Comparative chromosome painting of four Siberian Vespertilionidae species with Aselliscus stoliczkanus and Human Probes. Cytogenet Genome Res, 134:200-205, 2011. Huang L, Jing M, Nie W, Robinson TJ, Yang F. Chromosome Homologies between Tsessebe (Damaliscus lunatus) and Chinese muntjac (Muntiacus reevesi) Facilitate Tracing the Evolutionary History of Damaliscus (Bovidae, Antilopinae, Alcelaphini). Cytogenet Genome Res, 132:264–270, 2011. Mao X, Wang J, Su W, Wang Y, Yang F, Nie W. Karyotypic evolution in family Hipposideridae (Chiroptera, Mammalia) revealed by comparative chromosome painting, G- and C-banding. Zoological Res, 31:453−460, 2010. Nie W, Wang J, Su W, Wang Y, Yang F. Chromosomal rearrangements underlying karyotype differences between Chinese pangolin (Manis pentadactyla) and Malayan pangolin (Manis javanica) revealed by chromosome painting. Chromosome Res, 17:321–329, 2009. Mao X, Nie W, Wang J, Su W, Feng Q, Wang Y, Dobigny G, Yang F. Comparative cytogenetics of bats (Chiroptera): The prevalence of Robertsonian translocations limits the power of chromosomal characters in resolving interfamily phylogenetic relationships. Chromosome Res, 16:155–170, 2008. Che J, Wang J, Su W, Ye J, Wang Y, Nie W, Yang F. Construction, characterization and FISH mapping of a bacterial artificial chromosome library of Chinese pangolin (Manis pentadactyla). Cytogenet Genome Res, 122:55-60, 2008. Huang L, Nesterenko A, Nie W, Wang J, Su W, Graphodatsky AS,Yang F. Karyotype evolution of giraffes (Giraffa camelopardalis) revealed bycross-species chromosome painting with Chinese muntjac (Muntiacus reevesi) and human (Homo sapiens) paints. Cytogenet Genome Res, 122:132–138, 2008. Liu Y, Nie W, Huang L, Wang J, Su W, Lin C, Yang F. Cloning, Characterization, and FISH Mapping of Four Satellite DNAs from Black Muntjac (Muntiacus crinifrons) and Fea’s Muntjac (M. feae). Zoological Res, 29:225-235, 2008. Zhou Q, Wang J, Huang L, Nie W, Wang J, Liu Y, Zhao X, Yang F, Wang W. Neo-sex chromosomes in the black muntjac recapitulate incipient evolution of mammalian sex chromosomes. Genome Biology, 9: R8, 2008. Perelman PL, Graphodatsky AS, Dragoo JW, Serdyukova NA, Stone G, Cavagna P, Menotti A, Nie W, O’Brien PCM, Wang J, Burkett S, Yuki K, Roelke ME, O’Brien SJ, Yang F, Stanyon R. Chromosome painting shows that skunks (Mephitidae, Carnivora) have highly rearranged karyotypes. Chromosome Res, 16:1215–1231, 2008. Ao L, Mao X, Nie W, Gu X, Feng Q, Wang J, Su W, Wang Y, Volleth M, Yang F. Karyotypic evolution and phylogenetic relationships in the order Chiroptera as revealed by G-banding comparison and chromosome painting. Chromosome Res, 15: 257-267, 2007. Mao X, Nie W, Wang J, Su W, Ao L, Feng Q, Wang Y, Volleth M, Yang F. Karyotype evolution in Rhinolophus bats (Rhinolophidae, Chiroptera) illuminated by cross-species chromosome painting and G-banding comparison. Chromosome Res, 15: 835-847, 2007. Romanenko SA, Volobouev VT,Perelman PL, Lebedev VS, Serdukova NA, Trifonov VA, Biltueva LS, Nie W, O’Brien PCM, Bulatova NS, Ferguson-Smith MA, Yang F, Graphodatsky AS. Karyotype evolution and phylogenetic relationships of hamsters (Cricetidae, Muroidea, Rodentia) inferred from chromosomal painting and banding comparison. Chromosome Res, 15:283-297, 2007. Yang F, Graphodatsky AS, Li T, Fu B, Dobigny G, Wang J, Perelman PL, Serdukova NA, Su W, O’Brien PCM, Wang Y, Ferguson-Smith MA, Volobouev V, Nie W. Comparative genome maps of the pangolin, hedgehog, sloth, anteater and human revealed by cross-species chromosome painting: further insight into the ancestral karyotype and genome evolution of eutherian mammals. Chromosome Res, 14: 283–296, 2006. Ye J, Biltueva L, Huang L, Nie W, Wang J, Jing M, Su W, Vorobieva NV, Jiang X, Graphodatsky AS, Yang F. Cross-species chromosome painting unveils cytogenetic signatures for the Eulipotyphla and evidence for the polyphyly of Insectivora. Chromosome Res, 14: 151-159, 2006. Li T, Wang J, Su W, Nie W, Yang F. Karyotypic evolution of the Family Sciuridae: inferences from the genome organizations of ground squirrels. Cytogenet Genome Res, 112: 270-276, 2006. Li T, Wang J, Su W, Yang F. Chromosomal mechanisms underlying the karyotype evolution of the oriental voles (Muridae, Eothenomys). Cytogenet Genome Res, 114:50–55, 2006. Ao L, Gu X, Feng Q, Wang J, O’Brien PCM, Fu B, Mao X, Su W, Wang Y, Volleth M, Yang F, Nie W. Karyotypic relationships of six bat species (Chiroptera, Vespertilionidae) from China revealed by chromosome painting and G-banding comparison. Cytogenet Genome Res, 115:145–153, 2006. Huang L, Chi J, Wang J, Nie W, Su W, Yang F. High-density comparative BAC mapping in the black muntjac (Muntiacus crinifrons): molecularcytogenetic dissection of the origin of the MCR 1p+4 in the X1X2Y1Y2Y3 sex chromosome system. Genomics, 87: 608-615, 2006. Huang L, Wang J, Nie W, Su W, Yang F. Tandem chromosome fusions in karyotypic evolution of Muntiacus: evidence from M. feae and M. gongshanensis. Chromosome Res, 14:637–647, 2006. Huang L, Chi J, Nie W, Wang J, Yang F. Phylogenomics of several deer species revealed by comparative chromosome painting with Chinese muntjac paints. Genetica, 127:25-33, 2006. Romanenko SA, Perelman PL, Serdukova NA, Trifonov VA, Biltueva LS,Wang J, Li T, Nie W, O’Brien PCM, Volobouev VT, Stanyon R, Ferguson-Smith MA,Yang F, Graphodatsky AS. Reciprocal chromosome painting between three laboratory rodent species. Mammalian Genome, 17:1183-1192, 2006. Zhou Q, Huang L, Zhang J, Zhao X, Zhang Q, Song F, Chi J, Yang F, Wang W. Comparative Genomic Analysis Links Karyotypic Evolution with Genomic Evolution in the Indian Muntjac (Muntiacus muntjak vaginalis). Chromosoma, 115:427–436, 2006. Perelman PL, Graphodatsky AS, Serdukova NA, Nie W, Alkalaeva EZ, Fu B, Robinson TJ, Yang F. Karyotypic conservatism in the suborder Feliformia (Order Carnivora). Cytogenet Genome Res, 108: 348-354, 2005. Chi J, Fu B, Nie W, Wang J, Graphodatsky AS, Yang F. New insights into the karyotypic relationships of Chinese muntjac (Muntiacus reevesi), forest musk deer (Moschus berezovskii) and gayal (Bos frontalis). Cytogenet Genome Res, 108: 310-316, 2005. Chi J, Huang L, Nie W, Wang J, Su B, Yang F. Defining the orientation of the tandem fusions that occurred during the evolution of Indian muntjac chromosomes by BAC mapping. Chromosoma, 114: 167–172, 2005. Huang L, Nie W, Wang J, Su W, Yang F. Phylogenomic study of the subfamily caprinae by cross-species chromosome painting with Chinese muntjac paints. Chromosome Res, 13: 389-399, 2005. Perelman PL, Graphodatsky AS, Serdukova NA, Nie W, Alkalaeva EZ, Fu B, Robinson TJ, Yang F. Karyotypic conservatism in the suborder Feliformia (Order Carnivora). Cytogenet Genome Res, 108(4): 348-54, 2005. Li T, O'Brien PC, Biltueva L, Fu B, Wang J, Nie W, Ferguson-Smith MA,Graphodatsky AS, Yang F. Evolution of genome organizations of squirrels (Sciuridae) revealed by cross-species chromosome painting. Chromosome Res, 2004, 12(4): 317-35. Yang F, Fu B, O'Brien PC, Nie W, Ryder OA, Ferguson-Smith MA. Refined genome-wide comparative map of the domestic horse, donkey and human based on cross-species chromosome painting: insight into the occasional fertility of mules. Chromosome Res, 12: 65-76, 2004. Tian Y, Nie W, Wang J, Ferguson-Smith MA, Yang F. Chromosome evolution in bears: reconstructing phylogenetic relationships by cross-species chromosome painting. Chromosome Res, 12: 55-63, 2004. Xu H, Qian Y, Nie W, Chi J, Yang F Su B. Construction, characterization and chromosomal mapping of bacterial artificial chromosome (BAC) library of Yunnan snub-nosed monkey (Rhinopithecus bieti). Chromosome Res, 12: 251-262, 2004. Nie W, Wang J, Perelman P, Graphodatsky AS, Yang F. Comparative chromosome painting defines karyotypic relationships among the domestic dog, Chinese raccoon dog and Japanese raccoon dog. Chromosome Res, 11: 735-740, 2003. Nie W, Wang J, O’Brien PCM, Fu B, Ying T, Ferguson-Smith MA, Yang F The genome phylogeny of domestic cat, red panda and five mustelid species revealed by comparative chromosome painting and G-banding. Chromosome Res, 10: 209-222, 2002. Nie W, Rens W, Wang J, Yang F. Conserved chromosomal segments in Hylobates hoolock revealed by paint probes from human and Hylobates leucogenys. Cytogenet Cell Genet, 92: 248-253, 2001. Nie W, Liu R, Chen Y, Wang J, Yang F. Mapping chromosomal homologies between humans and two langurs (Semnopithecus francoisi and S. phayrei) by chromosome painting. Chromosome Res, 6: 447-453, 1998. |