[1]夏文君,袁亚辉,贺晓烈,等.无蹼壁虎6个鸟类Z染色体连锁基因的 cDNA克隆和序列分析[J].南京师大学报(自然科学版),2014,37(01):128.
 Xia Wenjun,Yuan Yahui,He Xiaolie,et al.cDNA Cloning and Sequence Analyses of Six Avian Z-Linked Genes from Peking Gecko(Gekko swinhonis)[J].Journal of Nanjing Normal University(Natural Science Edition),2014,37(01):128.
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无蹼壁虎6个鸟类Z染色体连锁基因的 cDNA克隆和序列分析()
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《南京师大学报(自然科学版)》[ISSN:1001-4616/CN:32-1239/N]

卷:
第37卷
期数:
2014年01期
页码:
128
栏目:
生命科学
出版日期:
2014-03-30

文章信息/Info

Title:
cDNA Cloning and Sequence Analyses of Six Avian Z-Linked Genes from Peking Gecko(Gekko swinhonis)
作者:
夏文君袁亚辉贺晓烈李 鹏严 洁周开亚
南京师范大学生命科学学院,江苏省生物多样性和生物技术重点实验室,江苏 南京 210023
Author(s):
Xia WenjunYuan YahuiHe XiaolieLi PengYan JieZhou Kaiya
School of Life Sciences,Nanjing Normal University,Jiangsu Key Laboratory for Biodiversity and Biotechnology,Nanjing 210023,China
关键词:
无蹼壁虎性别决定Z连锁基因
Keywords:
Gekko swinhonissex determinationZ-linked genes
分类号:
Q95
文献标志码:
A
摘要:
利用RT-PCR技术从无蹼壁虎中获得了6个鸟类Z染色体连锁基因的cDNA片段序列.与铅山壁虎的同源基因序列相比,除CHD1-5’端序列中有3 bp的缺失外,其他基因序列均具有相同的核苷酸和氨基酸长度,且核苷酸序列和氨基酸序列的保守性均非常高(97%~100%).在与有鳞目、龟鳖目和鳄目的其他已知序列比较时,发现6个基因的8个片段有不同程度的同源性,其中GHR基因的同源性最低,与该基因片段在进化分析中较高的ω值(Ka/Ks)是一致的.性染色体连锁基因的克隆和染色体定位,将有助于进一步了解壁虎类甚至高等脊椎动物不同类型性染色体的起源和进化.
Abstract:
We sequenced partial cDNA sequences of the homologues of six avian Z-linked genes from Gekko swinhonis by using the RT-PCR approach.Comparing with those obtained from G.hokouensis,the lengths of all these fragments were identical at both nucleotide and amino acid levels except the 5’ region of CHD1,in which there had a deletion of 3 bp,furthermore,sequence similarity was very high(97%-100%).When comparing with other exsiting sequences from Squamata,Testudines and Crocodylia,varying degrees of similarity was found in sequences of eight fragments from six genes.GHR showed the lowest homology,which was concerdant with the relatively high value of ω(Ka/ks).Cloning and chromosomal location of the sex-chromosome linked genes will be helpful to elucidate the origins and evolutionary processes of different sex chromosomes in geckos or even in higher vertebrates.

参考文献/References:

[1] Ezaz T,Sarre S D,O’Meally D,et al.Sex chromosome evolution in lizards:independent origins and rapid transitions[J].Cytogenetic and Genome Research,2009,127(2/4):249-260.
[2]Solleder E,Schmid M.XX/XY sex chromosomes in Gekko gecko(Sauria,Reptilia)[J].Amphibia Reptilia,1984,5(3/4):339-345.
[3]Yoshida M,Itoh M.Karyotype of the gecko,Gekko japonicus[J].Chromosome Information Service,1974,17:29-31.
[4]Kawai A,Ishijima J,Nishids C,et al.The ZW sex chromosomes of Gekko hokouensis(Gekkonidae,Squamata)represent highly conserved homology with those of avian species[J].Chromosoma,2009,118(1):43-51.
[5]陈俊才,彭先步,余多慰.壁虎属三种壁虎的核型研究[J].两栖爬行动物学报,1986,5(1):24-29.
[6]吴贯夫,赵尔宓.大壁虎(Gekko gecko)和蹼趾壁虎(G.subpalmatus)的染色体组型研究[J].两栖爬行动物学报,1984,3(2):61-64.
[7]王蕊芳,马昆,施立明,等.大壁虎的染色体及减数分裂联会复合体的研究[J].动物学研究,1989,10(4):271-275.
[8]Cohen M M,Huang C C,Clark H F.The somatic chromosomes of 3 lizard species:Gekko gecko,Iguana iguana and Crotaphytuscollaris[J].Experientia,1967,23(9):769-771.
[9]Gamble T.A review of sex determining mechanisms in geckos(Gekkota:Squamata)[J].Sexual Development,2010,4:88-103.
[10]丁国骅.多疣壁虎的温度依赖型性别决定:现象和生理机制[D].南京:南京师范大学生命科学学院,2012:1-141.
[11]Sarre S D,Georges A,Quinn A.The ends of a continuum:genetic and temperature-dependent sex determination in reptiles[J].Bioessays,2004,26(6):639-645.
[12]Shine R,Elphick M J,Donnellan S.Co-occurrence of multiple,supposedly incompatible modes of sex determination in a lizard population[J].Ecology Letters,2002,5(4):486-489.
[13]Tamura K,Peterson D,Peterson N,et al.MEGA5:Molecular evolutionary genetics analysis using likelihood,distance,and parsimony methods[J].Molecular Biology and Evolution,2011,28(10):2731-2739.
[14]Zhang Z,Li J,Zhao X Q,et al.KaKs_Calculator:calculating Ka and Ks through model selection and model averaging[J].Genomics Proteomics Bioinformatics,2006,4(4):259-263.
[15]Yang Z,Nielsen R.Estimating synonymous and nonsynonymous substitution rates under realistic evolutionary models[J].Molecular Biology and Evolution,2000,17(1):32-43.
[16]Matsuda Y,Nishida-Umehara C,Tarui H,et al.Highly conserved linkage homology between birds and turtles:birds and turtle chromosomes are precise counterparts of each other[J].Chromosome Research,2005,13(6):601-615.
[17]Matsubara K,Tarui H,Toriba M,et al.Evidence for different origin of sex chromosomes in snakes,birds,and mammals and step-wise differentiation of snake sex chromosomes[J].Proceedings of the National Academy of Sciences of the USA,2006,103(48):18190-18195.
[18]Kawai A,Nishida-Umehara C,Ishijima J,et al.Different origins of bird and reptile sex chromosomes inferred from comparative mapping of chicken Z-linked genes[J].Cytogenetic and Genome Research,2007,117(1/4):92-102.
[19]雷富民,方荣盛,李克勤.无蹼壁虎和多疣壁虎种群内的差异[J].陕西师大学报:自然科学版,1992,20(2):93-94.

备注/Memo

备注/Memo:
收稿日期:2013-07-04.
基金项目:国家自然科学基金(31000949)、南京师范大学大学生实践创新训练计划.
通讯联系人:严洁,博士,副教授,研究方向:动物学.E-mail:yanjie@njnu.edu.cn
更新日期/Last Update: 2014-03-30