水产生物微卫星标记技术研究进展及其应用

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1中国水产科学研究院黑龙江水产研究所,农业部北方鱼类生物工程育种实验室,黑龙江哈尔滨150070


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微卫星标记的发展和利用极大地扩展了DNA分子标记应用的深度和广度,使探索生物性状遗传本质的研究发生了革命性变化.本文简要介绍了微卫星标记技术的发展及其在水产遗传与育种研究中的应用.首先回顾了微卫星克隆技术的发展,尤其是水产生物微卫星标记及技术的发展过程,以及水产生物微卫星序列的主要来源,并对微卫星标记与其他DNA分子标记在使用范围、难易程度等方面做了比较;其次探讨了微卫星标记在遗传连锁图谱的制备、性状分析及QTL定位、群体遗传学、进化遗传、种质鉴定与亲权分析、品种培育等6个研究领域的应用;本文还对几种DNA分子标记在操作上的难易程度、多态性程度、重复性与可比性等方面进行了比较,同时还分别阐述了微卫星和其他DNA分子标记应用于水产生物研究中的适用性,并对微卫星标记的应用前景做了展望.本文旨在为微卫星标记技术在水产生物中的有效应用提供理论依据.

[1] Skinner D M;Beattie W G;Blattner F R et al.The repeat sequence of a hermit crab satellite deoxyribonucleic acid is (-T-A-G-G-) n-(-A-T-C-C-) n[J].Biochemistry,1974,13(19):3930-3937.

[2] Selsing E;Leslie A G;Arn0tt S et al.Cenformatious of satellite DNAs[J].Nucleic Acids Research,1976,3(10):2451-2457.

[3] Tautz D;Renz M .Simple sequences are ubiquitous repetitive components of eukaryotic genomes[J].Nucleic Acids Research,1984,25(10):4127-4138.

[4] Hamada H;Petrino M G;Kakunaga T .A novel repeated element with Z-DNA-forming potential is widely found in evolutionarily diverse eukaryotic genomes[J].Proceedings of the National Academy of Sciences(USA),1982,79:6465-6469.

[5] Jeffreys A J;Royle N J;Wilson V et al.Spontaneous mutation rates to new length alleles at tandem-repetitive hypervariable loci in human DNA[J].Nature,1988,332(6161):278-281.

[6] Beckmann J S;Soller M .Towards a unified approach to genetic mapping of eukaryotes based on sequence tagged microsatellites[J].Bio/Technology,1990,8:930-932.

[7] Weber J L;May P E .Abundant class of human DNA polymorphisms which can be typed using the polymetase chain reaction[J].American Journal of Human Genetics,1990,44:388-396.

[8] Weber J L .Human DNA polymorphisms and methods of analysis[J].Current Opinion in Biotechnology,1990,1:166-171.

[9] Taggart J B;Ferguson A .Minisatellite DNA fingerprinting of salmenid fishes[J].Animal Genetics,1990,21:377-389.

[10] Bentzen P;Harris A;Wright J M.Cloning ofhypervariable minisatellite and simple sequence microsatellite repeats for DNA fingerprinting of important aquaculture species of salmonids and tilapia[A].Basel:Birkhauser Verlag,1991:243-262.

[11] 孙效文,贾智英,魏东旺,鲁翠云,梁利群.磁珠富集法与小片段克隆法筛选鲤微卫星的比较研究[J].中国水产科学,2005(02):126-132.

[12] Chang Ya-Hui;Su Wen-Hui;LeeTso-Ching .TPMD:a database and resources of microsatellite marker genotyped in Taiwanese populations[J].Nucleic Acids Research,2005,33:D174-D177.

[13] Lindqvist A K;Magnusson P K;Balciuniene J .Chromosome-specific panels of tri-and tetranucleotide microsatellite markers for multiplex fluorescent detection and automated genotyping:evaluation of their utility in pathology and forensics[J].Genome Research,1996,6:1170-1176.

[14] Knapik E W;Goodman A;Atkinson O S .A reference cross DNA panel for zebrafish anchored with simple sequence length polymorphisms[J].DEVELOPMENT,1996,123:451-460.

[15] Kijas JMH;Fowler JCS;Garbett C A .Thomas MR:Enrichment of microsatellites from the Citrus geuome using biotinylated oligonucleotide sequences bound to streptavidin-coated magnetic particles[J].Biotechniques,1994,16:656-662.

[16] JIA Z;Sun X;Liang L et al.Isolation and characterization of microsatellite markers from Fangzheng silver crucian carp(Carassius auratus gibelio(Bloch) and cross-amplification in the closely related species crucian carp(C.auratus auratus(Linnaens)[J].MEN,2006,6:1141-1143.

[17] Tong GX;Kuang YY;Yin JS;Liang LQ;Sun XW .Isolation of microsatellite DNA and analysis on genetic diversity of endangered fish, Hucho taimen (Pallas)[J].Molecular ecology notes,2006(4):1099-1101.

[18] Gupta M;Chyi Y-S;Romero-Severson J et al.Amplification of DNA markers from evolutionarily diverse genomes using single primers of simple-sequence repeats[J].Theoretical and Applied Genetics,1994,89:998-1006.

[19] Zietkiewicz E;Rafalski A;Labuda D .Genome fingerprinting by simple sequence repeat (SSR)-anchored polymerase chain reaction amplification[J].Genomics,1994,20:176-183.

[20] Wu K S;Jones R;Danneberger L et al.Detection of microsatellite polymorphisms without cloning[J].Nucleic Acids Research,1994,22(15):3257-3258.

[21] 吴晓雷,吴晓雷,贺超英,陈受宜,庄炳昌,王克晶,王学臣.用SSR分子标记研究大豆属种间亲缘进化关系[J].遗传学报,2001(04):359-366.

[22] Zane L.;Bargelloni L.;Patarnello T. .Strategies for microsatellite isolation: a review [Review][J].Molecular ecology,2002(1):1-16.

[23] Cheng L;Yu X;Liao X;Tong J .Development of EST-SSRs by an efficient FIASCO-based strategy:a case study in rare minnow(Gobiocypris rarus)[J].Animal Biotechnology,2007,18:1-10.

[24] 鲁翠云,全迎春,李大宇,孙效文,梁利群.用鲤鱼EST-SSRs分子标记分析长江黑龙江鲤种群结构[J].农业生物技术学报,2007(06):947-952.

[25] 郝君,孙效文,孟雪松,冯剑.红鳍东方鲀BAC数据库和ESTs数据库中微卫星的筛选与应用[J].大连水产学院学报,2007(02):97-101.

[26] 孙效文,梁利群.斑马鱼SSLP标记检测鲤鱼种间的遗传多态性[J].中国水产科学,2001(02):5-6,43.

[27] 廖小林,俞小牧,谭德清,童金苟.长江水系草鱼遗传多样性的微卫星DNA分析[J].水生生物学报,2005(02):113-119.

[28] Tong J;Wang ZW;Wu Q J et al.Cross-species amplification in silver carp and bighead carp with mierosatellite primers of common carp[J].MEN,2002,2:245-248.

[29] 林凯东,罗琛.鲤的微卫星引物对草鱼基因组分析适用性的初步研究[J].激光生物学报,2003(02):121-127.

[30] 方宣钧;吴为人;唐纪良.作物DNA标记辅助育种[M].北京:科学出版社,2000

[31] Liu ZJ;Cordes JF .DNA marker technologies and their applications in aquaculture genetics [Review[J].Aquaculture,2004(1/4):1-37.

[32] Fisher R A .Has Mendel's work been rediscovered?[J].Annals of Science,1936,1:115-137.

[33] Wright J M;Bentzen P.Microsatellites:genetic markers for the future[J].Reviews in Fish Biology and Fisheries,1994:41383-41388.

[34] 孙效文;梁利群;闫学春 等.遗传标记与鱼类育种[J].水产学杂志,1995,8(01):86-89.

[35] O' connell M;Wright J M .Microsatellite DNA in fishes[J].Reviews in Fish Biology and Fisheries,1997,7:331-363.

[36] Herbinger C M;Reith M E;Jackson T R.DNA markers and aquaculture genetics[A].Enfield USA Plymooth:Science Publishers,2003

[37] Zhang X;Tong J;Xiong B .Applications of microsatellite markers on studies of genetics and breeding of fishes[J].Chin J Agr Biotechnol,2006,3(02):83-87.

[38] 王伟,尤锋,高天翔,张培军.鱼类微卫星标记的研究进展[J].海洋科学,2006(10):81-86.

[39] KocherTD;LeeWJ;SobolewskaH et al.A genetic linkage map of a cichlid fish,the tilapia(Oreochrorais niloticus)[J].Genetics,1998,148:851-858.

[40] Young WP;Wheeler PA;Coryell VH;Keim P;Thorgaard GH .A detailed linkage map of rainbow trout produced using doubled haploids.[J].Genetics,1998(2):839-850.

[41] Liu Z;Karsi A;Li P;Cao D;Dunham R .An AFLP-Based Genetic Linkage Map of Channel Catfish (Ictalurus punctatus) Constructed by Using an Interspecific Hybrid Resource Family.[J].Genetics,2003(2):687-694.

[42] 孙效文,梁利群.鲤鱼的遗传连锁图谱(初报)[J].中国水产科学,2000(01):1-5.

[43] Sun Xiaowen;Liang Liqun .A genetic linkage map of common carp (Cyprinus carpio L.) and mapping a locus associated with cold tolerance Wait[J].AQUACULTURE,2004,238(1-4):165-172.

[44] Lee, BY;Lee, WJ;Streelman, JT;Carleton, KL;Howe, AE;Hulata, G;Slettan, A;Stern, JE;Terai, Y;Kocher, TD .A second-generation genetic linkage map of tilapia (Oreochromis spp.)[J].Genetics,2005(1):237-244.

[45] Nichol K M;Young W P;Danzmann R G .A consolidated linkage map for rainbow trout[J].Animal Genetics,2003,34:102-115.

[46] Zhang Y;Liang L Q;Sun X W.A A Second-generation genetic linkage map of common carp[J].Genetics,2008

[47] 8turtevant A H;Morgan T H .The linear arrangement of six sex-linked factors in Drosophila,as shown by their mode of association[J].Journal of Experimental Zoology,1913,14:43-59.

[48] Jackson TR;Ferguson MM;Danzmann RG;Fishback AG;Ihssen PE;O' Connell M;Crease TJ .Identification of two QTL influencing upper temperature tolerance in three rainbow trout (Oncorhynchus mykiss) half-sib families.[J].Heredity: An International Journal of Genetics,1998(2):143-151.

[49] Ozaki A;Sakamoto T;Khoo S et al.Quantitative trait loci(QTLs) associated with resistance/susceptibility to infectious pancreatic necrosis virus (IPNV) in rainbow trout[J].Molecular and General Genetics,2000,265:23-31.

[50] Liu Z J;Dunham R .Genetic linkage and QTL mapping of ictalurid catfish[J].Alabama Agricultural Experiment Station Bulletin,1997,321:1-19.

[51] Fuji K.;Hasegawa O.;Honda K.;Kumasaka K.;Sakamoto T.;Okamoto N. .Marker-assisted breeding of a lymphocystis disease-resistant Japanese flounder (Paralichthys olivaceus)[J].Aquaculture,2007(1/4):291-295.

[52] Lee BY;Hulata G;Kocher TD .Two unlinked loci controlling the sex of blue tilapia (Oreochromis aureus)[J].Heredity: An International Journal of Genetics,2004(6):543-549.

[53] 张义凤,张研,鲁翠云,曹顶臣,孙效文.鲤鱼微卫星标记与体重、体长和体高性状的相关分析[J].遗传,2008(05):613-619.

[54] Reid DP;Szanto A;Glebe B;Danzmann RG;Ferguson MM .QTL for body weight and condition factor in Atlantic salmon (Salmo salar): comparative analysis with rainbow trout (Oncorhynchus mykiss) and Arctic charr (Salvelinus alpinus).[J].Heredity: An International Journal of Genetics,2005(2):166-172.

[55] Okamoto N K;Fuji E;Ohara T.Strategy for marker-assisted breeding,status of genetic linkage maps,and QTL for aquaculture species[A].北京:海洋出版社,2006:114-125.

[56] Lander E S;Green P .Construction of multilocus genetic maps in humans[J].Proceedings of the National Academy of Sciences(USA),1987,84:2363-2367.

[57] Wang Lingling;Song Linsheng*;Chang Yaqing;Xu Wei;Ni Duojiao .A preliminary genetic map of Zhikong scallop (Chlamys farreri Jones etPreston 1904)[J].Aquaculture Research,2005(7):643-653.

[58] 常玉梅,孙效文.水产养殖动物遗传连锁图谱及QTL定位研究进展[J].动物学研究,2006(05):533-540.

[59] Peichel C L;Nereng K S;Ohgi K A et al.The genetic architecture of divergence between threespine stickleback species[J].Nature,2001,414:901-905.

[60] Zimmerman A M;Wheeler P A;Ristow S S;Thorgaard G H .Composite interval mapping reveals three QTL associated with pyloric caeca number in rainbow trout, Oncorhynchus mykiss.[J].Aquaculture,2005(1/4):85-95.

[61] Sakamoto T;Danzmann RG;Okamoto N;Ferguson MM;Ihssen PE;McAndrew B (ed.);Penman D (ed.) .Linkage analysis of quantitative trait loci associated with spawning time in rainbow trout (Oncorhynchus mykiss).[J].Aquaculture,1999(1/4):33-43.

[62] Robison,BD;Wheeler,PA;Sundin,K;Sikka,P;Thorgaard,GH .Composite interval mapping reveals a major locus influencing embryonic development rate in rainbow trout (Oncorhynchus mykiss).[J].The Journal of Heredity,2001(1):16-22.

[63] Reid DP;Szanto A;Glebe B;Danzmann RG;Ferguson MM .QTL for body weight and condition factor in Atlantic salmon (Salmo salar): comparative analysis with rainbow trout (Oncorhynchus mykiss) and Arctic charr (Salvelinus alpinus).[J].Heredity: An International Journal of Genetics,2005(2):166-172.

[64] 张研,梁利群,常玉梅,侯宁,鲁翠云,孙效文.鲤鱼体长性状的QTL定位及其遗传效应分析[J].遗传,2007(10):1243-1248.

[65] A. Ozaki;T. Sakamoto;S. Khoo;K. Nakamura;M. R. M. Coimbra;T. Akutsu;N. Okamoto .Quantitative trait loci (QTLs) associated with resistance/susceptibility to infectious pancreatic necrosis virus (IPNV) in rainbow trout (Oncorhynchus mykiss)[J].Molecular biology reports,2001(1):23-31.

[66] Akiyuki Ozaki;Sok-Kean Khoo;Yasutoshi Yoshiura;Mitsuru Ototake;Takashi Sakamoto;Johannes Martinus Dijkstra;Nobuaki Okamoto .Identification of Additional Quantitative Trait Loci (QTL) Responsible for Susceptibility to Infectious Pancreatic Necrosis Virus in Rainbow Trout[J].魚病研究,2007(3):131-140.

[67] Lee W J.Detection of QTL for salinity tolerance oftilapia[A].,2003

[68] Cnaani A;Hallerman EM;Ron M;Weller JI;Indelman M;Kashi Y;Gall .Detection of a chromosomal region with two quantitative trait loci, affecting cold tolerance and fish size, in an F-2 tilapia hybrid[J].Aquaculture,2003(1/4):117-128.

[69] conferencesDanzmann RG;Jackson TR;Ferguson MM;McAndrew B (ed.);Penman D (ed.);Hulata G .Epistasis in allelic expression at upper temperature tolerance QTL in rainbow trout.[J].Aquaculture,1999(1/4):45-58.

[70] Lee BY;Hulata G;Kocher TD .Two unlinked loci controlling the sex of blue tilapia (Oreochromis aureus)[J].Heredity: An International Journal of Genetics,2004(6):543-549.

[71] Shirak A;Seroussi E;Cnaani A;Howe AE;Domokhovsky R;Zilberman N;Kocher TD;Hulata G;Ron M .Amh and Dmrta2 genes map to tilapia (Oreochromis spp.) linkage group 23 within quantitative trait locus regions for sex determination[J].Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation,2006(3):1573-1581.

[72] 鲁翠云,金万昆,孙效文,李大宇,朱晓东,马海涛,于东梅,杨建新.样本容量对养殖群体内主要遗传结构分析参数的影响[J].水产学报,2008(05):674-683.

[73] Desvignes JF;Laroche J;Durand JD;Bouvet Y .Genetic variability in reared stocks of common carp (Cyprinus carpio L.) based on allozymes and microsatellites[J].Aquaculture,2001(3/4):291-301.

[74] 常玉梅,孙效文,梁利群.中国鲤几个代表种群基因组DNA遗传多样性分析[J].水产学报,2004(05):481-486.

[75] Zhang Q;Allen SK Jr;Reece KS .Genetic variation in wild and hatchery stocks of Suminoe Oyster (Crassostrea ariakensis) assessed by PCR-RFLP and microsatellite markers[J].Marine biotechnology,2005(6):588-599.

[76] Huang BX;Peakall R;Hanna PJ .Analysis of genetic structure of blacklip abalone(Haliotis rubra)populations using RAPD,minisatellite and microsatellite markers[J].Marine Biology,2000,136:207-216.

[77] Sekino M;Saido T;Fujita T;Kobayashi T;Takami H .Microsatellite DNA markers of Ezo abalone (Haliotis discus hannai): a preliminary assessment of natural populations sampled from heavily stocked areas.[J].Aquaculture,2005(1/4):33-47.

[78] 邹喻萍;葛颂;王晓东.系统与进化植物学中的分子标记[M].北京:科学出版社,2001:1-139.

[79] Goldstein D B;Pollock D D .Launching microsatellites:a review of mution processes and methods of phylogenetic inference[J].Heredity,1997,88:355-342.

[80] 盛岩,郑蔚虹,裴克全,马克平.微卫星标记在种群生物学研究中的应用[J].植物生态学报,2002(z1):119-126.

[81] Thorp J P .The molecular dock hypothesis:Biochemical evolution,genetic differentiation,and systematics[J].Annual Review of Ecology and Systematics,1982,13(01):139-168.

[82] 邢荣莲,丁君,滕利平,常亚青,宋林生.3种鲍基因组DNA多态性的RAPD分析[J].大连水产学院学报,2003(03):191-196.

[83] Crawford A M;LittlePohn R P .The use of DNA marker in deciding conservation priorities in sheep and other livestock[J].Animal Genetic Resources Information,1998,23:21-26.

[84] Sneath PHA;Sokal R S.Numerical taxonomythe principle and practice of numerical classifications[M].San Francisco:Freeman and Coin,1973

[85] SaitouN;NeiM .The neighbor-joining method:a new method for reconstructing phylogenetic trees[J].Molecular Biology and Evolution,1987,4(04):406-425.

[86] Studier J A;Keppler K J .A note on the neighbor-joining algorithm of Saitou and Nei[J].Molecular Biology and Evolution,1988,5:729-731.

[87] Liu ZJ;Jensen JW.Aquaculture has great expectations of the genome revolution[A].London:Cambridge,2003:50-52.

[88] Zardoya R;Vollmer DM;Craddock C;Streelman JT;Karl S;Meyer A .Evolutionary conservation of microsatellite flanking regions and their use in resolving the phylogeny of cichlid fishes (Pisces: Perciformes).[J].The Royal Society Proceedings B,1996(1376):1589-1598.

[89] Amores A;Force A.Y-L;Yan L et al.Zebrafish box clusters and vertebrate genome evolution[J].Science,1998,282:1711-1714.

[90] O'Brien S J;Eisenberg J F;Miyamoto M et al.Gonome maps 10.Comparative genomics.Mammalian radiations wallchart[J].Science,1992,86:463-478.

[91] McKinnon J S;Mori S;Blackman B K et al.Evidence for ecology's role in speciation[J].Nature,2004,429(6989):294-298.

[92] Peichel CL;Ross JA;Matson CK;Dickson M;Grimwood J;Schmutz J;Myers RM;Mori S;Schluter D;Kingsley DM .The master sex-determination locus in threespine sticklebacks is on a nascent Y chromosome[J].Current Biology: CB,2004(16):1416-1424.

[93] Shapiro M D;Marks M E;Peichel C L et al.Genetic and developmental basis of evolutionary pelvic reduction in threespine sticklebacks[J].Nature,2004,428:679-782.

[94] Pamela F. Colosimo;Kim E. Hosemann;Sarita Balabhadra;Guadalupe Villarreal Jr.;Mark Dickson;Jane Grimwood;Jeremy Schmutz;Richard M. Myers;Dolph Schluter;David M. Kingsley .Widespread Parallel Evolution in Sticklebacks by Repeated Fixation of Ectodysplasin Alleles[J].Science,2005(5717):1928-1933.

[95] Schliewen UK;Kocher TD;McKaye KR;Seehausen O;Tautz D .Evolutionary biology: evidence for sympatric speciation?[J].Nature,2006(7120):E12-E13.

[96] Thomas D. Kocher .ADAPTIVE EVOLUTION AND EXPLOSIVE SPECIATION: THE CICHLID FISH MODEL[J].Nature reviews. Genetics,2004(4):288-298.

[97] J. T. Streelman;J. F. Webb;R. C. Albertson;T. D. Kocher .The cusp of evolution and development: a model of cichlid tooth shape diversity[J].Evolution & development,2003(6):600-608.

[98] Albertson RC;Streelman JT;Kocher TD;Yelick PC .Integration and evolution of the cichlid mandible: the molecular basis of alternate feeding strategies.[J].Proceedings of the National Academy of Sciences of the United States of America,2005(45):16287-16292.

[99] 梁利群,孙效文,董崇智,尹家胜.5种鲟、鳇鱼基因组DNA遗传多样性分析[J].中国水产科学,2002(03):273-276.

[100] 全迎春,孙效文,梁利群.应用微卫星多态分析四个鲤鱼群体的遗传多样性[J].动物学研究,2005(06):595-602.

[101] 常玉梅,孙效文,梁利群.中国鲤几个代表种群基因组DNA遗传多样性分析[J].水产学报,2004(05):481-486.

[102] 邹曙明,楼允东,孙效文,沈俊宝.用RAPD方法研究草鱼、柏氏鲤和3个地理种群鲤的亲缘关系[J].中国水产科学,2000(01):6-11.

[103] 崔建洲,申雪艳,杨官品,宫庆礼,顾谦群.红鳍东方鲀与假睛东方鲀的微卫星DNA多态性分析[J].高技术通讯,2005(12):90-96.

[104] Song L;Liu B;Xiang J et al.Molecular phylogeny and species identification of puferfish of the genus Takifugu(Tetraodontiforifles,Tetraodontidae)[J].Marine Biotechnology,2001,3:398.

[105] 汪桂玲,袁一鸣,李家乐.中国五大湖三角帆蚌群体遗传多样性及亲缘关系的SSR分析[J].水产学报,2007(02):152-158.

[106] 李家乐,钱荣华,鲍宝龙,汪桂玲,戚鸟定.中国五大湖三角帆蚌群体遗传多样性的RAPD分析[J].上海水产大学学报,2005(01):1-5.

[107] 钱荣华,李家乐,董志国,郑汉丰,李应森,袁伟康.中国五大湖三角帆蚌形态差异分析[J].海洋与湖沼,2003(04):436-443.

[108] 鲁双庆,刘少军,刘红玉,刘臻,刘筠.黄鳝微卫星引物筛选及其在保护遗传学上的应用[J].水产学报,2005(05):612-618.

[109] 梁俊,李道季,卢莉琼.日本鳗鲡(Anguilla japonica)和欧洲鳗鲡 (A. anguilla)的微卫星差异[J].海洋与湖沼,2003(04):414-421.

[110] 鲁双庆,刘臻,刘红玉,肖调义,苏建明.鲫鱼4群体基因组DNA遗传多样性及亲缘关系的微卫星分析[J].中国水产科学,2005(04):371-376.

[111] 刘筠,刘少军,孙远东,张纯,冯浩,刘季芳,郭新红,周工健,张轩杰.多倍体鲫鲤[J].中国农业科技导报,2003(06):3-6.

[112] 张辉,董新红,叶玉珍,吴清江.三个三倍体鲫鱼品系及野鲫mtDNA的比较研究[J].遗传学报,1998(04):330-336.

[113] 候亚义,袁传宓.异育银鲫、鲫和白鲫的肌浆蛋白及同工酶(Est、MDH)的电泳比较研究[J].南京师大学报(自然科学版),1989(03):69-74.

[114] 全迎春,李大宇,曹鼎辰,孙效文,梁利群.微卫星DNA标记探讨镜鲤的种群结构与遗传变异[J].遗传,2006(12):1541-1548.

[115] 谭杰,孙慧玲,刘萍,杨爱国,燕敬平,刘志鸿,周丽青.3个仿刺参地理种群遗传变异的微卫星DNA分析[J].水产学报,2007(04):437-442.

[116] 董秋芬,刘楚吾,郭昱嵩,刘丽,吴勇.9种石斑鱼遗传多样性和系统发生关系的微卫星分析[J].遗传,2007(07):837-843.

[117] T. Maggio;F. Andaloro;F. Hemida;M. Arculeo .A molecular analysis of some Eastern Atlantic grouper from the Epinephelus and Mycteroperca genus[J].Journal of experimental marine biology and ecology,2005(1):83-92.

[118] 丁少雄,王颖汇,王军,庄轩,苏永全,尤颖哲,李祺福.基于16S rDNA部分序列探讨中国近海30种石斑鱼类的分子系统进化关系[J].动物学报,2006(03):504-513.

[119] 庄轩,丁少雄,郭丰,王军,苏永全,张其永,李祺福.基于细胞色素b基因片段序列研究中国近海石斑鱼类系统进化关系[J].中国科学C辑,2006(01):27-34.

[120] Taggart J B;Fergusen A .Minisatellite DNA fingerprinting of salmonid fishes[J].Animal Genetics,1990,21:377-389.

[121] HarrisAS;BiegerS;DoylerW;etaI .DNA fingerprinting of tilapia,Orechromisniliticus,and its application to aquaculture genetics[J].Aquaculture,1991,92:157-163.

[122] Carter R E;Mair G C;Skibinski D O F et al.The application of DNA fingerprinting in the analysis of gynogenesis in tilapia[J].Aquaculture,1991,95:41-52.

[123] Herbinger R W;Doyle E R;Pitman D et al.DNA fingerpfint based analysis of paternal and maternal effects on offspring growth and survival in communally reared rainbow trout[J].AQUACULTURE,1995,137:245-256.

[124] Ccongiu L;Dupanloup I;Patarnello T et al.Identification of interspecific hybrids by amplified fragment length poly-morphism:the case of sturgeon[J].Molecular Ecology,2001,10:2355-2359.

[125] Young WP.;Keim P.;Thorgaard GH.;Ostberg CO. .Genetic characterization of hybridization and introgression between anadromous rainbow trout (Oncorhynchus mykiss irideus) and coastal cutthroat trout (O-clarki clarki)[J].Molecular ecology,2001(4):921-930.

[126] Nielsen E;Bach H M .Looking for a needle in a haystack:discovery of indigenous Atlantic salmon (Salmo salar L) in stocked population[J].CONSERVATION GENETICS,2001,2:219-232.

[127] Waldbieser GC;Wolters WR .Definition of the USDA103 strain of channel catfish (Ictalurus punctatus)[J].Animal Genetics,2007(2):180-183.

[128] 孙效文;梁利群;鲁翠云.水产分子育种研究进展[J].中国水产科学

[129] Hayes B;Bararanski M;Goddard M E et al.Optimisation of marker assistant selection for abalone breeding program[J].Aquaculture,2007,265:61-69.

[130] Fuji K.;Hasegawa O.;Honda K.;Kumasaka K.;Sakamoto T.;Okamoto N. .Marker-assisted breeding of a lymphocystis disease-resistant Japanese flounder (Paralichthys olivaceus)[J].Aquaculture,2007(1/4):291-295.

[131] 孙效文;鲁翠云;匡友谊 等.分子标记指导的镜鲤群体选育[J].发明专利公报,2008,24(07)

[132] 孙效文;鲁翠云;匡友谊 等.分子标记指导的镜鲤育成品种的遗传结构估化[J].发明专利公报,2008,24(07)


语种: 中文   

基金科技部科技基础条件平台建设计划(2006DKA30470~005)

关键词水产生物 微卫星标记


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