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特种畜禽是指除传统畜禽外的畜禽,是畜牧业生产的重要补充,包括梅花鹿、马鹿、驯鹿等16种。特种畜禽面临养殖规模小、标准化程度低、水平不一、产业体系不完善等问题,种群系谱不明阻碍其种业发展。对微卫星分子遗传标记的结构特点和遗传特性进行总结,阐述了微卫星在不同动物亲权鉴定中的应用,并对微卫星分子标记技术在特种畜禽亲权鉴定中的应用前景进行展望,以期为特种畜禽种业健康、快速发展提供指导。
Abstract:The term “special livestock and poultry” refers to non-traditional species, which play a crucial role in supplementing traditional livestock and poultry production. This category encompasses 16 species such as sika deer, red deer and reindeer. However, the special livestock and poultry breeding industry faces challenges including small-scale breeding, low standardization, uneven breeding levels and an incomplete industrial system compared to traditional livestock and poultry. The lack of pedigree clarity significantly hinders the development of this industry in China.This paper primarily introduces the structural features and genetic characteristics of microsatellite molecular genetic markers, and details their application in paternity identification across different animal species. Furthermore, it explores the potential of microsatellite molecular marker technology for paternity identification within the special livestock and poultry sector with the goal of fostering its healthy and rapid development.
[1]王昕,耿社民,朱育红.微卫星标记在畜禽育种中的应用[J].黄牛杂志,2002, 28(1):39-42.
[2] Jakubosky D, D'Antonio M, Bonder M J, et al. Properties of structural variants and short tandem repeats associated with gene expression and complex traits[J]. Nature Communications, 2020, 11(1):2927.
[3] Eugenia B M, Victoria G M. The sensitiveness of expected heterozygosity and allelic richness estimates for analyzing population genetic diversity[M]//Trindade M R, de Araújo C M. Genetic Variation. London:IntechOpen, 2021
[4] Ellegren H, Johansson M, Sandberg K, et al. Cloning of highly polymorphic microsatellites in the horse[J]. Animal Genetics,1992, 23(2):133-142.
[5] Thilakarathna M K S, Karunathilaka R I S, Gunawardana G A, et al. Use of molecular biology techniques for animal identification and traceability[J]. University of Colombo Review,2022, 3(2):142.
[6] Abdul-Muneer P M. Application of microsatellite markers in conservation genetics and fisheries management:Recent advances in population structure analysis and conservation strategies[J].Genetics Research International, 2014, 2014:691759.
[7] Dementieva N V, Shcherbakov Y S, Tyshchenko V I, et al.Comparative analysis of molecular RFLP and SNP markers in assessing and understanding the genetic diversity of various chicken breeds[J]. Genes, 2022, 13(10):1876.
[8]瞿陆峰,潘伟荣,曾养志.微卫星DNA标记及其应用[J].畜牧与饲料科学,2010, 31(4):6-8.
[9] Anderson T J, Su X Z, Bockarie M, et al. Twelve microsatellite markers for characterization of Plasmodium falciparum from finger-prick blood samples[J]. Parasitology, 1999, 119(2):113-125.
[10] Thakur J, Packiaraj J, Henikoff S. Sequence, chromatin and evolution of satellite DNA[J]. International Journal of Molecular Sciences, 2021, 22(9):4309.
[11] Hajihosseinlo A, Nejati-Javaremi A, Miraei-Ashtiani S R.Genetic structure analysis in several populations of cattle using SNP genotypes[J]. Animal Biotechnology, 2023, 34(2):288-300.
[12] Voyer T E L, Hunter K W. Microsatellite DNA variants among the FVB/NJ, C58/J, and I/LnJ mouse strains[J].Mammalian Genome, 1999, 10(6):542-543.
[13] Sun H S, Kirkpatrick B W. Exploiting dinucleotide microsatellites conserved among mammalian species[J]. Mammalian Genome, 1996, 7(2):128-132.
[14] Markovi?M, Radonji?D, Zorc M, et al. Genetic diversity of Montenegrin local sheep breeds based on microsatellite markers[J]. Animals, 2022, 12(21):3029.
[15] Kim S M, Yun S W, Cho G J. Assessment of genetic diversity using microsatellite markers to compare donkeys(Equus asinus)with horses(Equus caballus)[J]. Animal Bioscience,2021, 34(9):1460-1465.
[16] Kim J, Lee J, Oh J H, et al. Dietary methyl donor nutrients,DNA mismatch repair polymorphisms, and risk of colorectal cancer based on microsatellite instability status[J]. European Journal of Nutrition, 2022, 61(6):3051-3066.
[17] Shimozaki K, Hayashi H, Tanishima S, et al. Concordance analysis of microsatellite instability status between polymerase chain reaction based testing and next generation sequencing for solid tumors[J]. Scientific Reports, 2021, 11(1):20003.
[18] Kemp S J, Hishida O, Wambugu J, et al. A panel of polymorphic bovine, ovine and caprine microsatellite markers[J].Animal Genetics, 1995, 26(5):299-306.
[19] Scelza B A, Atkinson E G, Prall S, et al. The ethics and logistics of field-based genetic paternity studies[J]. Evolutionary Human Sciences, 2020, 2:e22.
[20]刘丽,王东权,徐艳春,等.利用混合模板筛选多态性微卫星的北极狐群体遗传学分析[J].经济动物学报,2021,25(1):33-41, 50.
[21]汪斌,黎立光,程鲁光.犬微卫星DNA遗传多态性及其在亲权鉴定中应用研究进展[J].中国农学通报,2009,25(21):9-12.
[22] Yang Q R, Yao Y N, Shao C C, et al. Calculation of the Paternity Index for STR with tri-allelic patterns in paternity testing[J]. Forensic Science International, 2021, 324:110832.
[23]卫功庆,薛嘉璐,刘舒欣,等.中国梅花鹿种质资源的保护与利用[J].吉林农业大学学报,2022, 44(4):379-385.
[24]钱文熙,赵岳,韩春梅.新疆马鹿资源开发利用研究进展[J].经济动物学报,2024, 28(1):1-7.
[25]何金明,鞠妍,邢秀梅,等.敖鲁古雅驯鹿SRY基因的生物信息学分析[J].吉林农业大学学报,2022, 44(1):97-103.
[26]杨超,张毅,石万海,等.中国荷斯坦种公牛亲子鉴定及个体识别信息库的建立[J].中国奶牛,2011(16):1-5.
[27] Tuntivisoottikul K, Chaosap C. Paternity testing of crossbred beef cattle with 15 microsatellite markers[J]. International Journal of Agricultural Technology, 2019, 15(6):1039-1052.
[28] Kesk?n M, Yilmaz O, Gündüz Z, et al. Microsatellite panels for parentage testing of Kilis goats reared in Turkey[J]. Turkish Journal of Veterinary and Animal Sciences, 2019, 43(1):94-101.
[29]赵志达,王欣悦,石田培,等.基于微卫星标记鉴定湖羊家系[J].中国畜牧兽医,2020, 47(11):3573-3583.
[30] Radko A, Smo?ucha G, Koseniuk A. Microsatellite DNA analysis for diversity study, individual identification and parentage control in pig breeds in Poland[J]. Genes, 2021,12(4):595.
[31] Zajac M, Klukowska J, S?omski R, et al. Polymorphism of nine canine-derived microsatellites in farm silver foxes(Vulpes fulvus)[J]. Journal of Applied Genetics, 2000, 41(1):43-50.
[32] DeYoung R W, Demarais S, Gonzales R A, et al. Multiple paternity in white-tailed deer(Odocoileus virginianus)revealed by DNA microsatellites[J]. Journal of Mammalogy,2002, 83(3):884-892.
[33] Payne C M, Laverty T M, Lachance M A. The frequency of multiple paternity in bumble bee(Bombus)colonies based on microsatellite DNA at the B10 locus[J]. Insectes Sociaux, 2003, 50(4):375-378.
[34]连虹.豚鹿微卫星位点的分离及其在亲子鉴定中的应用[D].杭州:浙江大学,2009.
[35] Jian Q Y, Qiang W, Xuan Z L, et al. Paternity determination by seven microsatellite loci for the captive hog deer[J].Acta Theriologica Sinica, 2010, 30(2):200.
[36] Yang W Y, Zheng J J, Jia B Y, et al. Isolation of novel microsatellite markers and their application for genetic diversity and parentage analyses in sika deer[J]. Gene, 2018, 643:68-73.
[37] Rabie T S K M. Assessment of genetic variability and population structure of five rabbit breeds by microsatellites markers associated with genes[J]. Journal of World's Poultry Research, 2020, 10(2s):125-139.
[38] Cai Y H, Yang J D, Wang J M, et al. Changes in the population genetic structure of captive forest musk deer(Moschus berezovskii)with the increasing number of generation under closed breeding conditions[J]. Animals, 2020, 10(2):255.
[39] Soara A E, Talaki E, Dayo G, et al. Genetic diversity of indigenous guinea fowl(Numida meleagris)using microsatellite markers in northern Togos[J]. PeerJ, 2022(10):e12637.
[40] Belliveau A M. The assessment of genetic variability and genetic distance in North American mink using microsatellites[D].Halifax:Dalhousie University, 1999.
[41] Sugiura N, Ochiai K, Yamamoto T, et al. Examining multiple paternity in the raccoon dog(Nyctereutes procyonoides)in Japan using microsatellite analysis[J]. Journal of Veterinary Medical Science, 2020, 82(4):479-482.
[42] Kawka M, Parada R, Jaszczak K, et al. The use of microsatellite polymorphism in genetic mapping of the ostrich(Struthio camelus)[J]. Molecular Biology Reports, 2012, 39(3):3369-3374.
[43]尹君,张明海,谢绪昌. STR在野生东北马鹿个体识别中的应用[J].野生动物,2007, 28(3):42-44.
[44]张守纯,姜盼盼,宣之兴,等.应用PCR-STR技术进行东北马鹿亲子鉴定[J].黑龙江畜牧兽医,2010(13):159-160.
[45] Ford R J, Selman W, Taylor S S. Hybridization between Mottled Ducks(Anas fulvigula maculosa)and Mallards(A. platyrhynchos)in the western Gulf Coast region[J]. The Condor,2017, 119(4):683-696.
[46]孙海涛.黑龙江省部分地区梅花鹿微卫星遗传多样性的研究[D].大庆:黑龙江八一农垦大学,2009.
[47] Takenaka O, Takasaki H, Kawamoto S, et al. Polymorphic microsatellite DNA amplification customized for chimpanzee paternity testing[J]. Primates, 1993, 34(1):27-35.
[48] Rooney A P, Merritt D B, Derr J N. Microsatellite diversity in captive bottlenose dolphins(Tursiops truncatus)[J]. The Journal of Heredity, 1999, 90(1):228-231.
[49] Amavet P, Rosso E, Markariani R, et al. Microsatellite DNA markers applied to detection of multiple paternity in Caiman latirostris in Santa Fe, Argentina[J]. Journal of Experimental Zoology Part A, Ecological Genetics and Physiology, 2008, 309(10):637-642.
[50] Li D S, Cui H M, Wang C D, et al. A fast and effective method to perform paternity testing for Wolong giant pandas[J].Chinese Science Bulletin, 2011, 56(24):2559-2564.
[51] Zhao X, Qiu Q G, Li C, et al. Genome-based development of 15 microsatellite markers in fluorescent multiplexes for parentage testing in captive tigers[J]. PeerJ, 2020, 8:e8939.
[52]王予辰,陈莹,王宇,等.基于微卫星标记的南白犀亲子鉴定[J].野生动物学报,2022, 43(4):935-942.
基本信息:
DOI:10.13326/j.jea.2024.1963
中图分类号:S813.3
引用信息:
[1]刘嘉琦,陈旭,李功腾等.微卫星分子标记在特种畜禽亲权鉴定中的研究进展[J].经济动物学报,2024,28(04):297-302.DOI:10.13326/j.jea.2024.1963.
基金信息:
吉林省畜禽遗传资源开发利用及科技提质增效项目(202404)