[1]Rohrer G A, Ford J J, Wise T H. Identification of quantitative trait loci affecting female reproductive traits in a multigenetation Meishan-White composite swine population. Journal of Animal Science, 1999, 77(6): 1385-1391. [2]Cassady J P, Johnson R K, Pomp D, Rohrer G A, van Vleck L D, Spiegel E K, Gilson K M. Identification of quantitative trait loci affecting reproductive in pigs. Journal of Animal Science, 2001, 79(3): 623-633.[3]Holl J W, Cassady J P, Pomp D, Johnson R K. A genome scan for quantitative trait loci and imprinted regions affecting reproduction in pigs. Journal of Animal Science, 2004, 82(12): 3421-3429.[4]Yang G C, Ren J, Li S J, Mao H R, Guo Y M, Zou Z Z, Ren D R, Ma J W, Huang L S. Genome-wide identification of QTL for age at puberty in gilts using a large intercross F2 population between White Duroc×Erhualian. Genetics Selection Evolution, 2008, 40(5): 529-539. [5]Seminara S B, Messager S, Chatzidaki E E, Thresher R R, Acierno J S, Shagoury J K, Bo-Abbas Y, Kuohung W, Schwinof K M, Hendrick A G, Zahn D, Dixon J, Kaiser U B, Slaugenhaupt S A, Gusella J F, ORahilly S, Carlton M B L, Crowley W F, Aparicio S A J R, Ch B, Colledge W H. The GPR54 as a regulator of puberty. The New England Journal of Medicine, 2003, 349(17): 1614-1627.[6]Kaiser B U, Kuohung W. KiSS-1 and GPR54 as new players in gonadotropin regulation and puberty. Endocrine, 2005, 26(3): 277-284.[7]李世军. 猪初情期候选基因IGFALS和KISS1R 的定位、全长基因分离、表达和遗传多态鉴别研究[D]. 南昌: 江西农业大学, 2006.Li S J. Mapping, isolation and molecular characterization of IGFALS and KISS1R gene as two candidate genes for age at puberty in gilts[D]. Nanchang: Jiangxi Agricultural University, 2006.[8]Stavrou I, Zois C, Ioannidis J P A, Tsatsoulis A. Association of polymorphisms of the oestrogen receptor alpha gene with the age of menarche. Human Reproduction, 2002, 17(4): 1101-1105.[9]Long J R, Xu H, Zhao L J, Liu P Y, Shen H, Liu Y J, Xiong D H, Xiao P, Liu Y Z, Dvornyk V, Li J L, Recker R R, Deng H W. The oestrogen receptor alpha gene is linked and/or associated with age of menarche in different ethnic groups. Journal of Medical Genetics, 2005, 42(10): 796-800.[10]Xita N, Tsatsoulis A, Stavrou I, Georgiou I. Association of SHBG gene polymorphism with menarche. Molecular Human Reproduction, 2005, 11(6): 459-462.[11]Domene H M, Bengolea S V, Martinez A S, Ropelato M G, Pennisi P, Scaglia P, Heinrich J J, Jasper H G. Deficiency of the circulating insulin-like growth factor system associated with inactivation of the acid-labile subunit gene. The New England Journal of Medicine, 2004, 350(6): 570-577.[12]Li S, Ren J, Huang L S. Characterization of the porcine insulin-like growth factor binding protein, acid-labile subunit gene: full-length cDNA and DNA sequence, polymorphisms and expression profile. Journal of Animal Breeding Genetics, 2007, 124(3): 133-138.[13]Sedlmeyer I L, Pearce C L, Trueman J A, Butler J L, Bersaglieri T, Read A P, Clayton P E, Kolonel L N, Henderson B E, Hirschhorn J N, Palmert M R. Determination of sequence variation and haplotype structure for the gonadotropin-releasing hormone (GnRH) and GnRH receptor genes: investigation of role in pubertal timing. The Journal of Clinical Endocrinology and Metabolism, 2005, 90(2): 1091-1099.[14]Jorm A F, Christensen H, Rodgers B, Jacomb P A, Easteal S. Association of adverse childhood experiences, age of menarche, and adult reproductive behavior: does the androgen receptor gene play a role? American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 2004, 125B(1): 105-111.[15]Sharp L, Cardy A H, Cotton S C, Little J. CYP17 gene polymorphisms: prevalence and associations with hormone levels and related factors. a HuGE review. American Journal of Epidemiology, 2004, 160(8): 729-740.[16]Gorai I, Tanaka K, Inada M, Morinaga H, Uchiyama Y, Kikuchi R, Chaki O, Hirahara F. Estrogen-metabolizing gene polymorphisms, but not estrogen receptor-alpha gene polymorphisms, are associated with the onset of menarche in healthy postmenopausal Japanese women. The Journal of Clinical Endocrinology and Metabolism, 2003, 88(2): 799-803.[17]Lai J, Vesprini D, Chu W, Jernstrom H, Narod S A. CYP gene polymorphisms and early menarche. Molecular Genetics and Metabolism, 2001, 74(4): 449-457.[18]Nonneman D J, Wise T H, Ford J J, Kuehn L A, Rohrer G A. Characterization of the aldo-keto reductase 1C gene cluster on pig chromosome 10: possible associations with reproductive traits. BMC Veterinary Research, 2006, 2: 28.[19]Viswanathan S R, Daley G Q, Gregory R I. Selective blockade of microRNA processing by Lin28. Science, 2008, 320(5872): 97-100.[20]Ong K K, Elks C E, Li S X, Zhao J H, Luan J A, Andersen L B, Bingham S A, Brage S, Smith G D, Ekelund U, Gillson C J, Glaser B, Golding J, Hardy R, Khaw K T, Kuh D, Luben R, Marcus M, McGeehin M A, Ness A R, Northstone K, Ring S M, Rubin C, Sims M A, Song K, Strachan D P, Vollenweider P, Waeber G, Waterworth D M, Wong A, Deloukas P, Barroso I, Mooser V, Loos R J, Wareham N J. Genetic variation in LIN28B is associated with the timing of puberty. Nature Genetics, 2009, 41(6): 729-733. [21]Sulem P, Gudbjartsson D F, Rafnar T, Holm H, Olafsdottir E J, Olafsdottir G H, Jonsson T, Alexandersen P, Feenstra B, Boyd H A, Aben K K, Verbeek A L M, Roeleveld N, Jonasdottir A, Styrkarsdottir U, Steinthorsdottir V, Karason A, Stacey S N, Gudmundsson J, Jakobsdottir M, Thorleifsson G, Hardarson G, Gulcher J, Kong A, Kiemeney L A, Melbye M, Christiansen C, Tryggvadottir L, Thorsteinsdottir U, Stefansson K. Genome-wide association study identifies sequence variants on 6q21 associated with age at menarche. Nature Genetics, 2009, 41(6): 734-738. [22]Perry J R B, Stolk L, Franceschini N, Lunetta K L, Zhai G J, McArdle P F, Smith A V, Aspelund T, Bandinelli S, Boerwinkle E, Cherkas L, Eiriksdottir G, Estrada K, Ferrucci L, Folsom A R, Garcia M, Gudnason V, Hofman A, Karasik D, Kiel D P, Launer L J, Meurs J V, Nalls M A, Rivadeneira F, Shuldiner A R. Meta-analysis of genome-wide association data identifies two loci influencing age at menarche. Nature Genetics, 2009, 41(6): 648-650.[23]Ren J, Guo Y M, Ma J W, Huang L S. Growth and Meat Quality QLT in Pigs with Special Reference to a Very Large White Duroc×Erhualian Resource Population. Proceedings of the 8th World Congress on Genetics Applied in Livestock Production, 2006: 13-11.[24]陈从英, 朱万成, 李平华, 魏 娜, 郭源梅, 高 军. 催乳素(PRL)和催乳素受体(PRLR)基因在白色杜洛克×二花脸F2资源群体中的遗传变异及其与母猪杀婴行为和产仔数的关联性. 中国农业科学, 2010, 43(11): 2347-2354.Chen C Y, Zhu W C, Li P H, Wei N, Guo Y M, Gao J. Associations of porcine prolactin (PRL) and prolactin receptor (PRLR) with sow maternal infanticide behavior and litter size in a White Duroc × Erhualian F2 resource population. Scientia Agricultura Sinica, 2010, 43(11): 2347-2354. (in Chinese)[25]Elisson L. Relationships between puberty and production traits in the gilt. 2. Oestroous symptoms at puberty. Animal Reproduction Science, 1991, 25(3): 255-264.[26]Noguera J L, Rodríguez C, Varona L, Tomãs A, Muñoz G, Ramirez O, Barragán C, Arquá M, Bidanel J P, Amills M, Ovilo C, Sánchez A. A bi-dimensional genome scan for prolificacy traits in pigs shows the existence of multiple epistatic QTL. BMC Genomics, 2009, 10: 636-647.[27]Zhao H H, Rothschild M F, Fernando R L, Dekkers J C M. Tests of candidate genes in breed cross populations for QTL mapping in livestock. Mammalian Genome, 2003, 14(7): 472-482.[28]Ng E L, Tang B L. Rab GTPases and their roles in brain neurons and glia. Brain Research Reviews, 2008, 58(1): 236-246. |