[1] URGOS C, LATORRE P, ALTARRIBA J, CARRODEGUAS J A, VARONA L, LÓPEZ-BUESA P. Allelic frequencies of NR6A1 and VRTN, two genes that affect vertebrae number in diverse pig breeds: a study of the effects of the VRTN insertion on phenotypic traits of a Duroc × Landrace-Large White cross. Meat Science, 2015, 100: 150-155.
[2] MIKAWA S, MOROZUMI T, SHIMANUKI S, HAYASHI T, UENISHI H, DOMUKAI M, OKUMURA N, AWATA T. Fine mapping of a swine quantitative trait locus for number of vertebrae and analysis of an orphan nuclear receptor, germ cell nuclear factor (NR6A1). Genome Research, 2007. 17(5): 586-593.
[3] KING J, ROBERTS R. Carcass length in the bacon pig: its association with vertebrae numbers and prediction from radiographs of the young pig. Animal Production Science, 1960, 2: 59-65.
[4] BERGE S. Genetical researches on the number of vertebrae in the pig. Animal Science, 1948, 7: 233-238.
[5] MIKAWA S, HAYASHI T, NII M, SHIMANUKI S, MOROZUMI T, AWATA T. Two quantitative trait loci on Sus scrofa chromosomes 1 and 7 affecting the number of vertebrae. Journal of Animal Science, 2005, 83(10): 2247-2254.
[6] NAKANO H, SATO S, UEMOTO Y, KIKUCHI T, SHIBATA T, KADOWAKI H, KOBAYASHI E, SUZUKI K. Effect of VRTN gene polymorphisms on Duroc pig production and carcass traits, and their genetic relationships. Animal Science Journal, 2015, 86(2): 125-131.
[7] WADA Y, AKITA T, AWATA T, FURUKAWA T, SUGAI N, INAGE Y, ISHII K, ITO Y, KOBAYASHI E, KUSUMOTO H, MATSUMOTO T, MIKAWA S, MIYAKE M, MURASE A, SHIMANUKI S, SUGIYAMA T, UCHIDA Y, YANAI S, YASUE H. Quantitative trait loci (QTL) analysis in a Meishan x Gottingen cross population. Animal Genetics, 2000, 31(6): 376-384.
[8] SATO S, OYAMADA Y, ATSUJI K, NADE T, KOBAYASHI E, MITSUHASHI T, NIRASAWA K, KOMATSUDA A, SAITO Y, TERAI S, HAYASHI T, SUGIMOTO Y. Quantitative trait loci analysis for growth and carcass traits in a Meishan x Duroc F2 resource population. Journal of Animal Science, 2003, 81(12): 2938-2949.
[9] MIKAWA S, SATO S, NII M, MOROZUMI T, YOSHIOKA G, IMAEDA N, YAMAGUCHI T, HAYASHI T, AWATA T. Identification of a second gene associated with variation in vertebral number in domestic pigs. BMC Genetics, 2011, 12: 5.
[10] REN D R, REN J, RUAN G F, GUO Y M, WU L H, YANG G C, ZHOU L H, LI L, ZHANG Z Y, HUANG L S. Mapping and fine mapping of quantitative trait loci for the number of vertebrae in a White Duroc × Chinese Erhualian intercross resource population. Animal Genetics, 2012, 43(5): 545-551.
[11] FAN Y, XING Y, ZHANG Z, AI H, OUYANG Z, OUYANG J, YANG M, LI P, CHEN Y, GAO J, LI L, HUANG L, REN J. A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs. PloS One, 2013, 8(4): e62534.
[12] DUIJVESTEIJN N, VELTMAAT J M, KNOL E F, HARLIZIUS B. High-resolution association mapping of number of teats in pigs reveals regions controlling vertebral development. BMC Genomics, 2014, 15: 542.
[13] 欧阳子璇. 猪7号染色体上影响脊椎变异的VRTN因果突变的筛选和验证[D]. 南昌: 江西农业大学, 2012.
OUYANG Z X. Identification of VRTN causal variations for vertebral numbers on pig chromosome 7[D]. Nanchang: Jiangxi Agricultural University, 2012. (in Chinese)
[14] 吴井生, 王金玉. FSHR基因第10外显子多态性及其与小梅山猪产仔数的相关性. 中国农业科学, 2012, 45(13): 2728-2736.
WU J S, WANG J Y. Polymorphism of exon10 of FSHR gene and its relationship with litter size in Xiaomeishan pigs. Scentia Agricultura Sinica, 2012, 45(13): 2728-2736. (in Chinese)
[15] VAN LAERE A S, NGUYEN M, BRAUNSCHWEIG M, NEZER C, COLLETTE C, MOREAU L, ARCHIBALD A L, HALEY C S, BUYS N, TALLY M, ANDERSSON G, GEORGES M, ANDERSSON L. A regulatory mutation in IGF2 causes a major QTL effect on muscle growth in the pig. Nature, 2003, 425(6960): 832-836.
[16] KIM K S, LARSEN N, SHORT T, PLASTOW G, ROTHSCHILD M F. A missense variant of the porcine melanocortin-4 receptor (MC4R) gene is associated with fatness, growth, and feed intake traits. Mammalian Genome, 2000, 11: 131-135.
[17] REN J, DUAN Y, QIAO R, YAO F, ZHANG Z, YANG B, GUO Y, XIAO S, WEI R, OUYANG Z, DING N, AI H, HUANG L. A missense mutation in PPARD causes a major QTL effect on ear size in pigs. PLoS Genetics, 2011, 7(5): e1002043.
[18] MA J, YANG J, ZHOU L, REN J, LIU X, ZHANG H, YANG B, ZHANG Z, MA H, XIE X, XING Y, GUO Y, HUANG L. A splice mutation in the PHKG1 gene causes high glycogen content and low meat quality in pig skeletal muscle. PLoS Genetics, 2014, 10(10): e1004710.
[19] HIROSE K, MIKAWA S, OKUMURA N, NOGUCHI G, FUKAWA K, KANAYA N, MIKAWA A, ARAKAWA A, ITO T, HAYASHI Y, TACHIBANA F, AWATA T. Association of swine vertnin (VRTN) gene with production traits in Duroc pigs improved using a closed nucleus breeding system. Animal Science Journal, 2013, 84(3): 213-221.
[20] 赵永祥, 刘吉英, 潘增祥, 张久峰, 姚勇, 周吉隆, 谢庄, 徐银学, 刘红林, 李齐发. 二花脸猪Smad4基因的克隆与卵巢组织mRNA的表达水平. 中国农业科学, 2012, 45(23): 4883-4890.
ZHAO Y X, LIU J Y, PAN Z X, ZHANG J F, YAO Y, ZHOU J, XIE Z, XU Y X, LIU H L, LI Q F. Cloning and mRNA expression of Smad4 gene in ovaries of Erhualian pig. Scentia Agricultura Sinica, 2012, 45(23): 4883-4890. (in Chinese)
[21] WANG Y D, ZHANG J, LI C H, XU H P, CHEN W, ZENG Y Q, WANG H. Molecular cloning, sequence characteristics, and tissue expression analysis of ECE1 gene in Tibetan pig. Gene, 2015, 571(2): 237-244.
[22] HU X, LUO P, PENG X, SONG T, ZHOU Y, WEI H, PENG J, JIANG S. Molecular cloning, expression pattern analysis of porcine Rb1 gene and its regulatory roles during primary dedifferentiated fat cells adipogenic differentiation. General and Comparative Endocrinology, 2015, 214: 77-86.
[23] ZHANG Y, LIANG J, ZHANG L, WANG L, LIU X, YAN H, ZHAO K, SHI H, ZHANG T, LI N, PU L, WANG L. Porcine methionine sulfoxide reductase B3: molecular cloning, tissue-specific expression profiles, and polymorphisms associated with ear size in Sus scrofa. Journal of Animal Science and Biotechnology, 2015, 6: 60.
[24] 姚勇, 潘增祥, 张久峰, 赵永祥, 谢庄, 刘红林, 徐银学, 李齐发. 二花脸猪NR5A2基因克隆与卵巢组织转录水平分析. 南京农业大学学报, 2013, 36(3): 133-138.
YAO Y, PAN Z X, ZHANG J F, ZHAO Y X, XIE Z, LIU H L, XU Y X, LI Q F. Cloning and trascriptional level of NR5A2 gene in ovaries of Erhualian pig. Journal of Nanjing Agricultural University, 2013, 36(3): 133-138. (in Chinese)
[25] ZHANG C, ZHOU Z, ZHANG W, CHEN Z, SONG Y, LU W, LIN M, CHEN M. The site-directed A184S mutation in the HTH domain of the global regulator IrrE enhances Deinococcus radiodurans R1 tolerance to UV radiation and MMC shock. Journal of Microbiology and Biotechnology, 2015, 25(12): 2125-2134.
[26] SASAKI T, NISHIHARA H, HIRAKAWA M, FUJIMURA K, TANAKA M, KOKUBO N, KIMURA-YOSHIDA C, MATSUO I, SUMIYAMA K, SAITOU N, SHIMOGORI T, OKADA N. Possible involvement of SINEs in mammalian-specific brain formation. Proceedings of the National Academy of Sciences of the United States of America, 2008, 105: 4220-4225.
[27] FONTANESI L, SCHIAVO G, SCOTTI E, GALIMBERTI G, CALÒ D G, SAMORÈ A B, GALLO M, RUSSO V, BUTTAZZONI L. A retrospective analysis of allele frequency changes of major genes during 20 years of selection in the Italian Large White pig breed. Journal of Animal Breeding and Genetics, 2015, 132(3): 239-246.
[28] 李隐侠, 徐银学, 陈杰, 于传军. 苏淮猪7个功能基因的多态性及其与生产性能的相关性. 南京农业大学学报, 2008, 31(3): 102-106.
LI Y X, XU Y X, CHEN J, YU C J. Polymorphsims of seven functional genes and their corrlation to production performance in Suhuai pigs. Journal of Nanjing Agricultural University, 2008, 31(3): 102-106. (in Chinese) |