Scientia Agricultura Sinica ›› 2017, Vol. 50 ›› Issue (4): 755-763.doi: 10.3864/j.issn.0578-1752.2017.04.015
• ANIMAL SCIENCE·VETERINARY SCIENCERE·SOURCE INSECT • Previous Articles Next Articles
WANG Xiao, ZHANG Qin, YU Ying
[1] HALASA T, HUIJPS K, OSTERAS O, HOGEVEEN H. Economic effects of bovine mastitis and mastitis management: A review. Veterinary Quarterly, 2007, 29(1):18-31.
[2] 张沅,张勤,孙东晓. 奶牛分子育种技术研究. 北京:中国农业大学出版社, 2012.
ZHANG Y, ZHANG Q, SUN D X. The Technical Research on Molecular Breeding in Dairy Cattle. Beijing: China Agricultural University Press, 2012. (in Chinese)
[3] HERINGSTADB, KLEMETSDAL G, RUANE J. Selection for mastitis resistance in dairy cattle: a review with focus on the situation in the Nordic countries. Livestock Production Science, 2000, 64(2-3): 95-106.
[4] AXFORD R F E, BISHOP S C, NICHOLAS F W, OWEN J B. Breeding for Disease Resistance in Farm Animals. CABI Publishing, Oxon, 2000, 42:407-424.
[5] RUPP R, BOICHARD D. Relationship of early first lactation somatic cell count with risk of subsequent first clinical mastitis. Livestock Production Science, 2000, 62:169-180.
[6] WIJGA S, BASTIAANSEN J W M., WALL E, STRANDBERG E, DE HASS Y, GIBLIN L, BOVENHUIS H. Genomic association with somatic cell score in first-lactation Holstein cows. Journal of Dairy Science, 2012, 95(2):899-908.
[7] 王晓,解小莉,王胜,钱梦樱,马裴裴,张沅,孙东晓,刘剑锋,丁向东,姜力,王雅春,张毅,张胜利,张勤,俞英. 中国荷斯坦牛乳房炎易感性及抗性的全基因组关联分析. 畜牧兽医学报, 2013, 44 (12):1907-1912.
WANG X, XIE X L, WANG S, QIAN M Y, MA P P, ZHANG Y, SUN D X, LIU J F, DING X D, JIANG L, WANG Y C, ZHANG Y, ZHANG S L, ZHANG Q, YU Y. Genome-wide Association Study for Mastitis Susceptibility and Resistance in Chinese Holsteins. Acta Veterinaria et Zootechnica Sinica, 2013, 44(12):1907-1912. (in Chinese)
[8] THORNTON T, MCPEEK M S. ROADTRIPS: Case-control association testing with partially or completely unknown population and pedigree structure. American Journal of Human Genetics, 2010, 86(2):172-184.
[9] BLAND J M, ALTMAN D G. Multiple significance tests: the Bonferroni method. British Medical Journal, 1995, 310(6973):170.
[10] 卢昕. 对猪部分免疫性状的QTL定位及全基因组关联分析[D]. 北京:中国农业大学,2010.
LU X. Quantitative trait loci (QTL) mapping and genome-wide association study for some immune traits in swine[D]. Beijing: China Agricultural University, 2010. (in Chinese)
[11] FERRANTE M I, GHIANI M, BULFONE A, FRANCO B. IL1RAPL2 maps to Xq22 and is specifically expressed in the central nervous system. Gene, 2001, 275:217-221.
[12] LI H, SUN L, CHEN X, XIONG W, HU D, JIE S. Microvesicle microRNA profiles and functional roles between chronic hepatitis B and hepatocellular carcinoma. Gene, 2014, 16:315-321.
[13] WALTERS K, OLSUFKA R, KUESTNER R E, CHO H J, LI H, ZORNETZER G A, WANG K, SKERRETT S J, OZINSKY A. Francisella tularensis subsp. tularensis induces a unique pulmonary inflammatory response: Role of bacterial gene expression in temporal regulation of host defense responses. PLoS ONE, 2013, 8(5):e62412.
[14] BRADDING P, FEATHER I H, WILSON S, BARDIN P G, HEUSSER C H, HOLGATE S T, HOWARTH P H. Immunolocalization of cytokines in the nasal mucosa of normal and perennial rhinitic subjects. The mast cell as a source of IL-4, IL-5, and IL-6 in human allergic mucosal inflammation. The Journal of Immunology, 1993, 151(7):3853-3865.
[15] MURPHY C A, LANGRISH C L, CHEN Y, BLUMENSCHEIN W, MCCLANAHAN T, KASTELEIN R A, SEDGWICK J D, CUA D J. Divergent Pro- and Antiinflammatory Roles for IL-23 and IL-12 in Joint Autoinmmune Inflammation. The Journal of Experimental Medicine, 2003, 198(12):1951-1957.
[16] ZHENG Y, DANILENKO D M, VALDEZ P, KASMAN I, EASTHAM-ANDERSON J, WU J, OUYANG W. Interleukin-22, a TH17 cytokine, mediates IL-23-induced dermal inflammation and acanthosis. Nature Letter, 2007, 445:648-651.
[17] De Haas Y, Ouweltjes W, ten Napel J, Windig J J, de Jong G. Alternative somatic cell count traits as mastitis indicators for genetic selection. Journal of dairy science, 2008, 91(6):2501-2511.
[18] HERINGSTAD B, REKAYA R, GLANOLA D, KLEMETSDAL G, WEIGEL K A. Genetic change for clinical mastitis in Norwegian cattle: a threshold model analysis. Journal of Dairy Science, 2003, 86(1):369-375.
[19] FERGUSON-SMITH A C, GREALLY J M, MARTIENSSEN R A. Epigenomics. Springer, Dordrecht, 2009.
[20] ABDEL-SHAFY H, BORTFELDT R H, REISSMANN M, BROCKMANN G A. Short communication: Validation of somatic cell score-associated loci identified in a genome-wide association study in German Holstein cattle. Journal of dairy science, 2014, 97(4): 2481-2486.
[21] MEREDITH B K, KEARNEY F J, FINLAY E K, BRADLEY D G, FAHEY A G, BERRY D P, LYNN D J. Genome-wide associations for milk production and somatic cell score in Holstein-Friesian cattle in Ireland. BMC Genetics, 2012, 13:21.
[22] SODELAND M, KENT M P, OLSEN H G, OPSAL M A, SVENDSEN M, SEHESTED E, HAYES B J, LIEN S. Quantitative trait loci for clinical mastitis on chromosomes 2, 6, 14 and 20 in Norwegian Red cattle. Animal Genetics, 2011, 42(5):457-465.
[23] SAHANA G, GULDBRANDTSEN B, THOMSEN B, LUND M S. Confirmation and fine-mapping of clinical mastitis and somatic cell score QTL in Nordic Holstein cattle. Animal Genetics, 2013, 44(6): 620-626.
[24] WANG X, MA P P, LIU J F, ZHANG Q, ZHANG Y, DING X D, JIANG L, WANG Y C, ZHANG Y, SUN D X, ZHANG S L, SU G S, YU Y. Genome-wide association study in Chinese Holstein cows reveal two candidate genes for somatic cell score as an indicator for mastitis susceptibility. BMC genetics, 2015, 16:111. |
[1] | PANG HongBo, CHENG Lu, YU MingLan, CHEN Qiang, LI YueYing, WU LongKun, WANG Ze, PAN XiaoWu, ZHENG XiaoMing. Genome-Wide Association Study of Cold Tolerance at the Germination Stage of Rice [J]. Scientia Agricultura Sinica, 2022, 55(21): 4091-4103. |
[2] | XIE XiaoYu, WANG KaiHong, QIN XiaoXiao, WANG CaiXiang, SHI ChunHui, NING XinZhu, YANG YongLin, QIN JiangHong, LI ChaoZhou, MA Qi, SU JunJi. Restricted Two-Stage Multi-Locus Genome-Wide Association Analysis and Candidate Gene Prediction of Boll Opening Rate in Upland Cotton [J]. Scientia Agricultura Sinica, 2022, 55(2): 248-264. |
[3] | ZHANG PengXia,ZHOU XiuWen,LIANG Xue,GUO Ying,ZHAO Yan,LI SiShen,KONG FanMei. Genome-Wide Association Analysis for Yield and Nitrogen Efficiency Related Traits of Wheat at Seedling Stage [J]. Scientia Agricultura Sinica, 2021, 54(21): 4487-4499. |
[4] | ZHANG Fang,REN Yi,CAO JunMei,LI FaJi,XIA XianChun,GENG HongWei. Genome-wide Association Analysis of Wheat Grain Size Related Traits Based on SNP Markers [J]. Scientia Agricultura Sinica, 2021, 54(10): 2053-2063. |
[5] | JunYi GAI,JianBo HE. Major Characteristics, Often-Raised Queries and Potential Usefulness of the Restricted Two-Stage Multi-Locus Genome-Wide Association Analysis [J]. Scientia Agricultura Sinica, 2020, 53(9): 1699-1703. |
[6] | XiaoShuai HAO,MengMeng FU,ZaiDong LIU,JianBo HE,YanPing WANG,HaiXiang REN,DeLiang WANG,XingYong YANG,YanXi CHENG,WeiGuang DU,JunYi GAI. Genome-Wide QTL-Allele Dissection of 100-Seed Weight in the Northeast China Soybean Germplasm Population [J]. Scientia Agricultura Sinica, 2020, 53(9): 1717-1729. |
[7] | ZHOU QingYuan, WANG Qian, YE Sang, CUI MinSheng, LEI Wei, GAO HuanHuan, ZHAO YuFeng, XU XinFu, TANG ZhangLin, LI JiaNa, CUI Cui. Genome-Wide Association Analysis of Tribenuron-Methyl Tolerance Related Traits in Brassica napus L. Under Germination [J]. Scientia Agricultura Sinica, 2019, 52(3): 399-413. |
[8] | HE YaJun, WU DaoMing, YOU JingCan, QIAN Wei. Genome-Wide Association Analysis of Salt Tolerance Related Traits in Brassica napus and Candidate Gene Prediction [J]. Scientia Agricultura Sinica, 2017, 50(7): 1189-1201. |
[9] | WEI DaYong, TAN ChuanDong, CUI YiXin, WU DaoMing, LI JiaNa, MEI JiaQin, QIANWei. Genome-Wide Association Study of the Fertility Restorer Loci for pol CMS in Rapeseed (Brassica napus L.) [J]. Scientia Agricultura Sinica, 2017, 50(5): 802-810. |
[10] | ZHOU Li-Sheng, YANG Jie, LIU Xian-Xian, ZHANG Zhi-Yan, YANG Bin, MA Jun-Wu. Genome-Wide Association Analyses for Musle pH 72 h Value and Meat Color Traits in Sutai Pigs [J]. Scientia Agricultura Sinica, 2014, 47(3): 564-573. |
[11] | WANG Ji-Ying, WANG Hai-Xia, CHI Rui-Bin, GUO Jian-Feng, WU Ying. Progresses in Research of Genome-Wide Association Studies in Livestock and Poultry [J]. Scientia Agricultura Sinica, 2013, 46(4): 819-829. |
[12] | ZHANG Lei, ZHENG Mai-Qing, LIU Ran-Ran, WEN Jie, WU Dan, HU Yao-Dong, SUN Yan-Fa, LI Peng, LIU Li, ZHAO Gui-苹. Genome-Wide Association of Thymus and Spleen Mass in Chicken [J]. Scientia Agricultura Sinica, 2012, 45(15): 3165-3175. |
[13] |
GUAN Jiu-qiang,WANG Hong-mei,WANG Chang-fa,LI Qiu-ling,Li Jian-bin,SHUAI Su-rong,HOU Ming-hai,ZHONG Ji-feng . Genetic Polymorphisms Within the Coding Regions of IL8R Gene and Its Association with Mastitis Trait in Chinese Holstein Cattle [J]. Scientia Agricultura Sinica, 2010, 43(5): 1057-1065 . |
[14] |
CHEN Ren-jin,YANG Zhang-ping,MAO Yong-jiang,CHEN Ying,CHANG Ling-ling,WU Hai-tao,JI De-jun,LI Yun-long,ZHANG Ya-qin . Polymorphism of LYZ Gene and Its Association with Mastitis Trait in Chinese Holstein |
|