[1] 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. Scientia Agricultura Sinica, 2012, 45(13): 2728-2736. (in Chinese)
[2] 马喜山, 王爱国, 刘桂芬, 傅金恋. 猪HB-EGF 基因多态性与产仔数的关联性分析. 中国农业科学, 2009, 42(1): 274-282.
MA X S, WANG A G, LIU G F, FU J L. Analysis of the association between polymorphisms of HB-EGF gene and litter size in pigs. Scientia Agricultura Sinica, 2009, 42(1): 274-282. (in Chinese)
[3] ROTHSCHILD M, JACOBSON C, VASKE D, TUGGLE C, WANG L, SHORT T, ECKARDT G, SASAKI S, VINCENT A, MCLAREN D, SOUTHWOOD O, STEEN H V D, MILEHAM A, PLASTOW G. The estrogen receptor locus is associated with a major gene influencing litter size in pigs. Proceedings of the National Academy of Sciences of the United States of America, 1996, 93(1): 201-205.
[4] 黄贺, 狄生伟, 田亚光, 王希彪, 李和平, 张贵学. 民猪PRLR基因PCR-SSCP多态性与产仔数关联分析. 中国农业科学, 2011, 44(11): 2341-2346.
HUANG H, DI S W, TIAN Y G, WANG X B, LI H P, ZHANG G X. The association analysis between PRLR gene PCR-SSCP polymorphism and litter size in Min pigs. Scientia Agricultura Sinica, 2011, 44(11): 2341-2346. (in Chinese)
[5] 方宇瑜, 马翔, 吴艳, 李强, 王文祥, 王礼伟, 任二都, 李平华, 黄瑞华. 苏淮猪群体ESR1和FSHβ基因的多态性及其与繁殖性状的关联性研究. 畜牧与兽医, 2017, 49(2): 1-5.
FANG Y Y, MA X, WU Y, LI Q, WANG W X, WANG L W, REN E D, LI P H, HUANG R H. Polymorphism analysis of genes ESR1 and FSHβ in Suhuai pigs and correlation analysis with reproductive traits. Animal Husbandry & Veterinary Medicine, 2017, 49(2): 1-5. (in Chinese)
[6] DAI L S, ZHAO Z H, ZHAO R F, XIAO S Q, JIANG H, YUE X P, LI X C, GAO Y, LIU J F, ZHANG J B. Effects of novel single nucleotide polymorphisms of the FSH beta-subunit gene on semen quality and fertility in bulls. Animal Reproduction Science, 2009, 144(3): 14-22.
[7] HAO Y, MURPHY C N, SPATE L, WAX D, ZHONG Z, SAMUEL M, MATHIALAGAN N, SCHATTEN H, PRATHER R S. Osteopontin improves in vitro development of porcine embryos and decreases apoptosis. Molecular Reproduction & Development, 2008, 75 (2): 291-298.
[8] LALIOTIS G P, MARANTIDIS A, AVDI M. Association of BF, RBP4, and ESR2 genotypes with litter size in an autochthonous pig population. Animal Biotechnology, 2017, 28(2): 138-143.
[9] KALABUS J L, SANBORN C C, JAMIL R G, CHENG Q, BLANCO J G. Expression of the anthracycline-metabolizing enzyme carbonyl reductase 1 in hearts from donors with Down syndrome. Drug Metabolism and Disposition, 2010, 38(12): 2096-2099.
[10] RASHID M A, LEE S, TAK E, LEE J, CHOI T G, LEE J W, KIM J B, YOUN J H, KANG I, HA J, KIM S S. Carbonyl reductase 1 protects pancreatic β-cells against oxidative stress-induced apoptosis in glucotoxicity and glucolipotoxicity. Free Radical Biology and Medicine, 2010, 49(10): 1522-1533.
[11] BOTELLA J A, ULSCHMID J K, GRUENEWALD C, MOEHLE C, KRETZSCHMAR D, BECKER K, SCHNEUWLY S. The drosophila carbonyl reductase sniffer prevents oxidative stress-induced neurodegeneration. Current Biology, 2004, 14(9): 782-786.
[12] KALABUS J L, CHENG Q, JAMIL R G, SCHUETZ E G, BLANCO J G. Induction of carbonyl reductase 1 (CBR1) expression in human lung tissues and lung cancer cells by the cigarette smoke constituent benzo [a]pyrene. Toxicology Letters, 2012, 211(3): 266-273.
[13] SUTO K, KAJIHARA-KANO H, YOKOYAMA Y, HAYAKARI M, KIMURA J, KUMANO T, TAKAHATA T, KUDO H, TSUCHIDA S. Decreased expression of the peroxisomal bifunctional enzyme and carbonyl reductase in human hepatocellular carcinomas. Journal of Cancer Research and Clinical Oncology, 1999, 125(2): 83-88.
[14] UMEMOTO M, YOKOYAMA Y, SATO S, TSUCHIDA S, AL-MULLA F, SAITO Y. Carbonyl reductase as a significant predictor of survival and lymph node metastasis in epithelial ovarian cancer. British Journal of Cancer, 2001, 85(7): 1032-1036.
[15] TAKENAKA K, OGAWA E, OYANAGI H, WADA H, TANAKA F. Carbonyl reductase expression and its clinical significance in non-small-cell lung cancer. Cancer Epidemiology Biomarkers Prevention, 2005, 14(8): 1972-1975.
[16] ESPEY L L, YOSHIOKA S, RUSSELL D, UJIOKA T, VLADU B, SKELSEY M, FUJII S, OKAMURA H, RICHARDS J S. Characterization of ovarian carbonyl reductase gene expression during ovulation in the gonadotropin-primed immature rat. Biology of Reproduction, 2000, 62(2): 390-397.
[17] IWATA N, INAZU N, SATOH T. Changes and localization of ovarian carbonyl reductase during pseudopregnancy and pregnancy in rats. Biology of Reproduction, 1990, 43(3): 397-403.
[18] KACZMAREK M M, KRAWCZYNSKI K, BLITEK A, KIEWISZ J, SCHAMS D, ZIECIK A J. Seminal plasma affects prostaglandin synthesis in the porcine oviduct. Theriogenology, 2010, 74 (7): 1207-1220.
[19] WACLAWIK A, JABBOUR H N, BLITEK A, ZIECIK A J. Estradiol-17beta, prostaglandin E2 (PGE2), and the PGE2 receptor are involved in PGE2 positive feedback loop in the porcine endometrium. Endocrinology, 2009, 150(8): 3823-3832.
[20] WACLAWIK A, ZIECIK A J. Differential expression of prostaglandin (PG) synthesis enzymes in conceptus during peri-implantation period and endometrial expression of carbonyl reductase/PG 9-ketoreductase in the pig. Journal of Endocrinology, 2007, 194(3): 499-510.
[21] ZIECIK A J, WACLAWIK A, BOGACKI M. Conceptus signals for establishment and maintenance of pregnancy in pigs-lipid signaling system. Experimental and Clinical Endocrinology & Diabetes, 2008, 116(7): 443-449.
[22] WACLAWIK A, JABBOUR H N, BLITEK A, ZIECIK A J. Estradiol-17β, Prostaglandin E2 (PGE2), and the PGE2 receptor are involved in PGE2 positive feedback loop in the porcine endometrium. Endocrinology, 2009, 150(8): 3823-3832.
[23] FANG X, MOU Y, HUANG Z, LI Y, HAN L, ZHANG Y, FENG Y, CHEN Y, JIANG X, ZHAO W, SUN X, XIONG Z, YANG L, LIU H, FAN D, MAO L, REN L, LIU C, WANG J, LI K, WANG G, YANG S, LAI L, ZHANG G, LI Y, WANG J, BOLUND L, YANG H, WANG J, FENG S, LI S, DU Y. The sequence and analysis of a Chinese pig genome. Gigascience, 2012, 1(1): 16.
[24] 吴延博,陈从英,张志燕,郭源梅,高军. 猪精子黏合分子1(SPAM1)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产仔数的关联性. 中国农业科学, 2009, 42(6): 2111-2117.
WU Y B, CHEN C Y, ZHANG Z Y, GUO Y M, GAO J. Genetic variation of porcine sperm adhesion molecule 1 (SPAM1) gene and its association with litter size in a white duroc×erhualian resource population. Scientia Agricultura Sinica, 2009, 42(6): 2111-2117. (in Chinese)
[25] ONTERU S K, FAN B, DU Z Q, GARRICK D J, STALDER K J, ROTHSCHILD M F. A whole-genome association study for pig reproductive traits. Animal Genetics, 2012, 43(1):18-26.
[26] UIMARI P, SIRONEN A, SEVÓNAIMONEN M L. Whole-genome SNP association analysis of reproduction traits in the Finnish Landrace pig breed. Genetics Selection Evolution, 2011 43(1):1-8.
[27] TANAKA N, NONAKA T, NAKANISHI M, DEYASHIKI Y, HARA A, MITSUI Y. Crystal structure of the ternary complex of mouse lung carbonyl reductase at 1.8 A resolution: the structural origin of coenzyme specificity in the short-chain dehydrogenase/reductase family. Structure, 1996, 4(1):33-45.
[28] LINDEN M V D, BUCKINGHAM K, FARQUHAR C, KREMER J A M, METWALLY M. Luteal phase support for assisted reproduction cycles. Cochrane Database of Systematic Reviews, 2011, 10(10): CD009154.
[29] DEVOTO L, HENRÍQUEZ S, KOHEN P, STRAUSS J F. The significance of estradiol metabolites in human corpus luteum physiology. Steroids, 2017. 123:50-54.
[30] SANTOS V G, BEG M A, BETTENCOURT E M, GINTHER O J. Role of PGF2α in luteolysis based on inhibition of PGF2α synthesis in the mare. Theriogenology, 2013, 80(7): 812-820.
[31] ZHANG A L, SUN X Y, YIN Q, ZENG J H, ZHANG Z, LI J Q, ZHANG H. Functional characterization of the promoter of the carbonyl reductase1 (CBR1) gene in porcine endometrial cells. Journal of Zhejiang University Science B, 2017, 18(7): 626-634. |