[1]Rosenfeld M G. POU-domain transcription factors: powerful developmental regulators. Genes Development, 1991, 5: 897-907.[2]Tuggle C K, Trenkle A. Control of growth hormone synthesis. Domestic Animal Endocrinology, 1996, 13(1): 1-33.[3]Cohen L E, Wondisford F E, Radovick S. Role of Pit-1 in the gene expression of growth hormone, prolactin, and thyrotropin. Endocrinology and Metabolism Clinics of North America, 1996, 25(3): 523-540. [4]Ohta K, Nobukuni Y, Mitsubuchi H, Ohta T, Tohma T, Jinno Y, Endo F, Matsuda I. Characterization of the gene encoding human pituitary-specific transcription factor, Pit-1. Gene, 1992, 122(2): 387-388. [5]Ohta K, Nobukuni Y, Mitsubuchi H, Fujimoto S, Matsuo N, Inagaki H, Endo F, Matsuda I. Mutations in the Pit-1 gene in children with combined pituitary hormone deficiency. Biochemical and Biophysical Research Communications, 1992, 189(2): 851-855.[6]Cohen L E, Radovick S. Molecular basis of combined pituitary hormone deficiencies. Endocrine Reviews, 2002, 23(4): 431-442.[7]Salemi S, Besson A, Eblé A, Gallati S, Pfäffle R W, Mullis P E. New N-terminal located mutation(Q4ter) within the POU1F1-gene(PIT-1) causes recessive combined pituitary hormone deficiency and variable phenotype. Growth Hormone and IGF Research, 2003, 13(5): 264-268. [8]Hendriks-Stegeman B I, Augustijn K D, Bakker B, Holthuizen P, van der Vliet P C, Jansen M. Combined pituitary hormone deficiency caused by compound heterozygosity for two novel mutations in the POU domain of the Pit1/POU1F1 gene. Journal of Clinical Endocrinology and Metabolism, 2001, 86(4): 1545-1550. [9]Li S, Crenshaw E B 3rd, Rawson E J, Simmons D M, Swanson L W, Rosenfeld M G. Dwarf locus mutants lacking three pituitary cell types result from mutations in the POU-domain gene pit-1. Nature, 1990, 347(6293): 528-533.[10]Banerjee-Basu S, Baxevanis A D. Molecular evolution of the homeodomain family of transcription factors. Nucleic Acids Research, 2001, 29(15): 3258-3269.[11]Chung H O, Kato T, Tomizawa K, Kato Y. Molecular cloning of pit-1 cDNA from porcine anterior pituitary and its involvement in pituitary stimulation by growth hormone-releasing factor. Experimental and Clinical Endocrinology and Diabetes, 1998, 106(3): 203-210.[12]Brunsch C, Sternstein I, Reinecke P, Bieniek J. Analysis of associations of PIT1 genotypes with growth, meat quality and carcass composition traits in pigs. Journal of Applied Genetics, 2002, 43(1): 85-91.[13]Yu T P, Tuggle C K, Schmitz C B, Rothschild M F. Association of PIT1 polymorphisms with growth and carcass traits in pigs. Journal of Animal Science, 1995, 73(5): 1282-1288. [14]Franco M M, Antunes R C, Silva H D, Goulart L R. Association of PIT1, GH and GHRH polymorphisms with performance and carcass traits in Landrace pigs. Journal of Applied Genetics, 2005, 46(2): 195-200.[15]Stanceková K, Vasícek D, Peskovicová D, Bulla J, Kúbek A. Effect of genetic variability of the porcine pituitary-specific transcription factor(PIT-1) on carcass traits in pigs. Animal Genetics, 1999, 30(4): 313-315. [16]Knorr C, Moser G, Müller E, Geldermann H. Associations of GH gene variants with performance traits in F2 generations of European wild boar, Piétrain and Meishan Pigs. Animal Genetics, 1997, 28(2): 124-128. [17]Kury? J, Pierzcha?a M. Association of POU1F1/RsaI genotypes with carcass traits in pigs. Journal of Applied Genetics, 2001, 42(3): 309-316. [18]Song C, Gao B, Teng Y, Wang X, Wang Z, Li Q, Mi H, Jing R, Mao J. MspI polymorphisms in the 3rd intron of the swine POU1F1 gene and their associations with growth performance. Journal of Applied Genetics, 2005, 46(3): 285-289.[19]宋成义, 赵 芹, 高 波, 孙丽亚, 王宵燕, 吴 晗, 谢 飞, 李碧春. 猪POU1F1基因 5′侧翼区克隆及序列分析. 生物信息学, 2009, 7(3): 184-189. Song C Y, Zhao Q, Gao B, Sun L Y, Wang X Y, Wu H, Xie F, Li B C. Cloning and sequence analysis of the 5’ Flanking region of Porcine POU1F1 gene. Journal of Bioinformation, 2009, 7(3): 184-189. (in Chinese)[20]Kerr J, Wood W, Ridgway E C. Basic science and clinical research advances in the pituitary transcription factors: Pit-1 and Prop-1. Current Opinion in Endocrinology, Diabetes and Obesity, 2008, 15(4): 359-363. [21]Woollard J, Schmitz C B, Freeman A E, Tuggle C K. HinfI polymorphism at the bovine PIT1 locus. Journal of Animal Science, 1994, 72(12): 3267. [22]Zhao Q, Davis M E, Hines H C. Associations of polymorphisms in the Pit-1 gene with growth and carcass traits in Angus beef cattle. Journal of Animal Science, 2004, 82(8): 2229-2233.[23]Zhang C, Liu B, Chen H, Lan X, Lei C, Zhang Z, Zhang R. Associations of a HinfI PCR-RFLP of POU1F1 gene with growth traits in Qinchuan Cattle. Animal Biotechnology, 2009, 20(2): 71-74.[24]Renaville R, Gengler N, Vrech E, Prandi A, Massart S, Corradini C, Bertozzi C, Mortiaux F, Burny A, Portetelle D. Pit-1 gene polymorphism, milk yield, and conformation traits for Italian Holstein-Friesian bulls. Journal of Dairy Science, 1997, 80(12): 3431-3438.[25]Nie Q, Lei M, Ouyang J, Zeng H, Yang G, Zhang X. Identification and characterization of single nucleotide polymorphisms in 12 chicken growth-correlated genes by denaturing high performance liquid chromatography. Genetics Selection Evolution, 2005, 37(3): 339-360. [26]Nie Q, Fang M, Xie L, Zhou M, Liang Z, Luo Z, Wang G, Bi W, Liang C, Zhang W, Zhang X. The PIT1 gene polymorphisms were associated with chicken growth traits. BMC Genetics, 2008, 9: 20-24.[27]Jiang R, Li J, Qu L, Li H, Yang N. A new single nucleotide polymorphism in the chicken pituitary-specific transcription factor(POU1F1) gene associated with growth rate. Animal Genetics, 2004, 35(4): 344-346. [28]Song C Y, Gao B, Teng S H, Wang X Y, Xie F, Chen G H, Wang Z Y, Jing R B, Mao J D. Polymorphisms in intron 1 of the porcine POU1F1 gene. Journal of Applied Genetics, 2007, 48(4): 371-374. [29]Bidanel J P, Milan D, Iannuccelli N, Amigues Y, Boscher M Y, Bourgeois F, Caritez J C, Gruand J, Le Roy P, Lagant H, Quintanilla R, Renard C, Gellin J, Ollivier L, Chevalet C. Detection of quantitative trait loci for growth and fatness in pigs. Genetic Selection Evolution, 2001, 33(3): 289-309. |