[1]Kellett G L. Alternative perspective on intestinal calcium absorption:proposed complementary actions of Cav1.3 and TRPV6[J]. Nutrition Reviews,2011,69(7):347-370.
[2]Horst R L,Goff J P,Reinhardt T A. Adapting to the transition between gestation and lactation:differences between rat,human and dairy cow[J]. Journal of Mammary Gland Biology and Neoplasia,2005,10(2):141-156.
[3]Hoenderop J G,Nilius B,Bindels R J. Calcium absorption across epithelia[J]. Physiological Reviews,2005,85:373-422.
[4]Bronner F. Mechanisms of intestinal calcium absorption[J]. Journal of Cellular Biochemistry,2003,88(2):387-393.
[5]Bronner F,Pansu D,Stein W D. An analysis of intestinal calcium transport across the rat intestine[J]. The American Journal of Physiology,1986,250(5 Pt 1):G561-569.
[6]Holzer P. TRP channels in the digestive system[J]. Current Pharmaceutical Biotechnology,2011,12(1):24-34.
[7]Choi K C,Jeung E B. Molecular mechanism of regulation of the calcium-binding protein calbindin-D9k,and its physiological role(s) in mammals:a review of current research[J]. Journal of Cellular and Molecular Medicine,2008,12(2):409-420.
[8]Hwang I,Jung E M,Yang H,et al. Tissue-specific expression of the calcium transporter genes TRPV5,TRPV6,NCX1 and PMCA1b in the duodenum,kidney and heart of Equus caballus[J]. Journal of Veterinary Medical Science,2011,73(11):1437-1444.
[9]Kim M H,Lee G S,Jung E M,et al. Dexamethasone differentially regulates renal and duodenal calcium-processing genes in calbindin -D9k and -D28k knockout mice[J]. Experimental Physiology,2009,94(1):138-151.
[10]Ko S H,Choi K C,Oh G T,et al. Effect of dietary calcium and 1,25-(OH)2D3 on the expression of calcium transport genes in calbindin-D9k and-D28k double knockout mice[J]. Biochemical and Biophysical Research Communications,2009,379(2):227-232.
[11]Song Y,Kato S,Fleet J C. Vitamin D receptor(VDR) knockout mice reveal VDR-independent regulation of intestinal calcium absorption and ECaC2 and calbindin D9k mRNA[J]. The Journal of Nutrition,2003,133(2):374-380.
[12]Xue Y,Fleet J C. Intestinal vitamin D receptor is required for normal calcium and bone metabolism in mice[J]. Gastroenterology,2009,136(4):1317-1327.
[13]Schrder B,Breves G. Mechanisms and regulation of calcium absorption from the gastrointestinal tract in pigs and ruminants:comparative aspects with special emphasis on hypocalcemia in dairy cows[J]. Animal Health Research Reviews/Conference of Research Workers in Animal Diseases,2007,7(1/2):31-41.
[14]Sprekeler N,Müller T,Kowalewski M P,et al. Expression patterns of intestinal calcium transport factors and ex-vivo absorption of calcium in horses[J]. BMC Veterinary Research,2011,7(1):65.
[15]Muscher A S,Wilkens M R,Mrochen N,et al. Ex vivo intestinal studies on calcium and phosphate transport in growing goats fed a reduced nitrogen diet[J]. British Journal of Nutrition,2012,108(4):628-637.
[16]Wilkens M R,Mrochen N,Breves G,et al. Gastrointestinal calcium absorption in sheep is mostly insensitive to an alimentary induced challenge of calcium homeostasis[J]. Comparative Biochemistry and Physiology Part B:Biochemistry and Molecular Biology,2011,158(3):199-207.
[17]Cehak A,Wilkens M R,Guschlbauer M,et al. In vitro studies on intestinal calcium and phosphate transport in horses[J]. Comparative Biochemistry and Physiology Part A:Molecular and Integrative Physiology,2012,161(2):259-264.
[18]陈小连,王佳堃,刘建新. 实时荧光定量 PCR 对瘤胃纤维分解菌定量方法的构建[J]. 中国畜牧杂志,2008,44(11):36-40.
[19]韩国全,余冰,陈代文,等. 乳酸锌对猪空肠上皮细胞IPEC-J2增殖及相关调控基因mRNA表达的影响[J]. 畜牧兽医学报,2012,43(5):740-747.
[20]唐博,冯永淼,付本懂,等. 蒙古绵羊输卵管上皮细胞β-防御素mRNA相对表达水平的实时荧光定量PCR检测[J]. 中国兽医科学,2009,39(8):733-737.
[21]Rieu I,Powers S J. Real-time quantitative RT-PCR:design,calculations,and statistics[J]. The Plant Cell,2009,21(4):1031-1033.
[22]Yuan J S,Reed A,Chen F,et al. Statistical analysis of real-time PCR data[J]. BMC Bioinformatics,2006,7:85.
[23]Dhaene B,Vandesompele J,Hellemans J. Accurate and objective copy number profiling using real-time quantitative PCR[J]. Methods,2010,50(4):262-270.