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[1]Han JC, Wang XN, Wu LH, Lv XL, He L, Qu HX, Shi CX, Zhang L, Wang ZX. Dietary calcium levels regulate calcium transporter gene expression levels in the small intestine of broiler chickens. British Poultry Science, 2021, doi: 10.1080/0007 1668.2021.1949697.
[2] Wu LH, Wang XN, Lv XL, He L, Qu HX, Shi CX, Zhang L, Zhang JL, Wang ZX,Han JC*. 1,25-Dihydroxycholecalciferol improved the growth performance and upregulated the calcium transporter gene expression levels in the small intestine of broiler chickens. Journal of Poultry Science, 2021, doi: 10.2141/jpsa. 0210019.
[3] Yang X, Zhang N, Wang XN, Qu HX, Zhang JL, Yan YF, Cheng YH,Han JC*. Optimal dietary levels of 1α-hydroxycholecalciferol in broiler chickens from 1 to 42 days of age. Journal of Poultry Science, 2020, 57(2): 124–130.
[4] 杨雪, 汪晓娜, 张宁, 瞿红侠, 施传信, 张进良, 闫永峰, 郑永祥, 王志祥,韩进诚*. 基于转录组测序筛选维生素D调节肉鸡十二指肠钙和磷吸收的差异表达基因. 动物营养学报, 2019, 31(11): 5202–5213.
[5]Han JC, Zhang JL, Zhang N, Yang X, Qu HX, Guo Y, Shi CX, Yan YF. Age, phosphorus, and 25-hydroxycholecalciferol regulate mRNA expression of vitamin D receptor and sodium-phosphate cotransporter in the small intestine of broiler chickens. Poultry Science, 2018, 97(4): 1199–1208.
[6]Han JC, Wang JG, Chen GH, Zhang JL, Zhang N, Qu HX, Guo Y, Yan YF, Yang XJ. 1α-Hydroxycholecalciferol improves the growth performance and up-regulates the mRNA expression of vitamin D receptor in the small intestine and kidney of broiler chickens. Poultry Science, 2018, 97(4): 1263–1270.
[7] Zhang TY, Liu JL, Zhang JL, Zhang N, Yang X, Qu HX, Xi L,Han JC. Effects of dietary zinc levels on the growth performance, organ zinc content, and zinc retention in broiler chickens. Brazilian Journal of Poultry Science, 2018, 20(1): 127–132.
[8]Han JC, Chen GH, Zhang JL, Wang JG, Qu HX, Yan YF, Yang XJ, Cheng YH. Relative biological value of 1α-hydroxycholecalciferol to 25-hydroxycholecal- ciferol in broiler chicken diets. Poultry Science, 2017, 96(7): 2330–2335.
[9] 陈冠华, 张金龙, 王建国, 张宁, 瞿红侠, 王志祥, 闫永峰,韩进诚*. 肉仔鸡对25-羟基维生素D3的需要量. 动物营养学报, 2017, 29(7): 2335–2347.
[10]Han JC, Chen GH, Wang JG, Zhang JL, Qu HX, Zhang CM, Yan YF, Cheng YH. Evaluation of relative bioavailability of 25-hydroxycholecalciferol to cholecalciferol for broiler chickens. Asian-Australasian Journal of Animal Sciences, 2016, 29(8): 1145–1151.
[11]Han JC, Wang JG, Chen GH, Qu HX, Zhang JL, Shi CX, Yan YF, Cheng YH. Effects of calcium to non-phytate phosphorus ratio and different sources of vitamin D on growth performance and bone mineralization in broiler chickens. Brazilian Journal of Animal Science, 2016, 45(1):1–7.
[12] Wang JG,Han JC*, Chen GH, Qu HX, Wang ZX, Yan YF, Cheng YH. Comparison of bioavailability of 1α-hydroxycholecalciferol and cholecalciferol in broiler chicken diets. Journal of Poultry Science, 2016, 53(1):22–28.
[13]Han JC, Qu HX, Wang JG, Yan YF, Zhang JL, Yang L, Zhang M, Cheng YH. Effects of fermentation products of Cordyceps militaris on growth performance and bone mineralization of broiler chicks. Journal of Applied Animal Research, 2015, 43(2): 236–241.
[14]Han JC, Qu HX, Wang JG, Chen GH, Yan YF, Zhang JL, Hu FM, You LY, Cheng YH. Comparison of the growth and mineralization of the femur, tibia, and metatarsus of broiler chicks. Brazilian Journal of Poultry Science, 2015, 17(3): 333–339.
[15]Han JC, Ma K, Wang JG, Chen GH, Zhang JL, Qu HX, Yan YF, Cheng YH. Effects of non-phytate phosphorus and 1α-hydroxycholecalciferol on growth performance, bone mineralization, and carcass traits of broiler chickens. Brazilian Journal of Poultry Science, 2015, 17(4): 503–509.
[16]Han JC, Qu HX, Wang JQ, Yao JH, Zhang CM, Yang GL, Cheng YH, Dong XS. The effects of dietary cholecalciferol and 1α-hydroxycholecalciferol levels in a calcium- and phosphorus-deficient diet on growth performance and tibia quality of growing broilers. Journal of Animal and Feed Sciences, 2013, 22(2): 158–164.
[17] Han JC, Liu Y, Yao JH, Wang JQ, Qu HX, Yan YF, Yue J, Ding JL, Shi ZT, Dong XS. Dietary calcium levels reduce the efficacy of one alpha-hydroxy- cholecalciferol in phosphorus-deficient diets of broilers. Journal of Poultry Science, 2012, 49(1): 34–38.
[18]韩进诚, 洪尧彰, 曹博宏, 郑永祥. 维生素D代谢物调节钙代谢的机理及其应用. 动物营养学报, 2012, 24 (3): 411–415.
[19]韩进诚, 瞿红侠, 姚军虎, 施传信, 张春梅, 梁峰, 董先顺. 1α-羟基维生素D3和植酸酶对22-42日龄肉鸡生长性能、胫骨发育和肉品质的影响. 动物营养学报, 2011, 23(1): 102–111.
[20]Han JC, Yang XD, Zhang LM, Li WL, Zhang T, Zhang ZY, Yao JH. Effects of 1α-hydroxycholecalciferol and phytase on growth performance, tibia parameter and meat quality of 1- to 21-d-old broilers. Asian-Australasian Journal of Animal Sciences, 2009, 22(6): 857–864.
[21]Han JC, Yang XD, Qu HX,Xu M,Zhang T, Li WL, Yao JH, Liu YR, Shi BJ, Zhou ZF, Feng XY. Evaluation of equivalency values of microbial phytase to inorganic phosphorus in 22- to 42-day-old broilers. Journal of Applied Poultry Research, 2009, 18(4): 707–715.
[22] Han JC, Yang XD, Zhang T, Li H, Li WL, Zhang ZY, Yao JH. Effects of 1α-hydroxycholecalciferol on growth performance, parameters of tibia and plasma, meat quality, and type IIb sodium phosphate cotransporter gene expression of one- to twenty-one-day-old broilers. Poultry Science, 2009, 88(2):323–329.
[23]韩进诚, 杨晓丹, 杨凤霞, 姚军虎, 刘玉瑞, 陈新科, 王耀杰, 周镇锋, 许晋荣, 冯新雨. 微生物植酸酶与1-21日龄肉鸡饲粮无机磷当量模型研究. 畜牧兽医学报, 2008, 39(7): 907–914.