基因组学与应用生物学

参考文献

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Ru C.Y.,Zhang J.,Du G.C.,Chen J.,and Li J.H.,2016,Allergenicity investigation of hydrolyzedαs1-casein in bovine milk by immobilized protease,Shipin Yu Shengwu Jishu Xuebao(Journal of Food Science and Biotechnology),35(4):387-392(汝成业,张娟,堵国成,陈坚,李江华,2016,包埋固定化酶降解牛奶αs1-酪蛋白过敏性研究,食品与生物技术学报,35(4):387-392)

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Tang W.H.,Wang L.H.,Yin H.S.,and Sun Y.M.,2015,The immobilization ofβ-galactosidase on chitosan microspheres,Shipin Yu Fajiao Gongye(Food and Fermentation Industries),41(5):105-109(汤卫华,王立晖,殷海松,孙勇民,2015,壳聚糖微球固定化β-半乳糖苷酶,食品与发酵工业,41(5):105-109)

Tang Z.P.,Lin C.X.,Zhang X.Y.,and Wu Y.,2016,Covalent immobilizationof laccaseon macroporous resin and its decolorationon malachite green,Huangjing Kexue Yu Guanli(Environmental Science and Management),41(10):78-82(汤真平,林春香,张新颖,伍雁,2016,大孔树脂共价固定化漆酶及其对孔雀石绿的脱色研究,环境科学与管理,41(10):78-82)

Wang P.,Wang F.H.,Tang Q.Y.,Wang Y.H.,and Yang B.,2015,Preparation and catalytic properties of immobilized thermoalkaliphilic T1 Lipase from Geobacillus sp.strain T1,Xiandai Shipin Keji(Modern Food Science and Technology),31(5):175-179(汪璞,王方华,唐庆芸,王永华,杨博,2015,固定化嗜热嗜碱土芽孢杆菌T1脂肪酶的制备及其催化特性研究,现代食品科技,31(5):175-179)

Wei M.,Yao Z.,Ye L.J.,Wang H.Q.,Ni F.,Zhou Z.,Zhong Z.X.,and Sun Y.,2016,Improving p H tolerance and catalytic properties of immobilizedγ-glutamyltranspeptidase by coated with carrier ampholyte,Shengwu Jiagong Guocheng(Chinese Journal of Bioprocess Engineering),14(4):37-42(韦敏,姚忠,叶丽静,王浩绮,倪芳,周治,仲兆祥,孙芸,2016,载体两性电解质修饰对固定化γ-谷氨酰转肽酶p H耐受性和催化活性的影响,生物加工过程,14(4):37-42)

Xiao Y.F.,Yao Z.,Wang H.Q.,Xiong Q.,Hu G.M.,Xu H.,and Wei P.,2010,Enzymatic synthesis of S-bzl-γ-lutamyl-L-cysteine withγ-glutamyltranspeptidase immobilized onto ordered mesoporous Ti O2,Guocheng Gongcheng Xuebao(The Chinese Journal of Process Engineering),10(6):1175-1180(肖易凡,姚忠,王浩琦,熊强,胡国梅,徐虹,韦萍,2010,有序介孔Ti O2固载γ-谷氨酰转肽酶催化合成S-bzl-γ-Glutamyl-L-Cysteine,过程工程学报,10(6):1175-1180)

Xiao Y.L.,Zhou Z.,Yao Z.,Xu H.,and Wei P.,2009,Catalytic properties of immobilizedγ-glutamyltranspeptidase from B.subtilis NX-2,Xiandai Huagong(Modern Chemical Industry),29(2):147-151(肖彦羚,周治,姚忠,徐虹,韦萍,2009,固定化γ-谷氨酰转肽酶的催化特性研究,现代化工,29(2):147-151)

Xu L.S.,Gao G.G.,Zhao L.,Cao W.G.,Zhang X.T.,Chen J.,Jiao Q.C.,and Bao N.N.,2016,Entrapping method immobilization of gene engineering bacteria with tryptophan synthetase and synthesis of L-tryptophan,Jingxi Huagong(Fine Chemicals),33(1):24-31(徐礼生,高贵珍,赵亮,曹稳根,张兴桃,陈军,焦庆才,鲍妮娜,2016,包埋法固定化色氨酸合成酶基因工程菌合成L-色氨酸的研究,精细化工,33(1):24-31)

Xu X.L.,Hu Y.J.,Xie L.P.,Liu Y.,and Zhang W.,2016,Immobilization of cephalosporin C acylase,Zhongguo Yiyao Gongye Zazhi(Chinese Journal of Pharmaceuticals),47(4):407-410(徐雪丽,胡又佳,谢丽萍,刘艳,张伟,2016,头孢菌素C酰化酶的固定化,中国医药工业杂志,47(4):407-410)

Xun Z.J.,He Z.,Zhang Z.,and Xu H.,2004,γ-glutamyltranspeptidase and its applications,Nanjing Gongye Daxue Xuebao(Journal of Nanjing University of Technology),26(4):106-110(荀志金,贺忠,张征,徐虹,2004,γ-谷氨酰转肽酶及其应用,南京工业大学学报,26(4):106-110)

Yu M.,Zhou H.Y.,Ren L.W.,Jiang Z.H.,Zhou H.,and Wei P.,2015,Co-immobilization of dextran and Candida rugosa lipase on macroporous resin and synthesis of citronellyl esters,Shengwei Jiagong Guocheng(Chinese Journal of Bioprocess Engineering),13(6):18-23(于敏,周海燕,任立伟,蒋振华,周华,韦萍,2015,大孔树脂共吸附固定葡聚糖-脂肪酶催化合成香茅酯,生物加工过程,13(6):18-23)

Zheng Y.,Wang X.Q.,Zhao Y.G.,Feng G.,and Shen Z.C.,2016,Effects of immobilization on communitystructure and function of sulfide oxidizing microbiota,Weishengwu Xuebao(Acta Microbiologica Sinica),56(9):1504-1512(郑宇,王晓琼,赵阳国,冯巩,申志聪,2016,包埋法固定化对硫氧化微生物菌群结构和功能的影响,微生物学报,56(9):1504-1512)

Zhou H.Y.,Jiang Z.H.,Ren L.W.,Yu M.,Zhou H.,and Wei P.,2016,Synthesis of phytosterol esters catalyzed by immobilized lipase in solvent-free system,Guocheng Gongcheng Xuebao(The Chinese Journal of Process Engineering),16(3):500-504(周海燕,蒋振华,任立伟,于敏,周华,韦萍,2016,无溶剂体系中共吸附固定化脂肪酶催化合成植物甾醇酯,过程工程学报,16(3):500-504)