[1] 彭博, 郭中敏, 陆家海. 人工合成抗菌肽的常用方法及应用前景[J]. 中国抗生素杂志, 2012, 37(3):176-183.
[2] 黄文树. 锯缘青蟹一种新的阴离子抗菌肽scygonadin及其基因的分离与鉴定[D]. 厦门:厦门大学, 2006.
[3] 宁超. 细菌诱导对离体昆虫细胞生长的影响和抗菌蛋白活性研究[D]. 北京:中国林业科学研究院, 2012.
[4] 庹晓晔, 柴家科. 抗菌肽的基因工程研究进展[J]. 生物技术通讯, 2007, 18(2):298-300.
[5] 付登峰, 胡建和, 刘兴友. 抗菌肽基因工程表达技术研究进展[J]. 中国畜牧兽医, 2010, 37(9):124-126.
[6] 马艳. 黄芪等四种中药诱导小鼠肺组织β-防御素2、3的基因表达[D]. 成都:四川大学, 2006.
[7] 罗振福, 李俊波, 贺建华, 等. 抗菌肽及其基因表达体系研究进展[J]. 饲料工业, 2009, 30(1):45-48.
[8] 庞广昌. 一种新型具抗菌作用的免疫活性肽及其抗菌机理[D]. 天津:天津大学, 2007.
[9] Andres E. Cationic antimicrobial peptides in clinical development, with special focus on thanatin and heliomicin[J]. Eur J Clin Microbiol Infect Dis, 2012, 31(6):881-888.
[10] 崔奕, 王平, 黄赤夫. 抗菌肽的基因工程研究及应用[J]. 中南林业科技大学学报, 2011, 31(7):209-216.
[11] 张龚炜, 周定刚, 雷荣苹, 等. 1, 25-(OH)_2-D_3对抗菌肽表达调控的影响[J]. 中国畜牧杂志, 2009, 45(13):59-63.
[12] Garreis F, gottschalt M, Schlorf T, et al. Expression and regulation of antimicrobial peptide psoriasin(S100A7)at the ocular surface and in the lacrimal apparatus[J]. Invest Ophthalmol Vis Sci, 2011, 52(7):4914-4922.
[13] Brandenburg LO, Varoga D, Nicolaeva N, et al. Expression and regulation of antimicrobial peptide rCRAMP after bacterial infection in primary rat meningeal cells[J]. J Neuroimmunol, 2009, 217(1-2):55-64.
[14] 张媛媛. Hepcidin表达调控与铁代谢研究进展[J]. 中国卫生产业, 2011, 8(34):176.
[15] Shike H, Lauth X, Westerman ME, et al. Bass hepcidin is a novel antimicrobial peptide induced by bacterial challenge[J]. Eur J Biochem, 2002, 269(8):2232-2237.
[16] Pigeon C, Ilyin G, Courselaud B, et al. A new mouse liver-specific gene, encoding a protein homologous to human antimicrobial peptide hepcidin, is overexpressed during iron overload[J]. J Biol Chem, 2001, 276(11):7811-7819.
[17] Wu H, Zhang G, Minton JE, et al. Regulation of cathelicidin gene expression:induction by lipopolysaccharide, interleukin-6, retinoic acid, and Salmonella enterica serovar typhimurium infection[J]. Infect Immun, 2000, 68(10):5552-5558.
[18] Raqib R, Sarker P, Bergman P, et al. Improved outcome in shigellosis associated with butyrate induction of an endogenous peptide antibiotic[J]. Proc Natl Acad Sci USA, 2006, 103(24):9178-9183.
[19] 雷剑, 王敏奇, 李卫芬. 家畜内源性Cathelicidin抗菌肽的表达调控及其生物学作用[J]. 中国饲料, 2007(24):25-29.
[20] 汪以真, 王静华, 林文学, 等. 不同锌源对断奶仔猪抗菌肽PR-39 mRNA表达的影响[J]. 中国兽医学报, 2005, 25(5):523-526.
[21] 王燕, 汪以真, 姚国佳, 等. 牛乳铁蛋白对断奶仔猪抗菌肽PMAP-37 mRNA表达的影响[J]. 农业生物技术学报, 2007, 15(5):757-761.
[22] 赵玉蓉, 王红权, 贺建华, 等. 谷氨酰胺对断奶仔猪抗菌肽PR-39 mRNA的表达调控[J]. 动物营养学报, 2009, 21(4):567-572.
[23] Schwab M, Reynders V, Shastri Y, et al. Role of nuclear hormone receptors in butyrate-mediated up-regulation of the antimicrobial peptide cathelicidin in epithelial colorectal cells[J]. Mol Immunol, 2007, 44(8):2107-2114.
[24] Raqib R, Sarker P, Bergman P, et al. Improved outcome in shigellosis associated with butyrate induction of an endogenous peptide antibiotic[J]. Proc Natl Acad Sci USA, 2006, 103(24):9178-9183.
[25] Campbell Y, Fantacone ML, Gombart AF. Regulation of antimicrobial peptide gene expression by nutrients and by-products of microbial metabolism[J]. Eur J Nutr, 2012, 51(8):899-907.
[26] 黎德兵, 李超, 张龚炜, 等. 饲料中维生素D_3水平对黄鳝抗菌肽hepcidin基因表达的影响[J]. 动物营养学报, 2012, 24(8):1520-1526.
[27] 赵玉蓉, 陈清华, 贺建华, 等. 牛膝多糖对断奶仔猪抗菌肽Protegrin-1 mRNA表达的影响[J]. 动物营养学报, 2008, 20(1):80-84.
[28] 赵燕飞, 汪以真. 白术微粉对仔猪抗菌肽PR-39 mRNA和Protegrin-1 mRNA表达的影响[J]. 中国兽医杂志, 2008, 44(10):50-51.
[29] Guo C, Rosoha E, Lowry MB, et al. Curcumin induces human cathelicidin antimicrobial peptide gene expression through a vitamin D receptor-independent pathway[J]. J Nutr Biochem, 2013, 24(5):754-759.
[30] 黎观红, 洪智敏, 贾永杰, 等. 抗菌肽的抗菌作用及其机制[J]. 动物营养学报, 2011, 23(4):546-555.
[31] Shin JR, Lim KJ, Kim DJ, et al. Display of multimeric antimicrobial peptides on the Escherichia coli cell surface and its application as whole-cell antibiotics[J]. PLoS One, 2013, 8(3):e58997. |