[1] Knop M,Dang T Q,Jeschke G. Copper is a cofactor of the formylglycine generating enzyme[J]. Chembiochem, 2017,18(2):161-165.
[2] Kanthlal K,Joseph J,Baskaran-Pillai A K,et al.Neural effects in copper deficient Menkes disease:ATP7A-a distinctive marker[J]. Asian Pacific Journal of Tropical Disease,2016,6(8):668-672.
[3] Medici V, Shibata N M, Kharbanda K K,et al. Wilson's disease:Changes in methionine metabolism and inflammation affect global DNA methylation in early liver disease[J].Hepatology,2013,57(2):555.
[4] 冯丽,文茂瑶,王万琴,等. 126例Wilson's病患者临床特点分析[J]. 四川大学学报(医学版),2016,47(1):128-130.
[5] 叶雷,闫亚丽陈庆森,等. 高通量测序技术在肠道微生物宏基因组学研究中的应用[J].中国食品学报,2016,16(7):216-223.
[6] Krishnamoorthy L,Cotruvo J A Jr,Chan J,et al. Copper regulates cyclic-AMP-dependent lipolysis[J]. Nature Chemical Biology,2016,12(8):586.
[7] 郭彤,许梓荣. 铜离子对引起仔猪腹泻的大肠杆菌K88杀菌机理的研究[J].中国预防兽医学报,2004,26(2):127-130.
[8] 冷向军,王康宁.高铜对早期断奶仔猪消化酶活性、营养物质消化率和肠道微生物的影响[J].饲料研究,2001,4:28-29.
[9] 邹君彪,贺建华.高铜对仔猪肠道微生物作用机制的研究[J].饲料研究,2007,3:45-46.
[10] Lozupone C A, Stombaugh J I,Gordon J I,et al. Diversity,stability and resilience of the human gut microbiota[J]. Nature,2012,489(7415):220-230.
[11] Moschen A R,Kaser S,Tilg H. Non-alcoholic steatohepatitis:A microbiota-driven disease[J]. Trends in Endocrinology & Metabolism,2013,24(11):537-545.
[12] 皮宇,高侃,朱伟云.动物宿主-肠道微生物代谢轴研究进展[J]. 微生物学报,2017,57(2):161-169.
[13] 方南元,孙晓琦,薛博瑜,等. 肠道微生物在非酒精性脂肪肝发病中的研究进展[J]. 中国老年学杂志,2016,36(2):469-471.
[14] Sonnenburg J L,Xu J,Leip D D, et al. Glycan foraging in vivo by an intestine-adapted bacterial symbiont[J]. Science,2005, 307(5717):1955-1959.
[15] Turnbaugh P J,Bäckhed F,Fulton L,et al. Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome[J]. Cell Host & Microbe,2008,3(4):213-223.
[16] Edgar R C. Search and clustering orders of magnitude faster than BLAST[J]. Bioinformatics,2010,26(19):2460-2461.
[17] 许晴,张放,张中旗,等.Simpson指数和Shannon-Wiener指数若干特征的分析及"稀释效应"[J].草业科学,2011,28(4):527-531.
[18] Ramette A. Multivariate analyses in microbial ecology[J]. Fems Microbiology Ecology,2007,62(2):142-160.
[19] White J R,Nagarajan N,Pop M. Statistical methods for detecting differentially abundant features in clinical metagenomic samples[J]. PLoS Computational Biology,2009,5(4):e1000352.
[20] Kemp P F,Aller J Y. Bacterial diversity in aquatic and other environments:What 16S rDNA libraries can tell us[J].Fems Microbiology Ecology,2004,47(47):161-177.
[21] 侯振江,孟晨阳. 铜代谢及其临床意义[J]. 微量元素与健康研究,2002,19(3):68-70.
[22] 武娜,朱宝利.人体肠道微生物与健康[J].科学,2013,65(2):13-16.
[23] Handelsman J,Rondon M R, Brady S F,et al. Molecular biological access to the chemistry of unknown soil microbes:A new frontier for natural products[J]. Cell Chemical Biology,1998,5(10):245-249.
[24] 董桂清,钱立群,金志娟. 肝豆状核变性血清铜和铜蓝蛋白测定的意义[J].宁夏医学杂志,2003,25(2):115.
[25] 姬玉娇,祝倩,耿梅梅,等.高、低营养水平饲粮对环江香猪结肠菌群结构及代谢物的影响[J].微生物学报,2015,7:1650-1659.
[26] Woting A,Blaut M.The intestinal microbiota in metabolic disease[J]. Nutrients,2016,8(4):202-221.
[27] Ley R E,Bäckhed F,Turnbaugh P,et al. Obesity alters gut microbial ecology[J].Proc Natl Acad Sci USA,2005,102(31):11070-11075.
[28] Turnbaugh P J,Ley R E,Mahowald M A,et al. An obesity-associated gut microbiome with increased capacity for energy harvest[J]. Nature,2006,444(7122):1027-1031.
[29] Smith E A,Macfarlane G T.Dissimilatory amino acid metabolism in human colonic bacteria[J].Anaerobe,1997,3(5):327-337. |