Role of Intestinal Microbiota in Ulcerative Colitis
Role of Intestinal Microbiota in Ulcerative Colitis
Role of Intestinal Microbiota in Ulcerative Colitis
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References<br />
Ghadimi,D., de Vrese,M., Heller,K.J., and Schrezenmeir,J. (2010). Effect <strong>of</strong> Natural Commensal‐Orig<strong>in</strong> DNA<br />
on Toll‐like Receptor 9 (TLR9) Signal<strong>in</strong>g Cascade, Chemok<strong>in</strong>e IL‐8 Expression, and Barrier Integritiy <strong>of</strong><br />
Polarized <strong>Intest<strong>in</strong>al</strong> Epithelial Cells. Inflammatory Bowel Diseases. 16:410‐427.<br />
Gibson,G.R., McCartney,A.L., and Rastall,R.A. (2006). Prebiotics and resistance to gastro<strong>in</strong>test<strong>in</strong>al<br />
<strong>in</strong>fections. British Journal <strong>of</strong> Nutrition. 93:S31‐S34.<br />
Gibson,G.R. and Roberfroid,M.B. (1995). Dietary Modulation <strong>of</strong> the Human Colonic <strong>Microbiota</strong> ‐<br />
Introduc<strong>in</strong>g the Concept <strong>of</strong> Prebiotics. Journal <strong>of</strong> Nutrition. 125:1401‐1412.<br />
Gilad,O., Svensson,B., Viborg,A.H., Stuer‐Lauridsen,B., and Jacobsen,S. (2011). The extracellular proteome<br />
<strong>of</strong> Bifidobacterium animalis subsp lactis BB‐12 reveals prote<strong>in</strong>s with putative roles <strong>in</strong> probiotic<br />
effects. Proteomics. 11:2503‐2514.<br />
Gilbreth,S.E., Benson,A.K., and Hutk<strong>in</strong>s,R.W. (2004). Catabolite repression and virulence gene expression<br />
<strong>in</strong> Listeria monocytogenes. Current Microbiology. 49:95‐98.<br />
Gill,S.R., Pop,M., Deboy,R.T., Eckburg,P.B., Turnbaugh,P.J., Samuel,B.S., Gordon,J.I., Relman,D.A., Fraser‐<br />
Liggett,C.M., and Nelson,K.E. (2006). Metagenomic analysis <strong>of</strong> the human distal gut microbiome.<br />
Science. 312:1355‐1359.<br />
Granato,D., Bergonzelli,G.E., Pridmore,R.D., Marv<strong>in</strong>,L., Rouvet,M., and Corthesy‐Theulaz,I.E. (2004). Cell<br />
surface‐associated elongation factor Tu mediates the attachment <strong>of</strong> Lactobacillus johnsonii NCC533<br />
(La1) to human <strong>in</strong>test<strong>in</strong>al cells and muc<strong>in</strong>s. Infection and Immunity. 72:2160‐2169.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996d). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996f). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996a). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996h). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996b). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996c). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996e). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grass<strong>in</strong>,C. and Fauquembergue,P. (1996g). Fruit Juice. In: Industrial Enzymology. Ed. T.Godfrey and S.West<br />
Nature Publish<strong>in</strong>g Group. 227‐264.<br />
Grizard,D. and Barthomeuf,C. (1999). Non‐digestible oligosaccharides used as prebiotic agents: mode <strong>of</strong><br />
production and beneficial effects on animal and human health. Reproduction Nutrition Development.<br />
39:563‐588.<br />
Guarner,F. and Malagelada,J.R. (2003). Gut flora <strong>in</strong> health and disease. Lancet. 361:512‐519.<br />
Gueimonde,M., Noriega,L., Margolles,A., and de los Reyes‐Gavilan,C. (2007). Induction <strong>of</strong> alpha‐L‐<br />
arab<strong>in</strong><strong>of</strong>uranosidase activity by monomeric carbohydrates <strong>in</strong> Bifidobacterium longum and ubiquity <strong>of</strong><br />
encod<strong>in</strong>g genes. Archives <strong>of</strong> Microbiology. 187:145‐153.<br />
Guilloteau,P., Mart<strong>in</strong>,L., Eeckhaut,V., Ducatelle,R., Zabielski,R., and Van Immerseel,F. (2010). From the<br />
gut to the peripheral tissues: the multiple effects <strong>of</strong> butyrate. Nutrition Research Reviews. 23:366‐<br />
384.<br />
Gunn<strong>in</strong>g,A.P., Bongaerts,R.J.M., and Morris,V.J. (2009). Recognition <strong>of</strong> galactan components <strong>of</strong> pect<strong>in</strong> by<br />
galect<strong>in</strong>‐3. Faseb Journal. 23:415‐424.<br />
Guo,X., Xia,X., Tang,R., Zhou,J., Zhao,H., and Wang,K. (2008). Development <strong>of</strong> a real‐time PCR method for<br />
Firmicutes and Bacteroidetes <strong>in</strong> faeces and its application to quantify <strong>in</strong>test<strong>in</strong>al population <strong>of</strong> obese<br />
and lean pigs. Letters <strong>in</strong> Applied Microbiology. 47:367‐373.<br />
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