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Volume 140, Issue 3, Pages (March 2011)

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1 Volume 140, Issue 3, Pages 976-986 (March 2011)
Association Between Composition of the Human Gastrointestinal Microbiome and Development of Fatty Liver With Choline Deficiency  Melanie D. Spencer, Timothy J. Hamp, Robert W. Reid, Leslie M. Fischer, Steven H. Zeisel, Anthony A. Fodor  Gastroenterology  Volume 140, Issue 3, Pages (March 2011) DOI: /j.gastro Copyright © 2011 AGA Institute Terms and Conditions

2 Figure 1 Experimental design. Participants were fed a controlled research diet that included adequate daily choline intake during the baseline period (red). During depletion, subjects were fed a diet very low in choline until they showed signs of deficiency or for a maximum of 42 days (gray). The 10-day repletion diet was very rich in choline (green). Arrows indicate timing of stool samples. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

3 Figure 2 Hierarchical clustering of gut microbiome samples. (A) Hierarchical clustering based on OTUs at 97% sequence similarity. Samples are colored by subject. (B) Hierarchical clustering based on ARISA profiles, a DNA fingerprinting technique. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

4 Figure 3 Diagrams of bacterial sequence proportions by time point at the class level. The key shows ordering of time points in the ring: B1, baseline; B2, standard diet; D1, choline-deficient diet; D2, end of choline-deficient diet; R1, high dietary choline sample; R2, second high dietary choline sample (subjects 34, 32, 37, 39). Blue subject labels designate those who developed fatty liver (liver fat change ≥28%) on a choline-deficient diet; those with red labels did not. Subjects 4 and 29 do not have all samples, and time points are labeled. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

5 Figure 4 Distribution of Gammaproteobacteria abundance by time point by subject. Plot of logged standardized sequence frequencies (log10) for Gammaproteobacteria colored by subject. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

6 Figure 5 Gammaproteobacteria and Erysipelotrichi abundance, particularly when combined with subject genotype, predicts choline deficiency–induced fatty liver. Regressions of (A) Gammaproteobacteria B1 abundance and (B) Erysipelotrichi B1 abundance against the LF/SF percent change from baseline (B1) to choline-deficient (D2) diet. (C) Regression of PCA1 from PCA of Gammaproteobacteria and Erysipelotrichi B1 abundance against the LF/SF percent change from B1 to D2. (D) Regression of PCA1 from PCA of PEMT genotype for rs , Gammaproteobacteria and Erysipelotrichi B1 abundance (6B) against the LF/SF percent change from B1 to D2. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

7 Figure 6 The PEMT SNP affects risk of developing choline deficiency–induced fatty liver. (A) Variability plot of PEMT genotype for SNP rs and the percent change in LF/SF. WT, wild-type; HET, heterozygous; HO, homozygous. (B) PCA of PEMT genotype for rs , Gammaproteobacteria, and Erysipelotrichi B1 abundance. Open circles indicate subjects who did not develop fatty liver; closed squares indicate subjects who did. Gastroenterology  , DOI: ( /j.gastro ) Copyright © 2011 AGA Institute Terms and Conditions

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