Compare metabolites in 2 of these studies:
Study A:   Study B:  

List of Studies ( Metabolite:Ser-Met)

Study_idAnalysis_idStudy_titleSourceSpeciesDiseaseInstituteUnits(range)
ST002759 AN004479 Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) Kidney cortex Rat Medical College of Wisconsin Area
ST002760 AN004483 Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) Kidney outer medulla Rat Medical College of Wisconsin Area
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides fragilis Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides thetaiotaomicron Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides uniformis Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Blautia producta Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium clostridioforme Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium hathewayi Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium hylemonae Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium scindens Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium symbiosum Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus faecalis Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus faecium Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus hirae Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Escherichia fergusonii Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Flavonifractor plautii Stanford University Peak height
ST002832 AN004625 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Parabacteroides distasonis Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides fragilis Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides thetaiotaomicron Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Bacteroides uniformis Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Blautia producta Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium clostridioforme Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium hathewayi Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium hylemonae Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium scindens Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Clostridium symbiosum Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus faecalis Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus faecium Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Enterococcus hirae Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Escherichia fergusonii Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Flavonifractor plautii Stanford University Peak height
ST002832 AN004626 Resource competition predicts assembly of in vitro gut bacterial communities- HILIC Bacterial cells Parabacteroides distasonis Stanford University Peak height
ST002407 AN003924 Spatial, temporal, and inter-subject variation of the metabolome along the human upper intestinal tract Intestine Human UC Davis Peak Height
ST001794 AN002912 Metabolomics Analysis of Time-Series Gastrointestinal Lumen Samples Intestine Human University of California, Davis Peak Height Intensity
ST002512 AN004137 Gnotobiotic mice: Metabolites in intestinal contents of germ-free mice colonized with strains of gut bacterium Eggerthella lenta Intestine Mouse University of California, San Francisco relative ion counts
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