Data from: Intestinal Ralstonia pickettii augments glucose intolerance in obesity

  • Shanthadevi D. Udayappan (Amsterdam UMC) (Contributor)
  • Petia Kovatcheva-Datchary (Contributor)
  • Guido J. Bakker (Amsterdam UMC - University of Amsterdam) (Contributor)
  • S Havik (Contributor)
  • Hilde Herrema (Contributor)
  • Patrice D. Cani (Contributor)
  • Kristien E. Bouter (Amsterdam UMC) (Contributor)
  • Clara Belzer (Contributor)
  • Julia Witjes (Contributor)
  • A. Vrieze (Contributor)
  • Noor de Sonnaville (Contributor)
  • Alice Chaplin (Contributor)
  • Daniël van Raalte (Contributor)
  • Steven Aalvink (Contributor)
  • Geesje Dallinga - Thie (Contributor)
  • Hans G. H. J. Heilig (Contributor)
  • Göran Bergström (Contributor)
  • Suzan van der Meij (Contributor)
  • Bart A. van Wagensveld (Contributor)
  • Joost B. L. Hoekstra (Amsterdam UMC - University of Amsterdam) (Contributor)
  • Frits Holleman (Contributor)
  • Erik Stroes (Contributor)
  • Bert Groen (Contributor)
  • Fredrik Bäckhed (Contributor)
  • Willem M. de Vos (Contributor)
  • Max Nieuwdorp (Contributor)
  • Albert Groen (Contributor)
  • Albert K Groen (Contributor)

Dataset

Description

An altered intestinal microbiota composition has been implicated in the pathogenesis of metabolic disease including obesity and type 2 diabetes mellitus (T2DM). Low grade inflammation, potentially initiated by the intestinal microbiota, has been suggest...
Date made available17 Oct 2018
PublisherZENODO

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