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Coauthors
Barbara Kahn Department of Medicine, Beth Israel Deaconess Medical Center and Harvard Medical School, USA
1 protocol

Qin Yang Department of Medicine, Beth Israel Deaconess Medical Center and Harvard Medical School, USA
1 protocol
Coreviewers
Andrea Puhar The Laboratory for Molecular Infection Medicine Sweden (MIMS) and Department of Molecular Biology, Umea University, Sweden
13 protocols

Antoine de Morree Stanford university
23 protocols

Jianwei Sun South China Agricultural University
3 protocols

Marc-Antoine Sani School of Chemistry, The University of Melbourne, Australia
7 protocols

Daniel Kraus
  • Faculty, 1st Department of Medicine, Würzburg University Hospital
Research focus
  • Cell biology
  • Energy metabolism, obesity, diabetes
Contributions
  • 1 Author merit
  • 5 Reviewer merit

Education

MD, University of Lübeck, Germany, 2014

Lab information

https://www.researchgate.net/profile/Kraus_Daniel

1 Protocol published
Lipid Extraction from Mouse Feces
Authors:  Daniel Kraus, Qin Yang and Barbara B. Kahn, date: 01/05/2015, view: 6111, Q&A: 0
The analysis of feces composition is important for the study of energy metabolism, which comprises various measurements of energy intake, energy expenditure, and energy wasting. The current protocol describes how to measure energy-dense lipids in ...
5 Protocols reviewed
Determining Efficiency and Selectivity of Lipid Extraction by Perturbing Agents from Model Membranes
Authors:  Michel Lafleur and Alexandre Therrien, date: 11/20/2016, view: 1276, Q&A: 0
Several membrane-perturbing agents extract lipids from membranes and, in some cases, this lipid efflux is lipid specific. In order to gain a better description of this phenomenon and to detail the intermolecular interactions that are involved, a ...
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Determination of the H+-ATP Synthase and Hydrolytic Activities
Authors:  Javier García-Bermúdez, Cristina Nuevo-Tapioles and José M. Cuezva, date: 08/20/2016, view: 1529, Q&A: 0
The H+-ATP synthase of the inner mitochondrial membrane utilizes the proton gradient generated by the respiratory chain to synthesize ATP. Under depolarizing conditions it can function in reverse by hydrolyzing ATP to generate a proton ...
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