Search
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 MIMS - Umea University
18 protocols

Antoine de Morree Stanford university
27 protocols

Jianwei Sun South China Agricultural University
3 protocols

Marc-Antoine Sani University of Melbourne
8 protocols

Reviewer
Daniel Kraus
  • Faculty, 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: 6543, 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
Assay to Measure Interactions between Purified Drp1 and Synthetic Liposomes
Authors:  Yoshihiro Adachi, Kie Itoh, Miho Iijima and Hiromi Sesaki, date: 05/05/2017, view: 1468, Q&A: 0
A mitochondrion is a dynamic intracellular organelle that actively divides and fuses to control its size, number and shape in cells. A regulated balance between mitochondrial division and fusion is fundamental to the function, distribution and ...
More >
Liposome Flotation Assays for Phosphoinositide-protein Interaction
Authors:  Helene Tronchere and Frederic Boal, date: 03/05/2017, view: 1906, Q&A: 0
Phosphoinositides are rare membrane lipids involved in the control of the major cellular functions and signaling pathways. They are able to recruit specific effector proteins to the cytosolic face of plasma membrane and organelles to coordinate a ...
More >