Lipid molecules are able to selectively interact with specific sites on integral membrane proteins, and modulate their structure and function. Identification and characterisation of these sites is of importance for our understanding of the molecular basis of membrane protein function and stability, and may facilitate the design of lipid-like drug molecules. Molecular dynamics simulations provide a powerful tool for the identification of these sites, complementing advances in membrane protein structural biology and biophysics. We describe recent notable biomolecular simulation studies which have identified lipid interaction sites on a range of different membrane proteins. The sites identified in these simulation studies agree well with those...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
Peripheral membrane proteins can reversibly and specifically bind to biological membranes to carry o...
Molecular dynamics simulations provide a computational tool to probe membrane proteins and systems a...
Lipid molecules are able to selectively interact with specific sites on integral membrane proteins, ...
Membrane lipids interact with proteins in a variety of ways, ranging from providing a stable membran...
Membrane proteins perform various important and wide-ranging functions. They exist within a lipid bi...
Interactions with lipids can dramatically shape and define the activity of membrane proteins. Here, ...
Protein-lipid interactions are increasingly recognized as central to the structure and function of m...
Membranes are formed from a bilayer containing diverse lipid species with which membrane proteins in...
Molecular dynamics simulations may be used to probe the interactions of membrane proteins with lipid...
AbstractThere is great diversity in the composition and structure of biological lipid membranes. We ...
Parallel advances in lipidomics and the structural biology of membrane proteins over the past decade...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
Peripheral membrane proteins can reversibly and specifically bind to biological membranes to carry o...
Molecular dynamics simulations provide a computational tool to probe membrane proteins and systems a...
Lipid molecules are able to selectively interact with specific sites on integral membrane proteins, ...
Membrane lipids interact with proteins in a variety of ways, ranging from providing a stable membran...
Membrane proteins perform various important and wide-ranging functions. They exist within a lipid bi...
Interactions with lipids can dramatically shape and define the activity of membrane proteins. Here, ...
Protein-lipid interactions are increasingly recognized as central to the structure and function of m...
Membranes are formed from a bilayer containing diverse lipid species with which membrane proteins in...
Molecular dynamics simulations may be used to probe the interactions of membrane proteins with lipid...
AbstractThere is great diversity in the composition and structure of biological lipid membranes. We ...
Parallel advances in lipidomics and the structural biology of membrane proteins over the past decade...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
Peripheral membrane proteins can reversibly and specifically bind to biological membranes to carry o...
Molecular dynamics simulations provide a computational tool to probe membrane proteins and systems a...