Biological membranes exhibit diversity in their shapes and complexity in chemical compositions that are linked to many cellular functions. These two central features of biomembranes have been the subject of numerous simulation studies, using a diverse range of computational techniques. Currently, the field is able to capture this complexity at increasing levels of realism and connect the microscopic view on protein-lipid interactions to cellular morphologies at the level of entire organelles. Here we highlight recent advances in this topic, identify current bottlenecks, and sketch possible ways ahead
Lipid membranes play a crucial role in living systems by compartmentalizing biological processes and...
Computational 'microscopy' refers to the use of computational resources to simulate the dynamics of ...
This chapter summarizes several approaches combining theory, simulation, and experiment that aim for...
Biological membranes exhibit diversity in their shapes and complexity in chemical compositions that ...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
Biological membranes are tricky to investigate. They are complex in terms of molecular composition a...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
Biological membranes are complex composites of lipids, proteins and sugars, which catalyze a myriad ...
Cellular membranes are fundamental constituents of living organisms. Apart from defining the boundar...
Biomembranes are essential to cell structure and function. The function of these membranes is depend...
Biological membranes (short: biomembranes) are one of the most complex structures that allow life to...
Lipid membranes play a crucial role in living systems by compartmentalizing biological processes and...
Computational 'microscopy' refers to the use of computational resources to simulate the dynamics of ...
This chapter summarizes several approaches combining theory, simulation, and experiment that aim for...
Biological membranes exhibit diversity in their shapes and complexity in chemical compositions that ...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
Biological membranes are tricky to investigate. They are complex in terms of molecular composition a...
Cell membranes contain hundreds of different proteins and lipids in an asymmetric arrangement. Our c...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
Biological membranes are complex composites of lipids, proteins and sugars, which catalyze a myriad ...
Cellular membranes are fundamental constituents of living organisms. Apart from defining the boundar...
Biomembranes are essential to cell structure and function. The function of these membranes is depend...
Biological membranes (short: biomembranes) are one of the most complex structures that allow life to...
Lipid membranes play a crucial role in living systems by compartmentalizing biological processes and...
Computational 'microscopy' refers to the use of computational resources to simulate the dynamics of ...
This chapter summarizes several approaches combining theory, simulation, and experiment that aim for...