In this review, I discuss the recent advances in computational approaches to studying membrane protein structures, covering the latest methods for predicting a protein structure from its amino acid sequence, through to methods for assessing the structural dynamics and lipid interactions within molecular simulations of complex biological membranes. These approaches have not only benefited from advances in the computational software and architectures, but have also been assisted by a prodigious rise in the number of both the molecular sequences and experimentally determined membrane protein structures. The former, in part stimulated by metagenomics sequencing techniques, has led to an increased prediction accuracy for the computationally fold...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
In this review, I discuss the recent advances in computational approaches to studying membrane prote...
AbstractComputer simulations are rapidly becoming a standard tool to study the structure and dynamic...
AbstractWe discuss recent progresses in computational studies of membrane proteins based on physical...
Background Membrane proteins (MPs) play diverse and important functions in living organisms. They co...
Background Membrane proteins (MPs) play diverse and important functions in living organisms. They co...
Membrane proteins play important roles in the biology of the cell, including intercellular communica...
There is a large gap between the number of membrane protein (MP) sequences and that of their decoded...
Abstract: Transmembrane proteins allow cells to extensively communicate with the external world in a...
In the "omic" era hundreds of genomes are available for protein sequence analysis, and we may estima...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
1. Why membrane proteins? 2 Many functions 3 Bioinformatics and membrane proteins: is it feasible to...
This thesis explores aspects protein function, structure and sequence by computational appro...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
In this review, I discuss the recent advances in computational approaches to studying membrane prote...
AbstractComputer simulations are rapidly becoming a standard tool to study the structure and dynamic...
AbstractWe discuss recent progresses in computational studies of membrane proteins based on physical...
Background Membrane proteins (MPs) play diverse and important functions in living organisms. They co...
Background Membrane proteins (MPs) play diverse and important functions in living organisms. They co...
Membrane proteins play important roles in the biology of the cell, including intercellular communica...
There is a large gap between the number of membrane protein (MP) sequences and that of their decoded...
Abstract: Transmembrane proteins allow cells to extensively communicate with the external world in a...
In the "omic" era hundreds of genomes are available for protein sequence analysis, and we may estima...
Membrane proteins (MP) are a class of biomolecules responsible for important biological processes in...
1. Why membrane proteins? 2 Many functions 3 Bioinformatics and membrane proteins: is it feasible to...
This thesis explores aspects protein function, structure and sequence by computational appro...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Cells require membrane proteins for a wide spectrum of critical functions. Transmembrane proteins en...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...