Add to ORKGWe present a novel multi-conformation Monte Carlo simulation method that enables the modeling of protein-protein interactions and aggregation in crowded protein solutions. This approach is relevant to a molecular-scale description of realistic biological environments, including the cytoplasm and the extracellular matrix, that are characterized by high concentrations of biomolecular solutes (e.g., 300-400 mg/mL for proteins and nucleic acids in the cytoplasm of Escherichia coli). Simulation of such environments necessitates the inclusion of a large number of protein molecules. Therefore, computationally inexpensive methods, such as rigid-body Brownian dynamics or Monte Carlo simulations, can be particularly useful. However, as we demonstrate...
Protein aggregation into oligomeric species has been linked to a number of neurodegenerative disease...
A new high-coordination lattice model of polypeptide chains has been designed and tested. The model ...
ABSTRACT: Many commonly used coarse-grained models for proteins are based on simplified interaction ...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
A novel multiple conformations Monte Carlo (mcMC) computational method is presented that allows the ...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
Biological environments are typically referred to as "crowded" due to presence of distinct biomolecu...
Realistic biological conditions are characterized by high concentrations of biomolecular solutes. Pr...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Cells are extremely crowded environments, thus the use of diluted salted aqueous solutions containin...
We develop coarse-grained models and effective energy functions for simulating thermodynamic and str...
Macromolecular structures, such as neuraminidases, hemagglutinins, and monoclonal antibodies, are no...
Many proteins contain multiple folded domains separated by flexible linkers, and the ability to desc...
International audienceMany proteins contain multiple folded domains separated by flexible linkers, a...
Protein aggregation into oligomeric species has been linked to a number of neurodegenerative disease...
A new high-coordination lattice model of polypeptide chains has been designed and tested. The model ...
ABSTRACT: Many commonly used coarse-grained models for proteins are based on simplified interaction ...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
A novel multiple conformations Monte Carlo (mcMC) computational method is presented that allows the ...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
Biological environments are typically referred to as "crowded" due to presence of distinct biomolecu...
Realistic biological conditions are characterized by high concentrations of biomolecular solutes. Pr...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Cells are extremely crowded environments, thus the use of diluted salted aqueous solutions containin...
We develop coarse-grained models and effective energy functions for simulating thermodynamic and str...
Macromolecular structures, such as neuraminidases, hemagglutinins, and monoclonal antibodies, are no...
Many proteins contain multiple folded domains separated by flexible linkers, and the ability to desc...
International audienceMany proteins contain multiple folded domains separated by flexible linkers, a...
Protein aggregation into oligomeric species has been linked to a number of neurodegenerative disease...
A new high-coordination lattice model of polypeptide chains has been designed and tested. The model ...
ABSTRACT: Many commonly used coarse-grained models for proteins are based on simplified interaction ...