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- Q4915050 subject Q7139603.
- Q4915050 subject Q7232484.
- Q4915050 subject Q7452210.
- Q4915050 subject Q7478371.
- Q4915050 subject Q8055789.
- Q4915050 subject Q9210903.
- Q4915050 abstract "Biology Monte Carlo methods (BioMOCA) have been developed at the University of Illinois at Urbana-Champaign to simulate ion transport in an electrolyte environment through ion channels or nano-pores embedded in membranes. It is a 3-D particle-based Monte Carlo simulator for analyzing and studying the ion transport problem in ion channel systems or similar nanopores in wet/biological environments. The system simulated consists of a protein forming an ion channel (or an artificial nanopores like a Carbon Nano Tube, CNT), with a membrane (i.e. lipid bilayer) that separates two ion baths on either side. BioMOCA is based on two methodologies, namely the Boltzmann transport Monte Carlo (BTMC) and particle-particle-particle-mesh (P3M). The first one uses Monte Carlo method to solve the Boltzmann equation, while the later splits the electrostatic forces into short-range and long-range components.".
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- Q4915050 wikiPageWikiLink Q7139603.
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- Q4915050 wikiPageWikiLink Q7452210.
- Q4915050 wikiPageWikiLink Q7478371.
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- Q4915050 comment "Biology Monte Carlo methods (BioMOCA) have been developed at the University of Illinois at Urbana-Champaign to simulate ion transport in an electrolyte environment through ion channels or nano-pores embedded in membranes. It is a 3-D particle-based Monte Carlo simulator for analyzing and studying the ion transport problem in ion channel systems or similar nanopores in wet/biological environments.".
- Q4915050 label "Biology Monte Carlo method".