PubMed Mentions

    The links below are to publications on PubMed referring to the Multiscale Object Oriented Simulation Environment. This list is gathered weekly from PubMed automatically.

    Publication/References
    Large-scale modeling - a tool for conquering the complexity of the brain.
    Description: Djurfeldt, Mikael, et al. Large-scale modeling - a tool for conquering the complexity of the brain. ''Front Neuroinform''. 2008; '''2''': 1
    PyMOOSE: Interoperable Scripting in Python for MOOSE.
    Description: Ray, Subhasis, et al. PyMOOSE: Interoperable Scripting in Python for MOOSE. ''Front Neuroinform''. 2008; '''2''': 6
    A Component-Based Extension Framework for Large-Scale Parallel Simulations in NEURON.
    Description: King, James G, et al. A Component-Based Extension Framework for Large-Scale Parallel Simulations in NEURON. ''Front Neuroinform''. 2009; '''3''': 10
    [Not Available].
    Description: Pecevski, Dejan, et al. [Not Available]. ''Front Neuroinform''. 2009; '''3''': 11
    STEPS: Modeling and Simulating Complex Reaction-Diffusion Systems with Python.
    Description: Wils, Stefan, et al. STEPS: Modeling and Simulating Complex Reaction-Diffusion Systems with Python. ''Front Neuroinform''. 2009; '''3''': 15
    Postsynaptic signal transduction models for long-term potentiation and depression.
    Description: Manninen, Tiina, et al. Postsynaptic signal transduction models for long-term potentiation and depression. ''Front Comput Neurosci''. 2010; '''4''': 152
    Water-tight membranes from neuronal morphology files.
    Description: McDougal, Robert A, et al. Water-tight membranes from neuronal morphology files. ''J Neurosci Methods''. 2013 Nov 15; '''220''' (2):167-78
    Precise excitation-inhibition balance controls gain and timing in the hippocampus.
    Description: Bhatia, Aanchal, et al. Precise excitation-inhibition balance controls gain and timing in the hippocampus. ''Elife''. 2019 Apr 25; '''8''':
    Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits.
    Description: Gleeson, Padraig, et al. Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits. ''Neuron''. 2019 Aug 7; '''103''' (3):395-411.e5