Potential Future Working Contributions to Other Projects related to the following:

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Other 

 

Other future works will be related to these other external independent projects by other people/organisations listed below.

 

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Here is a new list :

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► https://sites.google.com/site/bioneurotech/-repo-2

► https://docs.google.com/document/d/1Nv6BimGLFgvbSYeNQZO5Cjna_iWcquwoF47MMsll5fA/edit?usp=sharing

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List B:​

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--- STochastic Engine of Pathway Simulation (STEPS) (https://github.com/CNS-OIST/STEPS)

Uses: C++ compiler (supporting c++11), Python 2.7+ (+ NumPy), CMake, Cython, SWIG, BLAS/OpenBLAS (http://www.openblas.net/)

​--- Diagrammatic Visualisation of Interaction Mechanisms Data

​--- Gepasi3/Copasi Biochemical System Simulator (http://www.gepasi.org/)

​--- 3D visualisation

--- NFSim (Network-free stochastic simulator)

--- NeuroRD (Java, XML to run model spec)

--- JARNAC – a system of enzymatic metabolism simulation

--- ZigCell3D – intracellular 3D dynamics and reaction networks, visualisation and functional modelling framework

--- Arena3D – visualisation of biological networks in 3D

--- OpenMM – micromolecular

--- http://bivi.co/development-status/under-development-not-released

--- Systems Biology Markup Language - http://sbml.org/Downloads

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2638623/

BioModels.net; LibSBML Editor; MOCCASIN; SBMLToolbox

--- (TBC) Protein Folding software (folding.stanford.edu)

--- Proteopedia.org – 3D visualisation and annotation of nucleic acids and proteins readouts

--- Zooniverse.org

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​The work above will have significant impacts in the following fields:

--- Biomolecular Engineering & Cellular Pathophysiology (Computational Approach)

--- Modelling computational structural biochemistry (inspired by Michael Levitt's work which won him the 2013 Nobel)

--- How can this be applied to: genetic engineering, gene therapy and stem cell technologies.

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Biological Informatics extra info:

--- Work in biomolecular information systems, and dynamic complex cellular physiological systems. This is not strictly directly-related to genomics.

​--- http://www.bioinformatics.org/people/index.php?user_hash=669fde98787fad72

(H Muzart, member profile)

--- https://crcns.org/data-sets (collaborative data-sharing in computational neuroscience)

--- http://connectivity.brain-map.org/transgenic  (Allen Institute 3D and 2D atlases for histological sub-structures of brain and relation to gene expression/knockouts +/+, +/-, -/- ) (privately-funded and govn-funded US project)

--- http://www.biometrics.tibs.org/  

--- http://www.neb.uk.com/Product_Overview/CellImagingOverview.asp  (New England BioLabs - Spring Harbor - products for projects)

--- http://journals.plos.org/ploscompbiol/s/latex  (PLoS Comp Biol data forms)

​--- [TBC] BioMedComms - finding a way for data to be communicated and used in translational clinical applications. BioNeuroSoft - a base operations infrastructure for BioMedComms.

 

​Open-Source Bionanotechnology

​--- Another project requiring more research will be the Nano-Systems Repository (a OA repository of bionanotechnology systems --- DIY nano-machines, molecular computing, dot cellular automata, chem tech, biochem tech)

 For each of these, there will be information on:

--- Blueprints for the complete nano-system

--- Their functional algorithm(s) and interaction(s) with other nano-systems

--- The algorithm for manufacturing the nano-system from raw parts to end product

 

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Images:

https://commons.wikimedia.org, File:10_large_subunit.gif, CC-BY(URMSC)