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Bio Systems
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March 21, 2008
Critical-like self-organization and natural selection: two facets of a single evolutionary process?
Julianne D Halley, David A Winkler
Artificial Life
|
May 26, 2009
Predictive mesoscale network model of cell fate decisions during C. elegans embryogenesis
David A Winkler, Frank R Burden, Julianne D Halley
Stem Cell Research
|
April 23, 2009
Toward a Rosetta stone for the stem cell genome: stochastic gene expression, network architecture, and external influences
Julianne D Halley, David A Winkler, Frank R Burden
Stem Cell Research
|
April 28, 2009
Stem cell decision making and critical-like exploratory networks
Julianne D Halley, Frank R Burden, David A Winkler
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics
|
November 5, 2004
Rapid self-organized criticality: Fractal evolution in extreme environments
Julianne D Halley, Andrew C Warden, Suzanne Sadedin, et al.
Plos One
|
June 1, 2011
A general model for binary cell fate decision gene circuits with degeneracy: indeterminacy and switch behavior in the absence of cooperativity
Mircea Andrecut, Julianne D Halley, David A Winkler, et al.
Plos Computational Biology
|
September 2, 2017
A conceptual and computational framework for modelling and understanding the non-equilibrium gene regulatory networks of mouse embryonic stem cells
Richard B Greaves, Sabine Dietmann, Austin Smith, et al.
Journal of the American College of Cardiology
|
April 9, 2025
Cardiac Troponins and Cardiovascular Disease Risk Prediction: An Individual-Participant-Data Meta-Analysis
Anoop S V Shah, Spencer J Keene, Lisa Pennells, et al.
Page
of 1
Search research articles
Search
Showing results (1-10 of 8) with videos related to
Sort By:
Page
of 1
Bio Systems
|
March 21, 2008
Critical-like self-organization and natural selection: two facets of a single evolutionary process?
Julianne D Halley, David A Winkler
Artificial Life
|
May 26, 2009
Predictive mesoscale network model of cell fate decisions during C. elegans embryogenesis
David A Winkler, Frank R Burden, Julianne D Halley
Stem Cell Research
|
April 23, 2009
Toward a Rosetta stone for the stem cell genome: stochastic gene expression, network architecture, and external influences
Julianne D Halley, David A Winkler, Frank R Burden
Stem Cell Research
|
April 28, 2009
Stem cell decision making and critical-like exploratory networks
Julianne D Halley, Frank R Burden, David A Winkler
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics
|
November 5, 2004
Rapid self-organized criticality: Fractal evolution in extreme environments
Julianne D Halley, Andrew C Warden, Suzanne Sadedin, et al.
Plos One
|
June 1, 2011
A general model for binary cell fate decision gene circuits with degeneracy: indeterminacy and switch behavior in the absence of cooperativity
Mircea Andrecut, Julianne D Halley, David A Winkler, et al.
Plos Computational Biology
|
September 2, 2017
A conceptual and computational framework for modelling and understanding the non-equilibrium gene regulatory networks of mouse embryonic stem cells
Richard B Greaves, Sabine Dietmann, Austin Smith, et al.
Journal of the American College of Cardiology
|
April 9, 2025
Cardiac Troponins and Cardiovascular Disease Risk Prediction: An Individual-Participant-Data Meta-Analysis
Anoop S V Shah, Spencer J Keene, Lisa Pennells, et al.
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of 1