Follow
Dr Julianne D. Halley
Dr Julianne D. Halley
Department of Public Health and Primary Care, University of Cambridge, UK
Verified email at medschl.cam.ac.uk
Title
Cited by
Cited by
Year
Consistent concepts of self‐organization and self‐assembly
JD Halley, DA Winkler
Complexity 14 (2), 10-17, 2008
2252008
Classification of emergence and its relation to self‐organization
JD Halley, DA Winkler
Complexity 13 (5), 10-15, 2008
1502008
A general model for binary cell fate decision gene circuits with degeneracy: indeterminacy and switch behavior in the absence of cooperativity
M Andrecut, JD Halley, DA Winkler, S Huang
PloS one 6 (5), e19358, 2011
632011
Excavation and architecture of Argentine ant nests
JD Halley, M Burd, P Wells
Insectes Sociaux 52, 350-356, 2005
622005
Critical-like self-organization and natural selection: two facets of a single evolutionary process?
JD Halley, DA Winkler
BioSystems 92 (2), 148-158, 2008
382008
Stem cell decision making and critical-like exploratory networks
JD Halley, FR Burden, DA Winkler
Stem Cell Research 2 (3), 165-177, 2009
282009
Nonequilibrium dynamics of social groups: insights from foraging Argentine ants
JD Halley, M Burd
Insectes sociaux 51, 226-231, 2004
242004
Self-organizing circuitry and emergent computation in mouse embryonic stem cells
JD Halley, K Smith-Miles, DA Winkler, T Kalkan, S Huang, A Smith
Stem cell research 8 (2), 324-333, 2012
222012
Toward a Rosetta stone for the stem cell genome: Stochastic gene expression, network architecture, and external influences
JD Halley, DA Winkler, FR Burden
Stem Cell Research 1 (3), 157-168, 2008
162008
Classification of self-organization and emergence in chemical and biological systems
JD Halley, DA Winkler
Australian journal of chemistry 59 (12), 849-853, 2006
132006
Rapid self-organized criticality: Fractal evolution in extreme environments
JD Halley, AC Warden, S Sadedin, W Li
Physical Review E 70 (3), 036118, 2004
132004
A conceptual and computational framework for modelling and understanding the non-equilibrium gene regulatory networks of mouse embryonic stem cells
RB Greaves, S Dietmann, A Smith, S Stepney, JD Halley
PLoS computational biology 13 (9), e1005713, 2017
122017
The response of foraging Argentine ants, Linepithema humile, to disturbance
JD Halley, MA Elgar
Australian Journal of Zoology 49 (1), 59-69, 2001
112001
Predictive Mesoscale Network Model of Cell Fate Decisions during C. elegans Embryogenesis
DA Winkler, FR Burden, JD Halley
Artificial life 15 (4), 411-421, 2009
92009
Genome-wide mouse embryonic stem cell regulatory network self-organisation: a big data CoSMoS computational modelling approach
RB Greaves, S Dietmann, A Smith, S Stepney, JD Halley
32015
Modelling stem cell properties and fate decisions
D Winkler, J Halley, F Burden
Drugs of the Future 32, 93, 2007
22007
Stochastic Switch Model for HSC Fate Decisions Simulates a Critical-Like Pluripotent State
DA Winkler, JD Halley, S Huang, M Andrecut
EXPERIMENTAL HEMATOLOGY 38 (9), S103-S104, 2010
2010
Modelling for Regenerative Medicine: Systems Biology Meets Systems Chemistry
DA Winkler, JD Halley, FR Burden
International Beilstein Symposium on Systems Chemistry, 121-147, 2009
2009
Noisy Disturbances, Self-organisation and Natural Selection: Insights from Argentine Ants
JD Halley
Monash University, 2004
2004
SUPPORTING INFORMATION A general model for binary cell fate decision gene circuits with degeneracy: Indeterminacy and switch behavior in the absence of cooperativity
M Andrecut, JD Halley, DA Winkler, S Huang
The system can't perform the operation now. Try again later.
Articles 1–20