Bull Math Biol
 2011
DOI: 10.1007/s11538-010-9615-3
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Dynamic Stabilization in the PU1-GATA1 Circuit Using a Model with Time-Dependent Kinetic Change

Jay L. Michaels
1
,
Vincent Naudot
2
,
Larry S. Liebovitch
3

Abstract: The PU.1 and GATA1 genes play an important role in the differentiation of blood stem cells. The protein levels expressed by these genes are thought to be regulated by a self-excitatory feedback loop for each gene and a cross-inhibitory feedback loop between the two genes. A mathematical model that captures the dynamical interaction between these two genes reveals that constant levels of self-excitation and cross-inhibition allow the most self-exciting or cross-inhibiting gene to dominate the system. However, s… Show more

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Cited by 3 publications
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Stochasticity and Determinism in Models of Hematopoiesis

Kimmel
1
2014
A Systems Biology Approach to Blood
13
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6
0
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Stochasticity and Determinism in Models of Hematopoiesis

Kimmel
1
2014
A Systems Biology Approach to Blood
13
0
6
0
View full textAdd to dashboardCite
show abstract

Structured Models and Their Use in Modeling Anticancer Therapies

Świerniak
1
,
Kimmel
2
,
Śmieja
3
et al. 2016
System Engineering Approach to Planning Anticancer Therapies
1
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1
0
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Finding order in the flow of personality: Dynamical systems techniques for measuring personality coherence and change

Michaels
1
,
Vallacher
2
,
Nowak
3
2021
The Handbook of Personality Dynamics and Processes
3
0
2
0
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