Rahul Rekhi scite author profile

We review methods of understanding cellular interactions through computation in order to guide the synthetic design of mammalian cells for translational applications, such as regenerative medicine and cancer therapies. In doing so, we argue that the challenges of engineering mammalian cells provide a prime opportunity to leverage advances in computational systems biology. We support this claim systematically, by addressing each of the principal challenges to existing synthetic bioengineering approaches—stochasticity, complexity, and scale—with specific methods and paradigms in systems biology. Moreover, we characterize a key set of diverse computational techniques, including agent-based modeling, Bayesian network analysis, graph theory, and Gillespie simulations, with specific utility toward synthetic biology. Lastly, we examine the mammalian applications of synthetic biology for medicine and health, and how computational systems biology can aid in the continued development of these applications.

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Multiscale Modeling of Angiogenesis

Noren¹,

Rekhi²,

Long³

et al. 2014

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iNurse: Intelligent, low-cost pediatric vital signs monitoring system

Navlekar

Palmgren

et al. 2014

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Survival Characteristics in 566 patients Receiving ICD: Real-World Data From The Canberra Hospital Device (TCH-ICD) Registry

Soundararajan

Menon

Rekhi

et al. 2021

Heart, Lung and Circulation

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Rahul Rekhi

Cells as state machines: Cell behavior patterns arise during capillary formation as a function of BDNF and VEGF

Systems approaches for synthetic biology: a pathway toward mammalian design

Multiscale Modeling of Angiogenesis

iNurse: Intelligent, low-cost pediatric vital signs monitoring system

Survival Characteristics in 566 patients Receiving ICD: Real-World Data From The Canberra Hospital Device (TCH-ICD) Registry

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