On the potential for multiscale oscillatory behavior in HIV

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On the potential for multiscale oscillatory behavior in HIV. / Ratushny, Alexander V.; De Leenheer, Patrick; Bazhan, Sergei I. et al.

Global Virology II - HIV and NeuroAIDS. Springer New York LLC, 2017. p. 897-924.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research › peer-review

Harvard

Ratushny, AV, De Leenheer, P, Bazhan, SI, Bocharov, GA, Khlebodarova, TM & Likhoshvai, VA 2017, On the potential for multiscale oscillatory behavior in HIV. in Global Virology II - HIV and NeuroAIDS. Springer New York LLC, pp. 897-924. https://doi.org/10.1007/978-1-4939-7290-6_34

APA

Ratushny, A. V., De Leenheer, P., Bazhan, S. I., Bocharov, G. A., Khlebodarova, T. M., & Likhoshvai, V. A. (2017). On the potential for multiscale oscillatory behavior in HIV. In Global Virology II - HIV and NeuroAIDS (pp. 897-924). Springer New York LLC. https://doi.org/10.1007/978-1-4939-7290-6_34

Vancouver

Ratushny AV, De Leenheer P, Bazhan SI, Bocharov GA, Khlebodarova TM, Likhoshvai VA. On the potential for multiscale oscillatory behavior in HIV. In Global Virology II - HIV and NeuroAIDS. Springer New York LLC. 2017. p. 897-924 doi: 10.1007/978-1-4939-7290-6_34

Author

Ratushny, Alexander V. ; De Leenheer, Patrick ; Bazhan, Sergei I. et al. / On the potential for multiscale oscillatory behavior in HIV. Global Virology II - HIV and NeuroAIDS. Springer New York LLC, 2017. pp. 897-924

BibTeX

@inbook{7e193d1e17344acdb3a1f6497d0c0386,

title = "On the potential for multiscale oscillatory behavior in HIV",

abstract = "This chapter summarizes several theoretical studies on the potential for oscillatory behavior of HIV infection at molecular and cellular levels. It discusses the biological relevance of oscillatory systems in the HIV life cycle and touches upon broader perspectives for further theoretical and experimental exploration of system dynamics. The potential interference of HIV oscillatory dynamics at different scales and levels as well as interaction and coevolution with the complex host immune system is also discussed.",

keywords = "Coevolution, Differential equation, Dynamical behaviors of the host-HIV system, HIV, Host-pathogen interaction, Host-virus coevolution, Intracellular, Mathematical kinetic model, Mathematical modeling of HIV life cycle, Multiscale kinetic modeling, Multiscale system, Network motifs for oscillatory behavior, Oscillatory behavior of HIV infection at molecular and cellular levels, Oscillatory dynamics, Population dynamics, Systems biology, Within-host organism and within-host target cell HIV dynamics",

author = "Ratushny, {Alexander V.} and {De Leenheer}, Patrick and Bazhan, {Sergei I.} and Bocharov, {Gennady A.} and Khlebodarova, {Tamara M.} and Likhoshvai, {Vitaly A.}",

year = "2017",

month = jan,

day = "1",

doi = "10.1007/978-1-4939-7290-6_34",

language = "English",

isbn = "9781493972883",

pages = "897--924",

booktitle = "Global Virology II - HIV and NeuroAIDS",

publisher = "Springer New York LLC",

address = "United States",

}

RIS

TY - CHAP

T1 - On the potential for multiscale oscillatory behavior in HIV

AU - Ratushny, Alexander V.

AU - De Leenheer, Patrick

AU - Bazhan, Sergei I.

AU - Bocharov, Gennady A.

AU - Khlebodarova, Tamara M.

AU - Likhoshvai, Vitaly A.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - This chapter summarizes several theoretical studies on the potential for oscillatory behavior of HIV infection at molecular and cellular levels. It discusses the biological relevance of oscillatory systems in the HIV life cycle and touches upon broader perspectives for further theoretical and experimental exploration of system dynamics. The potential interference of HIV oscillatory dynamics at different scales and levels as well as interaction and coevolution with the complex host immune system is also discussed.

AB - This chapter summarizes several theoretical studies on the potential for oscillatory behavior of HIV infection at molecular and cellular levels. It discusses the biological relevance of oscillatory systems in the HIV life cycle and touches upon broader perspectives for further theoretical and experimental exploration of system dynamics. The potential interference of HIV oscillatory dynamics at different scales and levels as well as interaction and coevolution with the complex host immune system is also discussed.

KW - Coevolution

KW - Differential equation

KW - Dynamical behaviors of the host-HIV system

KW - HIV

KW - Host-pathogen interaction

KW - Host-virus coevolution

KW - Intracellular

KW - Mathematical kinetic model

KW - Mathematical modeling of HIV life cycle

KW - Multiscale kinetic modeling

KW - Multiscale system

KW - Network motifs for oscillatory behavior

KW - Oscillatory behavior of HIV infection at molecular and cellular levels

KW - Oscillatory dynamics

KW - Population dynamics

KW - Systems biology

KW - Within-host organism and within-host target cell HIV dynamics

UR - http://www.scopus.com/inward/record.url?scp=85042616665&partnerID=8YFLogxK

U2 - 10.1007/978-1-4939-7290-6_34

DO - 10.1007/978-1-4939-7290-6_34

M3 - Chapter

AN - SCOPUS:85042616665

SN - 9781493972883

SP - 897

EP - 924

BT - Global Virology II - HIV and NeuroAIDS

PB - Springer New York LLC

ER -

ID: 10180760