A KTAP framework of DNA damage repair mechanism under Ion Radiation (IR) perturbation

Author

Qi Jinpeng ; Ding Yongsheng ; Han Fang

Author_Institution

Coll. of Inf. Sci. & Technol., Donghua Univ., Shanghai, China

fYear

2011

fDate

22-24 July 2011

Firstpage

5630

Lastpage

5634

Abstract

In order to illustrate the cellular self-defense mechanisms in response to acute perturbations from outer environment, a mathematical model of DNA damage repair kinetics is proposed based on the method of Kinetic Theory of Active Particles (KTAP). Under acute Ion Radiation (IR), the complex interactions between the molecular pairs of DNA damage, repair mRNA, repair protein (RP), and double-strand breaks complex (DSBC) are represent by using mathematical framework of KTAP. The kinetics of DNA damage and RP generation, DSBC synthesis are implemented, and then the cellular self-repair capability and genome stability are analyzed in response to external perturbation furthermore.

Keywords

DNA; biological effects of ionising radiation; biomolecular effects of radiation; cellular biophysics; molecular configurations; physiological models; DNA damage repair kinetics; DNA damage repair mechanism; DSBC; KTAP framework; acute ion radiation; cellular self defense mechanisms; cellular self repair capability; double strand breaks complex; genome stability; ion radiation perturbation; kinetic theory of active particles; mathematical model; repair mRNA; repair protein; Bioinformatics; DNA; Genomics; Kinetic theory; Maintenance engineering; Mathematical model; Stability analysis; Cellular self-repair; DNA damage; IR; KTAP; Modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (CCC), 2011 30th Chinese

Conference_Location

Yantai

ISSN

1934-1768

Print_ISBN

978-1-4577-0677-6

Electronic_ISBN

1934-1768

Type

conf

Filename

6000639