Search results for "protein networks signalling"

showing 3 items of 3 documents

Cancer cell(s) cycle sequencing reveals universal mechanisms of apoptosis

2010

In this paper, cell cycle in higher eukaryotes and their molecular networks signals both in G 1/S and G2/M transitions are replicated in silico. Biochemical kinetics, converted into a set of differential equations, and system control theory are employed to design multi-nested digital layers to simulate protein-to-protein activation and inhibition for cell cycle dynamics in the presence of damaged genomes. Sequencing and controlling the digital process of four micro-scale species networks (p53/Mdm2/DNA damage, p21mRNA/cyclin-CDK complex, CDK/CDC25/wee1/ SKP2/APC/CKI and apoptosis target genes system) not only allows the comprehension of the mechanisms of these molecule interactions but paves…

Settore ING-IND/06 - Fluidodinamicacell digital biotechnology cancer cell cycle control cell digital systems protein networks signalling apoptosis
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Digital control circuitry for the p53 dynamics in cancer cell and apoptosis

2010

Experimental work and theoretical models deduce a "digital" response of the p53 transcription factor when genomic integrity is damaged. The mutual influence of p53 and its antagonist, the Mdm2 oncogene, is closed in feedback. This paper proposes an aerospace architecture for translating the p53/Mdm2/DNA damage network into a digital circuitry in which the optimal control theory is applied for obtaining the requested dynamic evolutions of some considered cell species for repairing a DNA damage. The purpose of this paper is not to improve the analysis of the actual mathematical models but to demonstrate the usefulness of such digital circuitry design to detect and predict the cell species dyn…

Settore ING-IND/06 - Fluidodinamicap53 cellular circuitry feedback control protein networks signalling apoptosis
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Digital control circuitry for the p53 dynamics in cancer cell and apoptosis

2010

Abstract Experimental work and theoretical models deduce a “digital” response of the p53 transcription factor when genomic integrity is damaged. The mutual influence of p53 and its antagonist, the Mdm2 oncogene, is closed in a feedback. This paper proposes an aerospace-based architecture for translating the p53/Mdm2/DNA damage network into a digital circuitry in which the optimal control theory is applied for obtaining the requested dynamic evolutions of some considered cell species for repairing a DNA damage. The purpose of this paper is to demonstrate the usefulness of such digital circuitry design to detect and predict the cell species dynamics for shedding light on their inner and mutua…

p53General Immunology and MicrobiologyMechanism (biology)DNA damageQH301-705.5General NeuroscienceapoptosisWiring diagramCell fate determinationBiologycellular circuitryBioinformaticsOptimal controlGeneral Biochemistry Genetics and Molecular Biologyprotein networks signallingfeedback controlCancer cellDigital controlBiology (General)General Agricultural and Biological SciencesBiological systemTranscription factorOpen Life Sciences
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