Rendering of the source text

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This CellML file was generated on 4/02/2009 at 1:22:41 at p.m. using:

COR (0.9.31.1125)
Copyright 2002-2009 Dr Alan Garny
http://COR.physiol.ox.ac.uk/ - COR@physiol.ox.ac.uk

CellML 1.0 was used to generate this model
http://www.CellML.org/
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		<article>
			<articleinfo>
				<title>Alternating Oscillations and Chaos in a Model of Two Coupled Biochemical Oscillators Driving Successive Phases of the Cell Cycle</title>
				<author>
					<firstname>Jeelean</firstname>
					<surname>Lim</surname>
					<affiliation>
						<shortaffil>Auckland Bioengineering Institute, The University of Auckland</shortaffil>
					</affiliation>
				</author>
			</articleinfo>
			<section id="sec_status">
				<title>Model Status</title>
				<para>
            This CellML version of the model has been checked in COR and PCEnv and the model runs to replicate the original published results as depicted in figure 3 of the paper. The units have been checked and are consistent. 
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			</section>
			<sect1 id="sec_structure">
				<title>Model Structure</title>
				<para>
ABSTRACT:  The animal cell cycle is controlled by the periodic variation of two cyclin-dependent protein kinases, cdk1 and cdk2, which govern the entry into the M (mitosis) and S (DNA replication) phases, respectively. The ordered progression between these phases is achieved thanks to the existence of checkpoint mechanisms based on mutual inhibition of these processes. Here we study a simple theoretical model for oscillations in cdk1 and cdk2 activity, involving mutual inhibition of the two oscillators. Each minimal oscillator is described by a three-variable cascade involving a cdk, together with the associated cyclin and cyclin-degrading enzyme. The dynamics of this skeleton model of coupled oscillators is determined as a function of the strength of their mutual inhibition. The most common mode of dynamic behavior, obtained under conditions of strong mutual inhibition, is that of alternating oscillations in cdk1 and cdk2, which correspond to the physiological situation of the ordered recurrence of the M and S phases. In addition, for weaker inhibition we obtain evidence for a variety of dynamic phenomena such as complex periodic oscillations, chaos, and the coexistence between multiple periodic or chaotic attractors. We discuss the conditions of occurrence of these various modes of oscillatory behavior, as well as their possible physiological significance.
				</para>
				<para>
The original paper reference is cited below:
				</para>
				<para>
Alternating Oscillations and Chaos in a Model of Two Coupled Biochemical Oscillators Driving Successive Phases of the Cell Cycle, Pierre-Charles Romond, Mauro Rustici, Didier Gonze, Albert GOldbeter, 1999, <emphasis>Annals of the New York Acedemy of Sciences</emphasis>, 879, 180-193. <ulink url="http://www.ncbi.nlm.nih.gov/pubmed/10415827">PubMed ID: 10415827</ulink>
				</para>
				
				<informalfigure float="0" id="fig_reaction_diagram">
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								<title>figure 1</title>
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							<imagedata fileref="romond_1999.png"/>
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					</mediaobject>
					<caption>Skeleton model of two coupled biochemical oscillators controlling the M and S phases of the cell cycle. Each oscillator consists of a three-variable cascade involving a cyclin (C1 or C2), a cyclin-dependent kinase (cdk) (M1 or M2), and a cdk-activated ubiquitin ligase (X1 or X2) that controls cyclin degradation. The + sign indicates the inactive form of the enzymes. The dashed lines ending with a horizontal bar represent the inhibition exerted by M1 and M2 on the synthesis of C1 and C2, respectively.</caption>
				</informalfigure>
			</sect1>
		</article>
	</documentation>   
	
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