Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger

Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger

Background: In this paper the dynamics of the transcription-translation system for XlnR regulon in Aspergillus niger is modeled. The model is based on Hill regulation functions and uses ordinary differential equations. The network response to a trigger of D-xylose is considered and stability analysis is performed. The activating, repressive feedback, and the combined effect of the two feedbacks on the network behavior are analyzed. Results: Simulation and systems analysis showed significant influence of activating and repressing feedback on metabolite expression profiles. The dynamics of the D-xylose input function has an important effect on the profiles of the individual metabolite concentrations. Variation of the time delay in the feedback loop has no significant effect on the pattern of the response. The stability and existence of oscillatory behavior depends on which proteins are involved in the feedback loop. Conclusions: The dynamics in the regulation properties of the network are dictated mainly by the transcription and translation degradation rate parameters, and by the D-xylose consumption profile. This holds true with and without feedback in the network. Feedback was found to significantly influence the expression dynamics of genes and proteins. Feedback increases the metabolite abundance, changes the steady state values, alters the time trajectories and affects the response oscillatory behavior and stability conditions. The modeling approach provides insight into network behavioral dynamics particularly for small-sized networks. The analysis of the network dynamics has provided useful information for experimental design for future in vitro experimental work

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Main Authors: Omony, J., de Graaff, L.H., van Straten, G., van Boxtel, A.J.B.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:approximation, circuits, degradation, endoglucanase, gene-expression, oscillations, regulatory networks, systems, time delays, transcriptional regulation,
Online Access:https://research.wur.nl/en/publications/modeling-and-analysis-of-the-dynamic-behavior-of-the-xlnr-regulon
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spelling dig-wur-nl-wurpubs-4071692024-06-25 Omony, J. de Graaff, L.H. van Straten, G. van Boxtel, A.J.B. Article/Letter to editor BMC Systems Biology 5 (2011) Suppl. 1 ISSN: 1752-0509 Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger 2011 Background: In this paper the dynamics of the transcription-translation system for XlnR regulon in Aspergillus niger is modeled. The model is based on Hill regulation functions and uses ordinary differential equations. The network response to a trigger of D-xylose is considered and stability analysis is performed. The activating, repressive feedback, and the combined effect of the two feedbacks on the network behavior are analyzed. Results: Simulation and systems analysis showed significant influence of activating and repressing feedback on metabolite expression profiles. The dynamics of the D-xylose input function has an important effect on the profiles of the individual metabolite concentrations. Variation of the time delay in the feedback loop has no significant effect on the pattern of the response. The stability and existence of oscillatory behavior depends on which proteins are involved in the feedback loop. Conclusions: The dynamics in the regulation properties of the network are dictated mainly by the transcription and translation degradation rate parameters, and by the D-xylose consumption profile. This holds true with and without feedback in the network. Feedback was found to significantly influence the expression dynamics of genes and proteins. Feedback increases the metabolite abundance, changes the steady state values, alters the time trajectories and affects the response oscillatory behavior and stability conditions. The modeling approach provides insight into network behavioral dynamics particularly for small-sized networks. The analysis of the network dynamics has provided useful information for experimental design for future in vitro experimental work en application/pdf https://research.wur.nl/en/publications/modeling-and-analysis-of-the-dynamic-behavior-of-the-xlnr-regulon 10.1186/1752-0509-5-S1-S14 https://edepot.wur.nl/172406 approximation circuits degradation endoglucanase gene-expression oscillations regulatory networks systems time delays transcriptional regulation Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic approximation
circuits
degradation
endoglucanase
gene-expression
oscillations
regulatory networks
systems
time delays
transcriptional regulation
approximation
circuits
degradation
endoglucanase
gene-expression
oscillations
regulatory networks
systems
time delays
transcriptional regulation
spellingShingle approximation
circuits
degradation
endoglucanase
gene-expression
oscillations
regulatory networks
systems
time delays
transcriptional regulation
approximation
circuits
degradation
endoglucanase
gene-expression
oscillations
regulatory networks
systems
time delays
transcriptional regulation
Omony, J.
de Graaff, L.H.
van Straten, G.
van Boxtel, A.J.B.
Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
description Background: In this paper the dynamics of the transcription-translation system for XlnR regulon in Aspergillus niger is modeled. The model is based on Hill regulation functions and uses ordinary differential equations. The network response to a trigger of D-xylose is considered and stability analysis is performed. The activating, repressive feedback, and the combined effect of the two feedbacks on the network behavior are analyzed. Results: Simulation and systems analysis showed significant influence of activating and repressing feedback on metabolite expression profiles. The dynamics of the D-xylose input function has an important effect on the profiles of the individual metabolite concentrations. Variation of the time delay in the feedback loop has no significant effect on the pattern of the response. The stability and existence of oscillatory behavior depends on which proteins are involved in the feedback loop. Conclusions: The dynamics in the regulation properties of the network are dictated mainly by the transcription and translation degradation rate parameters, and by the D-xylose consumption profile. This holds true with and without feedback in the network. Feedback was found to significantly influence the expression dynamics of genes and proteins. Feedback increases the metabolite abundance, changes the steady state values, alters the time trajectories and affects the response oscillatory behavior and stability conditions. The modeling approach provides insight into network behavioral dynamics particularly for small-sized networks. The analysis of the network dynamics has provided useful information for experimental design for future in vitro experimental work
format Article/Letter to editor
topic_facet approximation
circuits
degradation
endoglucanase
gene-expression
oscillations
regulatory networks
systems
time delays
transcriptional regulation
author Omony, J.
de Graaff, L.H.
van Straten, G.
van Boxtel, A.J.B.
author_facet Omony, J.
de Graaff, L.H.
van Straten, G.
van Boxtel, A.J.B.
author_sort Omony, J.
title Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
title_short Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
title_full Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
title_fullStr Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
title_full_unstemmed Modeling and analysis of the dynamic behavior of the XlnR regulon in Aspergillus niger
title_sort modeling and analysis of the dynamic behavior of the xlnr regulon in aspergillus niger
url https://research.wur.nl/en/publications/modeling-and-analysis-of-the-dynamic-behavior-of-the-xlnr-regulon
work_keys_str_mv AT omonyj modelingandanalysisofthedynamicbehaviorofthexlnrreguloninaspergillusniger
AT degraafflh modelingandanalysisofthedynamicbehaviorofthexlnrreguloninaspergillusniger
AT vanstrateng modelingandanalysisofthedynamicbehaviorofthexlnrreguloninaspergillusniger
AT vanboxtelajb modelingandanalysisofthedynamicbehaviorofthexlnrreguloninaspergillusniger
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