Metabolic dynamics in skeletal muscle during acute reduction in blood flow and oxygen supply to mitochondria: in-silico studies using a multi-scale, top-down integrated model.

Theoretical simulation of metabolic mechanisms for regulating capillary perfusion in working skeletal muscle

Lo, Arthur
Lo, Arthur

January 2004

Capillary perfusion in skeletal muscle is highly coordinated both spatially and temporally with the ...

Combined in vivo and in silico investigation of activation of glycolysis in contracting skeletal muscle

Schmitz, J.P.J.
Groenendaal, W.
Wessels, B.
Wiseman, R.W.
Hilbers, P.A.J.
Nicolay, K.
Prompers, J.J.
Jeneson, J.A.L.
Riel, van, N.A.W.

January 2013

The hypothesis was tested that the variation of in vivo glycolytic flux with contraction frequency i...

A dynamic mathematical model to study the flexibility of energy reserves in adipose and muscle cells

Taghipoor, Masoomeh
Van Milgen, Jacob
Gondret, Florence

January 2014

Animals need energy for their basal metabolism and productive functions. When dietary energy intake ...

Computational model of cellular metabolic dynamics in skeletal muscle fibers during moderate intensity exercise

Li Y
Lai N
Kirwan JP
Saidel GM

January 2012

Human skeletal muscles have different fiber types with distinct metabolic functions and physiologica...

Prediction of Muscle Energy States at Low Metabolic Rates Requires Feedback Control of Mitochondrial Respiratory Chain Activity by Inorganic Phosphate

Joep P. J. Schmitz (175580)
Jeroen A. L. Jeneson (175582)
Joep W. M. van Oorschot (175584)
Jeanine J. Prompers (175586)
Klaas Nicolay (175588)
Peter A. J. Hilbers (175592)
Natal A. W. van Riel (175595)

March 2012

<div><p>The regulation of the 100-fold dynamic range of mitochondrial ATP synthesis flux in skeletal...

A multi-scale model of human skeletal muscle: extracting metabolite dynamics at cellular scale from measurements at whole organ

Schmitz, J.P.J.
Jeneson, J.A.L.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2008

Objective: Insight in the intracellular metabolic network underlying ATP synthesis and hydrolysis is...

Modeling the glycolytic pathway in human skeletal muscle tissue; understanding the regulation of its hundredfold dynamic range

Schmitz, J.P.J.
Jeneson, J.A.L.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2008

Objective:During vigorous exercise, glycolytic flux in human skeletal muscle tissue increases more t...

Role of NADH/NAD+ transport activity and glycogen store on skeletal muscle energy metabolism during exercise: in silico studies. Am J Physiol Cell Physiol 296, C25-C46. Th e Jo ur na l o f E xp er im en ta l B io lo gy

Yanjun Li
Ranjan K. Dash
Jaeyeon Kim
Gerald M. Saidel
Marco E. Cabrera

January 2009

NADH/NAD transport activity and glycogen store on skeletal mus-cle energy metabolism during exercis...

Multiscale modelling of transport phenomena and metabolism in living tissues

D'ANGELO, CARLO

January 2007

The range of applications of mathematical modelling in biosciences has recently expanded to encompas...

Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo.

Guzun, Rita
Saks, Valdur

January 2010

International audienceThe mechanisms of regulation of respiration and energy fluxes in the cells are...

Application of the Principles of Systems Biology and Wiener\u27s Cybernetics for Analysis of Regulation of Energy Fluxes in Muscle Cells in Vivo

Rita Guzun

March 2010

The mechanisms of regulation of respiration and energy fluxes in the cells are analyzed based on the...

Prediction of muscle energy states at low metabolic rates requires feedback control of mitochondrial respiratory chain activity by inorganic phosphate

Schmitz, J.P.J.
Jeneson, J.A.L.
Oorschot, van, J.W.M.
Prompers, J.J.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2012

The regulation of the 100-fold dynamic range of mitochondrial ATP synthesis flux in skeletal muscle ...

Models of muscle contraction and energetics

Lai N
Gladden LB
Carlier PG
Cabrera ME

January 2008

How does skeletal muscle manage to regulate the pathways of ATP synthesis during large-scale changes...

Noninvasive evaluation of metabolic capacities in human skeletal muscles

Walter, Glenn A

January 1997

Despite centuries of unraveling the molecular machinery which converts a chemical potential into a m...

Theoretical simulation of metabolic mechanisms for regulating capillary perfusion in working skeletal muscle

Lo, Arthur
Lo, Arthur

January 2004

Capillary perfusion in skeletal muscle is highly coordinated both spatially and temporally with the ...

Combined in vivo and in silico investigation of activation of glycolysis in contracting skeletal muscle

Schmitz, J.P.J.
Groenendaal, W.
Wessels, B.
Wiseman, R.W.
Hilbers, P.A.J.
Nicolay, K.
Prompers, J.J.
Jeneson, J.A.L.
Riel, van, N.A.W.

January 2013

The hypothesis was tested that the variation of in vivo glycolytic flux with contraction frequency i...

A dynamic mathematical model to study the flexibility of energy reserves in adipose and muscle cells

Taghipoor, Masoomeh
Van Milgen, Jacob
Gondret, Florence

January 2014

Animals need energy for their basal metabolism and productive functions. When dietary energy intake ...

Computational model of cellular metabolic dynamics in skeletal muscle fibers during moderate intensity exercise

Li Y
Lai N
Kirwan JP
Saidel GM

January 2012

Human skeletal muscles have different fiber types with distinct metabolic functions and physiologica...

Prediction of Muscle Energy States at Low Metabolic Rates Requires Feedback Control of Mitochondrial Respiratory Chain Activity by Inorganic Phosphate

Joep P. J. Schmitz (175580)
Jeroen A. L. Jeneson (175582)
Joep W. M. van Oorschot (175584)
Jeanine J. Prompers (175586)
Klaas Nicolay (175588)
Peter A. J. Hilbers (175592)
Natal A. W. van Riel (175595)

March 2012

<div><p>The regulation of the 100-fold dynamic range of mitochondrial ATP synthesis flux in skeletal...

A multi-scale model of human skeletal muscle: extracting metabolite dynamics at cellular scale from measurements at whole organ

Schmitz, J.P.J.
Jeneson, J.A.L.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2008

Objective: Insight in the intracellular metabolic network underlying ATP synthesis and hydrolysis is...

Modeling the glycolytic pathway in human skeletal muscle tissue; understanding the regulation of its hundredfold dynamic range

Schmitz, J.P.J.
Jeneson, J.A.L.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2008

Objective:During vigorous exercise, glycolytic flux in human skeletal muscle tissue increases more t...

Role of NADH/NAD+ transport activity and glycogen store on skeletal muscle energy metabolism during exercise: in silico studies. Am J Physiol Cell Physiol 296, C25-C46. Th e Jo ur na l o f E xp er im en ta l B io lo gy

Yanjun Li
Ranjan K. Dash
Jaeyeon Kim
Gerald M. Saidel
Marco E. Cabrera

January 2009

NADH/NAD transport activity and glycogen store on skeletal mus-cle energy metabolism during exercis...

Multiscale modelling of transport phenomena and metabolism in living tissues

D'ANGELO, CARLO

January 2007

The range of applications of mathematical modelling in biosciences has recently expanded to encompas...

Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo.

Guzun, Rita
Saks, Valdur

January 2010

International audienceThe mechanisms of regulation of respiration and energy fluxes in the cells are...

Application of the Principles of Systems Biology and Wiener\u27s Cybernetics for Analysis of Regulation of Energy Fluxes in Muscle Cells in Vivo

Rita Guzun

March 2010

The mechanisms of regulation of respiration and energy fluxes in the cells are analyzed based on the...

Prediction of muscle energy states at low metabolic rates requires feedback control of mitochondrial respiratory chain activity by inorganic phosphate

Schmitz, J.P.J.
Jeneson, J.A.L.
Oorschot, van, J.W.M.
Prompers, J.J.
Nicolay, K.
Hilbers, P.A.J.
Riel, van, N.A.W.

January 2012

The regulation of the 100-fold dynamic range of mitochondrial ATP synthesis flux in skeletal muscle ...

Models of muscle contraction and energetics

Lai N
Gladden LB
Carlier PG
Cabrera ME

January 2008

How does skeletal muscle manage to regulate the pathways of ATP synthesis during large-scale changes...

Noninvasive evaluation of metabolic capacities in human skeletal muscles

Walter, Glenn A

January 1997

Despite centuries of unraveling the molecular machinery which converts a chemical potential into a m...

Theoretical simulation of metabolic mechanisms for regulating capillary perfusion in working skeletal muscle

Lo, Arthur
Lo, Arthur

January 2004

Capillary perfusion in skeletal muscle is highly coordinated both spatially and temporally with the ...

Combined in vivo and in silico investigation of activation of glycolysis in contracting skeletal muscle

Schmitz, J.P.J.
Groenendaal, W.
Wessels, B.
Wiseman, R.W.
Hilbers, P.A.J.
Nicolay, K.
Prompers, J.J.
Jeneson, J.A.L.
Riel, van, N.A.W.

January 2013

The hypothesis was tested that the variation of in vivo glycolytic flux with contraction frequency i...

A dynamic mathematical model to study the flexibility of energy reserves in adipose and muscle cells

Taghipoor, Masoomeh
Van Milgen, Jacob
Gondret, Florence

January 2014

Animals need energy for their basal metabolism and productive functions. When dietary energy intake ...

Metabolic dynamics in skeletal muscle during acute reduction in blood flow and oxygen supply to mitochondria: in-silico studies using a multi-scale, top-down integrated model.

Abstract

Extracted data

Metabolic dynamics in skeletal muscle during acute reduction in blood flow and oxygen supply to mitochondria: in-silico studies using a multi-scale, top-down integrated model.

Abstract

Extracted data

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