Pages that link to "Q44130509"

The following pages link to A computational model for glycogenolysis in skeletal muscle (Q44130509):

Displaying 40 items.

• Detailed enzyme kinetics in terms of biochemical species: study of citrate synthase (Q28472377) (← links)
• 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 (Q28473577) (← links)
• Biochemical competition makes fatty-acid β-oxidation vulnerable to substrate overload (Q28535345) (← links)
• Diverse Data Sets Can Yield Reliable Information through Mechanistic Modeling: Salicylic Acid Clearance (Q31108466) (← links)
• The control systems structures of energy metabolism (Q33743313) (← links)
• Lactic acidosis in vivo: testing the link between lactate generation and H+ accumulation in ischemic mouse muscle. (Q33917351) (← links)
• Silencing of glycolysis in muscle: experimental observation and numerical analysis (Q33948152) (← links)
• Molecules in motion: influences of diffusion on metabolic structure and function in skeletal muscle. (Q34433906) (← links)
• From metabolomics to fluxomics: a computational procedure to translate metabolite profiles into metabolic fluxes (Q34456888) (← links)
• Dynamics of muscle glycogenolysis modeled with pH time course computation and pH-dependent reaction equilibria and enzyme kinetics (Q34829927) (← links)
• Glycolysis is governed by growth regime and simple enzyme regulation in adherent MDCK cells (Q35347611) (← links)
• A computational model of skeletal muscle metabolism linking cellular adaptations induced by altered loading states to metabolic responses during exercise (Q35793902) (← links)
• The computational integrated myocyte: a view into the virtual heart (Q35807792) (← links)
• Systems biology from micro-organisms to human metabolic diseases: the role of detailed kinetic models. (Q35816623) (← links)
• Energy metabolism and its compartmentation in Trypanosoma brucei (Q36284733) (← links)
• Mitochondria in cardiomyocyte Ca2+ signaling. (Q36467503) (← links)
• Model analysis of the relationship between intracellular PO2 and energy demand in skeletal muscle (Q36656343) (← links)
• Role of NADH/NAD+ transport activity and glycogen store on skeletal muscle energy metabolism during exercise: in silico studies (Q37086464) (← links)
• Towards the engineering of in vitro systems (Q37497755) (← links)
• Models of muscle contraction and energetics (Q38178259) (← links)
• Numerical analysis of ischemia- and compression-induced injury in tissue-engineered skeletal muscle constructs (Q39689794) (← links)
• A new strategy for assessing sensitivities in biochemical models (Q40726466) (← links)
• Glycogenolysis in Astrocytes Supports Blood-Borne Glucose Channeling Not Glycogen-Derived Lactate Shuttling to Neurons: Evidence from Mathematical Modeling (Q41185691) (← links)
• Computational modeling of the metabolic States regulated by the kinase akt (Q41629838) (← links)
• Simplification and its consequences in biological modelling: conclusions from a study of calcium oscillations in hepatocytes (Q41819381) (← links)
• Simplified modelling of metabolic pathways for flux prediction and optimization: lessons from an in vitro reconstruction of the upper part of glycolysis (Q41933602) (← links)
• Common phenotype of resting mouse extensor digitorum longus and soleus muscles: equal ATPase and glycolytic flux during transient anoxia (Q43121785) (← links)
• Lactate is always the end product of glycolysis (Q43166048) (← links)
• A kinetic-metabolic model based on cell energetic state: study of CHO cell behavior under Na-butyrate stimulation (Q44828146) (← links)
• Effects of recovery time on phosphocreatine kinetics during repeated bouts of heavy-intensity exercise (Q46595025) (← links)
• Lactate accumulation, proton buffering, and pH change in ischemically exercising muscle (Q46654932) (← links)
• Flux Control in Glycolysis Varies Across the Tree of Life (Q47813215) (← links)
• Lactate metabolism: historical context, prior misinterpretations, and current understanding. (Q48265527) (← links)
• Coupling calcium dynamics and mitochondrial bioenergetic: an in silico study to simulate cardiomyocyte dysfunction (Q50738880) (← links)
• Model of oxygen transport and metabolism predicts effect of hyperoxia on canine muscle oxygen uptake dynamics (Q50967216) (← links)
• A mathematical model of the human metabolic system and metabolic flexibility (Q51055838) (← links)
• Explaining pH Change in Exercising Muscle: Lactic acid, Proton Consumption, and Buffering vs. Strong Ion Difference (Q56964889) (← links)
• The dynamic side of the Warburg effect: glycolytic intermediate storage as buffer for fluctuating glucose and O supply in tumor cells (Q61811904) (← links)
• Computer-aided analysis of biochemical mechanisms that increase metabolite and proton stability in the heart during severe hypoxia and generate post-ischemic PCr overshoot (Q84343062) (← links)
• Lactate: the ugly duckling of energy metabolism (Q97643813) (← links)