Reinhart Heinrich

Overview

Best Publications

• A Linear Steady‐State Treatment of Enzymatic Chains

  Reinhart Heinrich;Tom A. Rapoport

  1933
  Citations

• The Regulation of Cellular Systems

  Reinhart Heinrich;Stefan Schuster

  1601
  Citations

• The roles of APC and Axin derived from experimental and theoretical analysis of the Wnt pathway.

  Ethan Lee;Adrian Salic;Roland Krüger;Reinhart Heinrich

  994
  Citations

• METABOLIC REGULATION AND MATHEMATICAL MODELS

  R. Heinrich;S.M. Rapoport;T.A. Rapoport

  716
  Citations

• Mathematical models of protein kinase signal transduction.

  Reinhart Heinrich;Benjamin G. Neel;Tom A. Rapoport

  675
  Citations

• Metabolic Pathway Analysis: Basic Concepts and Scientific Applications in the Post-genomic Era

  Christophe H. Schilling;Stefan Schuster;Bernhard O. Palsson;Reinhart Heinrich

  536
  Citations

• Biological control through regulated transcriptional coactivators.

  Bruce M. Spiegelman;Reinhart Heinrich

  516
  Citations

• A linear steady-state treatment of enzymatic chains. Critique of the crossover theorem and a general procedure to identify interaction sites with an effector.

  Reinhart Heinrich;Tom A. Rapoport

  330
  Citations

• A linear steady-state treatment of enzymatic chains. A mathematical model of glycolysis of human erythrocytes.

  Tom A. Rapoport;Reinhart Heinrich;Gisela Jacobasch;Samuel Rapoport

  274
  Citations

• The regulatory principles of glycolysis in erythrocytes in vivo and in vitro. A minimal comprehensive model describing steady states, quasi-steady states and time-dependent processes

  T A. Rapoport;R Heinrich;S M. Rapoport

  260
  Citations

• Control of MAPK signalling: from complexity to what really matters.

  Jorrit J Hornberg;Bernd Binder;Frank J Bruggeman;Birgit Schoeberl

  245
  Citations

• Control analysis of metabolic systems

  J.A. Burns;A. Cornish-Bowden;A.K. Groen;R. Heinrich

  239
  Citations

• Principles behind the multifarious control of signal transduction. ERK phosphorylation and kinase/phosphatase control.

  Jorrit J. Hornberg;Frank J. Bruggeman;Bernd Binder;Christian R. Geest

  237
  Citations

• Expanding metabolic networks: scopes of compounds, robustness, and evolution

  Thomas Handorf;Oliver Ebenhöh;Reinhart Heinrich

  213
  Citations

• Complex calcium oscillations and the role of mitochondria and cytosolic proteins.

  Marko Marhl;Thomas Haberichter;Milan Brumen;Reinhart Heinrich

  212
  Citations

• Mathematical analysis of multienzyme systems. II. Steady state and transient control

  R. Heinrich;T.A. Rapoport

  185
  Citations

• The kinetic basis of threshold effects observed in mitochondrial diseases: a systemic approach

  T Letellier;R Heinrich;M Malgat;J P Mazat

  182
  Citations

• Mathematical analysis of enzymic reaction systems using optimization principles.

  Reinhart Heinrich;Stefan Schuster;Hermann‐Georg Holzhütter

  180
  Citations

• Protein phosphatase 1 regulates assembly and function of the β-catenin degradation complex

  Wen Luo;Annita Peterson;Benjamin A Garcia;Gary Coombs

  175
  Citations

• Prediction of temporal gene expression. Metabolic opimization by re-distribution of enzyme activities.

  Edda Klipp;Reinhart Heinrich;Hermann-Georg Holzhütter

  168
  Citations