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Renal Metabolism: Integrated Responses

Handbook of Physiology, Renal Physiology

  1. Saulo Klahr1,
  2. L. Lee Hamm1,
  3. Marc R. Hammerman1,
  4. Lazaro J. Mandel2

Published Online: 1 JAN 2011

DOI: 10.1002/cphy.cp080249

Comprehensive Physiology

Comprehensive Physiology

How to Cite

Klahr, S., Hamm, L. L., Hammerman, M. R. and Mandel, L. J. 2011. Renal Metabolism: Integrated Responses. Comprehensive Physiology. 2263–2333.

Author Information

  1. 1

    Renal and Metabolism Divisions, Washington University School of Medicine, St. Louis, Missouri

  2. 2

    Department of Physiology, Duke University Medical Center, Durham, North Carolina

Publication History

  1. Published Online: 1 JAN 2011

Abstract

The sections in this article are:

  • 1
    Methodological Considerations
  • 2
    Coupling of Metabolism to Transport
    • 2.1
      Oxidative vs. Glycolytic Metabolism in the Mammalian Kidney
    • 2.2
      Stoichiometry of Transepithelial Na+ Transport to QO2
    • 2.3
      Transport as the Pacemaker of Respiration
    • 2.4
      Control of Transport by Metabolism
  • 3
    Metabolic Substrate Utilization by the Kidney
    • 3.1
      Metabolic Heterogeneity of the Kidney
    • 3.2
      Metabolism of Glucose
    • 3.3
      Lactate Metabolism
    • 3.4
      Pyruvate Metabolism
    • 3.5
      Renal Lipid Metabolism
    • 3.6
      Amino Acid Metabolism
    • 3.7
      Citrate Metabolism
    • 3.8
      Ketone Metabolism
  • 4
    Synthetic Functions of the Kidney
    • 4.1
      Gluconeogenesis
    • 4.2
      Alanine
    • 4.3
      Serine
  • 5
    Renal Phospholipid Metabolism
    • 5.1
      Phospholipid Composition of Kidney
    • 5.2
      Metabolism of Specific Renal Phospholipids
  • 6
    Metabolism of Membrane Proteins in Kidney
    • 6.1
      Phosphorylation of Membrane Proteins
    • 6.2
      ADP-Ribosylation