Description

Book Synopsis

Bioenergetics is the study of the way biological systems, usually at the molecular level, utilize and convert energy in order to drive the biochemical reactions that constitute life. However, because of its often quantitative basis and the amount of technical jargon, the subject tends to alienate and intimidate students. This beautifully illustrated text has a lucid and logical approach to the subject. The text uses the modern perspective throughout so that the student is given an easily assimilable, logical introduction to the important concepts of the subject, particulary the core concept, the ''chemiosmotic theory''. It has been specifically designed to make information easily accessible by devoting each double-page spread to one topic. Within the spread, a variety of carefully constructed diagrams present information in a concise and innovative manner. The text is further enhanced by a comprehensive guide to additional reading.

  • Original, easily understood combinatio

    Table of Contents
    Scope of bioenergetics.

    The 'universal' view of energy.

    The 'local' view of energy.

    Equilibrium and equilibrium constants.

    Sources of biological energy - quantitation.

    Direct coupling of oxidation to anhydride formation.

    Oxygen as an oxidising agent.

    Respiratory carriers.

    Respiratory chain (mitochondrial).

    Respiratory assemblages (mitochondrial).

    Mechanism of electron flow between proteins.

    Variations within respiratory chains.

    Light trapping and water splitting in chloroplasts.

    Reaction centre structure.

    Organisation of membrane proteins (chloroplast).

    Photosynthetic bacteria.

    Concepts of energy transduction- redox-anhydride bond energy.

    Transfer via H+gradient -.

    I. Qualitative aspects.

    II. Kinetic aspects.

    Quantitative aspects -.

    I. H+/O ratio.

    II. DGp/DMH+.

    How does electron transfer generate H+ (I) + (II).

    ATP synthase complex.

    F1 structure.

    F0 structure.

    Coupling H+ gradient to ATP synthesis - energetics.

    structural aspects.

    Integration with cytoplasm - mitochondria.

    Aspects of control - qualitative:quantitative.

    Integration of cytoplasm/control - chloroplasts.

    Uncouplers and ionophores in studies of phosphorylation.

    Mitochondrial defects.

    Alternative uses of H+ gradient.

    Alternative gradient production.

    ATP driven ion pumps - a broader perspective.

    E-P pumps.

    Evolution of pumps.

    Evolution of organelles

Bioenergetics at a Glance

Product form

£46.76

Includes FREE delivery

RRP £51.95 – you save £5.19 (9%)

Order before 4pm tomorrow for delivery by Mon 22 Dec 2025.

A Paperback / softback by D. A. Harris

15 in stock


    View other formats and editions of Bioenergetics at a Glance by D. A. Harris

    Publisher: John Wiley and Sons Ltd
    Publication Date: 27/06/1995
    ISBN13: 9780632023882, 978-0632023882
    ISBN10: 0632023880
    Also in:
    Biochemical engineering

    Description

    Book Synopsis

    Bioenergetics is the study of the way biological systems, usually at the molecular level, utilize and convert energy in order to drive the biochemical reactions that constitute life. However, because of its often quantitative basis and the amount of technical jargon, the subject tends to alienate and intimidate students. This beautifully illustrated text has a lucid and logical approach to the subject. The text uses the modern perspective throughout so that the student is given an easily assimilable, logical introduction to the important concepts of the subject, particulary the core concept, the ''chemiosmotic theory''. It has been specifically designed to make information easily accessible by devoting each double-page spread to one topic. Within the spread, a variety of carefully constructed diagrams present information in a concise and innovative manner. The text is further enhanced by a comprehensive guide to additional reading.

    • Original, easily understood combinatio

      Table of Contents
      Scope of bioenergetics.

      The 'universal' view of energy.

      The 'local' view of energy.

      Equilibrium and equilibrium constants.

      Sources of biological energy - quantitation.

      Direct coupling of oxidation to anhydride formation.

      Oxygen as an oxidising agent.

      Respiratory carriers.

      Respiratory chain (mitochondrial).

      Respiratory assemblages (mitochondrial).

      Mechanism of electron flow between proteins.

      Variations within respiratory chains.

      Light trapping and water splitting in chloroplasts.

      Reaction centre structure.

      Organisation of membrane proteins (chloroplast).

      Photosynthetic bacteria.

      Concepts of energy transduction- redox-anhydride bond energy.

      Transfer via H+gradient -.

      I. Qualitative aspects.

      II. Kinetic aspects.

      Quantitative aspects -.

      I. H+/O ratio.

      II. DGp/DMH+.

      How does electron transfer generate H+ (I) + (II).

      ATP synthase complex.

      F1 structure.

      F0 structure.

      Coupling H+ gradient to ATP synthesis - energetics.

      structural aspects.

      Integration with cytoplasm - mitochondria.

      Aspects of control - qualitative:quantitative.

      Integration of cytoplasm/control - chloroplasts.

      Uncouplers and ionophores in studies of phosphorylation.

      Mitochondrial defects.

      Alternative uses of H+ gradient.

      Alternative gradient production.

      ATP driven ion pumps - a broader perspective.

      E-P pumps.

      Evolution of pumps.

      Evolution of organelles

    Recently viewed products

    © 2025 Book Curl

      • American Express
      • Apple Pay
      • Diners Club
      • Discover
      • Google Pay
      • Maestro
      • Mastercard
      • PayPal
      • Shop Pay
      • Union Pay
      • Visa

      Login

      Forgot your password?

      Don't have an account yet?
      Create account