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200 1 $aDemocratic Republic of Congo$ethe giant is awake$econtemporary artists from Democratic Republic of Congo$fLuciano Benetton, Enrico Mascelloni [et al.] [texts]$gEnrico Bossan [a cura di]
210   $a[Ponzano Veneto]$cFabrica$d2014
215   $a311 p.$cill.$d21x22 cm
225 2 $aImago Mundi Luciano Benetton Collection$iDemocratic Republic of Congo
300   $aTesto in inglese, francese e italiano
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 10$aBioenergetics at a glance$b[electronic resource] /$fDavid A. Harris
210  1$aOxford ;$aCambridge, MA :$cBlackwell Science,$d1995.
215   $a1 online resource (116 pages) $cillustrations
225 1 $aAt a Glance
300   $aDescription based upon print version of record.
311   $a0-632-02388-0 
320   $aIncludes bibliographical references (pages 113-114) and index.
327   $aBioenergetics at a Glance; Preface; 1: Life, energy and metabolism; 2: Energy, entropy and the universe; 3: Energy, entropy and the living cell; 4: Gibbs free energy-measurement and applications; 5: Chemical and electrochemical potential; 6: Oxidation/reduction (redox) potentials; 7: ATP and ion gradients: 'intermediate' energy stores; 8: Substrate level phosphorylations; 9: Free oxygen: its benefits and dangers; 10: Co-factors in oxidation/reduction reactions; 11: The mitochondrial respiratory chain: 1 Path of electron flow; 12: The mitochondrial respiratory chain: 2 Organization of peptides
327   $a13: Electron transfer mechanisms14: Respiratory chains in bacteria; 15: Photosynthesis in green plants: 1 Path of electrons; 16: Photosynthesis in green plants: 2 Structure of the reaction centre; 17: Photosynthesis in green plants: 3 Organization of membranes; 18: Photosynthesis in bacteria; 19: Energy transduction; 20: Energy transfer via a H+ gradient-testing the model; 21: Stoichiometries in ATP synthesis; 22: Measurement of the H+/P ratio: 1 Kinetic approaches; 23: Measurement of the H+/P ratio: 2 Thermodynamic approaches
327   $a24: Generation of a proton gradient: 1 Mechanisms involving organic hydrogen carriers 25: Generation of a proton gradient: 2 'Direct' proton pumping; 26: The ATP synthase complex; 27: F1-structure and function relationships; 28: Mechanism of ATP synthesis: 1 Energetics; 29: Mechanism of ATP synthesis: 2 Enzyme mechanism; 30: Fo-structure and function relationships; 31: Integration of mitochondria and cytoplasm; 32: Control of ATP synthesis: 1 Thermodynamic aspects; 33: Control of ATP synthesis: 2 Kinetic aspects; 34: Uncoupling electron transfer from phosphorylation
327   $a35: Human mitochondrial defects and disease 36: Integration of chloroplast and cytoplasm; 37: Alternative uses of the proton gradient: 1 Heat generation; 38: Alternative uses of the proton gradient: 2 Transport systems; 39: Alternative uses of the proton gradient: 3 Bacterial motion; 40: Alternative methods of gradient generation: 1 Bacteriorhodopsin; 41: Alternative methods of gradient generation: 2 Primary sodium pumps; 42: ATP-driven ion pumps: an overview; 43: P-type ATPases: 1 Structural aspects; 44: P-type ATPases: 2 Energetic aspects; 45: Evolution of bioenergetic systems; Reading list
327   $aIndex
330   $aBioenergetics is the study of the way biological systems, usually at the molecular level, utilize and convert energy in order to drive the biochemical reactions that constitute life. However, because of its often quantitative basis and the amount of technical jargon, the subject tends to alienate and intimidate students. This beautifully illustrated text has a lucid and logical approach to the subject. The text uses the modern perspective throughout so that the student is given an easily assimilable, logical introduction to the important concepts of the subject, particulary the core concept, t
410  0$aAt a glance.
606   $aBioenergetics
606   $aEnergy metabolism
608   $aElectronic books.
615  0$aBioenergetics.
615  0$aEnergy metabolism.
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676   $a574.19121
700   $aHarris$b D. A$g(David A.)$0944861
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906   $aBOOK
912   $a9910455267003321
996   $aBioenergetics at a glance$92133160
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