000 07508cam 2200337Ia 45e0
001 1261347
005 20060322103017.0
008 020402s2004 njua b 001 0 eng d
035 $a(OCoLC)ocm54780033
040 $aUNA$cUNA
020 $a047119350X (cloth)
020 $a0471392235 (Wiley International ed.)
020 $a0471417610 (CD-ROM)
090 $aQP514.2$b.V64 2004
049 $aIPL1
100 1 $aVoet, Donald.
245 10 $aBiochemistry /$cDonald Voet, Judith G. Voet.
246 1 $iCD-ROM title:$aBiochemical interactions
250 $a3rd ed.
260 $aHoboken, NJ :$bJ. Wiley & Sons,$cc2004.
300 $axv, 1591 :$bill. (some col.) ;$c29 cm. +$e1
CD-ROM (4 3/4 in.)
500 $aCD-ROM is titled Biochemical interactions.
504 $aIncludes bibliographical references and index.
505 00 $tLife --$tProkaryotes --$tEukaryotes
--$tBiochemistry: A Prologue --$tGenetics: A Review --$tThe
Origin of Life --$tThe Biochemical Literature --$tAqueous
Solutions --$tProperties of Water --$tAcids, Bases, and
Buffers --$tThermodynamic Principles: A Review --$tFirst Law
of Thermodynamics: Energy Is Conserved --$tSecond Law of
Thermodynamics: The Universe Tends toward Maximum Disorder
--$tFree Energy: The Indicator of Spontaneity --$tChemical
Equilibria --$tConcentration Dependence of Free Energy
--$tBiomolecules --$tAmino Acids --$tThe Amino Acids of
Proteins --$tOptical Activity --$t"Nonstandard" Amino Acids
--$tNucleic Acids, Gene Expression, and Recombinant DNA
Technology --$tNucleotides and Nucleic Acids --$tDNA Is the
Carrier of Genetic Information --$tDouble Helical DNA
--$tGene Expression and Replication: An Overview
--$tMolecular Cloning --$tTechniques of Protein and Nucleic
Acid Purification --$tProtein Isolation --$tSolubilities of
Proteins --$tChromatographic Separations --$tElectrophoresis
--$tUltracentrifugation --$tNucleic Acid Fractionation
--$tCovalent Structures of Proteins and Nucleic Acids
--$tPrimary Structure Determination of Proteins --$tNucleic
Acid Sequencing --$tChemical Evolution --$tBioinformatics:
An Introduction --$tChemical Synthesis of Polypeptides
--$tChemical Synthesis of Oligonucleotides
--$tThree-Dimensional Structures of Proteins --$tSecondary
Structure --$tFibrous Proteins --$tGlobular Proteins
--$tProtein Stability --$tQuaternary Structure --$tViewing
Stereo Pictures --$tProtein Folding, Dynamics, and
Structural Evolution.
505 80 $tProtein Folding: Theory and Experiment
--$tFolding Accessory Proteins --$tProtein Structure
Prediction and Design --$tProtein Dynamics
--$tConformational Diseases: Amyloids and Prions
--$tStructural Evolution --$tHemoglobin: Protein Function in
Microcosm --$tHemoglobin Function --$tStructure and
Mechanism --$tAbnormal Hemoglobins --$tAllosteric Regulation
--$tDerivation of Symmetry Model Equations --$tSugars and
Polysaccharides --$tMonosaccharides --$tPolysaccharides
--$tGlycoproteins --$tLipids and Membranes --$tLipid
Classification --$tProperties of Lipid Aggregates
--$tBiological Membranes --$tMembrane Assembly and protein
Targeting --$tLipoproteins --$tMechanisms of Enzyme Action
--$tIntroduction to Enzymes --$tHistorical Perspective
--$tSubstrate Specificity --$tCoenzymes --$tRegulation of
Enzymatic Activity --$tA Primer of Enzyme Nomenclature
--$tRates of Enzymatic Reactions --$tChemical Kinetics
--$tEnzyme Kinetics --$tInhibition --$tEffects of pH
--$tBisubstrate Reactions --$tDerivations of
Michaelis-Menten Equation Variants --$tEnzymatic Catalysis
--$tCatalytic Mechanisms --$tLysozyme --$tSerine Proteases
--$tDrug Design --$tMetabolism --$tIntroduction to
Metabolism --$tMetabolic Pathways --$tOrganic Reaction
Mechanisms --$tExperimental Approaches to the Study of
Metabolism --$tThermodynamics of Phosphate Compounds
--$tOxidation-Reduction Reactions --$tThermodynamics of Life
--$tGlycolysis --$tThe Glycolytic Pathway --$tThe Reactions
of Glycolysis --$tFermentation: The Anaerobic Fate of
Pyruvate --$tMetabolic Regulation and Control.
505 80 $tMetabolism of Hexoses Other than Glucose
--$tGlycogen Metabolism --$tGlycogen Breakdown --$tGlycogen
Synthesis --$tControl of Glycogen Metabolism --$tGlycogen
Storage Diseases --$tSignal Transduction --$tHormones
--$tHeterotrimeric G Proteins --$tTyrosine Kinase-Based
Signaling --$tThe Phosphoinositide Cascade --$tTransport
through Membranes --$tThermodynamics of Transport
--$tKinetics and Mechanisms of Transport --$tATP-Driven
Active Transport --$tIon Gradient-Driven Active Transport
--$tNeurotransmission --$tCitric Acid Cycle --$tCycle
Overview --$tMetabolic Sources of Acetyl-Coenzyme A
--$tEnzymes of the Citric Acid Cycle --$tRegulation of the
Citric Acid Cycle --$tThe Amphibolic Nature of the Citric
Acid Cycle --$tElectron Transport and Oxidative
Phosphorylation --$tThe Mitochondrion --$tElectron Transport
--$tOxidative Phosphorylation --$tControl of ATP Production
--$tOther Pathways of Carbohydrate Metabolism
--$tGluconeogenesis --$tThe Glyoxylate Cycle
--$tBiosynthesis of Oligosaccharides and Glycoproteins
--$tThe Pentose Phosphate Pathway --$tPhotosynthesis
--$tChloroplasts --$tLight Reactions --$tDark Reactions
--$tLipid Metabolism --$tLipid Digestion, Absorption, and
Transport --$tFatty Acid Oxidation --$tKetone Bodies
--$tFatty Acid Biosynthesis --$tRegulation of Fatty Acid
Metabolism --$tCholesterol Metabolism --$tEicosanoid
Metabolism: Prostaglandins, Prostacyclins, Thromboxanes,
Leukotrienes, and Lipoxins --$tPhospholipid and Glycolipid
Metabolism --$tAmino Acid Metabolism --$tAmino Acid
Deamination --$tThe Urea Cycle.
505 80 $tMetabolic Breakdown of Individual Amino Acids
--$tAmino Acids as Biosynthetic Precursors --$tAmino Acid
Biosynthesis --$tNitrogen Fixation --$tEnergy Metabolism:
Integration and Organ Specialization --$tMajor Pathways and
Strategies of Energy Metabolism: A Summary --$tOrgan
Specialization --$tMetabolic Homeostasis: Regulation of
Appetite, Energy Expenditure, and Body Weight --$tMetabolic
Adaptation --$tNucleotide Metabolism --$tSynthesis of Purine
Ribonucleotides --$tSynthesis of Pyrimidine Ribonucleotides
--$tFormation of Deoxyribonucleotides --$tNucleotide
Degradation --$tBiosynthesis of Nucleotide Coenzymes
--$tExpression and Transmission of Genetic Information
--$tNucleic Acid Structures --$tDouble Helical Structures
--$tForces Stabilizing Nucleic Acid Structures
--$tSupercoiled DNA --$tDNA Replication, Repair, and
Recombination --$tDNA Replication: An Overview --$tEnzymes
of Replication --$tProkaryotic Replication --$tEukaryotic
Replication --$tRepair of DNA --$tRecombination and Mobile
Genetic Elements --$tDNA Methylation and Trinucleotide
Repeat Expansions --$tTranscription --$tThe Role of RNA in
Protein Synthesis --$tRNA Polymerase --$tControl of
Transcription in Prokaryotes --$tPosttranscriptional
Processing --$tTranslation --$tThe Genetic Code --$tTransfer
RNA and Its Aminoacylation --$tRibosomes and Polypeptide
Synthesis --$tControl of Eukaryotic Translation
--$tPosttranslational Modification --$tProtein Degradation
--$tViruses: Paradigms for Cellular Function --$tTobacco
Mosaic Virus --$tIcosahedral Viruses --$tBacteriophage
[lambda] --$tInfluenza Virus.
505 80 $tEukaryotic Gene Expression --$tChromosome
Structure --$tGenomic Organization --$tControl of Expression
--$tCell Differentiation and Growth --$tMolecular Physiology
--$tBlood Clotting --$tImmunity --$tMotility: Muscles,
Cilia, and Flagella.
650 0 $aBiochemistry.
700 1 $aVoet, Judith G.
994 $aE0$bIPL
