Harper's BiochemistryAppleton & Lange, 1990 - Biochemistry |
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Page 69
... energy content Y + R - X AGD < 0 Free energy content [ Y ... R AG < 0 Y - R + X Y + R - X x ] a b AG AGF Figure 9-1 . Reaction profile for a displacement reaction with a negative overall change in free energy , ie , AG < 0 . Figure 9-3 ...
... energy content Y + R - X AGD < 0 Free energy content [ Y ... R AG < 0 Y - R + X Y + R - X x ] a b AG AGF Figure 9-1 . Reaction profile for a displacement reaction with a negative overall change in free energy , ie , AG < 0 . Figure 9-3 ...
Page 99
... energy to perform work , but biologic systems are es- sentially isothermic and use chemical energy to power the living processes . BIOMEDICAL IMPORTANCE Suitable fuel is required to provide the energy that enables the animal to carry ...
... energy to perform work , but biologic systems are es- sentially isothermic and use chemical energy to power the living processes . BIOMEDICAL IMPORTANCE Suitable fuel is required to provide the energy that enables the animal to carry ...
Page 101
... energy from an exergonic to an endergonic reaction via a high - energy intermediate compound . not be structurally related to A , B , C , or D. This would allow to serve as a transducer of energy from a wide range of exergonic reactions ...
... energy from an exergonic to an endergonic reaction via a high - energy intermediate compound . not be structurally related to A , B , C , or D. This would allow to serve as a transducer of energy from a wide range of exergonic reactions ...
Contents
Biomolecules Biochemical Methods | 5 |
Water pH | 13 |
Myoglobin Hemoglobin 48 | 57 |
Copyright | |
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6-phosphate acetyl-CoA activity acyl-CoA adipose tissue amino acids bile bilirubin binding biochemical biosynthesis blood bonds Ca2+ carbohydrate carbon catabolism catalyzed cells CH₂ Chapter cholesterol chromosome citric acid cycle codon complex concentration contain decreased deficiency dehydrogenase disease energy enzyme eukaryotic excreted factor fatty acids Figure formation free fatty acids fructose function gene genetic glucagon gluconeogenesis glucose glycerol glycogen glycolysis glycoproteins H₂O hepatic hormone human increased inhibition insulin intestinal intracellular involved kinase levels lipid lipoproteins liver mammalian mechanism membrane metabolism mitochondria mitochondrial molecular molecules mRNA muscle NAD+ NADH NADPH NH₂ normal nucleotide occurs oxidase oxidation pathway peptide phos phosphate phospholipids phosphorylation physiologic plasma precursor protein purine pyrimidine pyruvate reaction receptor region regulation residues respiratory chain sequence serum specific steroid structure substrate subunit sulfate synthesis Table tein tion transcription transport triacylglycerol tRNA tyrosine urine vitamin VLDL