Home Medias & Documents
Maps > Medicine > Biochemistry > Authors
Salway. Metabolism at a Glance. 4e. 2017.
0 Contents
Part 1 Energy metabolism
1 Introduction to metabolic pathways
2 Biosynthesis of ATP I: ATP, the molecule that powers metabolism
3 Biosynthesis of ATP II: mitochondrial respiratory chain
4 Oxidation of cytosolic NADH: the malate/aspartate shuttle and glycerol phosphate shuttle
5 Metabolism of glucose to provide energy
6 Metabolism of one molecule of glucose yields 31 (or should it be 38?) molecules of ATP
7 Anaerobic metabolism of glucose and glycogen to yield energy as ATP
8 2,3-Bisphosphoglycerate (2,3-BPG) and the red blood cell
9 Metabolism of triacylglycerol to provide energy as ATP
Part 2 Carbohydrate metabolism
10 Metabolism of glucose to glycogen
11 Glycogen metabolism I
12 Glycogen metabolism II
13 Glycogen metabolism III: regulation of glycogen breakdown (glycogenolysis)
14 Glycogen metabolism IV: regulation of glycogen synthesis (glycogenesis)
15 Pentose phosphate pathway: the production of NADPH and reduced glutathione
16 Regulation of glycolysis: overview exemplified by glycolysis in cardiac muscle
17 Glycolysis in skeletal muscle: biochemistry of sport and exercise
18 Regulation of gluconeogenesis
19 Regulation of Krebs cycle
20 Mammals cannot synthesize glucose from fatty acids
21 Supermouse: overexpression of cytosolic PEPCK in skeletal muscle causes super-athletic performance
22 Sorbitol, galactitol, glucuronate and xylitol
23 Fructose metabolism
24 Ethanol metabolism
Part 3 Fat metabolism
25 Pyruvate/malate cycle and the production of NADPH
26 Metabolism of glucose to fat (triacylglycerol)
27 Metabolism of glucose to fatty acids and triacylglycerol
28 Glycolysis and the pentose phosphate pathway collaborate in liver to make fat
29 Esterification of fatty acids to triacylglycerol in liver and white adipose tissue
30 Mobilization of fatty acids from adipose tissue I: regulation of lipolysis
31 Mobilization of fatty acids from adipose tissue II: triacylglycerol/fatty acid cycle
32 Glyceroneogenesis
33 Metabolism of protein to fat after feeding
34 Elongation and desaturation of fatty acids
35 Fatty acid oxidation and the carnitine shuttle
36 Ketone bodies
37 Ketone body utilization
38 p-Oxidation of unsaturated fatty acids
39 Peroxisomal p-oxidation
40 a- and p-oxidation
41 co-Oxidation
Part 4 Steroid metabolism
42 Cholesterol
43 Steroid hormones and bile salts
Part 5 Amino acid metabolism
44 Biosynthesis of the non-essential amino acids
45 Catabolism of amino acids I
46 Catabolism of amino acids II
47 Metabolism of amino acids to glucose in starvation and during the period immediately after refeeding
48 Disorders of amino acid metabolism
49 Phenylalanine and tyrosine metabolism
50 Tryptophan metabolism: the biosynthesis of NAD+, serotonin and melatonin
51 Ornithine cycle for the production of urea: the ‘urea cycle’
Part 6 Metabolic channelling
52 Metabolic channelling I: enzymes are organized to enable channelling of metabolic intermediates
53 Metabolic channelling II: fatty acid synthase
Part 7 Purines, pyrimidines and porphyrins
54 Amino acid metabolism, folate metabolism and the ‘1-carbon pool’ I: purine biosynthesis
55 Amino acid metabolism, folate metabolism and the ‘1-carbon pool’ II: pyrimidine biosynthesis
56 Krebs uric acid cycle for the disposal of nitrogenous waste
57 Porphyrin metabolism, haem and the bile pigments
Part 8 Integration of metabolic pathways and diabetes
58 Metabolic pathways in fasting liver and their disorder in Reye’s syndrome
59 Diabetes I: metabolic changes in diabetes
60 Diabetes II: types I and II diabetes, MODY and pancreatic p-cell metabolism
61 Diabetes III: type 2 diabetes and dysfunctional liver metabolism