1 |
Literature review, individual research |
Introduction to nutrition biochemistry |
Lecture, Disussion |
2 |
Literature review, individual research |
Principles of nutrition biochemistry |
Lecture, Disussion |
3 |
Literature review, individual research |
Introduction to metabolism; anabolism, catabolism, intermediate metabolism, macro metabolism, types of metabolic pathways, bioenergetics, general control mechanisms in metabolism |
Lecture, Disussion |
4 |
Literature review, individual research |
Introduction to metabolism; anabolism, catabolism, intermediate metabolism, macro metabolism, types of metabolic pathways, bioenergetics, general control mechanisms in metabolism |
Lecture, Disussion |
5 |
Literature review, individual research |
Protein and amino acid metabolism: Nitrogen fixation and balance, digestion, absorption and degradation of proteins, General amino acid reactions: deamination, transamination, decarboxylation, elimination, urea cycle and catabolism of amino acids Deamination of amino acids |
Lecture, Disussion |
6 |
Literature review, individual research |
Protein and amino acid metabolism: Nitrogen fixation and balance, digestion, absorption and degradation of proteins, General amino acid reactions: deamination, transamination, decarboxylation, elimination, urea cycle and catabolism of amino acids Deamination of amino acids |
Lecture, Disussion |
7 |
Literature review, individual research |
Protein and amino acid metabolism: Amino acid biosynthesis, nitric oxide, polyamines, creatine and creatinine, biogenic amines, catecholamines, neurotransmitters etc. synthesis, Both synthesis and degradation, amino acid metabolic diseases |
Lecture, Disussion |
8 |
- |
MID-TERM EXAM |
- |
9 |
Literature review, individual research |
Protein and amino acid metabolism: Amino acid biosynthesis, nitric oxide, polyamines, creatine and creatinine, biogenic amines, catecholamines, neurotransmitters etc. synthesis, Both synthesis and degradation, amino acid metabolic diseases |
Lecture, Disussion |
10 |
Literature review, individual research |
Glycogen metabolism: Glycogen structure and physiological importance, glucose homeostasis, glycogenesis and glycogenolysis, regulation, glycogen storage diseases Anaerobic Glycolysis (Continued) |
Lecture, Disussion |
11 |
Literature review, individual research |
Glycogen metabolism: Glycogen structure and physiological importance, glucose homeostasis, glycogenesis and glycogenolysis, regulation, glycogen storage diseases Anaerobic Glycolysis (Continued) |
Lecture, Disussion |
12 |
Literature review, individual research |
Oxidative decarboxylation and citrate cycle, regulation, glyoxylate cycle |
Lecture, Disussion |
13 |
Literature review, individual research |
Carbohydrate metabolism; digestion / absorption, glycolysis / aerobic / anaerobic), glycogenogenesis, regulation, Cori cycle, fermentation |
Lecture, Disussion |
14 |
Literature review, individual research |
Carbohydrate metabolism; Pentoz phosphate pathway: oxidative and non-oxidative reactions, regulation and Calvin cycle Anaerobic Glycolysis |
Lecture, Disussion |
15 |
Literature review, individual research |
Carbohydrate metabolism; Pentoz phosphate pathway: oxidative and non-oxidative reactions, regulation and Calvin cycle Anaerobic Glycolysis |
Lecture, Disussion |
16 |
- |
FINAL EXAM |
- |
17 |
- |
FINAL EXAM |
- |