2. Many essential biomolecules contain N�
3. Major Functions of Nitrogen�Derived from Dietary Protein
4. The nitrogen cycle� No biomolecules are dedicated to the storage of N
excess N is excreted
N must be replenished by dietary protein
5. A. Ammonia Is Incorporated into Glutamate
6. B. Glutamine Is a Nitrogen Carrier in Many Biosynthetic Reactions
7. Assimilation of Ammonia
8. Glutamate synthatase is not present in humans.
It is found in Bacteria
It is used by blue-green algae and by Rhisobia. Glutamate synthetase
9. Transamination�Reversible transfer of Ammonia between amino acids and ?-ketoacids�by aminotransferase Glutamate provides the amino group for the synthesis of many
other amino acids through trasamination reactions
10. Aspartate Aminotransferase
11. Alanine Aminotransferase
12. Central role of the aminotrasferases and glutamate dehydrogenase in nitrogen metabolism�
13. Amino Acid Synthesis The ability of an organism to live and grow is dependent on protein synthesis
Therefore, a supply of all 20 aa is necessary.
Higher plants are able to synthesize all 20 aas.
Many microorganisms and higher animals make fewer
Humans make 10 of the 20 aas (these are called nonessential amino acids.
The remainder must be supplied in the diet, usually in the form of plant or animal proteins (these are called essential amino acids).
14. All 20 amino acids are essential for life,
They are necessary for protein synthesis
Essential or indispensable: 9
Nonessential or dispensable: 11
Review complete vs. incomplete
All natural, unprocessed animal and plant foods contain all twenty amino acids
A lack of any one of them leads to severe metabolic disruption and ultimate death.
Metabolic Classification of the Amino Acids
15. Their synthesis depends on the availability of the appropriate carbon skeletons and a source of ammonia.
Glucose is ultimately the source of carbon skeletons for most nonessential aa.
Two essential aa, phenylalanine and methionine, are used to make tyrosine and cysteine, respectively.
Since ammonia is available in the fed state, amino acids become essential to our diet when we are not able to synthesize their carbon skeletons. What are the nonessential amino acids synthesized from?
16. a-keto acids required for synthesis of nonessential amino acids
19. Synthesis of Tyrosine
20. Amino acids are precursors of some other biomolecules
22. Protein Quality�Animal vs. Plant protein Important in maintaining N balance
Proteins have different biological value (BV)
Major reasons why animal protein is called BV protein, whereas plant protein is of lower BV:
Animal protein is complete - contains all essential amino acids
Contains essential amino acids in larger amounts and in proper proportion for optimal utilization
Note: Soybean protein even though from a plant, is comparable to animal protein
In children leads to kwashiorker
24. Note The 56-g protein requirement for adult male can be met by 45 g of animal protein
Same requirement would necessitate 65 g plant protein
Combining plant products (legumes + grains) provides all essential amino acids
Mixture of 30% animal protein and
70 % plant protein similar to use of animal protein alone
25. Protein RDA varies in different stages of life cycle 0-0.5 years: 1 g/lb
0.5-1 years: .71 g/lb
1-6 years: .56 g/lb
7-14 years: .45 g/lb
15-18 years: .41 g/lb
19+ years: .36 g/lb
1Ib = 0.4536 kg
27. Protein Turnover Body proteins turn over; t1/2= min - wks
400g of protein are synthesized per day and 400g are broken down
Secretory proteins such as digestive enzymes, polypeptide hormones, and antibodies, turn over rapidly
Structural proteins are much more metabolically stable.
28. Chemical Signals for Turnover ubiquitinatin
A small, heat stable protein (ubiquitin) reacts with other proteins to mark them for destruction
Oxidation of amino acid resides- Pro, Arg, Lys
Pest sequences- one or more regions rich in proline (P), gltamate (E),serine (S), and threonine (T)
29. Nitrogen Balance No biomolecules are dedicated to the storage of N;
Excess N is excreted.
Definition: N taken in - N lost
Balances
Zero for healthy adults
Positive
childhood growth
pregnancy
muscle building
Healing
Negative for
Protein malnutrition
Essential aa malnutrition
stress response (fever, recovery from surgery, etc)
30. Protein Digestion Gastric Digestion
Function of pH
Kills bacteria
Denatures proteins
Activation and Action of Pepsin
Intestinal Digestion
Pancreatic enzymes
Intestinal enzymes
31. Denaturation of Proteins at low pH
32. Activation of the Gastric and Pancreatic Zymogens
33. Zymogens Activation
35. Other details of Intestinal Enzymes
39. Gamma-Glutamyl Cycle A metabolic cycle for transporting amino acids into cells.
40. Disorders of Amino Acid transportation or absorption
