Presentation is loading. Please wait.

Presentation is loading. Please wait.

Metabolism of amino acids Vladimíra Kvasnicová. Classification of proteinogenic AAs -metabolic point of view 1)biosynthesis in a human body  nonessential.

Published byEverett Chapman Modified over 8 years ago

Similar presentations

Presentation on theme: "Metabolism of amino acids Vladimíra Kvasnicová. Classification of proteinogenic AAs -metabolic point of view 1)biosynthesis in a human body  nonessential."— Presentation transcript:

1 Metabolism of amino acids Vladimíra Kvasnicová

2 Classification of proteinogenic AAs -metabolic point of view 1)biosynthesis in a human body  nonessential (are synthesized)  essential (must be present in a diet) 2)degradation within cells  glucogenic (Glc can be formed from their carbon sceleton)  ketogenic (= AAs degraded to acetyl-CoA)

3 Essential amino acids 1)branched chain: Val, Leu, Ile 2)aromatic: Phe ( → Tyr), Trp 3)basic: His, Arg, Lys 4)sulfur-containing: Met ( → Cys) 5)other: Thr „10“

4 Essential amino acids PVT TIM HALL 1)branched chain: Val, Leu, Ile 2)aromatic: Phe ( → Tyr), Trp 3)basic: His, Arg, Lys 4)sulfur-containing: Met ( → Cys) 5)other: Thr

5 Essential / conditionally essential / nonessential amino acids essential: Val, Leu, Ile, Thr, Phe, Trp, His, Arg, Lys, Met noness.: Gly, Ala, Pro, Ser, Tyr, Asn, Gln, Asp, Glu, Cys

6 Essential / conditionally essential / nonessential amino acids essential: Val, Leu, Ile, Thr, Phe, Trp, His, Arg, Lys, Met noness.: Gly, Ala, Pro, Ser, Tyr, Asn, Gln, Asp, Glu, Cys AAs ~ organically bound nitrogen dietary proteinsproteosynthesis body proteins AAs poolN-compound synthes. de novo biosynthesisdegradation (E,glc,fat)

7 The figure is from http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html Insertion of an inorganic nitrogen to organic comp. in a human metabolism

8 Synthesis of AAs in a human body - 5 substrates - 1.oxaloacetate → Asp, Asn 2.  -ketoglutarate → Glu, Gln, Pro, (Arg) 3.pyruvate → Ala 4.3-phosphoglycerate → Ser, Cys, Gly 5.Phe → Tyr

9 Synthesis of AAs in a human body - important reactions - 1.transamination Pyr → AlaOA → Asp  -ketoGlt → Glu 2.amidation Asp → AsnGlu → Gln 3.synthesis from the other amino acids Phe → Tyr Ser → Gly Glu → Pro Met + Ser → Cys

10 The figure is from http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html Transamination reaction ! REVERSIBLE ! enzymes: amino transferases coenzyme: pyridoxal phosphate (vit. B6 derivative)

11 The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2 alanine aminotransferase (ALT = GPT) aspartate aminotransferase (AST = GOT) Amino transferases important in medicine („transaminases“)

12 glutamine synthetase „amidation“ of glutamate = side chain carboxylic group of Glu is converted to amide group GLUTAMINE = the most important transport form af amino nitrogen in blood The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2

13 Synthesis of ASPARAGINE needs glutamine as –NH 2 group donor (it is not ammonia as in the Gln synthesis) The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2

14 The figure is from http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html Synthesis of Tyr from Phe

15 The figure is from http://www.biocarta.com/pathfiles/GlycinePathway.asp (Jan 2007)http://www.biocarta.com/pathfiles/GlycinePathway.asp Synthesis of serine and glycine glycolysis

16 The figure is from http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html Formation of activated methionine = S-adenosylmethionine (SAM) SAM is used as –CH 3 group donor in metabolic methylations

17 The figure is from http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html Synthesis of Cys from Met and Ser

18 The figure is from http://www.biocarta.com/pathfiles/Cysteine2Pathway.asp (Jan 2007)http://www.biocarta.com/pathfiles/Cysteine2Pathway.asp

19 The figure is from http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/amino-acid-metabolism.html B12 Regeneration of Met (vitamins: folate+B 12 )

20 Some amino acids are used for synthesis of other N-compound: 1)Gln, Asp, Gly → purines, pyrimidines 2)Gly → porphyrines, creatine (+ Arg and Met) 3)Arg → NO 4)Cys → taurine The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2

21 Decarboxylation of AAs gives monoamines (= biogenic amines) 1)Tyr → catecholamines (adrenaline, noradrenaline, dopamine) 2)Trp → serotonin (= 5-hydroxytryptamine) 3)His → histamine 4)Ser → etanolamine → choline → acetylcholine 5)Cys → cysteamine Asp →  - alanine Glu →  -aminobutyrate (GABA) coenzyme A

22 Choose essential amino acids a)Asp, Glu b)Val, Leu, Ile c)Ala, Ser, Gly d)Phe, Trp

23 Choose essential amino acids a)Asp, Glu b)Val, Leu, Ile c)Ala, Ser, Gly d)Phe, Trp

24 Choose amino acids from which the other amino acid can be synthesized in a human body a)valine → leucine b)aspartate → asparagine c)phenylalanine → tyrosine d)methionine + serine → cysteine

25 Choose amino acids from which the other amino acid can be synthesized in a human body a)valine → leucine b)aspartate → asparagine c)phenylalanine → tyrosine d)methionine + serine → cysteine

26 The compound(s) can be synthesized from the amino acid a)tyrosine → serotonin b)serine → ethanolamine c)tryptophan → catecholamines d)cysteine → taurine

27 The compound(s) can be synthesized from the amino acid a)tyrosine → serotonin b)serine → ethanolamine c)tryptophan → catecholamines d)cysteine → taurine

28 Degradation of amino acids (AAs) 1)-NH 2 group removing from AA 2)detoxification of the amino group 3)metabolism of carbon sceleton of AA  7 products

29 7 degradation products of AAs 1.pyruvate  Gly, Ala, Ser, Thr, Cys, Trp 2.oxaloacetate  Asp, Asn 3.  -ketoglutarate  Glu, Gln, Pro, Arg, His 4.succinyl-CoA  Val, Ile, Met, Thr 5.fumarate  Phe, Tyr 6.acetyl-CoA  Ile 7.acetoacetyl-CoA  Lys, Leu, Phe, Tyr, Trp glucogenic AAs ketogenic AAs

30 The figure is from http://www.biocarta.com/pathfiles/glucogenicPathway.asp (Jan 2007)http://www.biocarta.com/pathfiles/glucogenicPathway.asp The entrance of amino acids into the citrate cycle

31 The figure is from http://www.biocarta.com/pathfiles/asparaginePathway.asp (Jan 2007)http://www.biocarta.com/pathfiles/asparaginePathway.asp An example of AA degradation to produce intermediate of the citrate cycle

32 Choose glucogenic amino acids a)alanine b)lysine c)leucine d)glutamine

33 Choose glucogenic amino acids a)alanine b)lysine c)leucine d)glutamine

34 Fate of amino nitrogen derived from AAs a)in extrahepatic tissues  transamination (forms mainly Ala and Glu + 2-oxoacids)  deamination (only some AAs: Ser,Thr,His; releases NH 3 )  amidation Glu + NH 3 → Gln (needs ATP) b)in the liver  see a)  oxidative deamination of Glu (forms  -ketoGlt + NH 3 ) enzyme: glutamate dehydrogenase (GMD = GLD)

35 Glutamine is principal transport form of amino nitrogen The figure is from http://www.sbuniv.edu/~ggray/CHE3364/b1c25out.html (Dec 2006)http://www.sbuniv.edu/~ggray/CHE3364/b1c25out.html

36 Transport of amino nitrogen from degraded muscle proteins excreted products The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2

37 Glucose-alanine cycle The figure was adopted from Devlin, T. M. (editor): Textbook of Biochemistry with Clinical Correlations, 4th ed. Wiley ‑ Liss, Inc., New York, 1997. ISBN 0 ‑ 471 ‑ 15451 ‑ 2

38 The figure is from http://courses.cm.utexas.edu/archive/Spring2002/CH339K/Robertus/overheads-3/ch18_ammonia-transport.jpg (Jan 2007)http://courses.cm.utexas.edu/archive/Spring2002/CH339K/Robertus/overheads-3/ch18_ammonia-transport.jpg Metabolism of amino nitrogen

39 The figure is from http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html (Jan 2007)http://web.indstate.edu/thcme/mwking/nitrogen-metabolism.html GLUTAMATE DEHYDROGENASE removes amino group from carbon sceleton of Glu in the liver 1. –NH 2 from AAs was transfered by transamination → Glu 2. free ammonia is released by oxidative deamination of Glu

40 Transport and detoxifikation of amino nitrogen - SUMMARY - aminotransferases → glutamate or alanine glutamine synthetase → glutamine glutaminase → glutamate + NH 4 + glutamate dehydrogenase → 2-oxoglutarate + NH 4 + liver: urea cycle → urea kidneys: glutaminase → glutamate + NH 4 + → urine

41 Choose products of the transamination reactions a)alanine → pyruvate b)glutamate → 2-oxoglutarate c)aspartate → oxaloacetate d)phenylalanine → tyrosine

42 Choose products of the transamination reactions a)alanine → pyruvate b)glutamate → 2-oxoglutarate c)aspartate → oxaloacetate d)phenylalanine → tyrosine

43 Glutamate dehydrogenase (GMD) a)catalyzes conversion of Glu to oxaloacetate b)is found in mitochondria of hepatocytes c)produces ammonia d)needs pyridoxal phosphate as a coenzyme

44 Glutamate dehydrogenase (GMD) a)catalyzes conversion of Glu to oxaloacetate b)is found in mitochondria of hepatocytes c)produces ammonia d)needs pyridoxal phosphate as a coenzyme

45 Choose correct statement(s) about metabolism of amino acids a)alanine aminotransferase (ALT) transforms pyruvate to alanine b)aspartate aminotransferase (AST) transforms aspartate to  -ketoglutarate c)glutamine synthetase transforms glutamate to glutamine d)glutaminase catylyzes conversion of glutamine to ammonia and  -ketoglutarate

46 Choose correct statement(s) about metabolism of amino acids a)alanine aminotransferase (ALT) transforms pyruvate to alanine b)aspartate aminotransferase (AST) transforms aspartate to  -ketoglutarate c)glutamine synthetase transforms glutamate to glutamine d)glutaminase catylyzes conversion of glutamine to ammonia and  -ketoglutarate

47 If the amino acid is metabolised the substance is formed: a)methionine gives homocysteine b)serine gives glycine and folic acid derivative: methylene tetrahydrofolate c)glutamine releases ammonia d)some amino acides can be degraded to acetoacetate

48 If the amino acid is metabolised the substance is formed: a)methionine gives homocysteine b)serine gives glycine and folic acid derivative: methylene tetrahydrofolate c)glutamine releases ammonia d)some amino acides can be degraded to acetoacetate

49 The amino acids can be formed from the citrate cycle intermediates in a human body a)  -ketoglutarate → glutamate b)succinyl-CoA → isoleucine c)oxaloacetate → aspartate d)malate → threonine

50 The amino acids can be formed from the citrate cycle intermediates in a human body a)  -ketoglutarate → glutamate b)succinyl-CoA → isoleucine c)oxaloacetate → aspartate d)malate → threonine

51 The amino acids can enter the citrate cycle as the molecules a)alanine → → acetyl-CoA b)aspartate → oxaloacetate c)valine → → succinyl-CoA d)glutamine → →  -ketoglutarate

52 The amino acids can enter the citrate cycle as the molecules a)alanine → → acetyl-CoA b)aspartate → oxaloacetate c)valine → → succinyl-CoA d)glutamine → →  -ketoglutarate

53 Urea (ornithine) cycle detoxification pathway (NH 3 is toxic for brain) proceeds only in the liver localized in mitochondria /cytoplasm carbamoyl phosphate synthetase I (= mitoch.) can acidify an organism (consumes HCO 3 - ) needs energy (3 ATP, but 4 energy rich bonds) connected with citrate cycle through fumarate urea is end product of –NH 2 metabolism ( → urine)

54 The figure is from http://www.biocarta.com/pathfiles/ureacyclePathway.asp (Jan 2007)http://www.biocarta.com/pathfiles/ureacyclePathway.asp Detoxication of ammonia in the liver

55 The figure is from http://courses.cm.utexas.edu/archive/Spring2002/CH339K/Robertus/overheads-3/ch18_TCA-Urea_link.jpg (Jan 2007) http://courses.cm.utexas.edu/archive/Spring2002/CH339K/Robertus/overheads-3/ch18_TCA-Urea_link.jpg Interconnection of the urea cycle with the citrate cycle

56 regulatory enzymeactivationinhibition carbamoyl phosphate synthetase I (= mitochondrial)  N-acetylglutamate N-acetylglutamate synthetase  arginine Regulation of urea cycle allosteric regulation + enzyme induction by protein rich diet or by metabolic changes during starvation Urea synthesis is inhibited by acidosis – HCO 3 - is saved

57 Ornithine cycle a)proceeds only in the liver b)produces uric acid c)includes arginine as an intermediate d)produces energy in a form of ATP

58 Ornithine cycle a)proceeds only in the liver b)produces uric acid c)includes arginine as an intermediate d)produces energy in a form of ATP

59 In the urea synthesis a)ammonia reacts with ornithine → citrulline b)carbamoyl phosphate synthetase I (= mitochondrial) regulates the cycle c)aspartate is used as a –NH 2 group donor d)urea is formed – it can be used as an energy substrate for extrahepatic tissues

60 In the urea synthesis a)ammonia reacts with ornithine → citrulline b)carbamoyl phosphate synthetase I (= mitochondrial) regulates the cycle c)aspartate is used as a –NH 2 group donor d)urea is formed – it can be used as an energy substrate for extrahepatic tissues

Download ppt "Metabolism of amino acids Vladimíra Kvasnicová. Classification of proteinogenic AAs -metabolic point of view 1)biosynthesis in a human body  nonessential."

Similar presentations

Proteins: Structure reflects function….. Fig. 5-UN1 Amino group Carboxyl group carbon.

Proteins: Structure reflects function….. Fig. 5-UN1 Amino group Carboxyl group carbon.
Section M Nitrogen metabolism

Section M Nitrogen metabolism
Biochemistry Sixth Edition

Biochemistry Sixth Edition
Detoxification of ammonia and biosynthesis of urea. The basic features of nitrogen metabolism were elucidated initially in pigeons.

Detoxification of ammonia and biosynthesis of urea. The basic features of nitrogen metabolism were elucidated initially in pigeons.
Disposal of Nitrogen and Carbon Skeletons

Disposal of Nitrogen and Carbon Skeletons
Chapter 26 Amino Acids Metabolism.

Chapter 26 Amino Acids Metabolism.
Amino acid oxidation and the production of urea

Amino acid oxidation and the production of urea
The Urea Cycle بسم الله الرحمن الرحيم Dr. Mahmoud Sirdah Dr. Mahmoud Sirdah.

The Urea Cycle بسم الله الرحمن الرحيم Dr. Mahmoud Sirdah Dr. Mahmoud Sirdah.
Degradation of amino acids Amino acid breakdown can yield: –Acetyl-CoA –  -KG –Succinyl-CoA –OAA –fumarate.

Degradation of amino acids Amino acid breakdown can yield: –Acetyl-CoA –  -KG –Succinyl-CoA –OAA –fumarate.
Amino Acids Metabolism: Disposal of Nitrogen.

Amino Acids Metabolism: Disposal of Nitrogen.
Copyright COMMONWEALTH OF AUSTRALIA Copyright Regulation WARNING This material has been reproduced and communicated to you by or on behalf of the University.

Copyright COMMONWEALTH OF AUSTRALIA Copyright Regulation WARNING This material has been reproduced and communicated to you by or on behalf of the University.
Metabolic fuels and Dietary components Lecture - 2 By Dr. Abdulrahman Al-Ajlan.

Metabolic fuels and Dietary components Lecture - 2 By Dr. Abdulrahman Al-Ajlan.
FCH 532 Lecture 22 Chapter 26: Amino acid metabolism

FCH 532 Lecture 22 Chapter 26: Amino acid metabolism
Protein Catabolism ?Can you give me some examples of what chemicals you think youve used, or how you think chemistry may have impacted your life?

Protein Catabolism ?Can you give me some examples of what chemicals you think youve used, or how you think chemistry may have impacted your life?
Anabolism of Nitrogen Compounds

Anabolism of Nitrogen Compounds
FIGURE (part 2) Urea cycle and reactions that feed amino groups into the cycle. The enzymes catalyzing these reactions (named in the text) are distributed.

FIGURE (part 2) Urea cycle and reactions that feed amino groups into the cycle. The enzymes catalyzing these reactions (named in the text) are distributed.
1 25.6 Digestion of Proteins 25.7 Degradation of Amino Acids 25.8 Urea Cycle Chapter 25 Metabolic Pathways for Lipids and Amino Acids.

Digestion of Proteins 25.7 Degradation of Amino Acids 25.8 Urea Cycle Chapter 25 Metabolic Pathways for Lipids and Amino Acids.
NITROGEN BIOSYNTHETIC PATHWAYS BIOC 460 DR. TISCHLER LECTURE 39.

NITROGEN BIOSYNTHETIC PATHWAYS BIOC 460 DR. TISCHLER LECTURE 39.
Protein Turnover and Amino Acid Catabolism

Protein Turnover and Amino Acid Catabolism
BIOC 460 DR. TISCHLER LECTURE 38 AMINO ACID DEGRADATION/ UREA CYCLE.

BIOC 460 DR. TISCHLER LECTURE 38 AMINO ACID DEGRADATION/ UREA CYCLE.

Similar presentations

Ads by Google