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Protein metabolism

Protein metabolism. Roles of proteins. DNA Only codes for proteins Proteins Structure and shape Metabolic capability. Amino Acids. Building blocks of proteins 20 in the human body Contain C,H,O and Nitrogen Contain Amine group NH 2 Carboxyl group COOH Also contain a side chain

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Protein metabolism

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  1. Protein metabolism

  2. Roles of proteins • DNA • Only codes for proteins • Proteins • Structure and shape • Metabolic capability

  3. Amino Acids • Building blocks of proteins • 20 in the human body • Contain C,H,O and Nitrogen • Contain • Amine group • NH2 • Carboxyl group • COOH • Also contain a side chain • Makes amino acids different

  4. Amino acids • These make up the 20 AAs in the body • Essential • Necessary in the diet • Non-essential • Can be manufactured • Meat vs vegetarian diet

  5. Protein structure and function • Proteins • Made up of AAs • Synthesized in the ribosome • Control: DNA & RNA • Chromosomes • Genetic information • Contains codes for protein synthesis • DNA • Pentose sugar (deoxyribose) • Phosphate group • Organic base (purines; A and G and pyrimidines; T and C) • A,T,G,C • Thymine binds Adenine and Cytosine binds guanine • Parallel strands that run in opposite directions

  6. Transcription DNA strand unravels Complementary strand of messenger RNA is formed (mRNA) RNA polymerase Uracil (U) replaces T This strand contains a copy of the genetic information coded for on DNA mRNA is translocated from the nucleus to the cytoplasm

  7. Translation • mRNA travels to ribsome • Information on mRNA codes for particular proteins • Each amino acid • 3 base pair codon • This is picked up by transfer RNA (tRNA) • tRNA then brings the AA to the developing protein chain

  8. Transcriptional and translational control • Transcriptional • Alteration in the concentration of mRNA • Regulation of mRNA polymerase • Translational • Ribosome • Affects the rate at which the protein is synthesized

  9. Amino acid metabolism • No excess protein storage in body • Excess is converted to fat or sugar or oxidized • Protein turnover is very high • Repair and maintenance • Enzymes • Rapid turnover allows them to adapt quickly to changing demands • E.g. rise and fall in oxidative enzyme activities with training and detraining • Turnover • Balance between synthesis and degradation

  10. Amino Acid metabolism • Transamination • When the amine group of an amino acid is transferred to another molecule • This molecule is typically a keto acid • Essentially an AA without a nitrogen group

  11. Deamination • Glutamate dehydrogenase • Along with the coenzyme NAD+ • Deaminates glutamine to alpha-ketoglutarate • Produces ammonia (Glutamate) (Glutamate)

  12. Transamination • Serum glutamate-pyruvate transaminase (SGPT) • Transfers nitrogen from Glutamate to pyruvate which is transaminated to alanine (glutamate) (glutamate)

  13. Protein metabolism in exercise • Oxidation • Muscle can only oxidize the following AAs • Alanine, aspartate, glutamate, leucine, isoleucine, valine • BCAA • L, I and V • Most important • However, oxidation accounts for only ~ 5-10% of energetic needs

  14. Problem with protein metabolism • Nitrogen (specifically, ammonia) • Toxic • Urea cycle • Converts NH3 to urea, which is excreted in the urine • 5 steps 1) Synthesis of carbamoyl phosphate • Requires ATP 2) Formation of citrulline 3) Formation of argininosuccinate 4) Formation of arginine 5) Formation of urea

  15. Gluconeogenesis • Some AAs are glucogenic (red), some ketogenic (yellow) • Some also function to help maintain the Kreb’s cycle (anaplerotic additions)

  16. Biologically important amino acids • Neurotransmitter AAs • Glycine, glutamate, taurine, aspartate • Neurotransmitter proteins • Acetylcholine • Important to muscle contraction • Synthesis: • Acetyl-CoA and Choline • Choline acetyl transferase • Degradation • Acetylcholinesterase

  17. Amino acids • Catecholamines • Epinephrine, Nor-epinephrine • Synthesis • Tyrosine • All the products of this pathway have biological effects • L-DOPA • Used to treat Parkinson’s disease • Precursor to dopamine, nor-epi and epi • Precursor to melanin • Dopamine • Neurotransmitter • Sympathetic nervous system stimulant

  18. Amino acids • 5-Hydroxytryptamine (serotonin) • Neurotransmitter • Synthesized from tryptophan • Contributes to well-being • Leads to melatonin • Produced in pineal gland • Important to circadian rhythms • Powerful antioxidant

  19. Regulatory peptides and proteins • Metabolic regulators • Insulin • Produced in beta cells (islets of Langerhans) of pancreas • Primarily Anabolic • Glycogen storage • Reduced lipid mobilization • Stimulates protein synthesis • Glucagon • Produced in alpha cells • Primarily “Anti-insulin” • Controlled • Basically by the blood glucose concentration • Somatostatin • Formed in delta cells • Prevents excessive insulin release following a meal

  20. Growth factors, gut and brain peptides • Somatomedins • IGF-1 and 2 • Cell proliferation and inhibition of apoptosis • Produced in Liver • Gut peptides • Gastrin • Stimulates secretion of HCl • Released from G cells in stomach, pancreas and duodenum • CCK • Stimulates bile release in response to fat in small intestine • Synthesized in I cells of small intestine • VIP • Increases GI motility • Synthesized in gut, pancreas and hypothalamus • Bombesin (Gastrin releasing peptide) • Stimulates gastrin release • Released from terminals of Vagus nerve • Secretin • Increase water and bicarbonate secretion into the small intestine • Produced by S cells of duodenum • Brain peptides • Endorphins • Endogenous morphine • Produced in brain, released via hypothalamus and pituitary

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