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utritional Biochemistry

Understand the fundamentals of nucleic acids, DNA, and RNA, their structures, functions, and importance in genetic information storage and expression. Explore properties, roles in biosynthesis, energy production, and more. Learn about nucleotides, coenzymes, and their involvement in signal transduction. Discover synthetic nucleotide analogs used in chemotherapy and their applications in medicine.

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utritional Biochemistry

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  1. utritionalBiochemistry İlker GÖÇHAN (M.D) Clinical Biochemistry Specialist

  2. Nucleic acids, DNA and RNA structures and functions WEEK 10

  3. OVERVIEW • Nucleic acids are required for the storage and expression of genetic information. • There are two chemically distinct types of nucleic acids: • Deoxyribonucleic acid (DNA) and • Ribonucleic acid (RNA)

  4. Nucleotides contain; • Base + sugar + phosphoryl group

  5. Purines and pyrimidines are heterocyclic compounds including N atoms

  6. Nucleosides contain; • Base + sugar (ribose or deoxyribose)

  7. Sugar, D-ribose or 2’-deoxy D-ribose, is linked to base via a covalent β-N-glycosidic bond to N-9 of a purine or to N-1 of a pyrimidine

  8. Nucleotidesaretermedribonucleotidesordeoxyribonucleotidesbased on whetherthesugar is riboseor 2’-deoxyribose

  9. DNA nucleotides

  10. RNA nucleotides

  11. Nucleotidesarephosphorolatednucleosides • Mononucleotidesarenucleotidessinglyphosphorolated on hydroxylgroup of thesugar • AMP → Adenosinemonophosphate • Adenine + ribose +phosphate • Additionalphosphateslinkedbyacidanhydridebondstotheexistingphosphate of a mononucleotide form nucleosidedi- andtriphosphates

  12. ADP → Adenosine diphosphate • Adenine + ribose +phosphate +phosphate • ATP → Adenosine triphosphate • Adenine + ribose +phosphate +phosphate + phosphate

  13. Functions of nucleotides • *Nucleic acid biosynthesis • *Energy production and transduction • *Protein biosynthesis • *Regulatory cascades • *Intra- and intercellular signal transduction • *Biosynthesis some biomolecules

  14. Someproperties of nucleotides • 1.Mononucleotideshave a negativecharge at physiologicalpH • 2.Nucleotidesabsorb UV light • 3. Manycoenzymesarenucleotidederivatives • 4. Syntheticnucleotideanalogsareused in chemotherapy • 5. Nucleosidetriphosphateshavehighgroup transfer potential • 6.Somenucleotidesareinvolved in signaltransduction

  15. 1.Mononucleotideshave a negativecharge at physiologicalpH. • ThepKs of theprimaryandsecondaryphosphorylgroupsareabout 1.0 and 6.2, respectively • Nucleosidesandorfreepurineorpyrimidinebasesareuncharged at physiologicalpH

  16. 2.Nucleotides absorb UV light. • The conjugated double bonds of the heterocyclic bases of purines and pyrimidines ensure that nucleosides, nucleotides and polynucleotides absorb UV

  17. 3. Manycoenzymesarenucleotidederivatives • AMP is present in many coenzymes

  18. 4. Synthetic nucleotide analogs are used in chemotherapy • Chemically synthesized analogs of purines and pyrimidines, their nucleosides and their nucleotides find numerious applications in clinical medicine

  19. Examples • 5-fluoro uracil → thymine analog • 5-iodo deoxyuridine → thyminide analog • 6-mercaptopurine → purine analaog

  20. 6-thioguanine → purine analaog • 8-azaguanine → purine analaog • 5 or 6-azauridine → pirimidine analaog • 6-azacytidine → pirimidine analaog

  21. 4-hydroxypyrazolopyrimidine • (allopurinol) → purine analaog • Allopurinol inhibits de novo • purine biosynthesis and • xanthine oxidase activity. • It is used for treatment of • hyperuricemia and gout

  22. The nucleoside, cytarabine (arabinosyl cytosine), in which arabinose replaces ribose, is used in chemotherapy and in treatment of viral infections. • Azathioprine is catabolized to 6-mercaptopurine and is used during organ transplantation to suppress immunological rejection

  23. 5. Nucleoside triphosphates have high group transfer potential because of acid anhydride bonds • High group transfer potential of nucleoside triphosphates allows them to participate as group transfer reagents in various reactions.

  24. ADP and ATP are substrates and products,respectively, for oxidative phosphorylation • ATP serves as the major biologic transducer of free energy • ATP donates some of its chemical energy by hydrolysis of the terminal phosphoanhydride bond

  25. 6.Somenucleotidesareinvolved in signaltransduction • cAMP and cGMP

  26. cAMP (adenosine 3’,5’-monophosphate) • The cyclic phosphodiester cAMP is formed from ATP by the reaction catalyzed by adenylyl cyclase

  27. cAMP is a second messenger in signal transduction • Adenylyl cyclase activity is regulated by complex interactions, many of which involve hormon receptors • As a second messenger, cAMP participates numerous regulatory functions by activating cAMP dependent protein kinases • cAMP is broken down by cAMP phosphodiesterase

  28. cGMP (guanosine 3’,5’-monophosphate) • cGMP is a second messenger in signal transduction that can act antagonistically to cAMP • cGMP is formed from GMP by guanylyl cyclase • Both adenylyl and guanylyl cyclases are regulated by effectors that include hormones • A phosphodiesterase hydrolyzes cGMP to GMP

  29. An increase in the level of the cGMP as response to the nitric oxide serves as the main second messenger during events that characterize the relaxation of smooth muscle

  30. Nucleases • Nucleic acids are digested by nucleases • Nucleases exhibit specifity to deoxyribonucleic acids are referred to as deoxyribonucleases • Those which specifically hydrolyze ribonucleic acids are ribonucleases • Enzymes capable of cleaving internal phosphodiester bonds are referred to as endonucleases

  31. Some nucleases are capable of hydrolyzing a nucleotide only when it is present at a terminal of a nucleic acid. These enzymes are referred to as exonucleases • Exonucleases can act in one direction only; 3’→5’ or 5’→3’

  32. DNA

  33. What is DNA ? 5:23

  34. STRUCTURE OF DNA • With the exception of a fewviruses that contain single-stranded (ss) DNA, DNA exists as a doublestranded • (ds) molecule, in which the two strands wind around eachother, forming a double helix.

  35. THE DISCOVERY OF DNA DOUBLE HELIX IS ONE OF THE GREATEST FINDINGS OFALL TIME, BUT IT’S ALSO ONE OF THE MOST CONTROVERSIAL.

  36. KEY SCIENTISTS INVOLVED :

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