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Nucleoproteins M.Prasad Naidu MSc Medical Biochemistry, Ph.D,.
Nucleoproteins are conjugated proteins (basic proteins + nucleic acids) Nucleic acids – DNA and RNA DNA is the chemical basis of heredity. Sir diagram
Nucleoside and nucleotide Nucleic acids are polymers of mononucleotides held by 3' and 5' phosphodiester bonds Nucleoside --- Base + Sugar Nucleotide --- Base + sugar + phosphate (phosphorylated nucleoside ).
BASES They are nitrogenous heterocyclic compounds TWO Types : Purines Pyrimidines . Adenine .Cytosine . Guanine .Thymine .Uracil Purines are numbered in anticlockwisedirection in pyrimidine ring and clockwise direction in imidazole ring. Pyrimidines are numbered in clockwisedirection
PURINE BASES ADENINE - 6 – amino purineGUANINE – 2-amino 6 oxy purine 6 6 2 9
PYRIMIDINE BASES • CYTOSINE (both DNA and RNA) • 2-oxy 4 amino pyrimidine 4 2
THYMINE (DNA) 2,4 - dioxy 5methylpyrimidine 4 5 2
URACIL (RNA) 2,4 -dioxypyrimidine 4 2
SUGARS D - RIBOSED –2- deoxy ribose
Numerals with prime ( ' ) distinguish carbon atoms of sugar from those of heterocycle nitrogenous base. The sugar ( c1 ) is linked to base via a beta – N – glycosidic bond , almost always to N-1 of pyrimidine and N-9 of purine.
The hydroxyl groups of adenosine are esterified with • phosphate to produce 3 ' or 5' monophophate. • 5' OH is commonly esterified ,hence 5' omitted. • Adenosine 5' monophosphate ------- AMP(adenylate) • Addition of 2nd or 3 rd phosphate to nucleoside results • in nucleoside diphosphate and triphosphate • respectively.
Base + Sugar Nucleoside Adenine + Ribose Adenosine Guanine + Ribose Guanosine Cytosine + Ribose Cytidine Uracil + Ribose Uridine Adenine + Deoxyribose Deoxy Adenosine Guanine + Deoxyribose Deoxy Guanosine Cytosine + Deoxyribose Deoxy Cytidine Thymine + Deoxyribose Deoxy Thymidine
Nucleoside + PhosphateNucleotide Adenosine + Phosphate Adenylate(AMP) Guanosine + Phosphate Guanylate(GMP) Cytidine + Phosphate Cytidylate(CMP) Uridine + Phosphate Uridylate(UMP)
deoxyNucleoside + Phosphate deoxyNucleotide Deoxyadenosine + phosphate - deoxyadenylate(dAMP) Deoxy guanosine+phosphate - deoxyguanylate(dGMP) Deoxycytidine+ phosphate --- deoxycytidylate(dCMP) Deoxythymidine +phosphate - deoxythymidylate(dTMP)
Minor/unusual bases • Specific DNAs and RNAs of both prokaryotes and eukaryotes • contain smaller amounts of additional bases termed minor or • unusual bases. • These bases are functionally important and hence not of minor Physiologic significance . • They are widely distributed in nature.
Minor bases – cont.. • 5-methylcytosine – present in both bacterial and • human DNA • 2. Mono and di methylated adenine present in • mammalian RNA. • 3. Di methyl guanine present in mRNA. • 4. Various derived bases in tRNA s.eg: pseudouridine. • 5- hydroxy methyl cytosine of bacteriophage DNA occur in • bacteria and viral nucleic acids.
Functions of minor bases: • Small quantities of unusual bases form structural • components of DNA and RNA. • 2.They regulate the half –life of RNAs • 3. The presence of specific methylated nucleotide • bases protect the human DNA from the DNAases • arising from viral /bacterial pathogens.
Plants: Methylated bases include xanthine derivatives • Caffeine of coffee -- 1,3,7 – trimethyl xanthine • Theobromine of cocoa -- 3,7 – dimethyl xanthine • Theophylline of tea -- 1, 7 – dimethyl xanthine
Classification of nucleotides • Adenosine nucleotides eg: ATP, ADP,AMP, cyclic AMP • 2.Guanosine nucleotides eg: GTP, GDP , GMP , • cyclic GMP • 3.Cytidine nucleotides eg; CTP,CDP,CMP ,CDP-choline • 4.Uridine nucleotides eg:UTP,UDP,UMP ,UDP – glucose
Functions of Nucleotides: • Building blocks of nucleic acids – DNA , RNA. • Involved in energy reactions of the cell eg: ATP • Form part of many coenzymes of B-complex • vitamins like FAD,NAD,NADP
UDP-Glucose is involved in glycogen synthesis. • UDP- glucuronic acid is involved in conjugation reactions eg: bilirubin. • CTP is required for synthesis of phosphoglycerides and sphingomyelin • Regulatory nucleotides/second messengers eg: Cyclic AMP , cyclic GMP.
ATP – Adenosine triphosphate. – Major biologic transducer of free energy. – Intra cellular conc is 1 mmol/L. – Most abundant free nucleotide in mammalian cells.
cAMP • Cyclic adenosine 3’,5’- monophosphate. • Formed from ATP, catalyzed by adenylyl cyclase. • Second messenger. • IC conc is 1 nmol/L. • Its level is maintained by interaction of adenylyl cyclase & cAMP phosphodiesterase.
Adenosine 3’-phosphate -5’-phospho sulfate (PAPS) • Active sulfate • Sulfate donor for formation of sulfated proteoglycans, urinary metabolism of drug excreted as sulfate conjugates.
Synthetic analogs of purine/ pyrimidine nucleotides • Mechanism Of action : • Inhibition of specific enzymes essential for • nucleic acid synthesis. • Incorporation of metabolites of the drug into nucleic acids that affect base pairing , essential for accurate transfer of information.
USES: Chemotherapeutic agents for cancer ,AIDS and suppressors of immune rejection in organ transplantation. Eg: 1. Allopurinol used in gout – inhibits xanthine oxidase 2.Cytarabine used in cancer and viral infections. 3 . Azathiopurine used in organ transplantation 4. 5- iodo – deoxy uridine used in herpetic keratitis
