Genetics Lecture Notes (Level 1, Semester 1) PDF
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Mansoura University
Dr. El-Sawy
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These lecture notes cover the fundamental aspects of genetics, focusing on nucleic acids (DNA and RNA). The document explains their structure, types, and functions. It's a helpful resource for understanding basic genetic principles.
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Genetics Nucleic Acid (DNA & RNA) LECTURE (1) DR. El-Sawy 0 Genetics Nucleic Acid (DNA & RNA) De...
Genetics Nucleic Acid (DNA & RNA) LECTURE (1) DR. El-Sawy 0 Genetics Nucleic Acid (DNA & RNA) Definition: Long chains of repeated subunits (Nucleotides). Building block of DNA & RNA Present in body as: Def A. Poly-nucleotide (DNA - RNA ) OR B. Free nucleotides. A. Nitrogenous base : قاعدة نيتروجينيه Adenine. Xanthine. Purines Guanine. Hypoxanthine. Structure Pyrimidine Cytosine. Uracil. Thymine. B. Pentose sugar : سكر خماسي D-ribose. in RNA 2-deoxy-D- in DNA ribose. C. Phosphate (phosphoric acid). فوسفات NOTE Nucleoside Nitrogenous base + Pentose sugar. Minor nitrogenous base xanthine, hypoxanthine, uric acid & caffeine. DR. El-Sawy 1 Genetics Nucleic Acid (DNA & RNA) → قاعدة وسكرN glycosidic bond → فوسفات وسكرPhosphoester bond → قاعدة وقاعدةHydrogen bonds Types : Base Nucleoside Nucleotide Adenosine AMP , ADP,ATP , Adenine Deoxy adenosine d. AMP, d. ADP , d. ATP Guanosine GMP , GDP, GTP , Guanine Deoxy guanosine d. GMP, d. GDP , d. GTP Xanthine Xanthosine XMP Hypoxanthine Inosine IMP Cytidine CMP , CDP, CTP , Cytosine Deoxy cytidine d. CMP, d. CDP , d. CTP Uracil Uridine RNA بس UMP, UDP, UTP Thymine Deoxy thymidine DNA بس d. TMP, d. TDP , d. TTP DR. El-Sawy 2 Genetics Nucleic Acid (DNA & RNA) Functions : بناء و طاقة & مساعد ومنشط ومتبرع &استخدام ودوائي Building blocks of RNA and DNA Source of energy ATP, GTP act as source of energy. Co-enzymes NAD, FAD, Co-enzyme A. Mediate hormonal c.AMP & c.GMP are 2nd messenger. action Activation of chemical UDP- glucose → synthesis of glycogen. compounds PAPS is a sulfate donor → synthesis of sulfolipids Chemical group donors SAM is a methyl donor → transmethylation reactions. Nucleotides analogues prepared by altering the base ring or sugar part. Synthetic Analogue 5-flurouracil (pyrimidine analogue): ↓ thymine Anti- cancer → ↓ DNA synthesis →↓ growth of cancer cells. Anti- Allopurinol (hypoxanthine analogue). gout DR. El-Sawy 3 Genetics Nucleic Acid (DNA & RNA) Def : Long chain of repeating subunits, called nucleotides Responsible for storage of genetic information. Primary structure : DNA is 2 strands of polynucleotides ( d.AMP , d.GMP , d.TMP , d.CMP). Structure The nucleotides are linked by 3`,5` phosphodiester bond between : 3`hydroxyl group of one nucleotide 5`phosphate group of next nucleotide. 1. Alternating sugar-phosphate units asymmetrical backbone of each strand. 2. Nitrogenous bases projecting to the inside of 2 stands at right angle 3. Sequence of bases determines the coding structure of DNA (genetic Characters information) 4. DNA sequences written in 5` to 3` by latter abbreviation of bases (ex:- GCA). 5. Polarity: each strand has 2 ends : One end (5`end) has free phosphate group. Other end (3`end) has free hydroxyl group. DR. El-Sawy 4 Genetics Nucleic Acid (DNA & RNA) secondary structure (B-form of DNA) : Waston and crick proposed structure of DNA in form of double helix (B- form) which is the common physiological form. 1. Right handed helix (its diameter =2 nm). 2. The 2 strands are anti-parallel: they run in opposite direction (one runs in the 5` to 3` direction while the other strand runs in the 3` to 5` Characters direction ) 3. Complementary base pairing: through hydrogen bonds Adenine pairs with Thymine through 2 hydrogen bond (A=T) Guanine pairs with Cytosine through 3 hydrogen bonds (GΞC) Melting temperature (Tm) Def : Temperature at which 50 % of helical structure is lost. Factors affecting : Tm decrease if DNA contains higher proportion of AT base Types of bases pairs. p.H of medium Tm Decreases if the medium is more alkaline. Tm decreases if salt concentration is decrease. Salt concentration salts is stabilizing agent. DR. El-Sawy 5 Genetics Nucleic Acid (DNA & RNA) All RNA molecules are formed in the nucleus form DNA by RNA Formation polymerase (transcription), then most of RNA is transported to cytoplasm Single strand. Structure Contain 4 types of nucleotides (AMP, GMP, CMP, UMP) which are inter connected by phosphodiester bonds. Ribosomal RNA Transfer RNA Messenger RNA Small nuclear RNA Types (r.RNA) (t.RNA) (mRNA) (snRNA) 80% 15% 5% Less than 1% NOTE Small nuclear RNA : has 30 different species. DR. El-Sawy 6 Genetics Nucleic Acid (DNA & RNA) 80 % of total RNA It is Brocken into few pieces associated with several proteins to form ribosome. Mammalian ribosome Consist of 2 subunits: 1. Large subunit ( 60 S): Composed of 50 polypeptide chains & 3 types of rRNA (5S , 5.8S, 28S) 2. Small subunit ( 40 S): Composed of 30 polypeptide chains and 18S r.RNA The 2 together from 80 S ribosome DR. El-Sawy 7 Genetics Nucleic Acid (DNA & RNA) 15 % of total RNA. Clover-leaf appearance. Stabilized by hydrogen bonds between complementary bases (A=U) , (GΞC). It has four arms: D arm it ends in loop that contains dihydrouracil It ends in loop contains sequence thymine , pseudouridine TΨC arm and cytosine Anti-codon It ends in loop that contains 7 bases , three of 7 bases in arm middle of loop constitute the anti-codon. It doesn’t end in loop. Acceptor arm It ends in sequence CCA (5’ →3’), the 3’ end is site of attachment for amino acid that is carried by t.RNA. DR. El-Sawy 8 Genetics Nucleic Acid (DNA & RNA) 5% of total RNA. Carries message from DNA to ribosome where it directs protein synthesis. Each protein has specific m.RNA Divided to three regions : 5’ untranslated Not translated. leading sequence Ends by cap. Carries code for synthesis of specific protein. Translated coding Each 3bases (codon) will be translated for specific sequence amino acid. 3’ untranslated Not translated. tailing sequence: Ends in poly (A) tail. DR. El-Sawy 9 Genetics Nucleic Acid (DNA & RNA) Compare between DNA & RNA : DNA RNA Occurrence Nucleus, Mitochondria Cytoplasm Storage & transfer of genetic Protein synthesis Functions information Bases A,G,C,T A,G,C,U Sugar Deoxy-ribose Ribose Strands 2 strands forms double helix One strand only One type 4 Types Types mRNA, tRNA, rRNA, snRNA Shape Double helix Variable Compare between different types of RNA : m.RNA t.RNA r.RNA More than 105 50-60 different Types 28S ,18S, 5S, 5.8S different species species Abundance 5% 15 % 80 % Unstable to very Stability Very stable Very stable stable Carries message Carries amino Constitutes from DNA to Functions acids for protein ribosome , site of ribosome to direct synthesis protein synthesis protein synthesis RNA polymerase I Type of polymerase (18S,5.8S.28S) RNA polymerase II RNA polymerase III responsible for RNA polymerase III synthesis (5S) DR. El-Sawy 10 Genetics Nucleic Acid (DNA & RNA) Fatima is a 44 year old lady, presented with severe pain in her right big toe, with inflammation of the joints. She was diagnosed as acute gouty arthritis. She had been taking allopurinol. Q : Explain chemical nature of allopurinol ? Hypoxanthine analogue. Q : Explain mechanism of action of allopurinol ? Inhibit xanthine oxidase →↓ production of uric acid. DR. El-Sawy 11