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• A Molecular Biology primer….. • Genetic information is carried on nucleic acids - DNA &RNA • Genetic information is carried on nucleic acids - DNA &RNA The five bases are: adenine, guanine = purines • A Molecular Biology primer….. • Genetic information is carried on nucleic acids - DNA &RNA The five bases are: adenine, guanine = purines and... thymine, cytosine, uracil = pyrimidines A = T (or A = U) C G • Bases: adenine, guanine, cytosine, uracil, thymine • Nucleosides: = base + sugar – on RNA sugar is ribose – adenosine, guanosine, cytidine, uridine, thymidine • on DNA sugar is deoxyribose • deoxyadenosine, deoxyguanosine etc... • Nucleotides: base + sugar + phosphate • RNA: • adenylate, guanylate, cytidylate, uridylate • Nucleosides: base + sugar + phosphate • RNA: • adenylate, guanylate, cytidylate, uridylate • DNA: • deoxyadenylate, deoxyguanylate etc... • By convention, nucleic acid sequence refers to bases not nucleotides. • By convention, nuceic acid sequence refers to bases not nucleotides. • Sequence is always written 5’ 3 • Native DNA is normally double stranded • Native DNA is normally double stranded • …the bases project inwards and are attracted by H-bonding. • Native DNA is normally double stranded • …the bases project inwards and are attracted by H-bonding. • RNA is normally single stranded. • At a particular temperature (Tm) H-bonds are broken and structure comes apart. • At a particular temperature (Tm) H-bonds are broken and structure comes apart. … = “melting” (or denaturation) • Cooling will lead to renaturation of structure. • Cooling will lead to renaturation of structure … = annealing. • Cooling will lead to renaturation of structure … = annealing. = basis in vitro of: hybridisation; PCR Information flow is in one direction only: transcription DNA translation RNA Protein Information flow is in one direction only: transcription DNA translation RNA retroviruses Protein Information flow is in one direction only: transcription DNA translation RNA retroviruses Enzyme activity Protein Modifications: Cleavage: + Modifications: Cleavage: Ligation: + + Modifications: Cleavage: + (exo / endonucleases) Ligation: + (ligases) Splicing: + • DNA – two major functions:• Replication and transcription • DNA – two major functions:• Replication and transcription • …in each case a template strand is needed. • In replication, the duplex splits locally and each strand acts as a template for synthesis of a new strand. • In transcription, the anti-sense strand acts as a template. • In transcription, the anti-sense strand acts as a template. • Therefore the RNA sequence is identical to the coding strand • RNA produced is the primary transcript. 1. 5’ capping with 7-methyl guanosine • RNA produced is the primary transcript. 1. 5’ capping with 7-methyl guanosine 2. 3’ cleavage to “poly A site” • RNA produced is the primary transcript. 1. 5’ capping with 7-methyl guanosine 2. 3’ cleavage to “poly A site” 3. polyadenylation (~250 A) • RNA produced is the primary transcript. 1. 2. 3. 4. 5’ capping with 7-methyl guanosine 3’ cleavage to “poly A site” polyadenylation (~250 A) Splicing of exons by excision of introns. • RNA produced is the primary transcript. 1. 2. 3. 4. 5. 5’ capping with 7-methyl guanosine 3’ cleavage to “poly A site” polyadenylation (~250 A) Splicing of exons by excision of introns. … = mRNA • RNA produced is the primary transcript. 1. 2. 3. 4. 5. 5’ capping with 7-methyl= pre-mRNA guanosine 3’ cleavage to “poly A site” Or heterogeneous nuclear RNAs (hnRNA) polyadenylation (~250 A) Splicing of exons by excision of introns. … = mRNA • Note that mRNA and pre-mRNA contain untranslated regions – 3’ UTRs – 5’ UTRs • Note that mRNA and pre-mRNA contain untranslated regions – 3’ UTRs – 5’ UTRs …these are “outside” the exon sequences. • Splicing is a variable process • Dogma: 1 gene 1 polypeptide • Splicing is a variable process • Dogma: 1 gene 1 polypeptide • In fact: many products can be produced from each gene. • Splice variants: removal of selected exons. • Splice variants: removal of selected exons. • Another reason…. • Another reason…. • Post-translational modification: • Post-translational modification: – – – – Proteins Glycoproteins Phosphoproteins lipoproteins • Post-translational modification: – – – – Proteins Glycoproteins Phosphoproteins Lipoproteins – The proteome is much more descriptive than the genome. • Translation • There are 20 amino acids used in protein synthesis, but only 4 different bases. • Translation • There are 20 amino acids used in protein synthesis, but only 4 different bases. …. So how does base sequence code for the amino acid sequence? • Each amino acid is coded for by 3 bases = a codon (a triplet of bases) • Each amino acid is coded for by 3 bases = a codon (a triplet of bases) Translation is co-linear • Each amino acid is coded for by 3 bases = a codon (a triplet of bases) Translation is co-linear … i.e. codon sequence matches the final aa sequence. – CACAACCAAUUU – his asn gln phe – CACAACCAAUUU – his asn gln phe – “Start” and “stop” codons define the reading frame (coding region) – CACAACCAAUUU – his asn gln phe – “Start” and “stop” codons define the reading frame (coding region) …. Which can be shifted - physiologically - by deletion / insertion mutations ORF = open reading frame ORF = open reading frame = a suspected coding region once start / stop codons identified.
