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Central dogma of genetics. Lecture 4. The Central dogma of Genetics: conversion of DNA to Proteins. When a gene is “Expressed” [activated] it undergoes two main process / steps :
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Central dogma of genetics Lecture 4
The Central dogma of Genetics: conversion of DNA to Proteins • When a gene is “Expressed” [activated] it undergoes two main process /steps: • The primary/template strand of dsDNAis converted into an RNA strand, or what is called mRNA (messanger RNA), in a process called transcription • The mRNA strand is then converted into an amino acid chain in a process called translation. • The basic process is illustrated in Fig 1 Fig1: adaped from klug p. 241
Step 1: Transcription • The RNA polymerase {shown in yellow), that performs the conversion,unwinds the double helix, moves in the 5’ to 3’ direction of the coding/primary strand, • It uses the antisense strand to produce a complementary mRNA strand. Remember the complements are: A <-> T and G<->C • This mRNA is a complement of the complement of the primary strand; in other words: • if ATA is the primary sequence; its DNA compliment is TAT, • However in mRNA a T (thymine) is replaced by U (uracil) • Therefore the TAT on the complimentary strand becomes AUA on the mRNA strand • The net effect is the mRNA is an exact copy of the primary DNA strand but T being replaced by U Adapted from
DNA version of genetic code table • In order for a DNA sequence to be converted to amino acid sequence and subsequently a protein a code is used. • The code uses sets of 3, triplets, of nucleotides. Often called a codon. • The different codons use the following table to be translated into their equivalent amino acid. • The following slide show the code for the DNA and RNA conversion tables.
RNA conversion table DNA conversion table The genetic code Adapted from Ref [1] p. 247 What is the amino acid of the DNA sequence transcribed above: TAT
Translation mRNA -> AA • The translation occurs in a component of the cell called the ribosome. • Translation consists of three phases: • Initiation, elongation and termination • Stage 1 Initiation: • The ribosome attaches to the mRNA strand and moves to the initiation codon, AUG (ATG on the DNA strand) • Then, another version of RNA called, transfer tRNA attaches to the AUG of mRNA • The tRNA has two essential elements: an anti-codon, e.g. UAC, and an attached amino acid, e.g. methonine. Initiation of translation Anti-codon tRNA Amino acid: methonine Adapted from chapter 12 Klug
Translation mRNA -> AA • Elongation: • The large subunit of the ribosome attaches to the strand • The ribosome has three chambers; going from left to right: • The E site where tRNAsto be discarded. • The P site: holds the tRNA for that is attached to the “current” codon. • The A site: holds the tRNA for the next codon in the mRNA strand: e.g. UUC Adapted from chapter 12 Klug
Translation mRNA -> AA • Elongation continued: • The amino acid(s) on the P site join to the amino acid on the A site. • The ribosome then moves down the mRNA to the next codon ;e.g. GGU. • In the process • The tRNA in the E site is discarded • the tRNAin the P site moves to the E site • The tRNA and its amino acid chain in the A site moves to the P site. Elongation “stage 2” Adapted from chapter 12 Klug
Translation mRNA -> AA • Elongation continued: • A new tRNA molecule with the correct “anti-codon” moves into the empty A chamber. • A peptide bond is formed between the amino acids in the P and A chamber and step 2 of elongation beings again. Elongation “stage 3” Adapted from chapter 12 Klug
Translation mRNA -> AA • Termination : • The ribosome continues to move down the mRNA strand until it reaches a termination codon; e.g. UGA. • There is no tRNA corresponding to this codon so the “following” chamber remains empty. • No peptide bond is formed so when the ribosome moves again it causes the amino acid chain to break of its tRNA and so release the amino acid chain. Adapted from chapter 12 Klug
Animation of the translation process • Translation Animation • Translation Animation 2 • Translation animation 3
Exam Question • Describe, using suitable examples, the steps involved in the “Central Dogma “ of genetics: converting a DNA strand into its corresponding amino acid chain.
References • [2] http://www.di.uq.edu.au/sparqtransctrans accessed on the 30/09/2011 • [5] http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1370565/