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Transcript
Lecture 6 Translation Dr. M. A. Fouad Definition : Translation is the transmission of genetic information from mRNA to protein. Translation occur in cytoplasm gene • Newly synthesized mRNA is transported from the nucleus to the cytoplasm. • The translation process is performed by ribosomes in the cytoplasm. DNA (nucleus) Transcription messenger RNA (cytoplasm) Translation Protein Structure of Ribosomes • Ribosomes are composed of two subunits (small and large). • Ribosomes are made up of four different types of ribosomal RNA (rRNA) molecules and many proteins. Polyribosomes Multiple ribosomes associated with the same molecule of mRNA are referred to as polyribosomes or polysomes. Amino Acids and Peptide Bonds • Amino acids are the building blocks of proteins. • There are 20 different amino acids coded in DNA Amino Acids Peptide Bonds • All amino-acids have • an amino group (-NH2) group on one end • an acid group (-COOH) on the other end. Peptide Bonds When polypeptides are synthesized, the acid group of one amino acid is linked to the amino group of the next amino acid, forming a peptide bond. Peptide bond Translation In the ribosomes, the mRNA forms the template that determines the sequence of amino acids in the generated polypeptide chain. Translation Process • The ribosome moves along the mRNA (5` 3`). • tRNA bring the correct amino acids to the ribosome based on codon-anticodon base pairing. • Peptidyl Transferase links up amino acids by the formation of peptide bonds. The Genetic Code The genetic code • DNA is composed of four different nucleotides. • There are Twenty different amino acids found in proteins. • The genetic code is a set of rules defining how the code of DNA nucleotides is translated into the code of amino acids. • Genetic code is universal between all organisms with few exceptions. 4 Obviously a single base cannot specify one amino acid. 1 3 2 16 If two bases were to specify one amino acid, possible combinations would be: 42 = 4x4 = 16. 1 2 . . Genetic code is triplet code • If three bases specified one amino acid the possible number of combinations of the four base types would be: 43 = 4x4x4 = 64. • This is more than enough to account for all the 20 known amino acids. The genetic code • Genetic code is triplet code (i.e. contain three nucleotides). • A three nucleotides sequence that codes for a particular amino acid is called codon. Codon / anticodon • In mRNA as in DNA, genetic information is encoded in the sequence of nucleotides arranged into codons. • Each tRNA molecule for a particular amino acid has a specific trinucleotide sequence called the anticodon, which is complementary to the codon of the mRNA. Genetic code • Each codon codes for a single amino acid the code is “nonoverlapping”. • The same amino acid can be coded for by more than one codon the genetic code is “degenerate”. Stop codon • There are 3 stop codons, also called “nonsense” codons. • Proteins synthesis ends when ribosomes reach a stop codon, which codes for no amino acid. The Genetic Code II • There are 64 (4X4X4) possible triplet codes, but only 20 amino acids. • 61 codons code for amino-acids • 3 codons (UAA, UAG, UGA) act as stop codons. • More than one codons may code for the same amino acid. Quizzes 1. RNA required for the protein synthesis A. B. C. D. rRNA tRNA mRNA All of these 2. Anticodon is found on A. B. C. D. rRNA tRNA mRNA All of these 3. Codon is found on A. B. C. D. rRNA tRNA mRNA All of these 4. The translation Process is performed by: A. B. C. D. Ribosomes Mitochondria Nucleus Lysosomes 5. Codons consist of: A. B. C. D. 3 2 4 5 nucleotides nucleotides nucleotides nucleotides 6. What term is used to describe the process by which proteins are synthesized from mRNA template? A. B. C. D. reproduction replication translation transcription 7. What amino acid sequence will be generated based on the following mRNA codon sequence? 5' AUG.UCU.UCG.UUA.UCC.UUG 3' A. met-arg-glu-arg-glu-arg B. met-glu-arg-arg-gln-leu C. met-ser-leu-ser-leu-ser D. met-ser-ser-leu-ser-leu 8. What amino acid sequence will be generated based on the following mRNA codon sequence? 5' AAA.UGA.UGU. 3' A. Lys. B. Ser-Tyr-Cys. C. Lys-Tyr-Cys. D. Ser-Lys-Gly. 9. Fill in the spaces: 1: 2: 3: 4: 5: 6: …………………… ………………….. ………………….. ………………….. ………………….. …………………..
