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Molecular Basis for Relationship between Genotype and Phenotype genotype DNA DNA sequence transcription RNA translation protein function phenotype organism amino acid sequence Aminoacyl-tRNA Synthetase Attaches Amino Acid to tRNA Aminoacyl-tRNA synthetase catalyzes the formation of “charged” tRNA. There is an aminoacyltRNA synthetase for each amino acid. The carboxyl end of an amino acid is attached to the 3’ end of the tRNA. Wobble Position Some tRNA molecules can recognize and pair with more than one specific codon. Base-pairing between the 3’ base of a codon and 5’ base of an anticodon is not always exact. Molecular Basis for Relationship between Genotype and Phenotype genotype DNA DNA sequence transcription RNA translation protein function phenotype organism amino acid sequence Protein Synthesis: Brief Summary 3 Stages • Initiation • Elongation • Termination Catalytic Proteins • Initiation Factors • Elongation Factors • Termination Factors Hydrolysis of GTP provides energy to drive some reactions. mRNA, rRNA, and tRNA are involved. Protein Synthesis: Initiation in Prokaryotes Shine-Dalgarno sequence pairs with 16S rRNA of 30S subunit. IF3 keeps 30S subunit dissociated from 50S subunit. Formyl group is added to methionine when associated with the initiator tRNA. IF1 and IF2 allows only initiator tRNA to enter P site. Initiation factors are released when two ribosomal subunits associate. Protein Synthesis: Initiation in Eukaryotes eIF4A, eIF4B, and eIF4G associates with 5’ end, then with 40S subunit and initiator tRNA. mRNA is unwound by movement of this complex in 5’ -> 3’ direction. 60S subunit associates with initiation complex when start codon is recognized. Initiation factors are released when the two ribosomal subunits associate. Important Features of Ribosome A - aminoacyl site P - peptidyl site E - exit site Protein Synthesis: Elongation EF-Tu associates with aminoacyl-tRNA to form a ternary complex. Correct match of ternary complex with codon in A site (decoding center) changes conformation of ribosome. EF-Tu leaves ternary complex, and peptide bond is formed between amino acids as amino acids are positioned together in peptidyltransferase center. Amino acid in P site is transferred to amino acid in A site. Translocation requires GTP and EF-G. EF-G enters A site, shifting tRNAs. When EF-G leaves, A site is open for a new ternary complex. A new ternary complex associates with A site, and deacylated tRNA leaves from E site. Protein Synthesis: Termination tRNA molecules do not recognize stop codons. Termination codons are recognized by release factors. (RF1, RF2, RF3 in bacteria) UAA and UAG are recognized by RF1. UAA and UGA are recognized by RF2. RF3 assists in release activity. Release factors bind to a stop codon in the A site by association between codon and tripeptide of RF. Polypeptide is released from P site when RF fits into A site. Release of polypeptide is followed by dissociation of ribosomal subunits. Molecular Basis for Relationship between Genotype and Phenotype genotype DNA DNA sequence transcription RNA translation protein function phenotype organism amino acid sequence Molecular Basis for Relationship between Genotype and Phenotype genotype DNA DNA sequence transcription RNA translation protein function phenotype organism amino acid sequence All Protein Interactions in an Organism Compose the Interactome Proteome: Complete set of proteins produced by genetic material of an organism. Interactome: Complete set of protein interactions in an organism.