REGULATION OF TRANSLATION Protein or RNA binding near the ribosome-binding site negatively regulates bacterial translation initiation.

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REGULATION OF TRANSLATION Protein or RNA binding near the ribosome-binding site negatively regulates bacterial translation initiation

Regulation of prokaryotic translation: Ribosomal proteins are translational repressors of their own synthesis E. Coli ribosomal protein operons

Regulation of ribosomal protein expression

Ribosomal protein S8 binds to 16sRNA and its own mRNA

Global regulators of eukaryotic translation target key factors required for mRNA recognition and initiator tRNA ribosome binding

Spatial control of translation by mRNA-specific 4E-Bps

An iron-regulated, RNA-binding protein controls translation of ferritin

Translation of the yeast transcriptional activator Gcn4 is controlled by short upstream ORFs and ternary complex abundance Control of Gcn4 in response to AA starvation

TRANSLATION-DEPENDENT REGULATION OF mRNA and PROTEIN STABILITY The SsrA RNA ( a tmRNA) rescues ribosomes that translate broken mRNAs

Eukaryotic cells degrade mRNAs that are incomplete or have premature stop codons

The Genetic Code THE CODE IS DEGENERATE

Codon-anticodon pairing of two tRNA-leu molecules

Wobble in the anticodon

3-D structure of yeast tRNAphe 5’ end of anticodon is free to wobble

How the code was cracked? Stimulation of Amino Acid incorporation by synthetic mRNA Polynucleotide phosphorylase reaction

Poly-U codes for polyphenylalanine (Poly-A lysine; Poly-C proline) Mixed copolymers allowed additional codon assignment

Aminoacyl-tRNA binding to defined trinucleotide codons

Codon assignments from repeating copolymers

Robert W. HolleyHar Gobind Khorana Marshall W. Nirenberg 1/3 of the prize USA Cornell University Ithaca, NY, USA University of Wisconsin Madison, WI, USA National Institutes of Health Bethesda, MD, USA b d b (in Raipur, India) b d The Nobel Prize in Physiology or Medicine 1968 "for their interpretation of the genetic code and its function in protein synthesis"

THREE RULES GORVEN THE GENETIC CODE 1.The codons are read in a 5’ to 3’ direction 2.Codons are non-overlapping and the message contains no gap 3.The message is translated in a fixed reading frame, which is set by the initiation codon

Three kinds of point mutations alter the genetic code 1.Missense mutation: An alteration that changes a codon specific for one AA to a codon specific for another AA. 2.Nonsense or stop mutation: an alteration causing a change to a stop codon. 3.Frameshift mutation: insertions or deletions of one or small number of base pairs that alter the reading frame.

A frameshift mutation

THE CODE IS NEARLY UNIVERSAL