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CHAPTER 6 HOW CELLS READ THE GENOME: FROM DNA TO PROTEIN. Transcription - FROM DNA TO RNA Translation - FROM RNA TO PROTEIN Folding and Assembly – From Unstructured to structured RNA as a multifunctional precursor. Transcription Rules. Portions of DNA Sequence Are Transcribed into RNA
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CHAPTER 6 HOW CELLS READ THE GENOME: FROM DNA TO PROTEIN • Transcription - FROM DNA TO RNA • Translation - FROM RNA TO PROTEIN • Folding and Assembly – From Unstructured to structured • RNA as a multifunctional precursor
Transcription Rules • Portions of DNA Sequence Are Transcribed into RNA • Transcription Produces RNA Complementary to One Strand of DNA • Cells Produce Several Types of RNA • Signals Encoded in DNA Tell RNA Polymerase Where to Start and Stop • Transcription Start and Stop Signals Are Heterogeneous in Nucleotide Sequence
Only Certain Portions of DNA Sequence Are Transcribed into RNA
Transcription Produces RNA Complementary to One Strand of DNA
Macromolecule levels are determined by synthesis and degradation rates RNA + Frequency of mRNA initiation + Rate of elongation + Rate of mRNA processing Rate of mRNA degradation Protein + Translation initiation, synthesis, folding, assembly Degradation
Bacterial transcription cycle 1 Closed complex 2 Open complex 3 Initiation 4 Sigma release 5 Promoter clearance 6 Elongation 7 RNA Hairpin Terminator 8 Dissociation
E. coli s70 Promoter Consensus Sequence Very few promoters are “perfect” Consensus promoters have high initiation frequency Non-consensus promoters can be activated by accessory proteins
Rules of Transcription Polymerization is always 5’ to 3’ Template strand is read 3’ to 5’ Non template strand (AKA “coding”, “sense”) has same sequence as RNA transcript (except T/U changes)
Transcription Initiation • Transcription Initiation in Eucaryotes Requires Many Proteins • RNA Polymerase II Requires General Transcription Factors • Polymerase II Also Requires Activator, Mediator, and Chromatin-modifying Proteins
RNA Polymerase II and General Transcription Factors- In vitro assembly order
GTF consensus binding sequencesTBP - TATA complexDNA distortion through minor groove interactions
Eukaryotic transcription initiation requires multiple levels of protein-protein interactions
Prokaryotic Polycistronic Message, Eucaryotic Monocistronic Processed Message
Splicing – elimination of noncoding (alternate) sequences • RNA Splicing Removes Intron Sequences from Newly Transcribed Pre-mRNAs • Nucleotide Sequences Signal Where Splicing Occurs • RNA Splicing Is Performed by the Spliceosome • The Spliceosome Uses ATP Hydrolysis to Produce a Complex Series of RNA–RNA Rearrangements • Ordering Influences in the Pre-mRNA Help to Explain How the Proper Splice Sites Are Chosen • RNA Splicing Shows Remarkable Plasticity • Spliceosome-catalyzed RNA Splicing Probably Evolved from Self-splicing Mechanisms
Alternative splicing generates different proteins in different tissues
Transport • Mature Eucaryotic mRNAs Are Selectively Exported from the Nucleus • Many Noncoding RNAs Are Also Synthesized and Processed in the Nucleus • The Nucleolus Is a Ribosome-Producing Factory • The Nucleus Contains a Variety of Subnuclear Structures
Overview of Nuclear processes Proteins are synthesized in the cytoplasm* RNA in the nucleus Ribosome assembly begins in the nucleolus
FROM RNA TO PROTEIN • tRNAs translate the genetic code • Mechanism of translation • Initation and termination • Protein folding and assembly • Protein degradation
tRNAs translate the genetic code • An mRNA Sequence Is Decoded in Sets of Three Nucleotides • tRNA Molecules Match Amino Acids to Codons in mRNA • tRNAs Are Covalently Modified Before They Exit from the Nucleus • Specific Enzymes Couple Each Amino Acid to Its Appropriate tRNA Molecule • Editing by RNA Synthetases Ensures Accuracy
Fidelity of aminoacylation is enhanced by tRNA Synthetase editing
Mechanism of translation • Amino Acids Are Added to the C-terminal End of a Growing Polypeptide Chain • The RNA Message Is Decoded on Ribosomes • Elongation Factors Drive Translation Forward • The Ribosome Is a Ribozyme
GTP hydrolysis by elongation factors drives translation and improves accuracy
Initation and termination • Nucleotide Sequences in mRNA Signal Where to Start Protein Synthesis • Stop Codons Mark the End of Translation • Proteins Are Made on Polyribosomes • Quality-Control Mechanisms Operate at Many Stages of Translation • There Are Minor Variations in the Standard Genetic Code • Many Inhibitors of Procaryotic Protein Synthesis Are Useful as Antibiotics