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Gene Expression I: Transcription and RNA Processing 6 November, 2002 Text Chapter 17

Gene Expression I: Transcription and RNA Processing 6 November, 2002 Text Chapter 17. Recessive alleles are altered recipes that produce non-functional proteins. Usually, dominant alleles are recipes for functional proteins.

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Gene Expression I: Transcription and RNA Processing 6 November, 2002 Text Chapter 17

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  1. Gene Expression I:Transcription and RNA Processing6 November, 2002Text Chapter 17

  2. Recessive alleles are altered recipes that produce non-functional proteins • Usually, dominant alleles are recipes for functional proteins. • Recessive alleles are altered recipes that produce non-functional proteins. Think about flower color in pea plants. Substrate (colorless) Product (purple) The P allele is a recipe for a functional enzyme. The p allele is a recipe for a non-functional enzyme. Purple is dominant because one copy of a functional recipe is enough. Enzyme P In the analogous situation in snapdragons, one copy is not enough, And an intermediate phenotype is seen. At the molecular level, both functional and non-functional proteins are present. This is more like codominance.

  3. Neurospora crassa is a fungus that can grow on minimal medium. This means that it can synthesize all of the amino acids, including arginine, from simple precursors. The biochemical pathway specific to arginine synthesis consists of three enzymes. Arginine auxotrophs are deficient in one of these enzymes.

  4. Genes are the instructions for making proteins. In prokaryotes, this is a two-step process. Eukaryotes add an RNA processing step.

  5. mRNA molecules are complementary to the template strand of the DNA. Codons are 3-letter genetic words that specify amino acids. Proteins are linear polymers of amino acids.

  6. Codons are read as non-overlapping three-letter words. The code is not delimited (there is no punctuation). This means that in any RNA, there are three possible reading frames. auaugauucuucgauaaca a uau gau ucu ucg aua aca au aug auu cuu cga uaa ca aua uga uuc uuc gau aac a auAUGauucuucgauaaca Met-Ile-Leu-Arg-*

  7. The Genetic Code The genetic code is redundant - most amino acids are coded by more than one of the 64 possible codons. The genetic code is not ambiguous - no codon codes for more than one amino acid. The genetic code is universal - all organisms use the same code, indicating that the code evolved once, early in the history of life. An important implication of the universal code is that genes code for the same protein sequence in any organism.

  8. Transcription

  9. Transcription Factors Transcription begins when protein transcription factors bind at the promoter. These proteins allow RNA polymerase to bind and unwind the DNA at the transcription start site.

  10. Eukaryotes modify the pre-mRNA after transcription. These modifications include a modified nucleotide cap at the 5’ end, and a poly-A tail added to the 3’ end of the completed transcript.

  11. Most eukaryotic genes are spliced - introns are removed, and exons (coding regions) are joined

  12. Introns are removed when spliceosome RNA pairs with signal sequences at the ends of the intron. The spliceosome then joins the exons that flank the removed intron. Many mRNAs can potentially code for a number of different proteins, depending on which exons end up in the final mRNA,

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