Suppose that the diagram below represents the genomic organization of an enzyme involved in eye pigment production in mice. Within the gene are four exons. Biochemical analysis has revealed that the active site of the enzyme is located in the C terminus of the protein. -The nucleotide length of each exon and intron is shown. -The dinucleotide sequence GT represents the 5’ splice site and the dinucleotide sequence AG represents the 3’ splice site. Both the 5’ and the 3’ splice sites must be present for splicing to occur. Assume that the first and second stop codons are located immediately after the first and second 5’ splice sites, respectively; the third and fourth stop codons are located near the 3’ end of exons 3 and 4, respectively; all these stop codons are in the correct reading frame. a) draw what the processed mRNA will look like. Include the start codon on the mRNA and label the approximate locations of the 5’ UTR and 3’ UTR on the transcript. (You do not need to add the 5’ CAP or poly A- tail). Indicate the nucleotide length of the transcript. b) How many amino acids will be present in the wild-type protein produced from this transcript? c) Are the 5’ untranslated regions (5’UTR) of eukaryotic mRNAs encoded by sequences in the promoter, exon, or intron of the gene?  Explain your answer. (use your diagram!)

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Suppose that the diagram below represents the genomic organization of an enzyme involved in eye pigment production in mice. Within the gene are four exons. Biochemical analysis has revealed that the active site of the enzyme is located in the C terminus of the protein.

-The nucleotide length of each exon and intron is shown.

-The dinucleotide sequence GT represents the 5’ splice site and the dinucleotide sequence AG represents the 3’ splice site. Both the 5’ and the 3’ splice sites must be present for splicing to occur.

Assume that the first and second stop codons are located immediately after the first and second 5’ splice sites, respectively; the third and fourth stop codons are located near the 3’ end of exons 3 and 4, respectively; all these stop codons are in the correct reading frame.

a) draw what the processed mRNA will look like. Include the start codon on the mRNA and label the approximate locations of the 5’ UTR and 3’ UTR on the transcript. (You do not need to add the 5’ CAP or poly A- tail).

  • Indicate the nucleotide length of the transcript.

b) How many amino acids will be present in the wild-type protein produced from this transcript?

c) Are the 5’ untranslated regions (5’UTR) of eukaryotic mRNAs encoded by sequences in the promoter, exon, or intron of the gene?  Explain your answer. (use your diagram!)

The image depicts a schematic representation of a gene structure, highlighting the transcription process. The layout shows four exons and introns, marked with their approximate nucleotide lengths. Here's a detailed explanation:

- The representation starts with a labeled arrow indicating the "Start of transcription" at the 5' end.
- Exon 1 begins with the codon "ATG" and has a length of 400 nucleotides.
- Following exon 1, there is a splice site marked by "GT" at the start and "AG" at the end, with an intron length of 1,000 nucleotides.
- Exon 2 is next, with a length of 300 nucleotides, followed by a splice site with "GT" and an "AG," bounded by an intron of 3,000 nucleotides.
- Exon 3 follows, spanning 250 nucleotides, and is followed by another splice site with "GT" and "AG," along an intron length of 2,000 nucleotides.
- Lastly, exon 4 spans 500 nucleotides, ending at a stop signal at the 3' end.

Each exon box is labeled with a number and a "stop" indicator is shown above each splice reiterating the junction points between each exon.
Transcribed Image Text:The image depicts a schematic representation of a gene structure, highlighting the transcription process. The layout shows four exons and introns, marked with their approximate nucleotide lengths. Here's a detailed explanation: - The representation starts with a labeled arrow indicating the "Start of transcription" at the 5' end. - Exon 1 begins with the codon "ATG" and has a length of 400 nucleotides. - Following exon 1, there is a splice site marked by "GT" at the start and "AG" at the end, with an intron length of 1,000 nucleotides. - Exon 2 is next, with a length of 300 nucleotides, followed by a splice site with "GT" and an "AG," bounded by an intron of 3,000 nucleotides. - Exon 3 follows, spanning 250 nucleotides, and is followed by another splice site with "GT" and "AG," along an intron length of 2,000 nucleotides. - Lastly, exon 4 spans 500 nucleotides, ending at a stop signal at the 3' end. Each exon box is labeled with a number and a "stop" indicator is shown above each splice reiterating the junction points between each exon.
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