Campbell Biology Custom Stony Brook 10 Th Edition
Campbell Biology Custom Stony Brook 10 Th Edition
10th Edition
ISBN: 9781269870818
Author: Reece Urry Cain Wasserman Minorsky Jackson
Publisher: PEARSON
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Chapter 21.4, Problem 4CC

MAKE CONNECTIONS Ø Assign each DNA segment at the top of Figure 18.8 to a sector in the pie chart in Figure 21.6.

Ú     Figure 18.8 A eukaryotic gene and its transcript. Each eukaryotic gene has (distal to) the promoter. Distal control elements can be grouped together as enhancers, one of nucleotides beyond the poly-A signal before terminating. RNA processing of the primary transcript into a functional mRNA involves three steps: addition of the 5' cap, addition of the poly-A tail, and splicing. In the cell, the 5' cap is added soon after transcription is initiated, and splicing occurs while transcription is still under way (see Figure 17. 11 ). a promoter-a DNA sequence where RNA polymerase binds and starts transcription, proceeding "downstream." A number of control elements (gold) are involved in regulating the initiation of transcription; these are DNA sequences located near (proximal to) or far from of which is shown for this gene. At the other end of the gene, a polyadenylation (poly-A) signal sequence in the last exon of the gene is transcribed into an RNA sequence that signals where the transcript is cleaved and the poly-A tail added. Transcription may continue for hundreds of nucleotides beyond the poly-A signal before terminating. RNA processing of the primary transcript into a functional mRNA involves three steps: addition of the 5' cap, addition of the poly-A tail, and splicing. In the cell, the 5' cap is added soon after transcription is initiated, and splicing occurs while transcription is still under way (see Figure 17. 11 ).

Chapter 21.4, Problem 4CC, MAKE CONNECTIONS  Assign each DNA segment at the top of Figure 18.8 to a sector in the pie chart in , example  1

Ú Figure 21.6 Types of DNA sequences in the human genome.

The gene sequences that code for proteins or are transcribed into rRNA or tRNA molecules make up only about 1.5% of the human genome (dark purple in the pie chart). while introns and regulatory sequences associated with genes (light purple) make up about a quarter. The vast majority of the human genome does not code for proteins (although much of it gives rise to RNAs), and a large amount is repetitive DNA (dark and light green and teal).

Chapter 21.4, Problem 4CC, MAKE CONNECTIONS  Assign each DNA segment at the top of Figure 18.8 to a sector in the pie chart in , example  2

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Campbell Biology Custom Stony Brook 10 Th Edition

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