Campbell Biology
12th Edition
ISBN: 9780135188743
Author: Urry
Publisher: PEARSON
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Chapter 17, Problem 11TYU
scientific inquiry Knowing that the genetic code is almost universal, a scientist uses molecular biological methods to insert the human β-globin gene (shown in Figure 17.12) into bacterial cells, hoping the cells will express it and synthesize functional β-globin protein. Instead, the protein produced is nonfunctional and is found to contain many fewer amino acids than does β-globin made by a eukaryotic cell. Explain why.
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SCIENTIFIC INQUIRY Knowing that the genetic code is almostuniversal, a scientist uses molecular biological methods toinsert the human β-globin gene (shown in Figure 17.12) intobacterial cells, hoping the cells will express it and synthesizefunctional β-globin protein. Instead, the protein produced isnonfunctional and is found to contain many fewer amino acidsthan does β-globin made by a eukaryotic cell. Explain why
Consider the following DNA sequence, which codes for a short polypeptide:
5'-ATGGGCTTAGCGTAGGTTAGT-3'
Determine the mRNA transcript of this sequence. You have to write these sequences from the 5' end to the 3' end and indicate those ends as shown in the original sequence in order to get the full mark.
How many amino acids will make up this polypeptide?
Determine the first four anticodons that will be used in order to translate this sequence.
. The genetic code is thought to have evolved to maximize genetic stability
by minimizing the effect on protein function of most substitution muta-
tions (single-base changes). We will use the six arginine codons to test this
idea. Consider all of the substitutions that could affect all of the six arginine
codons.
(a) How many total mutations are possible?
(b) How many of these mutations are "silent," in the sense that the mutant
codon is changed to another Arg codon?
(c) How many of these mutations are conservative, in the sense that an Arg
codon is changed to a functionally similar Lys codon?
Chapter 17 Solutions
Campbell Biology
Ch. 17.1 - Prob. 1CCCh. 17.1 - What polypeptide product would you expect from a...Ch. 17.1 - Prob. 3CCCh. 17.2 - MAKE CONNECTIONS In a research artide about...Ch. 17.2 - What enables RNA polymerase to start transcribing...Ch. 17.2 - WHAT IF? Suppose X-rays caused a sequence change...Ch. 17.3 - There are about 20,000 human protein-coding genes....Ch. 17.3 - How is RNA splicing similar to how you would watch...Ch. 17.3 - Prob. 3CCCh. 17.4 - What two processes ensure that the correct amino...
Ch. 17.4 - Prob. 2CCCh. 17.4 - Prob. 3CCCh. 17.4 - WH AT IF? In eukaryotic cells, mRNAs have been...Ch. 17.5 - What happens when one nucleotide pair is lost from...Ch. 17.5 - MAKE CONNECTIONS Individuals heterozygous for the...Ch. 17.5 - WHAT IF? DRAW IT The template strand of a gene...Ch. 17.5 - Prob. 4CCCh. 17 - Describe the process of gene expression, by which...Ch. 17 - What are the similarities and differences in the...Ch. 17 - What function do the 5' cap and the poly-A tail...Ch. 17 - Prob. 17.4CRCh. 17 - What will be the results of chemically modifying...Ch. 17 - In eukaryotic cells, transcription cannot begin...Ch. 17 - Prob. 2TYUCh. 17 - The anticodon of a particular tRNA molecule is (A)...Ch. 17 - Prob. 4TYUCh. 17 - Which component is not directly involved in...Ch. 17 - Using Figure 17.6, identify a 5' 3' sequence of...Ch. 17 - Prob. 7TYUCh. 17 - Would the coupling of the processes shown in...Ch. 17 - Prob. 9TYUCh. 17 - Prob. 10TYUCh. 17 - scientific inquiry Knowing that the genetic code...Ch. 17 - Prob. 12TYUCh. 17 - Prob. 13TYU
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- 10. A portion of 5'-AUGCCACGAGUUGAC-3'. What amino acid sequence does this code for? To answer the question please: I) explain what is the genetic code and list the properties of the genetic e 2) draw a diagram of protein synthesis; 3) determine which tRNA should be attached to the mRNA; 4) what is the anticodon for the very first tRNA that will attach to mRNA? mRNA molecule has the sequence anarrow_forwardMatch each of the following examples with the hypothesis it argues against. Example The gene coding for keratin A gene coding for a tRNA Three genes, each coding for one of the G protein subunits (a, ß and y) A gene that undergoes alternative splicing Hypothesis One gene → one polypeptide One gene→→ one enzyme One gene → one protein One gene → one proteinarrow_forwardDNA 5' ATGGCTTCTCAATACTGCTTTGTTTTGGTT 3' template strand 3' TACCGAAGAGTTATGACGAAACAAAACCAA 5' coding strand Write down the sequence of nucleotides in a fragment of an m-RNA molecule that will be produced based on the information in the DNA fragment above (start with 5' and end with 3'). If you separate codons in MRNA with blank spaces, it will be easier to do the next step. MRNA: 5' Using a three-letter code for amino acids write the sequence of the first ten amino acids of the protein pectate lyase (refer to the table of 64 codons from a lecture or a textbook).arrow_forward
- Sickle cell anemia is a widespread disease in many African countries and can be caused by a change in the amino acid sequence from glutamic acid to valine. A patient is diagnosed with the disease and a genetic fingerprint reveals the following DNA sequence for the gene: (a) (b) (c) (d) (e) Write down the mRNA sequence for the given DNA sense strand indicating the polarity. Derive the polypeptide from the mRNA molecule using the table of the genetic code (Table Q1 below) again indicating the polarity of the peptide chain. Indicate the position in the DNA molecule that could have caused the disease and write down all possible point mutations in the DNA sequence that could have caused it. [ The polypeptide chain is polymerized at the ribosomes using t-RNA molecules. Write down all possible t-RNA molecules with their anti-codons that are used to polymerize the amino acid VAL. Indicate the polarity. 3'-TAC TGA GCA AGA TTA CAT ACT-5' Explain what is meant by redundancy of the genetic code.…arrow_forwardThe 3 major forms of RNA (mRNA, tRNA, & rRNA) interact during translation. c)Compared to the average stability of mRNA in E.coli, is mRNA in a typical human cell more stable or less stable? Why?arrow_forwardExplain the function of spliceosomes in eukaryotic cells. The following sequence represents pre-mRNA derived from a gene coding for alpha keratin in birds. Label the sequence to show potential exon(s), intron(s) and spliceosome cut site(s). That is, put the intron(s) sequences in parentheses and use black slash symbols (/) to indicate the spliceosome cut site(s). What is the sequence of the mature MRNA after splicing? [ 5' AUGGGUUUAGGACCCCCGAUAAA 3'arrow_forward
- Knowing that the genetic code is almost universal, a scientist uses molecular biological methods to insert the human β-globin gene (Shown in Figure 17.11) into bacterial cells, hoping the cells will express it and synthesize functional β-globin protein. Instead, the protein produced is nonfunctional and is found to contain many fewer amino acids than does β-globin made by a eukaryotic cell. Explain why.arrow_forwardThe sequence below shows the non-coding strand from the whole of the transcribed region of a very short gene. 5’-GGCTTCTTTAGTACTGGCCAGTGGGATCCAAGTAGGCTGCCATTTCGT-3’ Write out the sequence of the mRNA from this gene in the orientation 5′ → 3′ and, using the genetic code (see Fig. 1. overleaf) deduce the amino acid sequence of the peptide it encodes (NB you should read about the operation of the genetic code prior to attempting this question).arrow_forwardA group of researchers isolate 'Protein X' from the wall of a human stomach with the intent of learning how to synthesize stomach tissue in the lab. Subsequently, they determine the exact sequence of amino acids of the protein in its unfolded state, and create a functional mRNA template to translate Protein X in vitro. They manage to translate an exact copy of the polypeptide chain in the lab, but then realize that it takes several days for the protein to fold into its final tertiary structure. In vivo, they observe that several thousand copies of Protein X are folded from polypeptide chains every minute. What is NOT a plausible explanation for this difference in folding times? The in vitro study lacks a key enzyme The temperature in vitro is too low The in vitro study lacks a key tRNA molecule The pH in vitro is too higharrow_forward
- Translation requires energy what step(s)? please explain answer B) 30S ribosome subunit binding C) peptide chain elongation A) amino acid attachment to tRNAs both A and B both A and Carrow_forwardOxytocin is a small peptide hormone. It contains a nine amino acid sequence shown below: CYIQNCPLG 33 How many nucleotides would be found in the mRNA for this protein? Suggest an mRNA sequence for the peptide. Write in as 5' XXX 3' (no spaces between nucleotides). Keep in mind, for a protein to be synthesized it needs to include a start codon and a stop codon. Suggest a complementary template DNA sequence based on the MRNA sequences suggested above. Write in as 3' XXX 5' (no spaces between nucleotides).arrow_forwardConsider a template strand of DNA with the following sequence: 3 '–CAA TGT ATT TTT GCT–5 '. (a) What is the informational strand of DNA that corresponds to this template? (b) What mRNA is prepared from this template? (c) What polypeptide is prepared from the mRNA?arrow_forward
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