Homework Answers
Answer is option 4.
Due to inability of the removal of the first intron, the matured mRNA will consist of first exon-first intron-second Exon - third Exon and so on. The presence of intronic sequence may contain the chain termination codon(s). Thus, during translation translation may be halted at the intron sequence, before reaching to the second Exon.
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The human protein coding gene frt has three exons. A mutation at the splice junction between...
The human protein coding gene frt has three exons. A mutation at the splice junction between...
The human protein coding gene frt has three exons. A mutation at the splice junction between the second exon and first intron leads to an inability to remove a DNA segment during splicing. Which of the following is describes the most likely outcome(s) of this mutation: O termination of transcription within the coding sequence of the second intron O termination of transcription before the coding sequence of the second exon termination of translation within the coding sequence of the second...
A eukaryotic protein-encoding gene has three introns and 4 exons. A splicing repressor commonly binds to...
A eukaryotic protein-encoding gene has three introns and 4 exons. A splicing repressor commonly binds to the 3' end of the second intron (introns 2/ exon three splice sites) draw the mRNA strand before and after splicing Diagram a final functional eukaryotic mRNA molecule from the 5' end to 3' end. There should be 7 items labeled in the diagram.
5. A eukaryotic protein-encoding gene contains two introns and three exons: exon 1–intron 1–exon 2–intron 2–exon...
5. A eukaryotic protein-encoding gene contains two introns and three exons: exon 1–intron 1–exon 2–intron 2–exon 3. The 5ʹ splice site at the boundary between exon 2 and intron 2 has been eliminated by a small deletion in the gene. Describe how the pre-mRNA encoded by this mutant gene would be spliced. Indicate which introns and exons would be found in the mRNA after splicing occurs
QUESTION 6 Assume you are studying a protein-coding gene, ACEX, which includes 4 exons as illustrated...
QUESTION 6 Assume you are studying a protein-coding gene, ACEX, which includes 4 exons as illustrated in the gene map below. The 5' UTR and 3' UTR segments are each 25 bp long. Exons 1 thru 4 are 100, 200, 300, 400 bp long, respectively. Each intron is 200 bp each. The locations of the relevant EcoRI sites within the ACEX locus are indicated, but the location of other restriction enzyme sites (like BamHI) are not shown." EcoRI probe EcoRI...
Questions 11-15: Gene structure/Splicing problem. "Protein X" consists of a total of 431 amino acids. Your...
Questions 11-15: Gene structure/Splicing problem. "Protein X" consists of a total of 431 amino acids. Your colleague, techniques) the a biochemist, has purified the protein and determined (via complicated and messy chemical sequence of the first 37 amino acids in the protein, which she has reported to you as follows: HN- MSNITVDDELNLSREQQGFAEDDFIVIKEERETSLSP . nwhile, you have isolated a genomic clone of the gene that codes for protein X, and determined the DNA equence of the first 227 bases from the...
A DNA coding sequence of ATGCGTGGA(sequence for the rest of the gene)AATTAA encodes a protein chain...
A DNA coding sequence of ATGCGTGGA(sequence for the rest of the gene)AATTAA encodes a protein chain of 200 amino acids of MET-ARG-GLY-(196 more amino acids)-ASN after splicing. A mutation occurs in which the third G is changed to a T. Using the genetic code below, determine which type of mutation this is and briefly explain how translation will be affected for this protein chain.
7. Open reading frames A protein coding gene includes the following sequence on one of its...
7. Open reading frames A protein coding gene includes the following sequence on one of its two DNA strands. Note that this segment (within an exon) does NOT include either the start codon or the stop codon for this gene. However, because five of the six potential reading frames (3 on each DNA strand) in this region include stops, only the true reading frame remains "open" through this segment. Therefore, it is possible to unambiguously decode (translate) this segment of...
A cell that is heterozygous for a nonsense mutation in a tumor suppressor gene would most...
A cell that is heterozygous for a nonsense mutation in a tumor suppressor gene would most likely: A) Group of answer choices B) grow but not divide C) have a normal cell cycle D) arrest and induce apoptosis E) have a slightly increased cell cycle and increased cell growth F) grow and divide uncontrollably Which of the following correctly describes an event that occurs during transcription: Group of answer choices A) A DNA molecule is chemically modified to become a...
Genes in eukaryotes are often organized into exons and intrans, which require splicing to produce an...
Genes in eukaryotes are often organized into exons and intrans, which require splicing to produce an mRNA that can be translated. The gene organization is the order of the DNA segments that comprise the gene starting with the promoter, the first exon, the first intron, the second exon, and so on. The interspersed intrans can make gene identification difficult in eukaryotesparticularly in higher eukaryotes with many introns and alternative spliced mRNAs. Prediction of many genes and their organization has been...
2. Note whether the sentence is true or false on the line following each sentence. If...
2. Note whether the sentence is true or false on the line following each sentence. If a statement is false, cross out one incorrect word or phrase in the sentence and write the correct word on top of the incorrect word. a. When glucose levels are high, CAMP levels are high, leading to the binding of CAP. When lactose levels are high, the repressor will not be bound; this all leads to the activation of lacZ transcription in bacteria. b....
The human protein coding gene frt has three exons. A mutation at the splice junction between the second exon and first intron leads to an inability to remove a DNA segment during splicing. Which of the following is describes the most likely outcome(s) of this mutation: O termination of transcription within the coding sequence of the second intron O termination of transcription before the coding sequence of the second exon termination of translation within the coding sequence of the second...
QUESTION 6 Assume you are studying a protein-coding gene, ACEX, which includes 4 exons as illustrated in the gene map below. The 5' UTR and 3' UTR segments are each 25 bp long. Exons 1 thru 4 are 100, 200, 300, 400 bp long, respectively. Each intron is 200 bp each. The locations of the relevant EcoRI sites within the ACEX locus are indicated, but the location of other restriction enzyme sites (like BamHI) are not shown." EcoRI probe EcoRI...
Questions 11-15: Gene structure/Splicing problem. "Protein X" consists of a total of 431 amino acids. Your colleague, techniques) the a biochemist, has purified the protein and determined (via complicated and messy chemical sequence of the first 37 amino acids in the protein, which she has reported to you as follows: HN- MSNITVDDELNLSREQQGFAEDDFIVIKEERETSLSP . nwhile, you have isolated a genomic clone of the gene that codes for protein X, and determined the DNA equence of the first 227 bases from the...
7. Open reading frames A protein coding gene includes the following sequence on one of its two DNA strands. Note that this segment (within an exon) does NOT include either the start codon or the stop codon for this gene. However, because five of the six potential reading frames (3 on each DNA strand) in this region include stops, only the true reading frame remains "open" through this segment. Therefore, it is possible to unambiguously decode (translate) this segment of...
2. Note whether the sentence is true or false on the line following each sentence. If a statement is false, cross out one incorrect word or phrase in the sentence and write the correct word on top of the incorrect word. a. When glucose levels are high, CAMP levels are high, leading to the binding of CAP. When lactose levels are high, the repressor will not be bound; this all leads to the activation of lacZ transcription in bacteria. b....
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