Homework Answers
Establishment of a new boundary element in between the centromere and the spiky gene.
Gain of function mutation of HP1
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produce random mutations in the line with boundary element 1 deleted and see that in one...
studying gene silencing using the fly eye as a model. Below is a diagram showing part...
studying gene silencing using the fly eye as a model. Below is a diagram showing part of fly chromosome 3, including heterochromatin (striped region) near the centromere, euchromatin (solid region) two boundary elements, and three genes (spiky, green, and tiny). Recall that fly gene names are based off of their mutant phenotypes, so spiky LOF mutations make mutant eye cells spiky (rather than wild-type round), green LOF mutations make mutant eye cells green (rather than wild-type red), and tiny LOF...
please answer all the questions Question 8 0 / 1 pts Our understanding of RNA ...
please answer all the questions
Question 8
0 / 1 pts
Our understanding of RNA
was non-existent until 2000
started with the identification of a tRNA which suggested a
method of converting DNA to protein
began to identify that DNA-->protein--> RNA
stopped growing after it's original discovery in the 70s
IncorrectQuestion 10
0 / 1 pts
Enzymes allow for chemical reactions to occur in the cell that
may not naturally occur at the right place at...
Ul Ehé question paper. 1. Mutations can be caused by: a) tautomeric shifts b) UV light...
Ul Ehé question paper. 1. Mutations can be caused by: a) tautomeric shifts b) UV light c) chemical changes to bases such as deaminatior C) all the above 2. The start of a wild type mRNA was AUGCCCAAGAccA mu tation This type of change resulted in the sequence AUGUCCAAGACC. is called a a) missense一®.frameshift mutation. 3. The typical rate of mutation for a human gene is per generation. a) 103 c) 10 d) 10-11 e) 104 4. If a hypothetical...
you have isolated spontaneous mutations in the LEU6 gene of a haploid strain of the yeast...
you have isolated spontaneous mutations in the LEU6 gene of a haploid strain of the yeast S. cerevisiae. Some of your mutations result in a complete loss of LEU6 gene function. You reason that this phenotype may be due to insertion of a mobile DNA element into the gene. To test this idea, you sequence the LEU6 region ion from several of your mutants and compare the DNA to the previously determined sequence for LEU6 in the parental strain. Numerous...
1) Suppose that gene A 3,000 bp. Suppose that g contained within intron 1 opposite directions...
1) Suppose that gene A 3,000 bp. Suppose that g contained within intron 1 opposite directions for the two genes. covers 10,000 base pairs (bp) and has 2 exons; the intron in gene A is ene B covers 1,500 bp and has two exons. Gene B is completely of gene A. The direction of the transcriptional bubble moves in A. Draw the genomic organization (i.e., exons and introns) of gene A AND gene B. Label the polarity of the DNA...
ALS is caused by the accumulation of misfolded protein that eventually leads to neuronal cell death....
ALS is caused by the accumulation of misfolded protein that eventually leads to neuronal cell death. Just as is the case with prion diseases (e.g., Mad Cow disease), there is a spreading effect: even the presence of a small amount of misfolded (e.g., mutant) protein can cause other WT proteins of the same kind to become misfolded, which join the large misfolded aggregate forming in diseased cells. This is the principle mechanism thought to be behind the spreading of neurodegeneration...
5. Consider the wild-type F8 gene. What would happen to the 1) transcript (mRNA) sequence and...
5. Consider the wild-type F8 gene. What would happen to the 1)
transcript
(mRNA) sequence and quantity, 2) to the protein (sequence,
quantity, function) and 3) the person’s
overall phenotype if they were homozygous (both copies of the
gene are the same) for a 3 base-pair
deletion in the:
i. First intron
ii. First exon
iii. The promoter
iv. 5’UTR
v. Last exon
6. What environmental factor could affect the phenotype caused
by an F8 null mutation?
Thrombophilia is a...
Genetics Worksheet Week 3: Gene Regulation and Epigenetics 1. Duchenne muscular dystrophy is caused by a mutation in a gene that is 2.5 million nucleotides in length and encodes a protein called dyst...
Genetics Worksheet Week 3: Gene Regulation and Epigenetics 1. Duchenne muscular dystrophy is caused by a mutation in a gene that is 2.5 million nucleotides in length and encodes a protein called dystrophin. The dystrophin protein itself is 3684 amino acids in length. Calculate below the approximate size of the mRNA that encodes dystrophin. Approximately what percentage of the gene that encodes dystrophin is intron sequence? The human genome encodes a much greater variety and number of proteins than the...
1. (1 pt) If a gene is repressible and under positive control, A. Is the regulatory...
1. (1 pt) If a gene is repressible and under positive control, A. Is the regulatory protein an activator or repressor? B. Explain how an effector molecule, which binds to the regulatory protein, alters the regulatory protein’s ability to regulate expression of the gene. 2. (1 pt) Cis and trans are two terms used to describe mutations. A. Explain the molecular difference between these terms. B. indicate which type of mutation (cis or trans) is dominant to wild-type and which...
2. A dominant allele H reduces the number of body bristles that Drosophila flies have, giving...
2. A dominant allele H reduces the number of body bristles that Drosophila flies have, giving rise to a “hairless” phenotype. In the homozygous condition, H is lethal. An independently assorting dominant allele S has no effect on bristle number except in the presence of H, in which case a single dose of S suppresses the hairless phenotype, thus restoring the "hairy" phenotype. However, S also is lethal in the homozygous (S/S) condition. What ratio of hairy to hairless flies...
studying gene silencing using the fly eye as a model. Below is a diagram showing part of fly chromosome 3, including heterochromatin (striped region) near the centromere, euchromatin (solid region) two boundary elements, and three genes (spiky, green, and tiny). Recall that fly gene names are based off of their mutant phenotypes, so spiky LOF mutations make mutant eye cells spiky (rather than wild-type round), green LOF mutations make mutant eye cells green (rather than wild-type red), and tiny LOF...
please answer all the questions
Question 8
0 / 1 pts
Our understanding of RNA
was non-existent until 2000
started with the identification of a tRNA which suggested a
method of converting DNA to protein
began to identify that DNA-->protein--> RNA
stopped growing after it's original discovery in the 70s
IncorrectQuestion 10
0 / 1 pts
Enzymes allow for chemical reactions to occur in the cell that
may not naturally occur at the right place at...
Ul Ehé question paper. 1. Mutations can be caused by: a) tautomeric shifts b) UV light c) chemical changes to bases such as deaminatior C) all the above 2. The start of a wild type mRNA was AUGCCCAAGAccA mu tation This type of change resulted in the sequence AUGUCCAAGACC. is called a a) missense一®.frameshift mutation. 3. The typical rate of mutation for a human gene is per generation. a) 103 c) 10 d) 10-11 e) 104 4. If a hypothetical...
1) Suppose that gene A 3,000 bp. Suppose that g contained within intron 1 opposite directions for the two genes. covers 10,000 base pairs (bp) and has 2 exons; the intron in gene A is ene B covers 1,500 bp and has two exons. Gene B is completely of gene A. The direction of the transcriptional bubble moves in A. Draw the genomic organization (i.e., exons and introns) of gene A AND gene B. Label the polarity of the DNA...
5. Consider the wild-type F8 gene. What would happen to the 1)
transcript
(mRNA) sequence and quantity, 2) to the protein (sequence,
quantity, function) and 3) the person’s
overall phenotype if they were homozygous (both copies of the
gene are the same) for a 3 base-pair
deletion in the:
i. First intron
ii. First exon
iii. The promoter
iv. 5’UTR
v. Last exon
6. What environmental factor could affect the phenotype caused
by an F8 null mutation?
Thrombophilia is a...
Genetics Worksheet Week 3: Gene Regulation and Epigenetics 1. Duchenne muscular dystrophy is caused by a mutation in a gene that is 2.5 million nucleotides in length and encodes a protein called dystrophin. The dystrophin protein itself is 3684 amino acids in length. Calculate below the approximate size of the mRNA that encodes dystrophin. Approximately what percentage of the gene that encodes dystrophin is intron sequence? The human genome encodes a much greater variety and number of proteins than the...
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