Which option below is true regarding siRNA and miRNA?
Section 23 Quiz
University
•10 Qs
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Section 23 Quiz
Quiz
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Biology
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University
•
Hard
Lauren Rego
Used 1+ times
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10 questions
Show all answers
1.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
miRNAs usually have the exact complementarity with their target RNA
siRNAs usually have the exact complementarity with their target RNA
siRNAs supress gene expression by inhibiting translation
miRNAs supress gene expression by degrading mRNA
None of the above are true
2.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
Which of the following is correct?
Forward genetics starts with a known gene/phenotype, while reverse genetics induces random mutations and screening for phenotypic changes
Forward genetics is more suitable for haploid organisms, while reverse genetics is more suitable for diploid organisms
Forward genetics crosses individuals to create heterozygous mutants, while reverse genetics directly mutates the DNA of interest
Forward genetics is more suitable for diploid genetics to identify recessive alleles, while reverse genetics is more suitable for studying the effects of known mutations
Forward genetics allows for the direct manipulation of specific genes, while reverse genetics relies on variation to study genes
3.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
In a switch regulation pathway controlling flower color in a certain plant species, gene A produces a pigment precursor, gene B activates the conversion of the precursor into the actual pigment, and gene C acts as a switch, turning on gene A and subsequently gene B. If a loss-of-function mutation in gene C leads to the overexpression of both genes A and B, what is the expected phenotype when this mutation is combined with a loss-of-function mutation in gene A?
Increased pigment production
Decreased pigment production
No change in pigment production
Flower unable to develop
No pigment production
4.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
A made up bacteria named Fonella has a loss-of-function mutation in its methylase protein production. When infected by a virus, the Fonella restriction enzyme will _ X _ the DNA of the virus, and will _ Y _ its own Genomic DNA because it _ Z _ methylated.
Cut up; cut up; is
Not cut up; not cut up; is not
Cut up; not cut up; is not
Cut up; cut up; is not
Not cut up; cut up; is
5.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
Which of the following is NOT true for miRNA, siRNA, and CRISPR?
a) A complex induces double-stranded breaks at specific loci in genomic DNA.
b) They are RNA-mediated methods for alteration of gene activity.
c) Can be used in systematic genomic screens.
d) The above 3 process are triggered by DNA/RNA, to which some complex repsonds by degrading the DNA/RNA.
e) Complex between cleaved fragment and other factors form that recognizes sequences in the DNA/RNA
6.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
Which of the following statements is true about the mechanism of siRNA?
siRNA mechanism starts with single-stranded RNA
The protein carboxypeptidase cleaves the RNA into small fragments
For the activation of the silencing complex, other factors and proteins involved in RNA binding bind to the complex, AGO, and Dicer are NOT needed
If there is no complex formed with Argonaute protein, the siRNA mechanism will not work
Dicer cleaves dsRNA into large nucleotide fragments
7.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
Which of the following statements accurately describes the genetic hierarchy involved in Drosophila segmentation?
Maternal coordinate genes regulate the expression of zygotic gap genes, which in turn control the development of large domains in body plan.
Zygotic gap genes directly determine the anterior-posterior axis and specify the number of segments that will form.
Segment polarity genes activate the expression of homeotic selector genes, which define the structures of specific segments.
Homeotic selector genes are the first genes expressed from the zygotic genome and regulate the expression of maternal coordinate genes.
Pair rule genes are transcription factors that pattern the structure of every segment and regulate the expression of zygotic gap genes.
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