Multiple Choice
When DNA probes are used to identify bacterial DNA similarities by hybridization, the probe DNA is heated and the template DNA is treated to separate the two strands. Why would the probe DNA be heated?
A) This is the only way to properly label the probe DNA.
B) The probe may contain parts that are double-stranded. Heating it up breaks the hydrogen bonds holding the strands together, creating single-stranded sequences that hybridize with their complementary targets.
C) Heating it up activates the tag on the probe DNA before it hybridizes to the bacterial template DNA.
D) DNA hybridization can only take place at high temperatures, so all the DNA must be heated up prior to hybridization.
E) The probe may contain many parts that are single-stranded. Heating it up creates hydrogen bonds that hold the probe tightly to its complementary target sequences.
Correct Answer:
Verified
Correct Answer:
Verified
Q1: You have isolated a bacterium from a contaminated
Q2: A DNA similarity of 75% between two
Q3: Based on DNA hybridization, humans and chimpanzees
Q4: Size and shape may allow one to
Q6: All known species of bacteria are described
Q7: If the GC content of two organisms
Q8: In the 1930s Kluyver and van Niel
Q9: Phage typing<br>A) is useful for determining eukaryotic
Q10: Strain differences are helpful in<br>A) understanding replica
Q11: DNA probes have been very useful in<br>A)