Chapter 14 Practice Questions
virus; bacteria
A phage is a type of _______________ that infects ______________ cells
Error-free and error-prone
Cells have several non-specific repair pathways. What are the two general categories of repair mechanisms?
T; G
Consider a double stranded DNA molecule. In complementary base pairing, A pairs with ____ and C pairs with ____.
there is no way for cells to avoid exposure to mutagens
DNA repair mechanisms have likely evolved because
linear chromosomes
DNA replication in eukaryotic cells is complicated by the fact that eukaryotic cells have
backbone
DNA's phosphodiester _______________ is composed of sugars and phosphates
A sugar phosphate backbone, a helical structure & a double stranded structure
Features of the Watson and Crick model include
the cells show an increased lifespan
If normal fibroblast cells are grown in cell culture and the enzyme telomerase is introduced in them,
phosphodiester; hydroxyl
In DNA, consecutive nucleotides are linked via __________ bonds, which are made between the 5' phosphates of one nucleotide and the 3' __________ group of another nucleotide.
hydrogen
In DNA, the two tautomers in the bases exhibit differences in what type of bonding pattern?
begins
In E Coli oriC is the site at which replication
adenine and thymine
In a DNA double helix, two hydrogen bonds form between
The termination site is opposite to the origin
In a bacterium, where does termination of replication occur, relative to the origin?
low
In an aging cell, the activity of telomerase would be
Wilkins
The DNA fibers Franklin used in her x-ray diffraction studies came from
photolyase
The enzyme ____________ can repair UV damage by binding to a thymine dimer and cleaving it, therefore restoring two thymines
telomerase
The enzyme ____________contains a small internal piece of RNA, which is used as a template to extend the end of a linear DNA molecule
Meselson and Stahl
The experiments used to distinguish between the three potential DNA replication mechanisms were performed by
Hershey and Chase
The experiments with radioactively labeled phage that showed that DNA was the genetic material were performed by
double helix
The level of DNA structure that resembles a spiral staircase is the
Lymphocytes
The level of telomerase stays high in these cells, despite their age
smooth
The normal virulent form of Streptococcus pneumoniae is known as the S form because it forms ________ colonies on solid media.
The need for a primer and the directionality of polymerases
The problems in replicating the ends of linear chromosomes are caused by
protein; DNA
The purpose of the Hershey Chase experiments was to determine whether a bacteriophage injected _________ or _________ into bacteria.
supercoiling
The term ____________ refers to the coiling of two DNA strands leading to torsional strain
Synthesize primers using primase -> synthesize DNA -> Replace RNA primers with DNA -> Seal nicks in the DNA
What are the steps of lagging strand synthesis?
Initiation, elongation & termination
What are the three phases of DNA replication?
Each DNA molecule is composed of two strands that run antiparallel and each DNA molecule is composed of 2 phosphodiester strands.
What are the two parts of the Watson-Crick model?
Relieves coiling in DNA strands ahead of the replication fork
What does gyrase do?
Unwinds the double helix
What does helicase do?
Attaches a nucleotide to the 3' end of the DNA strand
What does polymerase do?
Makes a 10-12 bp complementary primer to the DNA
What does primase do?
Helicase, sliding clamp, primase, polymerases & clamp loader
What enzymes involved in DNA replication are found at the replication fork in all three types of cells?
Telomeres
What is the name of the region at the ends of eukaryotic chromosomes?
oriC
What origins are more sequence-specific?
Eukaryotes
What types of cells have more than one origin of replication?
Smooth, rough, live & heat-killed
What types of streptococcus pneumoniae bacteria did Griffith inject into mice?
primosome
In the replisome, the _____________ is composed of primase, helicase and accessory proteins that prime the lagging strand
5' to 3'
A DNA strand runs 3' to 5'. The complementary strand runs
replication fork
A _______________ ______________ is the partial opening of a DNA helix to form two single strands
leading; lagging
During DNA replication, the __________ strand is synthesized continuously, while the _________ strand is synthesized as small fragments that are connected to each other to form a continuous strand
one of the strands in each new double helix comes from the original molecule, and one is newly synthesized
During semiconservative DNA replication
exonuclease
E. coli polymerases I, II and III have 3' to 5' ____________ activity, which provides them with a proofreading function.
that the genetic material could be passed from one cell to another
Griffith's experiments were important because they showed
three
Guanine forms ______ hydrogen bonds with cytosine
Cells can increase the number of origins used in early development
How are the origins of replication adjusted in eukaryotic cells, so that early in the embryonic development of eukaryotic organisms DNA can be replicated faster?
DNA-digesting enzymes
In their experiments, Avery, MacLeod and McCarty isolated a substance, which had a transforming activity. Which of the following destroyed that substance's ability to transform bacterial cells?
Genes
In what chromosomal entities are an individual's traits specified?
Excision repair
In what type of repair mechanism a damaged region of DNA is removed and then replaced by DNA synthesis?
nitrogen
Meselson and Stahl used two isotopes of __________ in their DNA replication experiments so that the daughter strands could be distinguished from the parental strands
Mutagens
Radiation, UV light, x-rays and chemicals in the environment can cause mutations in DNA and are therefore referred to as _______________.
A short internal RNA
Telomerase uses what as a template?
gyrase
The enzyme DNA ____________ is the topoisomerase involved in DNA replication
primase
The enzyme DNA ____________ synthesizes RNA primers required by DNA polymerases during replication
polymerase
The enzyme DNA _____________ covalently links nucleotides to synthesize new DNA strand together during DNA replication
helicase
The enzyme _________ uses ATP to unwind the DNA template
delta and epsilon
The two main eukaryotic DNA polymerases that extend DNA are
Nitrogenous base, sugar & phosphate group
What are the components of a nucleotide?
Guanine, Adenine, Thymine & Cytosine
What are the four nitrogenous bases used in DNA?
Recognition of damage -> Removal of the damaged region -> Resynthesis using the information on the undamaged strand as a template
What are the steps in excision repair?
Telomerase
Which enzyme prevents chromosomal shortening by attaching a repeat sequence to the ends of chromosomes?
The conservative model
Which model for DNA replication suggests that both strands of the double helix remain intact and the new DNA double helix consists of two new DNA strands?
the B subunit
Which subunit of DNA polymerase III forms the sliding clamp?
Telomeres; telomerase
___________ are short protective repeats of DNA on the ends on eukaryotic chromosomes which are generated by the enzyme _____________
introducing its genetic material into the host cell
A bacterial virus replicates by
genetic material and a protein coat
A bacteriophage contains
5'; 3'
A new DNA strand can only be synthesized in a ______ to _______ direction
phosphodiester
Adjacent nucleotides in the same DNA strand are held together by covalent bonds known as _______________ bonds
primer
All DNA polymerases require a short strand of DNA or RNA, called a _________, to begin their synthesis
lagging
An Okazaki fragment is a short fragment of DNA created on the _________ strand of DNA
a single origin
Bacterial replication (for example in E. Coli) begins at
