Chapter 10

DNA ligase

What attaches the target gene to a desired location?

A nucleotide-altering chemical

What can alter nitrogenous bases of DNA, resulting in incorrect base pairing?

The cells have a capsule

What characteristic of the S strain allows it to evade the immune system of the mice?

It can replace the base thymine, and can base pair with guanine rather than adenine.

What describes how 5-bromouracil might create a mutation?

Stay healthy, because their immune systems can kill this strain easily

What happens to mice that are injected with only the R strain of Streptococcus pneumoniae?

Mutagen

What increases the likelihood of mutations in DNA?

F+ bacteria have a nonintegrated F plasmid, while Hfr bacteria have an F plasmid that is integrated into their main chromosome

What is the difference between an F+ and an Hfr bacterium?

Benzopyrene

What might result in a frameshift mutation?

The R strain picked up the S strain DNA, enabling it to produce a capsule

What most likely explains the recovery of live S strain cells from a mouse injected with heat-killed S strain mixed with live R strain cells?

The cells must come into contact with each other

What must occur for bacterial conjugation to take place?

Both simple and complex transposons

Which type of transposon would contain a gene for transposase?

It can be copied, transcribed, and translated into a desired protein

Why would a recombinant DNA molecule be inserted into a host cell?

transformation

genetic transfer process by which DNA is incorporated into a recipient cell and brings about genetic change

replicative

mechanism of transposition where a new copy of transposon is inserted in another location -number of transposon present doubles

conservative

mechanism of transposition where transposon is excised from one location and reinserted in second -number of transposon stays consistent

transposons

moves DNA between inverted repeats

genetic recombination

physical exchange of DNA between genetic elements

homologous recombination

process that results in genetic exchange between homologous DNA from 2 different sources

transposition

process used to move transposable elements

transposable elements

segments of DNA that move as a unit from location to another within other DNA molecules

A mutation

A change in the base sequence of DNA that is passed on to daughter cells is __________.

An auxotroph

An organism that cannot synthesize methionine is called __________.

Conjugation does not result in the formation of new offspring

Bacterial conjugation is often referred to as bacterial sex. Why is this term inaccurate?

Cas protein

CRISPER-associated protein -stores, recognizes, and destroys foreign DNA

Competent cells

Cells that can take up DNA from their surrounding environment and integrate it into their own chromosomes by recombination

generalized transduction

DNA from any portion of host genome is package inside virion

specialized transduction

DNA from specific region of host chromosome is integrated directly into the virus genome

When a frameshift mutation occurs, it causes changes in many bases downstream and can affect many of the amino acids in the protein

Frameshift mutations can be very severe. What is one reason why they are often so serious?

Complex transposons code for additional genetic elements, such as antibiotic resistance genes; simple transposons only code for the transposase gene essential for the tranposon itself

How do complex transposons differ from simple transposons?

They cut DNA at sites, called recognition sites, that have specific nucleotide sequences

How do restriction enzymes cut DNA sequences?

They differ in their genotype and in their phenotype

In a culture of bacteria, there are some individuals that are unable to synthesize histidine. What is the best and most likely description of how these individuals differ from the other bacteria in the culture?

To insert a desirable gene, remove an undesirable gene, or replace a defective gene with a functioning gene

In general, how might recombinant DNA technology be used to prevent a genetic disorder caused by a mutation in a single gene?

These bacteria may be able to adapt rapidly to a new environment (e.g., an environment with an antibiotic)

Some bacteria have unusually high mutation rates. Is there an adaptive reason why they might have such high mutation rates?

S strain cells are isolated from the blood of mice infected with heat-killed S strains and live R strains

Surprising findings from Griffith's experiments?

It is important to compare the rate of mutations with the chemical to the normal background mutation rate. Mutations occur spontaneously even without the presence of a mutagen

The Ames test is commonly used to test whether a particular chemical is mutagenic. When you conduct an Ames test, you need two groups of plates. One group of plates contains bacteria that are exposed to the chemical of interest, while the other plates contain bacteria that are not exposed to the chemical. Why is the latter group needed if you are just interested in the rate of mutation caused by the chemical?

Near the beginning of the coding region of a protein

The addition of two bases to the genome of a prokaryote would be most damaging if located __________.

AUU, AUC, and AUA all code for Ile

The genetic code is degenerate. What describes an example of the degenerate nature of the code?

nonionizing radiation

Thymine dimers result from what?

phage conversion

alteration of the phenotype of a host cell by a lysogenization

CRISPER

clustered regulatory interspaced short palindromic repeats -type of prokaryotic "immune system"

transduction

transfer of DNA from one cell to another by a bacteriophage

transfection

transformation of bacteria with DNA extracted from a virus