Deck 7: Microbial Genetics

A) type of nucleotides used.
B) efficiency of proofreading.
C) speed.
D) direction of polymerization.
E) dependence on helicase.

A) synthesizes short DNA molecules important for the function of DNA polymerase.
B) breaks hydrogen bonds between complementary nucleotides.
C) seals gaps between DNA fragments.
D) proofreads DNA molecules.
E) assists in recognition of promoters during transcription.

A) heterochromatin.
B) histones.
C) nucleosomes.
D) Okazaki fragments.
E) euchromatin.

A) adenine- uracil
B) adenine- guanine
C) adenine- thymine
D) cytosine- thymine
E) guanine- cytosine

A) uracil.
B) ionic bonds.
C) phosphate.
D) hydrogen bonds.
E) ribose.

A) transcription
B) translation
C) DNA replication
D) Both A and B are correct.
E) A, B, and C are correct.

A) they make up the lagging strand of replicated DNA.
B) they are joined together by DNA ligase.
C) they begin with an RNA primer.
D) they are longer in eukaryotic cells.
E) they are checked for accuracy by DNA polymerase III.

A) the sequence of a DNA molecule is preserved as it is being replicated.
B) each daughter DNA molecule is composed of one original strand and one new strand.
C) each strand of a double- stranded DNA molecule is replicated differently.
D) nucleotides are constantly being recycled as cells make DNA.
E) the cell can proofread its newly synthesized DNA part of the time.

A) They can replicate autonomously.
B) They are small circular molecules of DNA.
C) They carry genes that are required for growth and repair.
D) They can be found in bacteria, fungi, and protozoa.
E) They can carry genes that confer resistance against antibiotics.

A) Sigma factors are parts of RNA polymerase that recognize promoter regions.
B) It occurs in the nucleoid region.
C) Termination is either self- induced or due to the presence of Rho protein.
D) A variety of sigma factors affect transcription.
E) The same RNA polymerase transcribes primer RNA, mRNA, tRNA, and rRNA.

A) Multiple elongation factors are required.
B) A guanine is added to the 3' end and a poly A tail is added to the 5' end.
C) There are four different RNA polymerases.
D) Multiple transcription factors are required.
E) Transcription occurs in the nucleus, mitochondria, and in chloroplasts (if present).

A) 16
B) 4
C) 12
D) 32
E) 64

A) 1 error in 1,000 bases
B) 1 error in 1 million bases
C) 1 error in 100,000 bases
D) 1 error in 1 billion bases
E) 1 error in 10 million bases

A) tRNA
B) mRNA
C) rRNA
D) Both A and C are correct.
E) A, B, and C are correct.

A) a hydrogen bond
B) a methyl group
C) histones
D) a phosphate group
E) a hydroxyl group

A) fertility factors
B) cryptic plasmids
C) bacteriocin factors
D) virulence factors
E) resistance factors

A) start signal
B) recognition site for RNA polymerase
C) marker for introns
D) causes "wobble"
E) termination signal

A) introns
B) codons
C) promoters
D) exons
E) anticodons

A) A site, E site, P site
B) P site, A site, E site
C) P site, E site, A site
D) E site, P site, A site
E) A site, P site, E site

A) It resists the high temperatures of PCR better than other polymerases.
B) It can unwind DNA from associated histones.
C) It makes DNA more quickly than other types of polymerases.
D) It makes fewer mistakes than other types of polymerases.
E) It corrects frameshift mutations as it replicates DNA.

A) acridine
B) ethidium bromide
C) benzopyrene
D) Both A and B are correct.
E) A, B, and C are correct.

A) can transfer DNA only to other F+ cells.
B) contain an F plasmid.
C) contain "jumping genes."
D) do not have conjugation pili.
E) serve as recipient cells.

A) nonsense mutation.
B) gross mutation.
C) missense mutation.
D) silent mutation.
E) frameshift mutation.

A) It binds to a repressor protein, which in turn inactivates a gene.
B) It converts heterochromatin to euchromatin.
C) It binds to ribosomes and prevents tRNA molecules from attaching.
D) It binds to and inactivates a target nucleic acid sequence.
E) It creates frameshift mutations that produce nonfunctional versions of proteins.

A) they are often involved in anabolic pathways.
B) they are a way for bacterial cells to conserve energy.
C) they are active in the presence of an inducer.
D) they are normally inactive.
E) they involve a repressor.

A) triphosphate deoxyribonucleotides.
B) RNA primer.
C) DNA ligase.
D) DNA polymerase.
E) the leading strand.

A) typically is a rare event.
B) involves the transfer of DNA from a donor cell to a recipient cell.
C) occurs only between cells of the same species.
D) Both A and B are correct.
E) A, B, and C are correct.

A) euchromatin.
B) heterochromatin.
C) the nucleoid.
D) the plasmid.
E) the histone.

A) primase
B) DNA photolyase
C) DNA ligase
D) bacteriocin
E) transposase

A) mutagenic in humans.
B) carcinogenic.
C) carcinogenic in Salmonella.
D) carcinogenic in humans.
E) mutagenic in Salmonella.

A) base- pair substitutions
B) frameshifts
C) chromosome breaks
D) base- pair deletions
E) pyrimidine dimers

A) transposase.
B) inverted repeat.
C) complex transposon.
D) bacteriophage.
E) insertion sequence.

A) cells lose part of their DNA and enter a dormant state.
B) DNA "jumps" from one location in the genome to another.
C) cells take up DNA from their environment.
D) DNA is transferred from one cell to another by a virus.
E) DNA is transferred between cells via a pilus.

A) deletions
B) inversions
C) insertions
D) Both A and B are correct.
E) Both A and C are correct.