Deck 13: Bacterial Genetics

A) 125 bp.
B) 256 bp.
C) 425 bp.
D) 625 bp.
E) 1056 bp.

A) a PCR-amplified fragment
B) a single-stranded RNA hybridized to a single-stranded DNA
C) a genomic fragment of human DNA ligated to a bacterial plasmid vector
D) a chromosome in a bacterial cell
E) a bacterial plasmid cut with a restriction enzyme

A) at least 100 starting DNA molecules.
B) at least some sequence information about the region to be amplified.
C) a cDNA version of the region to be amplified.
D) a section of at least 100 kb to amplify.
E) an undamaged,nondegraded DNA sample.

A) charge densities.
B) sizes.
C) base sequences.
D) amino acid compositions.
E) electrical strengths.

A) GCGA
B) CTGG
C) CCGA
D) CGCT
E) TCGC

A) a globin
B) a glycolysis enzyme
C) a ribosomal protein
D) a tRNA
E) an RNA polymerase

A) positive;phosphates
B) positive;bases
C) negative;phosphates
D) negative;bases
E) negative;ribose

A) tetracycline resistant and blue if grown on X-gal.
B) tetracycline sensitive and blue if grown on X-gal.
C) tetracycline resistant and white if grown on X-gal.
D) tetracycline sensitive and white if grown on X-gal.
E) X-gal resistant and blue if grown on tetracycline.

A) chemicals that cleave DNA after particular bases
B) fluorescent chemicals
C) nucleotide triphosphates that lack a base
D) nucleotide triphosphates that lack a hydroxyl
E) nucleosides that lack a 5' phosphate

A) GACCGCT
B) TCGCCAG
C) AGCGGTC
D) CTGGCGA
E) GGATCCC

A) generating blunt ends,when only enzymes that leave sticky ends are available
B) generating sticky ends,when only enzymes that leave blunt ends are available
C) cutting only one strand of a restriction site,leaving a nick instead of a break
D) producing fragments that are slightly shorter than a complete digest would produce
E) producing fragments that are slightly longer than a complete digest would produce

A) exon sequences
B) sequence of the promoter
C) similarity to previously identified sequences
D) amino acid sequence of the encodedpolypeptides
E) sequence of the spliced mRNA transcript

A) generate DNA fragments for genomic libraries.
B) generate DNA fragments for cDNA libraries.
C) determine the sequence of a DNA fragment by the Maxam-Gilbert procedure.
D) amplify minute quantities of a DNA fragment.
E) replicate recombinant plasmids.

A) There are no Gs in the genome.
B) There are no As in the genome.
C) The bacterium methylated the DNA,because it produces the 6-base cutting enzyme.
D) All the recognition sites are in genes,and the enzyme will not cut in genes.
E) All the recognition sites are in promoters and regulatory sequences,and the enzyme cuts only in genes.

A) collection of DNA fragments from an organism,inserted into vectors.
B) collection of restriction enzymes that make regularly spaced cuts in a genome.
C) series of DNA fragments generated by chemical cleavage,used to determine sequence.
D) set of genes that can be inserted into vectors to confer antibiotic resistance.
E) collection of mRNA molecules cloned into vectors.

A) It is longer.
B) It is shorter.
C) It is more negatively charged.
D) It has blunt ends.
E) It has sticky ends.

A) a restriction enzyme that cuts the vector while it is in transformed cells
B) a blue pigment that identifies any cell that has beentransformed
C) an enzyme that converts RNA to DNA
D) an enzyme that confers antibiotic resistance
E) a detectable enzyme that is not produced if the gene is interrupted by an insert

A) centromeres
B) replication origins
C) promoters
D) exons
E) introns

A) detects antibodies against the virus.
B) interferes with viral replication,causing the virus to become latent.
C) automatically determines the sequence,as well as the presence of the viral genome.
D) detects an infection at an earlier stage than the current standard test.
E) detects both viral DNA and viral proteins.

A) 2 kb
B) 6 kb
C) 8 kb
D) 2 and 6 kb
E) 6 and 8 kb

A) 100
B) 1,000
C) 10,000
D) 100,000
E) 1,000,000

A) 6
B) 12
C) 24
D) 64
E) 86

A) 12
B) 10
C) 7
D) 5
E) 4

A) a point mutation that changes a single amino acid
B) a mutation that prevents removal of one intron
C) a promoter mutation that prevents transcription
D) a 10 bp deletion in an exon
E) a frameshift mutation

A) i,ii
B) i,iii
C) ii,iii
D) i,iv
E) ii,iv

A) gene duplications.
B) the existence of integrated viruses,or proviruses.
C) the importance of TATA boxes in eukaryotic promoters.
D) the importance of the order of the globin genes in dictating their expression.
E) diseases that result from deletions in the α-globin genes.

A) 4¹⁰ bp.
B) 10⁴ bp.
C) 2¹⁰ bp.
D) 10² bp.
E) 2⁴ bp.

A) Phage produces them and they replicate viral DNA.
B) Phage produces them and they confer antibiotic resistance.
C) They are yeast DNA replication enzymes.
D) Bacteria produce them to protect against viral invasion.
E) They are bacterial DNA replication enzymes.

A) Their DNA never contains the recognitionsite.
B) Ligase connects their DNA as soon as it is cut.
C) Digestion is blocked by methyl groups added to recognition sequences in their DNA.
D) Phosphate groups added to the recognition sequences in their DNA block digestion.
E) Restriction enzymes are blocked from entry into the nucleus.

A) They use different template strands for transcription.
B) They are expressed at different times in development.
C) They have different evolutionary origins,from different ancestral genes.
D) They are dispersed on different chromosomes.
E) Some are expressed in all cells;some are expressed only in red blood cells.

A) confers a detectable property on a host cell
B) can be purified away from the host cell's genome
C) replicates independently
D) replicates itself and the inserted DNA
E) methylated to protect from digestion by host cell restriction enzymes

A) The enzyme is a 4-base cutter.
B) The enzyme is a 6-base cutter.
C) The enzyme is an 8-base cutter.
D) The enzyme leaves blunt ends.
E) This was a partial digest.

A) attaches the library DNA to the nitrocellulose
B) promotes hybridization between the probe and complementary inserts
C) labels the DNA so it can be visualized
D) stimulates DNA replication,to increase the plasmid copy number
E) lyses the cells and denatures the released DNA

A) three EcoRI sites and two BamHI sites.
B) three BamHI sites and two EcoRI sites.
C) two EcoRI sites and two BamHI sites.
D) two EcoRI sites and one BamHI site.
E) one EcoRI site and two BamHI sites.

A) electrophoresis
B) partial digestion with restriction enzymes
C) hybridization to a synthetic oligonucleotide probe
D) selection of recombinant bacteria by antibiotic resistance
E) transformation

A) 1,3,6 or 1,4,5
B) 1,4,5 or 1,2,7
C) 1,4,5,or 2,3,5
D) 1,2,7 or 1,3,6
E) 1,2,7 or 2,3,5

A) It is a restriction enzyme recognition site.
B) It is a selectable marker.
C) It is the origin of replication.
D) It makes the enzyme ß-galactosidase if it is intact,indicating vectors without inserts.
E) It is required for packing into viral shells.

A) a duplicated,ancestral gene.
B) a chromosome region with a cluster of related globin protein genes.
C) an alpha-,or a beta-globin protein with a single amino acid change.
D) the location,in this case red blood cells,where a mutant phenotype is manifested.
E) a geographical region where a genetic disease like sickle cell anemia is common.