Deck 8: Recombinant Dna Technology

A) the type of probe used.
B) the presence or absence of a nitrocellulose membrane.
C) the size of the genetic sequences involved.
D) the number of genetic sequences detected.
E) the type of nucleic acid being isolated.

A) make conjugation more efficient.
B) allow transposons to move to another place in the chromosome.
C) protect the cell from invading phages.
D) allow cells to accept foreign DNA.
E) provide the cell with new phenotypes, such as antibiotic resistance.

A) DNA polymerase
B) antisense RNAs
C) reverse transcriptase
D) DNA primers
E) both DNA primers and DNA polymerase

A) negative, negative
B) positive, positive
C) negative, positive
D) positive, negative
E) negative and positive, neutral

A) Vectors are usually autonomously replicating DNA molecules.
B) A useful vector contains multiple restriction sites for insertion of DNA.
C) Vectors are generally over 100,000 base pairs in size.
D) Cloning vectors frequently contain sequences necessary for expression of inserted sequences.
E) Cloning vectors include a "marker" to facilitate identification of cells containing them.

A) II, I, III, IV
B) II, III, I, IV
C) III, I, II, IV
D) III, I, IV, II
E) I, III, IV, II

A) DNA replication would occur more slowly than normal.
B) DNA replication would not occur at all.
C) Many mistakes would occur.
D) DNA replication would occur twice as fast as normal.
E) DNA replication would stop after one cycle.

A) 94°C
B) 37°C
C) 65°C
D) 72°C
E) 55°C

A) DNA probes.
B) primers for PCR.
C) antisense RNAs.
D) DNA probes and antisense RNAs.
E) DNA probes, primers, and antisense RNAs.

A) the Gram reaction of the source bacterium
B) the specific epithet of the source bacterium
C) Roman numerals to indicate its order of discovery
D) the strain of the source bacterium
E) the genus of the source bacterium

A) C↓CGG
B) G↓GATCC
C) G↓AATTC
D) CCC↓GGG
E) A↓AGCTT

A) protein synthesis.
B) gene therapy.
C) genomics.
D) northern blotting.
E) PCR.

A) 94°C, 55°C, 37°C
B) 94°C, 65°C, 72°C
C) 65°C, 72°C, 94°C
D) 94°C, 37°C, 55°C
E) 72°C, 65°C, 94°C

A) heat.
B) NaOH.
C) reverse transcriptase.
D) both heat and NaOH.
E) heat, NaOH, and reverse transcriptase.

A) 4
B) 16
C) 32
D) 64
E) 100

A) cDNA library.
B) FISH library.
C) gene library.
D) microarray.
E) DNA fingerprint.

A) soy sauce
B) acetone
C) bread
D) cheese
E) alcohol

A) Southern blotting
B) creation of a gene library
C) electroporation
D) genome mapping
E) xenotransplantation

A) transformation
B) transcription
C) transduction
D) conjugation
E) chemiosmosis

A) "within glassware."
B) "in life."
C) "in the cell."
D) "within an organism."
E) "from a stranger."

A) contain cells from other organisms.
B) contain genetically engineered microbes.
C) are the same thing as clones.
D) contain genes from other organisms.
E) have genomes that have been sequenced completely.

A) PCR
B) restriction enzyme digestion
C) gel electrophoresis
D) reverse transcription
E) neither PCR nor gel electrophoresis is used.

A) reverse transcriptase and DNA polymerase.
B) restriction enzymes.
C) agarose and nitrocellulose.
D) gold beads and magnets.
E) single-stranded DNA and silicon chips.

A) Pseudomonas
B) Haemophilus influenzae
C) Bacillus thuringiensis
D) Thermus aquaticus
E) Plasmodium falciparum

A) Deinococcus radiodurans
B) Bacillus thuringiensis
C) Pseudomonas
D) Salmonella
E) Escherichia coli

A) are acellular.
B) are administered in food.
C) do not pose a risk for causing the disease.
D) are acellular and do not pose a risk for causing the disease.
E) are acellular and can be administered in food.

A) the modification of crop plants
B) screening of humans for genes that predispose them to disease
C) unforeseen impact on the environment
D) the modification of animals to produce pharmaceuticals for humans
E) answering basic research questions

A) 5000 base pairs
B) 750 base pairs
C) 1000 base pairs
D) 250 base pairs
E) 2500 base pairs

A) Antisense RNAs
B) Mutagens
C) DNA polymerase and DNA ligase
D) Restriction enzymes
E) RNA polymerases

A) recombinant DNA technology.
B) biotechnology.
C) electrophoresis.
D) protoplast fusion.
E) xenotransplantation.

A) Escherichia coli.
B) Plasmodium falciparum.
C) Staphylococcus aureus.
D) Haemophilus influenzae.
E) Pseudomonas.

A) Southern blotting
B) electroporation
C) gene therapy
D) xenotransplants
E) PCR

A) agarose.
B) synthetic nucleic acids and radioactive chemicals.
C) restriction enzymes.
D) silicon chips.
E) nitrocellulose.

A) DNA polymerase.
B) RNA polymerase.
C) reverse transcriptase.
D) DNA ligase.
E) restriction enzymes.

A) an electrophoresis chamber
B) a gene gun
C) a DNA sequencer
D) a thermocycler
E) a nucleic acid synthesis machine

A) molecule necessary for PCR.
B) naturally occurring insecticide.
C) foreign substance that stimulates immunity.
D) genetic marker found in most plasmids.
E) substance used to make gels for DNA electrophoresis.

A) to detect unculturable organisms.
B) to generate cDNA clones.
C) in forensic investigations.
D) to generate cDNA clones and libraries.
E) for forensics and detection of unculturable organisms.

A) restriction analysis.
B) FISH.
C) cDNA synthesis.
D) microarray.
E) gel electrophoresis.

A) DNA ligase.
B) agarose.
C) reverse transcriptase.
D) restriction enzymes.
E) fluorescent synthetic nucleotides.

A) agarose
B) nitrocellulose
C) silicon chips
D) restriction fragments
E) sequencers

A) Restriction fragments
B) Reverse transcriptase and DNA polymerase
C) Synthetic DNAs and fluorescent tags
D) Compressed air and gold beads
E) DNA polymerase and DNA ligase

A) nitrocellulose membranes.
B) silicon chips and nucleic acids.
C) compressed air and gold beads.
D) micropipettes.
E) micropipettes, or compressed air and gold beads.

A) DNA polymerase
B) DNA ligase
C) restriction enzyme
D) reverse transcriptase
E) probase

A) silicon chips.
B) nitrocellulose membranes.
C) agarose.
D) gold beads.
E) paper.