Deck 15: Genes and How They Work

A)ribosomes.
B)Golgi bodies.
C)lysosomes.
D)the endoplasmic reticulum.
E)mitochondria.

A)expression
B)replication
C)modification
D)regulation

A)coding
B)non-coding
C)replicate
D)inert

A)introns
B)exons
C)codons
D)DNA

A)amino acids.
B)nucleotides.
C)proteins.
D)histone molecules.
E)complementary bases.

A)Watson and Crick.
B)Griffith.
C)Garrod.
D)Franklin.
E)Beadle and Tatum.

A)nucleotides.
B)complementary base pairs.
C)amino acids.
D)genes.

A)mRNA molecules.
B)tRNA molecules.
C)DNA polymerase molecules.
D)rRNA molecules.
E)DNA ligase molecules.

A)proteins
B)ribosomes
C)RNAs
D)helicases

A)2
B)3
C)4
D)5

A)mitochondrial
B)ribosomal
C)DNA
D)genetic

A)proteins
B)amino acids
C)polypeptides
D)fatty acids

A)replication
B)transcription
C)unwinding
D)condensation

A)ribosome
B)replicator
C)inducer
D)promoter

A)gene amplification.
B)translation.
C)transcription.
D)polypeptide sequencing.
E)complementary base pairing.

A)synapse
B)introsome
C)exon
D)spliceosome

A)It is an exceedingly long and fragile molecule.
B)It is packaged into successively compact formations.
C)The entire molecule has encoded information for protein synthesis.
D)In the condensed form,it is transcriptionally inactive.
E)It must be unpackaged before it can be transcribed into RNA.

A)transcription
B)translation
C)replication
D)synthesis

A)modification
B)translation
C)splicing
D)transcription

A)alternating between many chains.
B)moving three nucleotides at a time on the mRNA.
C)attaching amino acids in a random fashion.
D)selecting the tRNA molecule that fits.
E)attaching amino acids to the growing chain without charged tRNAs.

A)transcription.
B)translation.
C)replication.
D)translocation.
E)mutation.

A)RNA and DNA.
B)RNA and large proteins.
C)RNA and sugars.
D)DNA and proteins.
E)nucleosomes and RNA.

A)codon.
B)anticodon.
C)amino acid.
D)transcript.
E)templatE.

A)production of many varieties of polypeptides and proteins.
B)production of correct membranes.
C)proper conformation for water in the cells.
D)production of steroids and hormones.
E)ability to reproducE.

A)small ribosomal subunit.
B)large ribosomal subunit.
C)mRNA.
D)tRNA.
E)DNA (the gene itself).

A)4
B)8
C)16
D)32
E)64

A)thymine
B)cytosine
C)guanine
D)uracil

A)3.
B)20.
C)40.
D)80.
E)thousands.

A)all four of the nucleotide bases must be used.
B)each combination of any three nucleotides can act as a codon.
C)the first nucleotide in every codon is always the same.
D)a particular codon always specifies the same amino aciD.

A)cytoplasm.
B)mitochondria.
C)ER.
D)nucleus.
E)plasma membranE.

A)the plasma membrane.
B)the nucleus.
C)ribosomes.
D)lysosomes.
E)microbodies.

A)1
B)2
C)3
D)16
E)64

A)each codon specified a different amino acid.
B)the code of all DNA molecules is the same.
C)the proteins made from the coded information are always the same.
D)the reading of the code occurs without any punctuation.
E)the genetic code is the same in all organisms with no exceptions.

A)1.
B)2.
C)3.
D)4.
E)a variable number.

A)breaking the code.
B)decoding.
C)transcription.
D)translocation.
E)translation.

A)transcription and replication
B)replication and repression
C)protein synthesis and replication
D)mutation and cell division
E)transcription and translation

A)production of all three kinds of RNA molecules.
B)production of a lipid bilayer.
C)production of DNA copies.
D)production of many proteins and polypeptides.
E)production of all of the codons.

A)an intron.
B)an exon.
C)a release factor.
D)an initiation factor.
E)an anticodon.

A)RNA polymerase.
B)DNA polymerase.
C)carbonic anhydrase.
D)ATP synthetase.
E)transformation principlE.

A)The human insulin gene appears naturally in the bacteriA.
B)The human insulin gene is a mutated form of a bacterial gene for bacterial insulin.
C)The human insulin gene was inserted into a bacterium's genome,and since the genetic code is nearly universal,the bacterium is able to produce human insulin.
D)The human insulin gene appears in bacteria that have been exposed to radiation treatments for diabetes.
E)The human insulin gene appears naturally in the bacteria that is an inhabitant of the GI tract of diabetic patients.

A)activating enzymes.
B)codons.
C)anticodons.
D)ribosomes.
E)initiation factors.

A)anticodons.
B)introns.
C)exons.
D)nucleosomes.
E)chromomeres.

A)proteins $\rarr$ RNA $\rarr$ DNA.
B)RNA $\rarr$ DNA $\rarr$ proteins.
C)DNA $\rarr$ proteins $\rarr$ RNA.
D)DNA $\rarr$ RNA $\rarr$ proteins.

A)hydrogen bond.
B)hydrophobic bond.
C)hydrophilic bond.
D)phosphodiester bonD.
E)peptide bond.

A)mRNA.
B)tRNA.
C)ribosomes.
D)amino acids.
E)RNA polymerasE.

A)Prokaryote genes are transcribed into mRNA,which is translated immediately.Eukaryote genes contain long sequences of nucleotides that do not code for amino acids and have to be removed from the primary transcript.
B)Prokaryote genes are transcribed directly into a polypeptide,while eukaryote genes have mRNA and tRNA involved in polypeptide assembly.
C)Prokaryote genes are translated before being transcribed into mRNA.Eukaryotic genes are transcribed into mRNA and then translated.
D)Prokaryote genes are edited of all introns before being transcribed into mRNA,while eukaryotic genes are edited after mRNA formation.

A)GTP or ATP.
B)any enzymes.
C)a primer.
D)a DNA template stranD.

A)elongation of the transcript.
B)addition of a 5' cap.
C)addition of a poly A to the 3' end.
D)pre-mRNA splicing.
E)association with the spliceosomE.

A)The reason is that the third base pair on the tRNA allows some flexibility (wobble);thus,some tRNA anticodons can recognize more than one mRNA codon.
B)The reason is that some tRNA anticodons can misread some of the mRNA codons,which creates a "wobble" in the tRNA anticodons that can be repaired by RNA repair enzymes.
C)The reason is that the third base pair on the mRNA codon allows some flexibility (wobble);thus,some tRNA anticodons can recognize more than one mRNA codon.
D)The reason is that the tRNA has the flexibility to choose which mRNA codons are necessary for building the polypeptide chain.

A)anticodons.
B)release codons.
C)nonsense codons.
D)amino acid codons.
E)tRNA codons.

A)transcription.
B)translation.
C)transformation.
D)transference.
E)translocation.

A)transduction.
B)translation.
C)translocation.
D)transposon.

A)DNA polymerase binding to the promoter.
B)RNA polymerase binding to the promoter.
C)mRNA polymerase binding to the promoter.
D)tRNA polymerase binding to the promoter.

A)mRNA,rRNA,tRNA,snRNA,SRP RNA,and miRNA
B)mRNA,rRNA,tRNA,SRP RNA,and miRNA
C)mRNA,rRNA,tRNA,and snRNA
D)mRNA,rRNA,tRNA,snRNA,and SRP RNA
E)mRNA,rRNA,and tRNA

A)nucleus.
B)cytoplasm.
C)plasma membrane.
D)Golgi apparatus.
E)vacuolE.

A)AUG CGU.
B)ATG CGT.
C)UAC GCA.
D)UAG CGU.

A)ATCCGATT
B)TAGGCUGG
C)UAGCGAGG
D)TATCGGCC
E)AUCCGAUU

A)a small ribosomal subunit.
B)mRNA.
C)tRNA with methionine.
D)a release factor.
E)an initiation factor.

A)E site.
B)P site.
C)A site.
D)active site.
E)allosteric sitE.

A)is from a prokaryote.
B)is from a eukaryote.
C)can be from either a prokaryote or a eukaryote.
D)is from neither a prokaryote nor a eukaryote.

A)6
B)7
C)8
D)13

A)that the product of translation,called the primary transcript is cut and put back together to produce the mature mRNA transcript.
B)that the product of transcription,called the secondary transcript is cut and put back together to produce the mature tRNA transcript.
C)that the product of translation,called the primary transcript is cut and put back together to produce the mature tRNA transcript.
D)that the product of transcription,called the primary transcript is cut and put back together to produce the mature mRNA transcript.

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

A)DNA
B)RNA polymerase
C)mRNA
D)rRNA

A)The first nucleotide of a tRNA anticodon allows some flexibility or "wobble."
B)The second nucleotide of a tRNA anticodon allows some flexibility or "wobble."
C)The third nucleotide of a tRNA anticodon allows some flexibility or "wobble."
D)The remaining 19 tRNA anticodons are used for initiation and termination of protein synthesis.

A)exons.
B)introns.
C)axons.
D)anRNPs (snurps).
E)spliceosomE.

A)THE FAT CAT ATE THE RED RAT
B)THE CAT ATE THE RED RAT
C)THE FAC ATA TET HER EDR AT
D)THE FAT RAT ATE THE RED RAT

A)DNA
B)RNA polymerase
C)mRNA
D)rRNA

A)AGC
B)UCG
C)GAU
D)CUA

A)2
B)3
C)4
D)16
E)64

A)in the cytoplasm.
B)at the ribosome.
C)in the nucleus.
D)at the Golgi complex.
E)at the initiation of transcription.

A)DNA
B)RNA polymerase
C)mRNA
D)rRNA

A)A lariat structure could not form.
B)snRNAs could not base-pair with the 5' end of the intron.
C)The 3' poly A tail could not be added to the transcript.
D)The 5' cap could not be added to the transcript.

A)the Poly-A polymerase enzyme.
B)the mRNA.
C)the tRNA.
D)the coding strand of the DNA molecule.
E)the template strand of the DNA moleculE.

A)Grow mutagenized yeast on rich mediA.Grow yeast on minimal media,as well as on minimal media containing histidine,minimal media containing leucine,and minimal media containing both histidine and leucine.Select for yeast that do not grow on minimal media,do not grow on media supplemented with only histidine or leucine,but do grow on minimal media supplemented with both histidine and leucine.
B)Grow mutagenized yeast on minimal media.Grow yeast on rich media,as well as on minimal media containing histidine,minimal media containing leucine,and minimal media containing both histidine and leucine.Select for yeast that do not grow on rich media,do not grow on media supplemented with only histidine or leucine,but do grow on minimal media supplemented with both histidine and leucine.
C)Grow mutagenized yeast on rich media.Grow yeast on minimal media,as well as on minimal media containing histidine,minimal media containing leucine,and minimal media containing both histidine and leucine.Select for yeast that grow on minimal media,grow on media supplemented with only histidine or leucine,but do not grow on minimal media supplemented with both histidine and leucine.
D)Grow mutagenized yeast on minimal media.Grow yeast on rich media,as well as on minimal media containing histidine,minimal media containing leucine,and minimal media containing both histidine and leucine.Select for yeast that grow on rich media,grow on media supplemented with only histidine or leucine,but do not grow on minimal media supplemented with both histidine and leucine.

A)sn RNA
B)siRNA
C)SRP RNA
D)mRNA

A)moving of mRNA molecules.
B)moving of the aminoacyl-tRNA synthetases.
C)the actual moving of the amino acids to the ribosomes by the tRNA molecules.
D)the ribosome moving one more nucleotide along the mRNA molecule.
E)the ribosome moving three more nucleotides along the mRNA moleculE.

A)DNA polymerase
B)DNA helicase
C)DNA gyrase
D)RNA ligase
E)RNA polymerase

A)DNA
B)RNA polymerase
C)mRNA
D)rRNA