Deck 13: Regulation of Gene Expression in Eukaryotes

A) Contains nitrogen
B) High molecular weight
C) Composed of nucleic acids
D) Both A and B
E) All of the above

A) To make more mRNA
B) To direct transcription
C) To attach amino acids onto the appropriate tRNAs
D) To unwind the double-stranded DNA helix to enable translation
E) To hold mRNA and tRNAs in the correct positions to enable translation

A) For every amino acid, there is one codon.
B) For every codon, there is one amino acid.
C) A codon may signify more than one amino acid.
D) All of these are correct.
E) None of these are correct.

A) basic and nonpolar.
B) neutral and nonpolar.
C) acidic and nonpolar.
D) acidic and polar.
E) neutral and polar.

A) 64
B) 10
C) 20
D) 46
E) 3

A) protein primary structure.
B) protein secondary structure.
C) tRNA secondary structure.
D) protein quaternary structure.
E) protein tertiary structure.

A) degenerate.
B) universal.
C) wobbly.
D) nonspecific.
E) ambiguous.

A) The ribosome reaches a start codon.
B) The ribosome runs out of charged tRNAs.
C) The ribosome reaches a stop codon.
D) The ribosome reaches the end of the mRNA.
E) The polypeptide chain folds into a protein.

A) In the centriole
B) In the nucleus
C) Anywhere in the cell
D) In the nucleolus
E) In the cytoplasm

A) RNA polymerase
B) DNA polymerase
C) tRNA ligase
D) Aminoacyl-tRNA synthetase
E) Peptidyl transferase

A) amino group, phosphate group
B) carboxyl group, sulfide group
C) R group, R group
D) amino group, carboxyl group
E) amino group, R group

A) It will not be affected.
B) The reading frame will be shifted to the left, and the wrong amino acids will be added from this point on.
C) There will be a single amino acid substitution.
D) Elongation will stop prematurely.
E) None of the above

A) Shine-Dalgarno
B) Pribnow
C) Kozak
D) Goldberg-Hogness
E) Khorana

A) A globular ball
B) A beta-pleated sheet
C) A straight strand
D) A right-handed helix
E) A three-dimensional cloverleaf

A) Arginine
B) Tryptophan (no change)
C) Threonine
D) Serine
E) A stop codon will halt translation.

A) Because the bacterial gene hijacks the carrot's cellular machinery
B) Because of the degeneracy of the genetic code
C) Because the genetic code is the same in both organisms
D) Because of the wobble phenomenon
E) A carrot cannot express a bacterial gene.

A) The tRNA in the P site falls off the ribosome.
B) The ribosome shifts by one codon toward the 3' end of the mRNA.
C) A new charged tRNA moves into the A site.
D) The bond is broken between the tRNA at the P site and its amino acid, and a peptide bond is formed between this amino acid and the one attached to the tRNA in the A site.
E) The elongation factor EF-Tu is recycled.

A) the one-gene-one-enzyme hypothesis.
B) the genetic code.
C) the one-gene-one-polypeptide hypothesis.
D) biochemical reactions among nucleic acids.
E) All of these

A) It catalyzes peptidyl transferase activity.
B) It binds to an mRNA codon and carries the corresponding amino acid.
C) It helps fold up the finished polypeptide chain.
D) It couples an amino acid with aminoacyl-tRNA synthetase.
E) It brings together two subunits of a ribosome.