16.3 genetics quiz
attenuator sequence
a sequence found in certain operons (trp operon) in bacteria that stops transcription soon after it has begun
the lac operon
an inducible operon regulated by sugar molecules that activate transcription (catabolic pathway)
attenuation
can also occur in high tryptophan levels
high tryptophan levels
corepressor- repressor binds to operator and blocks transcription. repressor becomes active
mRNA can form stem loops. the types of stem loops that occur
determine whether or not attenuation occurs
trpR gene
encodes the trp repressor protein
trpE, trpD, trpC, trpB, trpA
genes encode enzymes involved in tryptophan biosynthesis
trp operon
is a repressible operon regulated by tryptophan, a corepressor that binds to the repressor and turns the operon off. (anabolic pathway)
trpL
plays a regulatory role
when translation is not coupled with transcription
region 1 hydrogen bonds to region 2 and region 3 hydrogen bonds to region 4. Because a 3-4 terminator stem-loop forms, transcription will be terminated at the U-rich attenuator.
in trp operator
repressor is NOT automatically bound to the operon. must have a corepressor in order for it to inhibit transcription (in lac operon repressor is automatically bound to the operon and needs an activator to take it off of the operon and allow transcription)
3-4 stem loop
results in intrinsic termination (rho independent). terminates transcription at the u-rich attenuator.
coupled transcription and translation occur when the tryptophan concentration is very low.
the ribosome pauses at the Trp codons in the trpL gene because insufficient amounts of charged tRNAtrp are present. this pause blocks region 1 of the mRNA, so region 2 can hydrogen bond only with region 3. When this happens, the 3-4 stem loop structure cannot form. Attenuation does not occur, and RNA polymerase transcribes the rest of the operon
low tryptophan levels
transcription of the entire trp operon occurs
coupled transcription and translation occur under conditions in which a sufficient amount of tryptophan is present in the cell
translation of the trpL gene progresses to its stop codon, where the ribosome pauses. This blocks region 2 from hydrogen bonding with any region and thereby enables region 3 to hydrogen bond with region 4. This terminates transcription at the U-rich attenuator.
when tryptophan levels within the cell are very low
trp repressor cannot bind to the operator site. transcription of the trp operon takes place and cell expresses the genes required for synthesis of tryptophan
when tryptophan levels within the cell become high
tryptophan acts as a corepressor that binds to the trp repressor that allows it to bind the the trp operator site. This binding inhibits the ability of RNA polymerase to transcribe the operon. Therefore, when a high level of tryptophan is present within the cell-when the cell does not need to make more tryptophan-the trp operon is turned off
