What sequence or sequences directly control translation in bacteria? Question op
ID: 41125 • Letter: W
Question
What sequence or sequences directly control translation in bacteria?
Question options:
cap, start codon, stop codon.
enhancers, silencers, operator, promoter, polyadenylation signal.
5 prime end of RNA, GU-splice site, branch point-A, AG-splice site, polyadenylation signal.
repressors, activators, cap, start codon, stop codon.
promoters, GU-splice site, branch point-A, AG-splice site, polyadenylation signal.
enhancers, silencers, promoters, polyadenylation signal.
repressors, activators.
attenuators, Shine-Dalgarno sequence, start codon, stop codon
activator binding site, promoter, operator, termination site
Shine-Dalgarno sequence, start codon, stop codon.
attenuator sequence
start codon, stop codon
cap, start codon, stop codon.
enhancers, silencers, operator, promoter, polyadenylation signal.
5 prime end of RNA, GU-splice site, branch point-A, AG-splice site, polyadenylation signal.
repressors, activators, cap, start codon, stop codon.
promoters, GU-splice site, branch point-A, AG-splice site, polyadenylation signal.
enhancers, silencers, promoters, polyadenylation signal.
repressors, activators.
attenuators, Shine-Dalgarno sequence, start codon, stop codon
activator binding site, promoter, operator, termination site
Shine-Dalgarno sequence, start codon, stop codon.
attenuator sequence
start codon, stop codon
Explanation / Answer
Activator binding site,promoter,operator,termination site
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