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Mapping the structural change caused by tetracycline binding to the ykkCD antibiotic sensor RNA

Riboswitches are naturally occurring RNA aptamers that form a precise three-­dimensional structure and selectively bind to cellular target molecules. Binding of the target molecule initiates an allosteric structural change in the riboswitch that in turn regulates expression of a relevant target gene. Most riboswitches specifically recognize the metabolic product of the gene that is being regulated. Expression may be regulated at either transcription or translation stage of gene expression. Most riboswitches are off switches meaning they turn off expression of metabolite producing gene when metabolite concentration is high enough. The ykkCD putative riboswitch appears to increases production of an efflux pump that expels toxic drugs from the cell by binding to the antibiotic tetracycline. Based on previous data collected the ykkCD putative riboswitch seems to regulate the efflux pump at the transcriptional level. To confirm this hypothesis we want to map the structural change that takes place upon binding of the antibiotic tetracycline to the mRNA. Nucleic acid footprinting studies will be used to map the binding site of tetracycline and the allosteric change that takes place upon tetracycline binding. / Department of Chemistry

Identiferoai:union.ndltd.org:BSU/oai:cardinalscholar.bsu.edu:123456789/197430
Date20 July 2013
CreatorsHowell, Laura Ashley
ContributorsFernandez, Timea
Source SetsBall State University
Detected LanguageEnglish

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