FMN riboswitch

http://dbpedia.org/resource/FMN_riboswitch an entity of type: WikicatCis-regulatoryRNAElements

The FMN riboswitch (also known as RFN element) is a highly conserved RNA element which is naturally occurring, and is found frequently in the 5'-untranslated regions of prokaryotic mRNAs that encode for flavin mononucleotide (FMN) biosynthesis and transport proteins. This element is a metabolite-dependent riboswitch that directly binds FMN in the absence of proteins, thus giving it the ability to regulate RNA expression by responding to changes in the concentration of FMN. In Bacillus subtilis, previous studies have shown that this bacterium utilizes at least two FMN riboswitches, where one controls translation initiation, and the other controls premature transcription termination. Regarding the second riboswitch in Bacilius subtilis, premature transcription termination occurs within the 5 rdf:langString
rdf:langString FMN riboswitch
rdf:langString FMN riboswitch
xsd:integer 11420842
xsd:integer 1089435193
rdf:langString RFN
rdf:langString Predicted secondary structure and sequence conservation of FMN
rdf:langString RF00050
rdf:langString FMN
rdf:langString The FMN riboswitch (also known as RFN element) is a highly conserved RNA element which is naturally occurring, and is found frequently in the 5'-untranslated regions of prokaryotic mRNAs that encode for flavin mononucleotide (FMN) biosynthesis and transport proteins. This element is a metabolite-dependent riboswitch that directly binds FMN in the absence of proteins, thus giving it the ability to regulate RNA expression by responding to changes in the concentration of FMN. In Bacillus subtilis, previous studies have shown that this bacterium utilizes at least two FMN riboswitches, where one controls translation initiation, and the other controls premature transcription termination. Regarding the second riboswitch in Bacilius subtilis, premature transcription termination occurs within the 5' untranslated region of the ribDEAHT operon, precluding access to the ribosome-binding site of ypaA mRNA. FMN riboswitches also have various magnesium and potassium ions dispersed throughout the nucleotide structure, some of which participate in binding of FMN. In the bacterium Fusobacterium nucleatum, FMN binding has been studied. The FMN riboswitch is able to selectively bind the FMN molecule due to several distinct nucleic acid residues, as well as some of the magnesium ions present in the overall riboswitch structure. FMN’s planar isoalloxazine ring system intercalates between A48 and A85 residues on the riboswitch, thereby providing a continuous stacking alignment. Further, the uracil-like edge of the ring system forms specific Watson–Crick-like hydrogen bonds with a highly conserved A99 residue on the riboswitch. An additional structural moiety of FMN, the ribityl group, uses one of its four oxygens for hydrogen bonding, whereas phosphate oxygens form additional hydrogen bonds with Watson–Crick edges of several conserved guanines. The interaction between the phosphate of FMN and the RNA is also bridged by a magnesium ion, which directly coordinates the phosphate oxygen of FMN and a G33 residue, and forms several water-mediated contacts with neighboring nucleotides.
rdf:langString RF00050
xsd:nonNegativeInteger 9885

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