6533b830fe1ef96bd12972cd
RESEARCH PRODUCT
The IStron CdISt1 of Clostridium difficile: molecular symbiosis of a group I intron and an insertion element
Veit BraunClaudia NitscheOliver HasselmayerChristoph Von Eichel-streibersubject
GeneticsInfectious DiseasesbiologySymbiosisIntronClostridium difficileORFSbiology.organism_classificationMicrobiologyGeneGenomeBacteriaFunction (biology)description
Abstract The IStron CdISt1 was first discovered as an insertion into the tcdA gene of the clinical isolate C34. It combines structural and functional properties of a group I intron at its 5′-end with those of an insertion element at its 3′-end. Up to date four different types could be found, mainly differing in their IS-element portions. Contrasting classical group I introns, CdISt1 is always integrated in ORFs encoding bacterial protein. In case CdISt1 had only the IS-element function such insertion would inactivate the protein encoded by the host gene. It is only due to the self-splicing activity of the group I intron parts that CdISt1 integration does not abolish protein function. Both elements seem to exist in molecular symbiosis and CdISt1 could thus be a prototype of a novel class of genetic elements. Moreover, integration of the CdISt1 into the genome could be advantageous for the bacterium, a motor function for evolution of bacterial proteins is discussed. In clinical practice CdISt1 might well serve as a tool for epidemiological studies of C. difficile infections.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-08-05 | Anaerobe |