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J. Bacteriol. doi:10.1128/JB.01016-07
Copyright (c) 2007, American Society for Microbiology and/or the Listed Authors/Institutions. All Rights Reserved.

Response of the hyperthermophilic archaeon Sulfolobus solfataricus to UV damage

University of Bergen, Center for GeoBiology and Department of Biology, Jahnebakken 5, N-5020 Bergen, Norway; University of Calgary, Department of Biochemistry and Molecular Biology, Sun Center of Excellence for Visual Genomics, 3330 Hospital Drive NW, Calgary, AB, Canada T2N 4N1; MRC Cancer Cell Unit, Hutchison-MRC Research Centre, Hills Road, Cambridge, CB20XZ, UK

^* To whom correspondence should be addressed. Email: csensen{at}ucalgary.ca. christa.schleper{at}bio.uib.no.

	Abstract

In order to characterize the genome-wide transcriptional response of the hyperthermophilic, aerobic crenarchaeote Sulfolobus solfataricus to UV-damage, we used high-density DNA microarrays which covered 3368 genetic features encoded on the host genome, as well as the genes of several extrachromosomal genetic elements. While no significant up-regulation of genes potentially involved in direct DNA damage reversal was observed, a specific transcriptional UV response involving 55 genes could be dissected. Although flow cytometry showed only modest perturbation of the cell cycle, strong modulation of the transcript levels of the Cdc6 replication initiator genes were observed. Up-regulation of an operon encoding Mre11 and Rad50 homologues pointed to induction of recombinational repair. Consistent with this, DNA double-strand breaks were observed between 2 and 8 hours after UV treatment, possibly resulting from replication fork collapse at damaged DNA sites. The strong transcriptional induction of genes which are potentially encoding functions for pilus formation suggested that conjugational activity might lead to enhanced exchange of genetic material. In support of this, a statistical microscopic analysis demonstrated that large cell aggregates formed upon UV exposure. Together, this provided supporting evidence to a link between recombinational repair and conjugation events.

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