Publications (65) View all
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Article: Phylogenetic- and genome-derived insight into the evolution of N-glycosylation in Archaea.
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ABSTRACT: N-glycosylation, the covalent attachment of oligosaccharides to target protein Asn residues, is a post-translational modification that occurs in all three domains of life. In Archaea, the N-linked glycans that decorate experimentally characterized glycoproteins reveal a diversity in composition and content unequaled by their bacterial or eukaryal counterparts. At the same time, relatively little is known of archaeal N-glycosylation pathways outside of a handful of model strains. To gain insight into distribution and evolutionary history of the archaeal version of this universal protein-processing event, 168 archaeal genome sequences were scanned for the presence of aglB, encoding the known archaeal oligosaccharyltransferase, an enzyme key to N-glycosylation. Such analysis predicts the presence of AglB in 166 species, with some species predicted to contain multiple versions of the protein. Phylogenetic analysis reveals that the events leading to aglB duplication occurred at various points during archaeal evolution. In many cases, aglB is found as part of a cluster of putative N-glycosylation genes. The presence, arrangement and nucleotide composition of genes in aglB-based clusters in five species of the halophilic archaeon Haloferax points to lateral gene transfer as contributing to the evolution of archaeal N-glycosylation.Molecular Phylogenetics and Evolution 04/2013; · 3.61 Impact Factor -
Article: Cell fusion and hybrids in Archaea: Prospects for genome shuffling and accelerated strain development for biotechnology.
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ABSTRACT: The ability to exchange DNA between cells is a molecular process that exists in different species in the domain Archaea. Such horizontal gene transfer events were shown to take place between distant species of archaea and to result in the transfer of large genomic regions. Here we describe recent progress in this field, discuss the potential use of natural gene exchange processes to perform genome shuffling and argue its possible biotechnological applications.Bioengineered. 10/2012; 4(3). -
Article: CRISPR/Cas systems in archaea: What array spacers can teach us about parasitism and gene exchange in the 3rd domain of life.
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ABSTRACT: CRISPR (Clustered, Regularly, Interspaced, Short, Palindromic Repeats) loci have been shown to provide prokaryotes with an adaptive immunity against viruses and plasmids. CRISPR arrays are transcribed and processed into small CRISPR RNA molecules, which base-pair with invading DNA or RNA and lead to its degradation by CRISPR-associated (Cas) protein complexes. New spacers can be acquired by active CRISPR/Cas systems, and thus the sequences of these spacers provide a record of the past "infection history" of the organism. Recently we used spacer sequences from archaeal genomes to infer gene exchange events among archaeal species and genera and to demonstrate that at least in this domain of life CRISPR indeed has an anti-viral role.Mobile genetic elements. 01/2012; 2(1):63-64. -
Article: A genetic investigation of the KEOPS complex in halophilic Archaea.
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ABSTRACT: KEOPS is an important cellular complex conserved in Eukarya, with some subunits conserved in Archaea and Bacteria. This complex was recently found to play an essential role in formation of the tRNA modification threonylcarbamoyladenosine (t(6)A), and was previously associated with telomere length maintenance and transcription. KEOPS subunits are conserved in Archaea, especially in the Euryarchaea, where they had been studied in vitro. Here we attempted to delete the genes encoding the four conserved subunits of the KEOPS complex in the euryarchaeote Haloferax volcanii and study their phenotypes in vivo. The fused kae1-bud32 gene was shown to be essential as was cgi121, which is dispensable in yeast. In contrast, pcc1 (encoding the putative dimerizing unit of KEOPS) was not essential in H. volcanii. Deletion of pcc1 led to pleiotropic phenotypes, including decreased growth rate, reduced levels of t(6)A modification, and elevated levels of intra-cellular glycation products.PLoS ONE 01/2012; 7(8):e43013. · 4.09 Impact Factor -
Article: Fine-scale temporal dynamics of a fragmented lotic microbial ecosystem.
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ABSTRACT: Microbial ecosystems are often assumed to be relatively stable over short periods of time, but this assumption is seldom tested. An urban stream influenced by both flow and varying levels of anthropogenic influences is expected to have high temporal variability in microbial composition, and short-term ecological instability. Thus, we analyzed the bacterioplankton composition of a weir-fragmented urban stream using Automated rRNA Intergenic Spacer Analysis (ARISA). A total of 46 sequential samples were collected in July 2009 for 7 days, every 7 hours, from both the up-stream side of the weir (stream water) and the downstream side of the weir (estuarine) water. Bray-Curtis similarity based analysis showed a clear division between upstream and downstream communities. A sudden pH drop induced change in both communities, but composition stability partially recovered within less than a day. Thus, our results show that microbial ecosystems can change rapidly, but re-establish a new equilibrium relatively quickly.Scientific Reports 01/2012; 2:207.
