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- Almén, Markus Sällman, et al.
(author)
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Genome-wide analysis reveals DNA methylation markers that vary with both age and obesity
- 2014
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In: Gene. - : Elsevier BV. - 0378-1119 .- 1879-0038. ; 548:1, s. 61-67
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Journal article (peer-reviewed)abstract
- The combination of the obesity epidemic and an aging population presents growing challenges for the healthcare system. Obesity and aging are major risk factors for a diverse number of diseases and it is of importance to understand their interaction and the underlying molecular mechanisms. Herein the authors examined the methylation levels of 27578 CpG sites in 46 samples from adult peripheral blood. The effect of obesity and aging was ascertained with general linear models. More than one hundred probes were correlated to aging, nine of which belonged to the KEGG group map04080. Additionally, 10 CpG sites had diverse methylation profiles in obese and lean individuals, one of which was the telomerase catalytic subunit (TERT). In eight of ten cases the methylation change was reverted between obese and lean individuals. One region proved to be differentially methylated with obesity (LINC00304) independent of age. This study provides evidence that obesity influences age driven epigenetic changes, which provides a molecular link between aging and obesity. This link and the identified markers may prove to be valuable biomarkers for the understanding of the molecular basis of aging, obesity and associated diseases.
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| 2. |
- Krishnan, Arunkumar, et al.
(author)
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Insights into the Origin of Nematode Chemosensory GPCRs : Putative Orthologs of the Srw Family Are Found across Several Phyla of Protostomes
- 2014
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In: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 9:3, s. e93048-
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Journal article (peer-reviewed)abstract
- Nematode chemosensory GPCRs in Caenorhabditis elegans (NemChRs) are classified into 19 gene families, and are initially thought to have split from the ancestral Rhodopsin family of GPCRs. However, earlier studies have shown that among all 19 NemChR gene families, only the srw family has a clear sequence relationship to the ancestral Rhodopsin GPCR family. Yet, the phylogenetic relationships between the srw family of NemChRs and the Rhodopsin subfamilies are not fully understood. Also, a widespread search was not previously performed to check for the presence of putative srw family-like sequences or the other 18 NemChR families in several new protostome species outside the nematode lineage. In this study, we have investigated for the presence of 19 NemChR families across 26 eukaryotic species, covering basal eukaryotic branches and provide the first evidence that the srw family of NemChRs is indeed present across several phyla of protostomes. We could identify 29 putative orthologs of the srw family in insects (15 genes), molluscs (11 genes) and Schistosoma mansoni (3 genes). Furthermore, using HMM-HMM profile based comparisons and phylogenetic analysis we show that among all Rhodopsin subfamilies, the peptide and SOG (somatostatin/opioid/galanin) subfamilies are phylogenetically the closest relatives to the srw family of NemChRs. Taken together, we demonstrate that the srw family split from the large Rhodopsin family, possibly from the peptide and/or SOG subfamilies, well before the split of the nematode lineage, somewhere close to the divergence of the common ancestor of protostomes. Our analysis also suggests that the srsx family of NemChRs shares a clear sequence homology with the Rhodopsin subfamilies, as well as with few of the vertebrate olfactory receptors. Overall, this study provides further insights into the evolutionary events that shaped the GPCR chemosensory system in protostome species.
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| 3. |
- Krishnan, Arunkumar, et al.
(author)
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The GPCR repertoire in the demosponge Amphimedon queenslandica : insights into the GPCR system at the early divergence of animals
- 2014
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In: BMC Evolutionary Biology. - : Springer Science and Business Media LLC. - 1471-2148. ; 14
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Journal article (peer-reviewed)abstract
- Background: G protein-coupled receptors (GPCRs) play a central role in eukaryotic signal transduction. However, the GPCR component of this signalling system, at the early origins of metazoans is not fully understood. Here we aim to identify and classify GPCRs in Amphimedon queenslandica (sponge), a member of an earliest diverging metazoan lineage (Porifera). Furthermore, phylogenetic comparisons of sponge GPCRs with eumetazoan and bilaterian GPCRs will be essential to our understanding of the GPCR system at the roots of metazoan evolution. Results: We present a curated list of 220 GPCRs in the sponge genome after excluding incomplete sequences and false positives from our initial dataset of 282 predicted GPCR sequences obtained using Pfam search. Phylogenetic analysis reveals that the sponge genome contains members belonging to four of the five major GRAFS families including Glutamate (33), Rhodopsin (126), Adhesion (40) and Frizzled (3). Interestingly, the sponge Rhodopsin family sequences lack orthologous relationships with those found in eumetazoan and bilaterian lineages, since they clustered separately to form sponge specific groups in the phylogenetic analysis. This suggests that sponge Rhodopsins diverged considerably from that found in other basal metazoans. A few sponge Adhesions clustered basal to Adhesion subfamilies commonly found in most vertebrates, suggesting some Adhesion subfamilies may have diverged prior to the emergence of Bilateria. Furthermore, at least eight of the sponge Adhesion members have a hormone binding motif (HRM domain) in their N-termini, although hormones have yet to be identified in sponges. We also phylogenetically clarified that sponge has homologs of metabotropic glutamate (mGluRs) and GABA receptors. Conclusion: Our phylogenetic comparisons of sponge GPCRs with other metazoan genomes suggest that sponge contains a significantly diversified set of GPCRs. This is evident at the family/subfamily level comparisons for most GPCR families, in particular for the Rhodopsin family of GPCRs. In summary, this study provides a framework to perform future experimental and comparative studies to further verify and understand the roles of GPCRs that predates the divergence of bilaterian and eumetazoan lineages.
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