The transcriptional landscape of age in human peripheral blood

Peters, M.; Joehanes, R.; Pilling, L.; Schurmann, C.; Conneely, K.; Powell, J.; Reinmaa, E.; Sutphin, G.; Zhernakova, A.; Schramm, K.; Wilson, Y.; Kobes, S.; Tukiainen, T.; Ramos, Y.; Göring, H.; Fornage, M.; Liu, Y.; Gharib, S.; Stranger, B.; De Jager, P.; Aviv, A.; Levy, D.; Murabito, J.; Munson, P.; Huan, T.; Hofman, A.; Uitterlinden, A.; Rivadeneira, F.; Van Rooij, J.; Stolk, L.; Broer, L.; Verbiest, M.; Jhamai, M.; Arp, P.; Metspalu, A.; Tserel, L.; Milani, L.; Samani, N.; Peterson, P.; Kasela, S.; Codd, V.; Peters, A.; Ward-Caviness, C.; Herder, C.; Waldenberger, M.; Roden, M.; Singmann, P.; Zeilinger, S.; Illig, T.; Homuth, G.; Grabe, H.; Völzke, H.; Steil, L.; Kocher, T.; Murray, A.; Melzer, D.; Yaghootkar, H.; Bandinelli, S.; Moses, Eric; Kent, J.; Curran, J.; Johnson, M.; Williams-Blangero, S.; Westra, H.; McRae, A.; Smith, J.; Kardia, S.; Hovatta, I.; Perola, M.; Ripatti, S.; Salomaa, V.; Henders, A.

doi:10.1038/ncomms9570

dc.contributor.author	Peters, M.
dc.contributor.author	Joehanes, R.
dc.contributor.author	Pilling, L.
dc.contributor.author	Schurmann, C.
dc.contributor.author	Conneely, K.
dc.contributor.author	Powell, J.
dc.contributor.author	Reinmaa, E.
dc.contributor.author	Sutphin, G.
dc.contributor.author	Zhernakova, A.
dc.contributor.author	Schramm, K.
dc.contributor.author	Wilson, Y.
dc.contributor.author	Kobes, S.
dc.contributor.author	Tukiainen, T.
dc.contributor.author	Ramos, Y.
dc.contributor.author	Göring, H.
dc.contributor.author	Fornage, M.
dc.contributor.author	Liu, Y.
dc.contributor.author	Gharib, S.
dc.contributor.author	Stranger, B.
dc.contributor.author	De Jager, P.
dc.contributor.author	Aviv, A.
dc.contributor.author	Levy, D.
dc.contributor.author	Murabito, J.
dc.contributor.author	Munson, P.
dc.contributor.author	Huan, T.
dc.contributor.author	Hofman, A.
dc.contributor.author	Uitterlinden, A.
dc.contributor.author	Rivadeneira, F.
dc.contributor.author	Van Rooij, J.
dc.contributor.author	Stolk, L.
dc.contributor.author	Broer, L.
dc.contributor.author	Verbiest, M.
dc.contributor.author	Jhamai, M.
dc.contributor.author	Arp, P.
dc.contributor.author	Metspalu, A.
dc.contributor.author	Tserel, L.
dc.contributor.author	Milani, L.
dc.contributor.author	Samani, N.
dc.contributor.author	Peterson, P.
dc.contributor.author	Kasela, S.
dc.contributor.author	Codd, V.
dc.contributor.author	Peters, A.
dc.contributor.author	Ward-Caviness, C.
dc.contributor.author	Herder, C.
dc.contributor.author	Waldenberger, M.
dc.contributor.author	Roden, M.
dc.contributor.author	Singmann, P.
dc.contributor.author	Zeilinger, S.
dc.contributor.author	Illig, T.
dc.contributor.author	Homuth, G.
dc.contributor.author	Grabe, H.
dc.contributor.author	Völzke, H.
dc.contributor.author	Steil, L.
dc.contributor.author	Kocher, T.
dc.contributor.author	Murray, A.
dc.contributor.author	Melzer, D.
dc.contributor.author	Yaghootkar, H.
dc.contributor.author	Bandinelli, S.
dc.contributor.author	Moses, Eric
dc.contributor.author	Kent, J.
dc.contributor.author	Curran, J.
dc.contributor.author	Johnson, M.
dc.contributor.author	Williams-Blangero, S.
dc.contributor.author	Westra, H.
dc.contributor.author	McRae, A.
dc.contributor.author	Smith, J.
dc.contributor.author	Kardia, S.
dc.contributor.author	Hovatta, I.
dc.contributor.author	Perola, M.
dc.contributor.author	Ripatti, S.
dc.contributor.author	Salomaa, V.
dc.contributor.author	Henders, A.
dc.date.accessioned	2017-01-30T11:44:21Z
dc.date.available	2017-01-30T11:44:21Z
dc.date.created	2016-01-20T20:00:34Z
dc.date.issued	2015
dc.identifier.citation	Peters, M. and Joehanes, R. and Pilling, L. and Schurmann, C. and Conneely, K. and Powell, J. and Reinmaa, E. et al. 2015. The transcriptional landscape of age in human peripheral blood. Nature Communications. 6: Article ID 8570.
dc.identifier.uri	http://hdl.handle.net/20.500.11937/14537
dc.identifier.doi	10.1038/ncomms9570
dc.description.abstract	Disease incidences increase with age, but the molecular characteristics of ageing that lead to increased disease susceptibility remain inadequately understood. Here we perform a whole-blood gene expression meta-analysis in 14,983 individuals of European ancestry (including replication) and identify 1,497 genes that are differentially expressed with chronological age. The age-associated genes do not harbor more age-associated CpG-methylation sites than other genes, but are instead enriched for the presence of potentially functional CpG-methylation sites in enhancer and insulator regions that associate with both chronological age and gene expression levels. We further used the gene expression profiles to calculate the ‘transcriptomic age’ of an individual, and show that differences between transcriptomic age and chronological age are associated with biological features linked to ageing, such as blood pressure, cholesterol levels, fasting glucose, and body mass index. The transcriptomic prediction model adds biological relevance and complements existing epigenetic prediction models, and can be used by others to calculate transcriptomic age in external cohorts.
dc.title	The transcriptional landscape of age in human peripheral blood
dc.type	Journal Article
dcterms.source.volume	6
dcterms.source.startPage	1
dcterms.source.endPage	14
dcterms.source.title	Nature Communications
curtin.department	School of Biomedical Sciences
curtin.accessStatus	Open access via publisher

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