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Antoine Kremer Barbara Vinceti Ricardo Alia Jaroslav Burczyk Stephen Cavers Bernd Degen Reiner Finkeldey Silvia Fluch Dusan G?m?ry Felix Gugerli Hans Peter Koelewijn Jarkko Koskela Fran?ois Lef��vre Michele Morgante Gerhard Mueller-Starck Christophe Plomion Gail Taylor Jozef Turok Outi Savolainen Birgit Ziegenhagen 《Tree Genetics & Genomes》2011,7(4):869-875
This article is a summary report of the international conference "Forest ecosystem genomics and adaptation" organized by the EVOLTREE Network of Excellence in San Lorenzo de El Escorial (Madrid), Spain, from 9 to 11 June 2010. Main achievements and results of the network are presented for the eight thematic sessions and a stakeholder session. The conference has shown that adaptive responses of trees to biotic or abiotic selection pressures can now be investigated at the gene level for traits of adaptive significance. Candidate genes have been catalogued for phenological and drought-related traits in important tree families (Salicaceae, Fagaceaea and Pinaceae), and their variation in natural populations is being explored. Genomics can now be integrated in ecological research to investigate evolutionary response to climate changes in a wide range of species. New avenues of research were also highlighted as the exploration of gene networks involved in adaptive responses and the combination of experimental and modelling approaches to disentangle components of evolutionary changes triggered by climate change. The main focus of the conference was the adaptation of trees to environmental changes. The conference was organized in eight thematic sessions ranging from genomic approaches aiming at identifying genes of adaptive significance to practical issues regarding mitigation options for combating climate change. A dialogue between scientists and end users took place in the form of an ad hoc stakeholder session. A panel of end users from various forest and policy-making institutions expressed their expectations, and the discussions with the scientists addressed the potential applications of research findings to the management of genetic resources in the context of climate changes. The conference was introduced by two keynote speakers Dr. Pierre Mathy from the European Commission, Directorate General of Research, and Dr. Allen Solomon, former National Program Leader for Global Change, US Forest Service. All the thematic sessions were introduced by high-level invited speakers from the respective fields. 相似文献
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The neurotropic Borna disease virus (BDV) is unusual in that it can persistently infect neurons of the central nervous system (CNS) without causing general cell death, reflecting its favourable adaptation to the brain. The activity-dependent enhancement of neuronal network activity is however disturbed after BDV infection, possibly by its effect on the protein kinase C signalling pathway. The best model for studying BDV, which has a non-cytolytic replication strategy in primary neurons, is the rat. Infection of adult rats results in a fatal immune-mediated disease, whereas BDV establishes persistent infection of the brain in newborn rats resulting in progressive neuronal cell loss in defined regions of the CNS. Our recently developed system of BDV-infected hippocampal slice cultures has clearly shown that the onset of granule cell loss begins after the formation of the mossy fibre projection. Quantitative analysis has revealed a significant increase in synaptic density on identified remaining granule cell dendrites at 6?weeks after infection, followed by a decline. Granule cells are the major target of entorhinal afferents. However, despite an almost complete loss of dentate granule cells during BDV infection, entorhinal axons persist in their correct layer, both in vivo and in slice cultures, possibly exploiting rewiring capabilities and thereby allowing new synapse formation with available targets. These morphological observations, together with electrophysiological and biochemical data, indicate that BDV is a suitable model virus for studying virus-induced morphological and functional changes of neurons and connectivity patterns. 相似文献
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