TY  - JOUR
A1  - Bousquet, J.
A1  - Farrell, J.
A1  - Crooks, G.
A1  - Hellings, P.
A1  - Bel, E. H.
A1  - Bewick, M.
A1  - Chavannes, N. H.
A1  - Correia de Sousa, J.
A1  - Cruz, A. A.
A1  - Haahtela, T.
A1  - Joos, G.
A1  - Khaltaev, N.
A1  - Malva, J.
A1  - Muraro, A.
A1  - Nogues, M.
A1  - Palkonen, S.
A1  - Pedersen, S.
A1  - Robalo-Cordeiro, C.
A1  - Samolinski, B.
A1  - Strandberg, T.
A1  - Valiulis, A.
A1  - Yorgancioglu, A.
A1  - Zuberbier, T.
A1  - Bedbrook, A.
A1  - Aberer, W.
A1  - Adachi, M.
A1  - Agusti, A.
A1  - Akdis, C. A.
A1  - Akdis, M.
A1  - Ankri, J.
A1  - Alonso, A.
A1  - Annesi-Maesano, I.
A1  - Ansotegui, I. J.
A1  - Anto, J. M.
A1  - Arnavielhe, S.
A1  - Arshad, H.
A1  - Bai, C.
A1  - Baiardini, I.
A1  - Bachert, C.
A1  - Baigenzhin, A. K.
A1  - Barbara, C.
A1  - Bateman, E. D.
A1  - Beghé, B.
A1  - Ben Kheder, A.
A1  - Bennoor, K. S.
A1  - Benson, M.
A1  - Bergmann, K. C.
A1  - Bieber, T.
A1  - Bindslev-Jensen, C.
A1  - Bjermer, L.
A1  - Blain, H.
A1  - Blasi, F.
A1  - Boner, A. L.
A1  - Bonini, M.
A1  - Bonini, S.
A1  - Bosnic-Anticevitch, S.
A1  - Boulet, L. P.
A1  - Bourret, R.
A1  - Bousquet, P. J.
A1  - Braido, F.
A1  - Briggs, A. H.
A1  - Brightling, C. E.
A1  - Brozek, J.
A1  - Buhl, R.
A1  - Burney, P. G.
A1  - Bush, A.
A1  - Caballero-Fonseca, F.
A1  - Caimmi, D.
A1  - Calderon, M. A.
A1  - Calverley, P. M.
A1  - Camargos, P. A. M.
A1  - Canonica, G. W.
A1  - Camuzat, T.
A1  - Carlsen, K. H.
A1  - Carr, W.
A1  - Carriazo, A.
A1  - Casale, T.
A1  - Cepeda Sarabia, A. M.
A1  - Chatzi, L.
A1  - Chen, Y. Z.
A1  - Chiron, R.
A1  - Chkhartishvili, E.
A1  - Chuchalin, A. G.
A1  - Chung, K. F.
A1  - Ciprandi, G.
A1  - Cirule, I.
A1  - Cox, L.
A1  - Costa, D. J.
A1  - Custovic, A.
A1  - Dahl, R.
A1  - Dahlen, S. E.
A1  - Darsow, U.
A1  - De Carlo, G.
A1  - De Blay, F.
A1  - Dedeu, T.
A1  - Deleanu, D.
A1  - De Manuel Keenoy, E.
A1  - Demoly, P.
A1  - Denburg, J. A.
A1  - Devillier, P.
A1  - Didier, A.
A1  - Dinh-Xuan, A. T.
A1  - Djukanovic, R.
A1  - Dokic, D.
A1  - Douagui, H.
A1  - Dray, G.
A1  - Dubakiene, R.
A1  - Durham, S. R.
A1  - Dykewicz, M. S.
A1  - El-Gamal, Y.
A1  - Emuzyte, R.
A1  - Fabbri, L. M.
A1  - Fletcher, M.
A1  - Fiocchi, A.
A1  - Fink Wagner, A.
A1  - Fonseca, J.
A1  - Fokkens, W. J.
A1  - Forastiere, F.
A1  - Frith, P.
A1  - Gaga, M.
A1  - Gamkrelidze, A.
A1  - Garces, J.
A1  - Garcia-Aymerich, J.
A1  - Gemicioğlu, B.
A1  - Gereda, J. E.
A1  - González Diaz, S.
A1  - Gotua, M.
A1  - Grisle, I.
A1  - Grouse, L.
A1  - Gutter, Z.
A1  - Guzmán, M. A.
A1  - Heaney, L. G.
A1  - Hellquist-Dahl, B.
A1  - Henderson, D.
A1  - Hendry, A.
A1  - Heinrich, J.
A1  - Heve, D.
A1  - Horak, F.
A1  - Hourihane, J. O’. B.
A1  - Howarth, P.
A1  - Humbert, M.
A1  - Hyland, M. E.
A1  - Illario, M.
A1  - Ivancevich, J. C.
A1  - Jardim, J. R.
A1  - Jares, E. J.
A1  - Jeandel, C.
A1  - Jenkins, C.
A1  - Johnston, S. L.
A1  - Jonquet, O.
A1  - Julge, K.
A1  - Jung, K. S.
A1  - Just, J.
A1  - Kaidashev, I.
A1  - Kaitov, M. R.
A1  - Kalayci, O.
A1  - Kalyoncu, A. F.
A1  - Keil, T.
A1  - Keith, P. K.
A1  - Klimek, L.
A1  - Koffi N’Goran, B.
A1  - Kolek, V.
A1  - Koppelman, G. H.
A1  - Kowalski, M. L.
A1  - Kull, I.
A1  - Kuna, P.
A1  - Kvedariene, V.
A1  - Lambrecht, B.
A1  - Lau, S.
A1  - Larenas‑Linnemann, D.
A1  - Laune, D.
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A1  - Lipworth, B.
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A1  - Lodrup Carlsen, K.
A1  - Louis, R.
A1  - MacNee, W.
A1  - Magard, Y.
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A1  - Mahboub, B.
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A1  - Manning, P.
A1  - Mara, S.
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A1  - Masjedi, M. R.
A1  - Matignon, P.
A1  - Maurer, M.
A1  - Mavale‑Manuel, S.
A1  - Melén, E.
A1  - Melo‑Gomes, E.
A1  - Meltzer, E. O.
A1  - Menzies‑Gow, A.
A1  - Merk, H.
A1  - Michel, J. P.
A1  - Miculinic, N.
A1  - Mihaltan, F.
A1  - Milenkovic, B.
A1  - Mohammad, G. M. Y.
A1  - Molimard, M.
A1  - Momas, I.
A1  - Montilla‑Santana, A.
A1  - Morais‑Almeida, M.
A1  - Morgan, M.
A1  - Mösges, R.
A1  - Mullol, J.
A1  - Nafti, S.
A1  - Namazova‑Baranova, L.
A1  - Naclerio, R.
A1  - Neou, A.
A1  - Neffen, H.
A1  - Nekam, K.
A1  - Niggemann, B.
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A1  - O’Hehir, R. E.
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A1  - Okamoto, Y.
A1  - Okubo, K.
A1  - Ouedraogo, S.
A1  - Paggiaro, P.
A1  - Pali‑Schöll, I.
A1  - Panzner, P.
A1  - Papadopoulos, N.
A1  - Papi, A.
A1  - Park, H. S.
A1  - Passalacqua, G.
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A1  - Pawankar, R.
A1  - Pengelly, R.
A1  - Pfaar, O.
A1  - Picard, R.
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A1  - Pohl, W.
A1  - Popov, T. A.
A1  - Portejoie, F.
A1  - Potter, P.
A1  - Postma, D.
A1  - Price, D.
A1  - Rabe, K. F.
A1  - Raciborski, F.
A1  - Radier Pontal, F.
A1  - Repka‑Ramirez, S.
A1  - Reitamo, S.
A1  - Rennard, S.
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T1  - Scaling up strategies of the chronic respiratory disease programme of the European Innovation Partnership on Active and Healthy Ageing (Action Plan B3: Area 5)
JF  - Clinical and Translational Allergy
N2  - Action Plan B3 of the European Innovation Partnership on Active and Healthy Ageing (EIP on AHA) focuses on the integrated care of chronic diseases. Area 5 (Care Pathways) was initiated using chronic respiratory diseases as a model. The chronic respiratory disease action plan includes (1) AIRWAYS integrated care pathways (ICPs), (2) the joint initiative between the Reference site MACVIA-LR (Contre les MAladies Chroniques pour un VIeillissement Actif) and ARIA (Allergic Rhinitis and its Impact on Asthma), (3) Commitments for Action to the European Innovation Partnership on Active and Healthy Ageing and the AIRWAYS ICPs network. It is deployed in collaboration with the World Health Organization Global Alliance against Chronic Respiratory Diseases (GARD). The European Innovation Partnership on Active and Healthy Ageing has proposed a 5-step framework for developing an individual scaling up strategy: (1) what to scale up: (1-a) databases of good practices, (1-b) assessment of viability of the scaling up of good practices, (1-c) classification of good practices for local replication and (2) how to scale up: (2-a) facilitating partnerships for scaling up, (2-b) implementation of key success factors and lessons learnt, including emerging technologies for individualised and predictive medicine. This strategy has already been applied to the chronic respiratory disease action plan of the European Innovation Partnership on Active and Healthy Ageing.
KW  - EIP on AHA
KW  - European Innovation Partnership on Active and Healthy Ageing
KW  - AIRWAYS ICPs
KW  - MACVIA
KW  - Scaling up
KW  - Chronic respiratory diseases
KW  - ARIA
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-166874
VL  - 6
IS  - 29
ER  - 
TY  - JOUR
A1  - Aguzzi, A.
A1  - Both, K.
A1  - Anhauser, I.
A1  - Horak, I.
A1  - Rethwilm, Axel
A1  - Wagner, EF.
T1  - Expression of human foamy virus is differentially regulated during development in transgenic mice
N2  - Tbe human foamy virus (HFV) is a recently characterized member ofthe spumavirus family. Although no diseases have been unequivocally associated with HFV infection, expression of HFV regulatory genes in transgenie mice induces a characteristic aeute neuro degenerative disease and a myopathy. To better eharaeterize the sequenee of events leading to disease, and to gain a better understanding of the underlying pathogenetic meehanisms, we have analyzed in detail the transgene expression pattern during development. Transcription of a construet containing all regulatory elements and aneillary genes of mv was analyzed by in situ hybridization and was shown to occur in two distinct phases. At midgestation, low but widespread expression was first deteeted in eells of extraembryonie tissues. Later, various tissues originating from embryonie mesoderm, neuroeetoderm, and neural erest transeribed the transgene at moderate levels. However, expression deereased dramatically during late gestation and was suppressed shortly after birth. After a latency period of up to 5 weeks, transeription of the transgene resumed in single eelJs distributed irregularly in the central nervous system and in the skeletal museIe. By the age of 8 weeks, an increasing number of eells displayed much higher expression levels than in embryonie Iife and eventually underwent severe degenerative ehanges. These findings demonstrate that HFV transgene expression is differentially regulated in development and that HFV cytotoxicity may be dose-dependent. Such biphasic pattern of expression differs from that of murine retroviruses and may be explained by the specificity of HFV regulatory elements in combination with cellular faetors. Future studies of this model system should, therefore, provide novel insights in the mechanisms controlling retrovirallatency.
KW  - Virologie
Y1  - 1992
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-55290
ER  - 
TY  - JOUR
A1  - Jakobson, Liina
A1  - Vaahtera, Lauri
A1  - Tõldsepp, Kadri
A1  - Nuhkat, Maris
A1  - Wang, Cun
A1  - Wang, Yuh-Shuh
A1  - Hõrak, Hanna
A1  - Valk, Ervin
A1  - Pechter, Priit
A1  - Sindarovska, Yana
A1  - Tang, Jing
A1  - Xiao, Chuanlei
A1  - Xu, Yang
A1  - Talas, Ulvi Gerst
A1  - García-Sosa, Alfonso T.
A1  - Kangasjärvi, Saijaliisa
A1  - Maran, Uko
A1  - Remm, Maido
A1  - Roelfsema, M. Rob G.
A1  - Hu, Honghong
A1  - Kangasjärvi, Jaakko
A1  - Loog, Mart
A1  - Schroeder, Julian I.
A1  - Kollist, Hannes
A1  - Brosché, Mikael
T1  - Natural Variation in Arabidopsis Cvi-0 Accession Reveals an Important Role of MPK12 in Guard Cell CO\(_{2}\) Signaling
JF  - PLoS Biology
N2  - Plant gas exchange is regulated by guard cells that form stomatal pores. Stomatal adjustments are crucial for plant survival; they regulate uptake of CO\(_{2}\) for photosynthesis, loss of water, and entrance of air pollutants such as ozone. We mapped ozone hypersensitivity, more open stomata, and stomatal CO\(_{2}\)-insensitivity phenotypes of the Arabidopsis thaliana accession Cvi-0 to a single amino acid substitution in MITOGEN-ACTIVATED PROTEIN (MAP) KINASE 12 (MPK12). In parallel, we showed that stomatal CO\(_{2}\)-insensitivity phenotypes of a mutant cis (CO\(_{2}\)-insensitive) were caused by a deletion of MPK12. Lack of MPK12 impaired bicarbonate-induced activation of S-type anion channels. We demonstrated that MPK12 interacted with the protein kinase HIGH LEAF TEMPERATURE 1 (HT1)—a central node in guard cell CO\(_{2}\) signaling—and that MPK12 functions as an inhibitor of HT1. These data provide a new function for plant MPKs as protein kinase inhibitors and suggest a mechanism through which guard cell CO\(_{2}\) signaling controls plant water management.
KW  - MPK12
KW  - CO\(_{2}\) signaling
KW  - Arabidopsis thaliana
KW  - Cvi-0
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-166657
VL  - 14
IS  - 12
ER  -