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The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48%) and type 2 diabetes (49%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases
Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis / E.A. Stahl, D. Wegmann, G. Trynka, J. Gutierrez-Achury, B.F. Do R, Voight, P. Kraft, R. Chen, H.J. Kallberg, F.A. Kurreeman, S. Kathiresan, C. Wijmenga, P.K. Gregersen, L. Alfredsson, K.A. Siminovitch, J. Worthington, P.I. de Bakker, S. Raychaudhuri, R.M. Plenge, B.F. Voight, L.J. Scott, V. Steinthorsdottir, A.P. Morris, C. Dina, R.P. Welch, E. Zeggini, C. Huth, Y.S. Aulchenko, G. Thorleifsson, L.J. McCulloch, T. Ferreira, H. Grallert, N. Amin, G. Wu, C.J. Willer, S. Raychaudhuri, S.A. McCarroll, C. Langenberg, O.M. Hofmann, J. Dupuis, L. Qi, A.V. Segrè, M. van Hoek, P. Navarro, K. Ardlie, B. Balkau, R. Benediktsson, A.J. Bennett, R. Blagieva, E. Boerwinkle, L.L. Bonnycastle, K.B. Boström, B. Bravenboer, S. Bumpstead, N.P. Burtt, G. Charpentier, P.S. Chines, M. Cornelis, D.J. Couper, G. Crawford, A.S. Doney, K.S. Elliott, A.L. Elliott, M.R. Erdos, C.S. Fox, C.S. Franklin, M. Ganser, C. Gieger, N. Grarup, T. Green, S. Griffin, C.J. Groves, C. Guiducci, S. Hadjadj, N. Hassanali, C. Herder, B. Isomaa, A.U. Jackson, P.R. Johnson, T. Jørgensen, W.H. Kao, N. Klopp, A. Kong, P. Kraft, J. Kuusisto, T. Lauritzen, M. Li, A. Lieverse, C.M. Lindgren, V. Lyssenko, M. Marre, T. Meitinger, K. Midthjell, M.A. Morken, N. Narisu, P. Nilsson, K.R. Owen, F. Payne, J.R. Perry, A.K. Petersen, C. Platou, C. Proença, I. Prokopenko, W. Rathmann, N.W. Rayner, N.R. Robertson, G. Rocheleau, M. Roden, M.J. Sampson, R. Saxena, B.M. Shields, P. Shrader, G. Sigurdsson, T. Sparsø, K. Strassburger, H.M. Stringham, Q. Sun, A.J. Swift, B. Thorand, J. Tichet, T. Tuomi, R.M. van Dam, T.W. van Haeften, T. van Herpt, J.V. van Vliet-Ostaptchouk, G.B. Walters, M.N. Weedon, C. Wijmenga, J. Witteman, R.N. Bergman, S. Cauchi, F.S. Collins, A.L. Gloyn, U. Gyllensten, T. Hansen, W.A. Hide, G.A. Hitman, A. Hofman, D.J. Hunter, K. Hveem, M. Laakso, K.L. Mohlke, A.D. Morris, C.N. Palmer, P.P. Pramstaller, I. Rudan, E. Sijbrands, L.D. Stein, J. Tuomilehto, A. Uitterlinden, M. Walker, N.J. Wareham, R.M. Watanabe, G.R. Abecasis, B.O. Boehm, H. Campbell, M.J. Daly, A.T. Hattersley, F.B. Hu, J.B. Meigs, J.S. Pankow, O. Pedersen, H.E. Wichmann, I. Barroso, J.C. Florez, T.M. Frayling, L. Groop, R. Sladek, U. Thorsteinsdottir, J.F. Wilson, T. Illig, P. Froguel, C.M. van Duijn, K. Stefansson, D. Altshuler, M. Boehnke, M.I. McCarthy, S. Kathiresan, J.B. Meigs, G. Williams, D.M. Nathan, C.A. MacRae, C.J. O'Donnell, D. Ardissino, P.A. Merlini, C. Berzuini, L. Bernardinelli, F. Peyvandi, M. Tubaro, P. Celli, M. Ferrario, R. Fetiveau, N. Marziliano, G. Casari, M. Galli, F. Ribichini, M. Rossi, F. Bernardi, P. Zonzin, A. Piazza, P.M. Mannucci, S.M. Schwartz, D.S. Siscovick, J. Yee, Y. Friedlander, R. Elosua, J. Marrugat, G. Lucas, I. Subirana, J. Sala, R. Ramos, V. Salomaa, A.S. Havulinna, L. Peltonen, O. Melander, G. Berglund, B.F. Voight, S. Kathiresan, J.N. Hirschhorn, R. Asselta, S. Duga, M. Spreafico, K. Musunuru, M.J. Daly, S. Purcell, S.M. Schwartz, J. Yee, S. Kathiresan, G. Lucas, I. Subirana, R. Elosua, A. Surti, C. Guiducci, L. Gianniny, D. Mirel, M. Parkin, N. Burtt, S.B. Gabriel. - In: NATURE GENETICS. - ISSN 1061-4036. - 44:5(2012 Mar 25), pp. 483-489. [10.1038/ng.2232]
Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis
E. A. Stahl;D. Wegmann;G. Trynka;J. Gutierrez Achury;B. F. Do R;Voight;P. Kraft;R. Chen;H. J. Kallberg;F. A. Kurreeman;S. Kathiresan;C. Wijmenga;P. K. Gregersen;L. Alfredsson;K. A. Siminovitch;J. Worthington;P. I. de Bakker;S. Raychaudhuri;R. M. Plenge;B. F. Voight;L. J. Scott;V. Steinthorsdottir;A. P. Morris;C. Dina;R. P. Welch;E. Zeggini;C. Huth;Y. S. Aulchenko;G. Thorleifsson;L. J. McCulloch;T. Ferreira;H. Grallert;N. Amin;G. Wu;C. J. Willer;S. Raychaudhuri;S. A. McCarroll;C. Langenberg;O. M. Hofmann;J. Dupuis;L. Qi;A. V. Segrè;M. van Hoek;P. Navarro;K. Ardlie;B. Balkau;R. Benediktsson;A. J. Bennett;R. Blagieva;E. Boerwinkle;L. L. Bonnycastle;K. B. Boström;B. Bravenboer;S. Bumpstead;N. P. Burtt;G. Charpentier;P. S. Chines;M. Cornelis;D. J. Couper;G. Crawford;A. S. Doney;K. S. Elliott;A. L. Elliott;M. R. Erdos;C. S. Fox;C. S. Franklin;M. Ganser;C. Gieger;N. Grarup;T. Green;S. Griffin;C. J. Groves;C. Guiducci;S. Hadjadj;N. Hassanali;C. Herder;B. Isomaa;A. U. Jackson;P. R. Johnson;T. Jørgensen;W. H. Kao;N. Klopp;A. Kong;P. Kraft;J. Kuusisto;T. Lauritzen;M. Li;A. Lieverse;C. M. Lindgren;V. Lyssenko;M. Marre;T. Meitinger;K. Midthjell;M. A. Morken;N. Narisu;P. Nilsson;K. R. Owen;F. Payne;J. R. Perry;A. K. Petersen;C. Platou;C. Proença;I. Prokopenko;W. Rathmann;N. W. Rayner;N. R. Robertson;G. Rocheleau;M. Roden;M. J. Sampson;R. Saxena;B. M. Shields;P. Shrader;G. Sigurdsson;T. Sparsø;K. Strassburger;H. M. Stringham;Q. Sun;A. J. Swift;B. Thorand;J. Tichet;T. Tuomi;R. M. van Dam;T. W. van Haeften;T. van Herpt;J. V. van Vliet Ostaptchouk;G. B. Walters;M. N. Weedon;C. Wijmenga;J. Witteman;R. N. Bergman;S. Cauchi;F. S. Collins;A. L. Gloyn;U. Gyllensten;T. Hansen;W. A. Hide;G. A. Hitman;A. Hofman;D. J. Hunter;K. Hveem;M. Laakso;K. L. Mohlke;A. D. Morris;C. N. Palmer;P. P. Pramstaller;I. Rudan;E. Sijbrands;L. D. Stein;J. Tuomilehto;A. Uitterlinden;M. Walker;N. J. Wareham;R. M. Watanabe;G. R. Abecasis;B. O. Boehm;H. Campbell;M. J. Daly;A. T. Hattersley;F. B. Hu;J. B. Meigs;J. S. Pankow;O. Pedersen;H. E. Wichmann;I. Barroso;J. C. Florez;T. M. Frayling;L. Groop;R. Sladek;U. Thorsteinsdottir;J. F. Wilson;T. Illig;P. Froguel;C. M. van Duijn;K. Stefansson;D. Altshuler;M. Boehnke;M. I. McCarthy;S. Kathiresan;J. B. Meigs;G. Williams;D. M. Nathan;C. A. MacRae;C. J. O'Donnell;D. Ardissino;P. A. Merlini;C. Berzuini;L. Bernardinelli;F. Peyvandi;M. Tubaro;P. Celli;M. Ferrario;R. Fetiveau;N. Marziliano;G. Casari;M. Galli;F. Ribichini;M. Rossi;F. Bernardi;P. Zonzin;A. Piazza;P.M. Mannucci;S. M. Schwartz;D. S. Siscovick;J. Yee;Y. Friedlander;R. Elosua;J. Marrugat;G. Lucas;I. Subirana;J. Sala;R. Ramos;V. Salomaa;A. S. Havulinna;L. Peltonen;O. Melander;G. Berglund;B. F. Voight;S. Kathiresan;J. N. Hirschhorn;R. Asselta;S. Duga;M. Spreafico;K. Musunuru;M. J. Daly;S. Purcell;S. M. Schwartz;J. Yee;S. Kathiresan;G. Lucas;I. Subirana;R. Elosua;A. Surti;C. Guiducci;L. Gianniny;D. Mirel;M. Parkin;N. Burtt;S. B. Gabriel
2012
Abstract
The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48%) and type 2 diabetes (49%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases
Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis / E.A. Stahl, D. Wegmann, G. Trynka, J. Gutierrez-Achury, B.F. Do R, Voight, P. Kraft, R. Chen, H.J. Kallberg, F.A. Kurreeman, S. Kathiresan, C. Wijmenga, P.K. Gregersen, L. Alfredsson, K.A. Siminovitch, J. Worthington, P.I. de Bakker, S. Raychaudhuri, R.M. Plenge, B.F. Voight, L.J. Scott, V. Steinthorsdottir, A.P. Morris, C. Dina, R.P. Welch, E. Zeggini, C. Huth, Y.S. Aulchenko, G. Thorleifsson, L.J. McCulloch, T. Ferreira, H. Grallert, N. Amin, G. Wu, C.J. Willer, S. Raychaudhuri, S.A. McCarroll, C. Langenberg, O.M. Hofmann, J. Dupuis, L. Qi, A.V. Segrè, M. van Hoek, P. Navarro, K. Ardlie, B. Balkau, R. Benediktsson, A.J. Bennett, R. Blagieva, E. Boerwinkle, L.L. Bonnycastle, K.B. Boström, B. Bravenboer, S. Bumpstead, N.P. Burtt, G. Charpentier, P.S. Chines, M. Cornelis, D.J. Couper, G. Crawford, A.S. Doney, K.S. Elliott, A.L. Elliott, M.R. Erdos, C.S. Fox, C.S. Franklin, M. Ganser, C. Gieger, N. Grarup, T. Green, S. Griffin, C.J. Groves, C. Guiducci, S. Hadjadj, N. Hassanali, C. Herder, B. Isomaa, A.U. Jackson, P.R. Johnson, T. Jørgensen, W.H. Kao, N. Klopp, A. Kong, P. Kraft, J. Kuusisto, T. Lauritzen, M. Li, A. Lieverse, C.M. Lindgren, V. Lyssenko, M. Marre, T. Meitinger, K. Midthjell, M.A. Morken, N. Narisu, P. Nilsson, K.R. Owen, F. Payne, J.R. Perry, A.K. Petersen, C. Platou, C. Proença, I. Prokopenko, W. Rathmann, N.W. Rayner, N.R. Robertson, G. Rocheleau, M. Roden, M.J. Sampson, R. Saxena, B.M. Shields, P. Shrader, G. Sigurdsson, T. Sparsø, K. Strassburger, H.M. Stringham, Q. Sun, A.J. Swift, B. Thorand, J. Tichet, T. Tuomi, R.M. van Dam, T.W. van Haeften, T. van Herpt, J.V. van Vliet-Ostaptchouk, G.B. Walters, M.N. Weedon, C. Wijmenga, J. Witteman, R.N. Bergman, S. Cauchi, F.S. Collins, A.L. Gloyn, U. Gyllensten, T. Hansen, W.A. Hide, G.A. Hitman, A. Hofman, D.J. Hunter, K. Hveem, M. Laakso, K.L. Mohlke, A.D. Morris, C.N. Palmer, P.P. Pramstaller, I. Rudan, E. Sijbrands, L.D. Stein, J. Tuomilehto, A. Uitterlinden, M. Walker, N.J. Wareham, R.M. Watanabe, G.R. Abecasis, B.O. Boehm, H. Campbell, M.J. Daly, A.T. Hattersley, F.B. Hu, J.B. Meigs, J.S. Pankow, O. Pedersen, H.E. Wichmann, I. Barroso, J.C. Florez, T.M. Frayling, L. Groop, R. Sladek, U. Thorsteinsdottir, J.F. Wilson, T. Illig, P. Froguel, C.M. van Duijn, K. Stefansson, D. Altshuler, M. Boehnke, M.I. McCarthy, S. Kathiresan, J.B. Meigs, G. Williams, D.M. Nathan, C.A. MacRae, C.J. O'Donnell, D. Ardissino, P.A. Merlini, C. Berzuini, L. Bernardinelli, F. Peyvandi, M. Tubaro, P. Celli, M. Ferrario, R. Fetiveau, N. Marziliano, G. Casari, M. Galli, F. Ribichini, M. Rossi, F. Bernardi, P. Zonzin, A. Piazza, P.M. Mannucci, S.M. Schwartz, D.S. Siscovick, J. Yee, Y. Friedlander, R. Elosua, J. Marrugat, G. Lucas, I. Subirana, J. Sala, R. Ramos, V. Salomaa, A.S. Havulinna, L. Peltonen, O. Melander, G. Berglund, B.F. Voight, S. Kathiresan, J.N. Hirschhorn, R. Asselta, S. Duga, M. Spreafico, K. Musunuru, M.J. Daly, S. Purcell, S.M. Schwartz, J. Yee, S. Kathiresan, G. Lucas, I. Subirana, R. Elosua, A. Surti, C. Guiducci, L. Gianniny, D. Mirel, M. Parkin, N. Burtt, S.B. Gabriel. - In: NATURE GENETICS. - ISSN 1061-4036. - 44:5(2012 Mar 25), pp. 483-489. [10.1038/ng.2232]
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E.A. Stahl, D. Wegmann, G. Trynka, J. Gutierrez Achury, B.F. Do R, Voight, P. Kraft, R. Chen, H.J. Kallberg, F.A. Kurreeman, S. Kathiresan, C. Wijmen...espandi
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simulazione ASN
Il report seguente simula gli indicatori relativi alla propria produzione scientifica in relazione alle soglie ASN 2023-2025 del proprio SC/SSD. Si ricorda che il superamento dei valori soglia (almeno 2 su 3) è requisito necessario ma non sufficiente al conseguimento dell'abilitazione. La simulazione si basa sui dati IRIS e sugli indicatori bibliometrici alla data indicata e non tiene conto di eventuali periodi di congedo obbligatorio, che in sede di domanda ASN danno diritto a incrementi percentuali dei valori. La simulazione può differire dall'esito di un’eventuale domanda ASN sia per errori di catalogazione e/o dati mancanti in IRIS, sia per la variabilità dei dati bibliometrici nel tempo. Si consideri che Anvur calcola i valori degli indicatori all'ultima data utile per la presentazione delle domande.
