A genome-wide association study with tissue transcriptomics identifies genetic drivers for classic bladder exstrophy
oleh: Enrico Mingardo, Glenda Beaman, Philip Grote, Agneta Nordenskjöld, William Newman, Adrian S. Woolf, Markus Eckstein, Alina C. Hilger, Gabriel C. Dworschak, Wolfgang Rösch, Anne-Karolin Ebert, Raimund Stein, Alfredo Brusco, Massimo Di Grazia, Ali Tamer, Federico M. Torres, Jose L. Hernandez, Philipp Erben, Carlo Maj, Jose M. Olmos, Jose A. Riancho, Carmen Valero, Isabel C. Hostettler, Henry Houlden, David J. Werring, Johannes Schumacher, Jan Gehlen, Ann-Sophie Giel, Benedikt C. Buerfent, Samara Arkani, Elisabeth Åkesson, Emilia Rotstein, Michael Ludwig, Gundela Holmdahl, Elisa Giorgio, Alfredo Berettini, David Keene, Raimondo M. Cervellione, Nina Younsi, Melissa Ortlieb, Josef Oswald, Bernhard Haid, Martin Promm, Claudia Neissner, Karin Hirsch, Maximilian Stehr, Frank-Mattias Schäfer, Eberhard Schmiedeke, Thomas M. Boemers, Iris A. L. M. van Rooij, Wouter F. J. Feitz, Carlo L. M. Marcelis, Martin Lacher, Jana Nelson, Benno Ure, Caroline Fortmann, Daniel P. Gale, Melanie M. Y. Chan, Kerstin U. Ludwig, Markus M. Nöthen, Stefanie Heilmann, Nadine Zwink, Ekkehart Jenetzky, Benjamin Odermatt, Michael Knapp, Heiko Reutter
| Format: | Article |
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| Diterbitkan: | Nature Portfolio 2022-11-01 |
Deskripsi
A genome-wide association study on classic bladder exstrophy reveals eight genome-wide significant loci, most of which contained genes expressed in embryonic developmental bladder stages.