Human Genome Epidemiology Literature Finder
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Records 1 - 5 (of 5 Records) |
| Query Trace: Disease and GFRA2[original query] |
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| Investigation of germline GFRA4 mutations and evaluation of the involvement of GFRA1, GFRA2, GFRA3, and GFRA4 sequence variants in Hirschsprung disease. Journal of medical genetics 2003 Mar 40 (3): e18. Borrego S, Fernández R M, Dziema H, Niess A, López-Alonso M, Antiñolo G, Eng |
| Glial cell line-derived neurotrophic factor receptor alpha 2 (GFRA2) gene is associated with tardive dyskinesia. Psychopharmacology 2010 Jun 210 (3): 347-54. Souza Renan P, de Luca Vincenzo, Remington Gary, Lieberman Jeffrey A, Meltzer Herbert Y, Kennedy James L, Wong Albert H |
A genome-wide association study suggests an association of Chr8p21.3 (GFRA2) with diabetic neuropathic pain.
European journal of pain (London, England) 2015 Mar 19 (3): 392-9. Meng W, Deshmukh H A, van Zuydam N R, Liu Y, Donnelly L A, Zhou K, , , Morris A D, Colhoun H M, Palmer C N A, Smith B |
| Potential genetic modifiers of disease risk and age at onset in patients with frontotemporal lobar degeneration and GRN mutations: a genome-wide association study.
The Lancet. Neurology 2018 Jun 17 (6): 548-558. Pottier Cyril, Zhou Xiaolai, Perkerson Ralph B, Baker Matt, Jenkins Gregory D, Serie Daniel J, Ghidoni Roberta, Benussi Luisa, Binetti Giuliano, López de Munain Adolfo, Zulaica Miren, Moreno Fermin, Le Ber Isabelle, Pasquier Florence, Hannequin Didier, Sánchez-Valle Raquel, Antonell Anna, Lladó Albert, Parsons Tammee M, Finch NiCole A, Finger Elizabeth C, Lippa Carol F, Huey Edward D, Neumann Manuela, Heutink Peter, Synofzik Matthis, Wilke Carlo, Rissman Robert A, Slawek Jaroslaw, Sitek Emilia, Johannsen Peter, Nielsen Jørgen E, Ren Yingxue, van Blitterswijk Marka, DeJesus-Hernandez Mariely, Christopher Elizabeth, Murray Melissa E, Bieniek Kevin F, Evers Bret M, Ferrari Camilla, Rollinson Sara, Richardson Anna, Scarpini Elio, Fumagalli Giorgio G, Padovani Alessandro, Hardy John, Momeni Parastoo, Ferrari Raffaele, Frangipane Francesca, Maletta Raffaele, Anfossi Maria, Gallo Maura, Petrucelli Leonard, Suh EunRan, Lopez Oscar L, Wong Tsz H, van Rooij Jeroen G J, Seelaar Harro, Mead Simon, Caselli Richard J, Reiman Eric M, Noel Sabbagh Marwan, Kjolby Mads, Nykjaer Anders, Karydas Anna M, Boxer Adam L, Grinberg Lea T, Grafman Jordan, Spina Salvatore, Oblak Adrian, Mesulam M-Marsel, Weintraub Sandra, Geula Changiz, Hodges John R, Piguet Olivier, Brooks William S, Irwin David J, Trojanowski John Q, Lee Edward B, Josephs Keith A, Parisi Joseph E, Ertekin-Taner Nilüfer, Knopman David S, Nacmias Benedetta, Piaceri Irene, Bagnoli Silvia, Sorbi Sandro, Gearing Marla, Glass Jonathan, Beach Thomas G, Black Sandra E, Masellis Mario, Rogaeva Ekaterina, Vonsattel Jean-Paul, Honig Lawrence S, Kofler Julia, Bruni Amalia C, Snowden Julie, Mann David, Pickering-Brown Stuart, Diehl-Schmid Janine, Winkelmann Juliane, Galimberti Daniela, Graff Caroline, Öijerstedt Linn, Troakes Claire, Al-Sarraj Safa, Cruchaga Carlos, Cairns Nigel J, Rohrer Jonathan D, Halliday Glenda M, Kwok John B, van Swieten John C, White Charles L, Ghetti Bernardino, Murell Jill R, Mackenzie Ian R A, Hsiung Ging-Yuek R, Borroni Barbara, Rossi Giacomina, Tagliavini Fabrizio, Wszolek Zbigniew K, Petersen Ronald C, Bigio Eileen H, Grossman Murray, Van Deerlin Vivianna M, Seeley William W, Miller Bruce L, Graff-Radford Neill R, Boeve Bradley F, Dickson Dennis W, Biernacka Joanna M, Rademakers Ro |
| Potential Drug Targets for Diabetic Retinopathy Identified Through Mendelian Randomization Analysis. Translational vision science & technology 2024 11 13 (11): 17. Huan Liu, Feiyan Wang, Ziqing Hu, Jing W |
- Page last reviewed:Feb 1, 2024
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