2015
Actin Cytoskeletal Organization in Drosophila Germline Ring Canals Depends on Kelch Function in a Cullin-RING E3 Ligase
Hudson AM, Mannix KM, Cooley L. Actin Cytoskeletal Organization in Drosophila Germline Ring Canals Depends on Kelch Function in a Cullin-RING E3 Ligase. Genetics 2015, 201: 1117-1131. PMID: 26384358, PMCID: PMC4649639, DOI: 10.1534/genetics.115.181289.Peer-Reviewed Original ResearchConceptsKelch functionE3 ligaseCullin-RING E3 ligaseGermline ring canalsActin cytoskeletal organizationDrosophila kelch proteinUbiquitin ligase activityCross-link F-actinUbiquitin E3 ligaseRing canalsKelch proteinProtein substratesCytoskeletal defectsCytoskeletal organizationCytoskeletal remodelingLigase activityCullin 3KelchF-actinCytoskeletonLigaseProteasomeVivoCul3Mutagenesis
2014
A genome-wide association study of anorexia nervosa
Boraska V, Franklin C, Floyd J, Thornton L, Huckins L, Southam L, Rayner N, Tachmazidou I, Klump K, Treasure J, Lewis C, Schmidt U, Tozzi F, Kiezebrink K, Hebebrand J, Gorwood P, Adan R, Kas M, Favaro A, Santonastaso P, Fernández-Aranda F, Gratacos M, Rybakowski F, Dmitrzak-Weglarz M, Kaprio J, Keski-Rahkonen A, Raevuori A, Van Furth E, Slof-Op 't Landt M, Hudson J, Reichborn-Kjennerud T, Knudsen G, Monteleone P, Kaplan A, Karwautz A, Hakonarson H, Berrettini W, Guo Y, Li D, Schork N, Komaki G, Ando T, Inoko H, Esko T, Fischer K, Männik K, Metspalu A, Baker J, Cone R, Dackor J, DeSocio J, Hilliard C, O'Toole J, Pantel J, Szatkiewicz J, Taico C, Zerwas S, Trace S, Davis O, Helder S, Bühren K, Burghardt R, de Zwaan M, Egberts K, Ehrlich S, Herpertz-Dahlmann B, Herzog W, Imgart H, Scherag A, Scherag S, Zipfel S, Boni C, Ramoz N, Versini A, Brandys M, Danner U, de Kovel C, Hendriks J, Koeleman B, Ophoff R, Strengman E, van Elburg A, Bruson A, Clementi M, Degortes D, Forzan M, Tenconi E, Docampo E, Escaramís G, Jiménez-Murcia S, Lissowska J, Rajewski A, Szeszenia-Dabrowska N, Slopien A, Hauser J, Karhunen L, Meulenbelt I, Slagboom P, Tortorella A, Maj M, Dedoussis G, Dikeos D, Gonidakis F, Tziouvas K, Tsitsika A, Papezova H, Slachtova L, Martaskova D, Kennedy J, Levitan R, Yilmaz Z, Huemer J, Koubek D, Merl E, Wagner G, Lichtenstein P, Breen G, Cohen-Woods S, Farmer A, McGuffin P, Cichon S, Giegling I, Herms S, Rujescu D, Schreiber S, Wichmann H, Dina C, Sladek R, Gambaro G, Soranzo N, Julia A, Marsal S, Rabionet R, Gaborieau V, Dick D, Palotie A, Ripatti S, Widén E, Andreassen O, Espeseth T, Lundervold A, Reinvang I, Steen V, Le Hellard S, Mattingsdal M, Ntalla I, Bencko V, Foretova L, Janout V, Navratilova M, Gallinger S, Pinto D, Scherer S, Aschauer H, Carlberg L, Schosser A, Alfredsson L, Ding B, Klareskog L, Padyukov L, Courtet P, Guillaume S, Jaussent I, Finan C, Kalsi G, Roberts M, Logan D, Peltonen L, Ritchie G, Barrett J, Estivill X, Hinney A, Sullivan P, Collier D, Zeggini E, Bulik C. A genome-wide association study of anorexia nervosa. Molecular Psychiatry 2014, 19: 1085-1094. PMID: 24514567, PMCID: PMC4325090, DOI: 10.1038/mp.2013.187.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesAssociation studiesGenome-wide significanceReplicate data setsCase-control sampleReplicated genotypesGlobal meta-analysisIntronic variantsGenetics ConsortiumGene studiesEuropean ancestryDe novoIn silicoAN casesAnorexia nervosaReplicationMeta-analyzedMeta-analysisSPATA13Discovery dataFAM124BReplicate resultsLower body weightCul3Discovery
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