2025
The human and non-human primate developmental GTEx projects
Bell T, Blanchard T, Hernandez R, Linn R, Taylor D, VonDran M, Ahooyi T, Beitra D, Bernieh A, Delaney M, Faith M, Fattahi E, Footer D, Gilbert M, Guambaña S, Gulino S, Hanson J, Hattrell E, Heinemann C, Kreeb J, Leino D, Mcdevitt L, Palmieri A, Pfeiffer M, Pryhuber G, Rossi C, Rasool I, Roberts R, Salehi A, Savannah E, Stachowicz K, Stokes D, Suplee L, Van Hoose P, Wilkins B, Williams-Taylor S, Zhang S, Ardlie K, Getz G, Lappalainen T, Montgomery S, Aguet F, Anderson L, Bernstein B, Choudhary A, Domenech L, Gaskell E, Johnson M, Liu Q, Marderstein A, Nedzel J, Okonda J, Padhi E, Rosano M, Russell A, Walker B, Sestan N, Gerstein M, Milosavljevic A, Borsari B, Cho H, Clarke D, Deveau A, Galeev T, Gobeske K, Hameed I, Huttner A, Jensen M, Jiang Y, Li J, Liu J, Liu Y, Ma J, Mane S, Meng R, Nadkarni A, Ni P, Park S, Petrosyan V, Pochareddy S, Salamon I, Xia Y, Yates C, Zhang M, Zhao H, Conrad D, Feng G, Brady F, Boucher M, Carbone L, Castro J, del Rosario R, Held M, Hennebold J, Lacey A, Lewis A, Lima A, Mahyari E, Moore S, Okhovat M, Roberts V, de Castro S, Wessel B, Zaniewski H, Zhang Q, Arguello A, Baroch J, Dayal J, Felsenfeld A, Ilekis J, Jose S, Lockhart N, Miller D, Minear M, Parisi M, Price A, Ramos E, Zou S. The human and non-human primate developmental GTEx projects. Nature 2025, 637: 557-564. PMID: 39815096, DOI: 10.1038/s41586-024-08244-9.Peer-Reviewed Original ResearchConceptsChromatin accessibility dataFunctional genomic studiesWhole-genome sequencingEffects of genetic variationSpatial gene expression profilesNon-human primatesGenotype-Tissue ExpressionGene expression profilesGenomic studiesGene regulationGenetic dataGenetic variationGenomic researchDonor diversityCommunity engagementHuman evolutionEarly developmental defectsGene expressionCell statesDevelopmental programmeHuman diseasesExpression profilesAdult tissuesDevelopmental defectsSingle-cell
2023
Rare Single Nucleotide and Copy Number Variants and the Etiology of Congenital Obstructive Uropathy: Implications for Genetic Diagnosis
Ahram D, Lim T, Ke J, Jin G, Verbitsky M, Bodria M, Kil B, Chatterjee D, Piva S, Marasa M, Zhang J, Cocchi E, Caridi G, Gucev Z, Lozanovski V, Pisani I, Izzi C, Savoldi G, Gnutti B, Capone V, Morello W, Guarino S, Esposito P, Lambert S, Radhakrishnan J, Appel G, Uy N, Rao M, Canetta P, Bomback A, Nestor J, Hays T, Cohen D, Finale C, van Wijk J, La Scola C, Baraldi O, Tondolo F, Di Renzo D, Jamry-Dziurla A, Pezzutto A, Manca V, Mitrotti A, Santoro D, Conti G, Martino M, Giordano M, Gesualdo L, Zibar L, Masnata G, Bonomini M, Alberti D, La Manna G, Caliskan Y, Ranghino A, Marzuillo P, Kiryluk K, KrzemieĆ G, Miklaszewska M, Lin F, Montini G, Scolari F, Fiaccadori E, ArapoviÄ A, Saraga M, McKiernan J, Alam S, Zaniew M, SzczepaĆska M, Szmigielska A, Sikora P, DroĆŒdĆŒ D, Mizerska-Wasiak M, Mane S, Lifton R, Tasic V, Latos-Bielenska A, Gharavi A, Ghiggeri G, Materna-Kiryluk A, Westland R, Sanna-Cherchi S. Rare Single Nucleotide and Copy Number Variants and the Etiology of Congenital Obstructive Uropathy: Implications for Genetic Diagnosis. Journal Of The American Society Of Nephrology 2023, 34: 1105-1119. PMID: 36995132, PMCID: PMC10278788, DOI: 10.1681/asn.0000000000000132.Peer-Reviewed Original ResearchConceptsCongenital obstructive uropathyPathogenic single nucleotide variantsOverall diagnostic yieldHeterogeneous clinical presentationSingle nucleotide variantsObstructive uropathyClinical presentationDiagnostic yieldGenomic disordersDevelopmental defectsUreteropelvic junction obstructionComprehensive genomic screensFirst diagnostic approachSignificant differencesGenetic susceptibility factorsNovel genetic susceptibility factorsCommon molecular basisDosage-sensitive genesVesicoureteral refluxCongenital megaureterUrinary tractJunction obstructionDiagnostic challengeCommon causeHuman developmental defects
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