2023
169 Exome Sequencing Implicates Endothelial Ras Signaling Network in Vein of Galen Aneurysmal Malformation
Mekbib K, Zhao S, Nelson-Williams C, Prendergast A, Zeng X, Rolle M, Shohfi J, Smith H, Ocken J, Moyer Q, Piwowarczyk P, Allington G, Dong W, van der Ent M, Chen D, Li B, Duran D, Mane S, Walcott B, Stapleton C, Aagaard-Kienitz B, Rodesch G, Jackson E, Smith E, Orbach D, Berenstein A, Bilguvar K, Zhao H, Erson-Omay Z, King P, Huttner A, Lifton R, Boggon T, Nicoli S, Jin S, Kahle K. 169 Exome Sequencing Implicates Endothelial Ras Signaling Network in Vein of Galen Aneurysmal Malformation. Neurosurgery 2023, 69: 22-22. DOI: 10.1227/neu.0000000000002375_169.Peer-Reviewed Original ResearchPathway analysisP120 Ras-GAPExome sequencingSevere vascular defectsGalen aneurysmal malformationReceptor tyrosine kinase activityTyrosine kinase activityDamaging de novoMutant embryosRas-GAPSignaling networksGenetic regulationRas activationAneurysmal malformationZebrafish modelDe novo mutationsKinase activityDisease genesAxon guidanceGenetic samplesWhole-exome sequencingHigh-output heart failureFunctional studiesCollected specimensSequencing
2022
Centers for Mendelian Genomics: A decade of facilitating gene discovery
Baxter SM, Posey JE, Lake NJ, Sobreira N, Chong JX, Buyske S, Blue EE, Chadwick LH, Coban-Akdemir ZH, Doheny KF, Davis CP, Lek M, Wellington C, Jhangiani SN, Gerstein M, Gibbs RA, Lifton RP, MacArthur DG, Matise TC, Lupski JR, Valle D, Bamshad MJ, Hamosh A, Mane S, Nickerson DA, Consortium C, Adams M, Aguet F, Akay G, Anderson P, Antonescu C, Arachchi H, Atik M, Austin-Tse C, Babb L, Bacus T, Bahrambeigi V, Balasubramanian S, Bayram Y, Beaudet A, Beck C, Belmont J, Below J, Bilguvar K, Boehm C, Boerwinkle E, Boone P, Bowne S, Brand H, Buckingham K, Byrne A, Calame D, Campbell I, Cao X, Carvalho C, Chander V, Chang J, Chao K, Chinn I, Clarke D, Collins R, Cummings B, Dardas Z, Dawood M, Delano K, DiTroia S, Doddapaneni H, Du H, Du R, Duan R, Eldomery M, Eng C, England E, Evangelista E, Everett S, Fatih J, Felsenfeld A, Francioli L, Frazar C, Fu J, Gamarra E, Gambin T, Gan W, Gandhi M, Ganesh V, Garimella K, Gauthier L, Giroux D, Gonzaga-Jauregui C, Goodrich J, Gordon W, Griffith S, Grochowski C, Gu S, Gudmundsson S, Hall S, Hansen A, Harel T, Harmanci A, Herman I, Hetrick K, Hijazi H, Horike-Pyne M, Hsu E, Hu J, Huang Y, Hurless J, Jahl S, Jarvik G, Jiang Y, Johanson E, Jolly A, Karaca E, Khayat M, Knight J, Kolar J, Kumar S, Lalani S, Laricchia K, Larkin K, Leal S, Lemire G, Lewis R, Li H, Ling H, Lipson R, Liu P, Lovgren A, López-Giráldez F, MacMillan M, Mangilog B, Mano S, Marafi D, Marosy B, Marshall J, Martin R, Marvin C, Mawhinney M, McGee S, McGoldrick D, Mehaffey M, Mekonnen B, Meng X, Mitani T, Miyake C, Mohr D, Morris S, Mullen T, Murdock D, Murugan M, Muzny D, Myers B, Neira J, Nguyen K, Nielsen P, Nudelman N, O’Heir E, O’Leary M, Ongaco C, Orange J, Osei-Owusu I, Paine I, Pais L, Paschall J, Patterson K, Pehlivan D, Pelle B, Penney S, Chavez J, Pierce-Hoffman E, Poli C, Punetha J, Radhakrishnan A, Richardson M, Rodrigues E, Roote G, Rosenfeld J, Ryke E, Sabo A, Sanchez A, Schrauwen I, Scott D, Sedlazeck F, Serrano J, Shaw C, Shelford T, Shively K, Singer-Berk M, Smith J, Snow H, Snyder G, Solomonson M, Son R, Song X, Stankiewicz P, Stephan T, Sutton V, Sveden A, Sánchez D, Tackett M, Talkowski M, Threlkeld M, Tiao G, Udler M, Vail L, Valivullah Z, Valkanas E, VanNoy G, Wang Q, Wang G, Wang L, Wangler M, Watts N, Weisburd B, Weiss J, Wheeler M, White J, Williamson C, Wilson M, Wiszniewski W, Withers M, Witmer D, Witzgall L, Wohler E, Wojcik M, Wong I, Wood J, Wu N, Xing J, Yang Y, Yi Q, Yuan B, Zeiger J, Zhang C, Zhang P, Zhang Y, Zhang X, Zhang Y, Zhang S, Zoghbi H, van den Veyver I, Rehm H, O’Donnell-Luria A. Centers for Mendelian Genomics: A decade of facilitating gene discovery. Genetics In Medicine 2022, 24: 784-797. PMID: 35148959, PMCID: PMC9119004, DOI: 10.1016/j.gim.2021.12.005.Peer-Reviewed Original ResearchConceptsGene discoveryMendelian GenomicsUnderstanding of genesGene-phenotype relationshipsGenome variationWorldwide data sharingCandidate genesMendelian phenotypesGenomic researchGenome sequencingMatchmaker ExchangeGenomicsGenesSequencingBiomedical researchMajor roleDiscoveryExomePhenotypeRoleGenotypesCommunityFurther delineation of familial polycystic ovary syndrome (PCOS) via whole‐exome sequencing: PCOS‐related rare FBN3 and FN1 gene variants are identified
Karakaya C, Çil AP, Bilguvar K, Çakir T, Karalok MH, Karabacak RO, Caglayan AO. Further delineation of familial polycystic ovary syndrome (PCOS) via whole‐exome sequencing: PCOS‐related rare FBN3 and FN1 gene variants are identified. Journal Of Obstetrics And Gynaecology Research 2022, 48: 1202-1211. PMID: 35141985, PMCID: PMC9050819, DOI: 10.1111/jog.15187.Peer-Reviewed Original ResearchConceptsPolycystic ovary syndromeWhole-exome sequencingFurther functional studiesMissense variantsNew drug targetsGerm-line DNAWhole-exome sequencing dataThree-dimensional structurePolycystic ovary syndrome patientsFunctional predictionChemogenomic analysisCandidate proteinsSequencing dataBiological pathwaysDrug targetsFunctional studiesCandidate variantsSequencingPCOS familiesRotterdam criteriaOvary syndromeFBN3Syndrome patientsPathwayPCOS probands
2020
Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome
Dyment DA, O'Donnell‐Luria A, Agrawal PB, Akdemir Z, Aleck KA, Antaki D, Al Sharhan H, Au P, Aydin H, Beggs AH, Bilguvar K, Boerwinkle E, Brand H, Brownstein CA, Buyske S, Chodirker B, Choi J, Chudley AE, Clericuzio CL, Cox GF, Curry C, de Boer E, de Vries B, Dunn K, Dutmer CM, England EM, Fahrner JA, Geckinli BB, Genetti CA, Gezdirici A, Gibson WT, Gleeson JG, Greenberg CR, Hall A, Hamosh A, Hartley T, Jhangiani SN, Karaca E, Kernohan K, Lauzon JL, Lewis MES, Lowry RB, López‐Giráldez F, Matise TC, McEvoy‐Venneri J, McInnes B, Mhanni A, Minaur S, Moilanen J, Nguyen A, Nowaczyk MJM, Posey JE, Õunap K, Pehlivan D, Pajusalu S, Penney LS, Poterba T, Prontera P, Doriqui MJR, Sawyer SL, Sobreira N, Stanley V, Torun D, Wargowski D, Witmer PD, Wong I, Xing J, Zaki MS, Zhang Y, Consortium C, Genomics C, Boycott KM, Bamshad MJ, Nickerson DA, Blue EE, Innes AM. Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome. American Journal Of Medical Genetics Part A 2020, 185: 119-133. PMID: 33098347, PMCID: PMC8197629, DOI: 10.1002/ajmg.a.61926.Peer-Reviewed Original ResearchConceptsGenome sequencingExtensive locus heterogeneityCopy number variationsGenomic analysisMolecular diagnosisSingle geneDe novo variantsNext-generation sequencingDisease genesWide sequencingGenesGenomic diagnosisLocus heterogeneityNovo variantsSequencingPhenotypeAdditional familiesBiallelic variantsHDAC8FamilyVariant filteringDistinctive facial appearanceClinical phenotypeVariantsUncertain significance
2016
Digenic mutations of human OCRL paralogs in Dent’s disease type 2 associated with Chiari I malformation
Duran D, Jin SC, DeSpenza T, Nelson-Williams C, Cogal AG, Abrash EW, Harris PC, Lieske JC, Shimshak SJ, Mane S, Bilguvar K, DiLuna ML, Günel M, Lifton RP, Kahle KT. Digenic mutations of human OCRL paralogs in Dent’s disease type 2 associated with Chiari I malformation. Human Genome Variation 2016, 3: 16042. PMID: 28018608, PMCID: PMC5143364, DOI: 10.1038/hgv.2016.42.Peer-Reviewed Original ResearchDigenic mutationsPH domainPrimary ciliaDamaging missense mutationsGenetic supportINPP5BSilico analysisMutation impactOCRL1Amino acidsMissense mutationsParalogsBp deletionMutationsCiliogenesisExon 3Novel associationsAbove-average IQVariable presencePhosphatidylinositolPolyPhen2MetaSVMSequencingDeletionCilia
2015
The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities
Chong JX, Buckingham KJ, Jhangiani SN, Boehm C, Sobreira N, Smith JD, Harrell TM, McMillin MJ, Wiszniewski W, Gambin T, Akdemir Z, Doheny K, Scott AF, Avramopoulos D, Chakravarti A, Hoover-Fong J, Mathews D, Witmer PD, Ling H, Hetrick K, Watkins L, Patterson KE, Reinier F, Blue E, Muzny D, Kircher M, Bilguvar K, López-Giráldez F, Sutton VR, Tabor HK, Leal SM, Gunel M, Mane S, Gibbs RA, Boerwinkle E, Hamosh A, Shendure J, Lupski JR, Lifton RP, Valle D, Nickerson DA, Genomics C, Bamshad MJ. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. American Journal Of Human Genetics 2015, 97: 199-215. PMID: 26166479, PMCID: PMC4573249, DOI: 10.1016/j.ajhg.2015.06.009.Peer-Reviewed Original ResearchConceptsMendelian phenotypesGenetic basisLarge-scale whole-exome sequencingMendelian conditionsGene functionGene regulationGenomic dataWhole-exome sequencingMendelian GenomicsGenesPhenotypic characterizationNovel mechanismExtensive clinical variabilityGenetic variantsPhenotypePervasive sharingBiological mechanismsSequencingNew therapeuticsSuch discoveriesFamilyDiscoveryHuman healthGenomicsClinical variability
2012
Missense mutation in the ATPase, aminophospholipid transporter protein ATP8A2 is associated with cerebellar atrophy and quadrupedal locomotion
Emre Onat O, Gulsuner S, Bilguvar K, Nazli Basak A, Topaloglu H, Tan M, Tan U, Gunel M, Ozcelik T. Missense mutation in the ATPase, aminophospholipid transporter protein ATP8A2 is associated with cerebellar atrophy and quadrupedal locomotion. European Journal Of Human Genetics 2012, 21: 281-285. PMID: 22892528, PMCID: PMC3573203, DOI: 10.1038/ejhg.2012.170.Peer-Reviewed Original ResearchConceptsC-terminal transmembrane regionATPase domainNext-generation sequencingTransmembrane regionHomozygous regionsHomozygosity mappingAffected individualsATP8A2Novel missense variantChromosome 13q12Missense mutationsATP8A2 geneSegregation analysisConsanguineous familyMissense variantsUnrelated individualsMutationsMental retardationQuadrupedal locomotionGenesDysequilibrium syndromeSequencingTranslocationATPaseNovo
2011
Homozygosity mapping and targeted genomic sequencing reveal the gene responsible for cerebellar hypoplasia and quadrupedal locomotion in a consanguineous kindred
Gulsuner S, Tekinay AB, Doerschner K, Boyaci H, Bilguvar K, Unal H, Ors A, Onat OE, Atalar E, Basak AN, Topaloglu H, Kansu T, Tan M, Tan U, Gunel M, Ozcelik T. Homozygosity mapping and targeted genomic sequencing reveal the gene responsible for cerebellar hypoplasia and quadrupedal locomotion in a consanguineous kindred. Genome Research 2011, 21: 1995-2003. PMID: 21885617, PMCID: PMC3227090, DOI: 10.1101/gr.126110.111.Peer-Reviewed Original ResearchConceptsBeta-propeller domainPrivate missense mutationsLarge consanguineous familyThird geneBEACH domainTransmembrane proteinHomozygous regionsHomozygosity mappingGenomic sequencingWDR81Chromosome 17p13.1Missense mutationsQuadrupedal locomotionConsanguineous familyTargeted sequencingGenesSequencingRare phenotypeMorphological abnormalitiesBiological basisMutationsAffected individualsCell layerParticular atrophyFamily