Publications

Showing 5 of 5 Publications

2023

Inactivation of Invs/Nphp2 in renal epithelial cells drives infantile nephronophthisis like phenotypes in mouse
Li Y, Xu W, Makova S, Brueckner M, Sun Z. Inactivation of Invs/Nphp2 in renal epithelial cells drives infantile nephronophthisis like phenotypes in mouse. ELife 2023, 12: e82395. PMID: 36920028, PMCID: PMC10154023, DOI: 10.7554/elife.82395.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2020

De novo Damaging Variants, Clinical Phenotypes and Post-Operative Outcomes in Congenital Heart Disease
Boskovski MT, Homsy J, Nathan M, Sleeper LA, Morton S, Manheimer KB, Tai A, Gorham J, Lewis M, Swartz M, Alfieris GM, Bacha EA, Karimi M, Meyer D, Nguyen K, Bernstein D, Romano-Adesman A, Porter GA, Goldmuntz E, Chung WK, Srivastava D, Kaltman JR, Tristani-Firouzi M, Lifton R, Roberts AE, Gaynor JW, Gelb BD, Kim R, Seidman JG, Brueckner M, Mayer JE, Newburger JW, Seidman CE. De novo Damaging Variants, Clinical Phenotypes and Post-Operative Outcomes in Congenital Heart Disease. Circulation Genomic And Precision Medicine 2020, 13: e002836-e002836. PMID: 32812804, PMCID: PMC7439931, DOI: 10.1161/circgen.119.002836.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2019

De novo and recessive forms of congenital heart disease have distinct genetic and phenotypic landscapes
Watkins WS, Hernandez EJ, Wesolowski S, Bisgrove BW, Sunderland RT, Lin E, Lemmon G, Demarest BL, Miller TA, Bernstein D, Brueckner M, Chung WK, Gelb BD, Goldmuntz E, Newburger JW, Seidman CE, Shen Y, Yost HJ, Yandell M, Tristani-Firouzi M. De novo and recessive forms of congenital heart disease have distinct genetic and phenotypic landscapes. Nature Communications 2019, 10: 4722. PMID: 31624253, PMCID: PMC6797711, DOI: 10.1038/s41467-019-12582-y.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2013

The Congenital Heart Disease Genetic Network Study
Gelb B, Brueckner M, Chung W, Goldmuntz E, Kaltman J, Pablo Kaski J, Kim R, Kline J, Mercer-Rosa L, Porter G, Roberts A, Rosenberg E, Seiden H, Seidman C, Sleeper L, Tennstedt S, Kaltman J, Schramm C, Burns K, Pearson G, Rosenberg E, Newburger J, Breitbart R, Colan S, Geva J, Monafo A, Roberts A, Stryker J, Seidman C, McDonough B, Seidman J, Goldmuntz E, Edman S, Garbarini J, Hakonarson H, Mercer-Rosa L, Mitchell L, Tusi J, White P, Woyciechowski S, Chung W, Warburton D, Awad D, Celia K, Etwaru D, Sond J, Kline J, Korsin R, Lanz A, Marquez E, Williams I, Wilpers A, Yee R, Gelb B, Guevara D, Julian A, Mac Neal M, Mintz C, Peter I, Sachidanandam R, Seiden H, Romano-Adesman A, Gruber D, Stellato N, Brueckner M, Lifton R, Cross N, Deanfield J, Giardini A, Flack K, Porter G, Taillie E, Kim R, Tran N, Tennstedt S, Breitbart R, Dandreo K, Gallagher D, Lu M, Sleeper L, Berlin D, Beiswanger C, Lifton R, Seidman J, Hakonarson H, White P, Italia M, Chung W, Seidman C, Brooks (Chair) M, Olive M, Botkin J, Dupuis J, Garg V, Watson M, Bristow J, Evans T, Kendziorski C, Mardis E, Murray J, Saltz J, Wong H. The Congenital Heart Disease Genetic Network Study. Circulation Research 2013, 112: 698-706. PMID: 23410879, PMCID: PMC3679175, DOI: 10.1161/circresaha.111.300297.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2000

Of mice and men: Dissecting the genetic pathway that controls left‐right asymmetry in mice and humans
Schneider H, Brueckner M. Of mice and men: Dissecting the genetic pathway that controls left‐right asymmetry in mice and humans. American Journal Of Medical Genetics 2000, 97: 258-270. PMID: 11376437, DOI: 10.1002/1096-8628(200024)97:4<258::aid-ajmg1276>3.0.co;2-8.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

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