Exome Sequencing Reveals De Novo WDR45 Mutations Causing a Phenotypically Distinct, X-Linked Dominant Form of NBIA | Zendy

Tobias B. Haack | Zendy; Penelope Hogarth | Zendy; Michael C. Kruer | Zendy; Allison Gregory | Zendy; Thomas Wieland | Zendy; Thomas Schwarzmayr | Zendy; Elisabeth Graf | Zendy; Lynn Sanford | Zendy; Esther Meyer | Zendy; Eleanna Kara | Zendy; Stephan M. Cuno | Zendy; Sami I. Harik | Zendy; Vasuki Dandu | Zendy; Nardo Nardocci | Zendy; Giovanna Zorzi | Zendy; Todd Dunaway | Zendy; Mark A. Tarnopolsky | Zendy; Steven A. Skinner | Zendy; Steven J. Frucht | Zendy; Era Hanspal | Zendy; Connie SchranderStumpel | Zendy; Delphine Héron | Zendy; Cyril Mignot | Zendy; Barbara Garavaglia | Zendy; Kailash P. Bhatia | Zendy; John Hardy | Zendy; Tim M. Strom | Zendy; Nathalie Boddaert | Zendy; Henry Houlden | Zendy; Manju A. Kurian | Zendy; Thomas Meitinger | Zendy; Holger Prokisch | Zendy; Susan J. Hayflick | Zendy

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Exome Sequencing Reveals De Novo WDR45 Mutations Causing a Phenotypically Distinct, X-Linked Dominant Form of NBIA

Author(s) -

Tobias B. Haack,

Penelope Hogarth,

Michael C. Kruer,

Allison Gregory,

Thomas Wieland,

Thomas Schwarzmayr,

Elisabeth Graf,

Lynn Sanford,

Esther Meyer,

Eleanna Kara,

Stephan M. Cuno,

Sami I. Harik,

Vasuki Dandu,

Nardo Nardocci,

Giovanna Zorzi,

Todd Dunaway,

Mark A. Tarnopolsky,

Steven A. Skinner,

Steven J. Frucht,

Era Hanspal,

Connie SchranderStumpel,

Delphine Héron,

Cyril Mignot,

Barbara Garavaglia,

Kailash P. Bhatia,

John Hardy,

Tim M. Strom,

Nathalie Boddaert,

Henry Houlden,

Manju A. Kurian,

Thomas Meitinger,

Holger Prokisch,

Susan J. Hayflick

Publication year - 2012

Publication title -

the american journal of human genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.661

H-Index - 302

eISSN - 1537-6605

pISSN - 0002-9297

DOI - 10.1016/j.ajhg.2012.10.019

Subject(s) - exome sequencing , biology , genetics , exome , evolutionary biology , phenotype , gene

Neurodegeneration with brain iron accumulation (NBIA) is a group of genetic disorders characterized by abnormal iron deposition in the basal ganglia. We report that de novo mutations in WDR45, a gene located at Xp11.23 and encoding a beta-propeller scaffold protein with a putative role in autophagy, cause a distinctive NBIA phenotype. The clinical features include early-onset global developmental delay and further neurological deterioration (parkinsonism, dystonia, and dementia developing by early adulthood). Brain MRI revealed evidence of iron deposition in the substantia nigra and globus pallidus. Males and females are phenotypically similar, an observation that might be explained by somatic mosaicism in surviving males and germline or somatic mutations in females, as well as skewing of X chromosome inactivation. This clinically recognizable disorder is among the more common forms of NBIA, and we suggest that it be named accordingly as beta-propeller protein-associated neurodegeneration.

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