Your search keyword '"Angelique Davis-Williams"' showing total 4 results

1. Xq22 deletions and correlation with distinct neurological disease traits in females: Further evidence for a contiguous gene syndrome

Author

Melanie A. Manning, Ping Fang, Julie R. Jones, Patricia A. Wight, Ken Inoue, Feng Zhang, James R. Lupski, Claudia M.B. Carvalho, Angelique Davis-Williams, Sakku Bai Naidu, Andrea Poretti, Soe Mar, Davut Pehlivan, Carly Jornlin, Hadia Hijazi, Fernanda S. Coelho, Xiaofei Song, Pankaj Patyal, Siddharth Srivastava, Claudia Gonzaga-Jauregui, Grace M. Hobson, Jennifer R. Taube, Barbara Torres, Laura Bernardini, Jennifer A. Lee, Michael J. Friez, Thomas Alberico, Andrea Hanson-Kahn, and Sau Wai Cheung

Subjects

Male, Genome instability, Disease, Biology, Contiguous gene syndrome, Article, Chromosome Breakpoints, 03 medical and health sciences, Quantitative Trait, Heritable, Sex Factors, X Chromosome Inactivation, Intellectual disability, Genetics, medicine, Humans, Genetic Predisposition to Disease, Child, Gene, Genetic Association Studies, Genetics (clinical), Repetitive Sequences, Nucleic Acid, 030304 developmental biology, Chromosomes, Human, X, Comparative Genomic Hybridization, 0303 health sciences, Sex-limited genes, 030305 genetics & heredity, Breakpoint, Chromosome Mapping, Syndrome, medicine.disease, Pedigree, Phenotype, Child, Preschool, Female, Chromosome Deletion, Nervous System Diseases, Comparative genomic hybridization

Abstract

Xq22 deletions that encompass PLP1 (Xq22-PLP1-DEL) are notable for variable expressivity of neurological disease traits in females ranging from a mild late-onset form of spastic paraplegia type 2 (MIM# 312920), sometimes associated with skewed X-inactivation, to an early-onset neurological disease trait (EONDT) of severe developmental delay, intellectual disability, and behavioral abnormalities. Size and gene content of Xq22-PLP1-DEL vary and were proposed as potential molecular etiologies underlying variable expressivity in carrier females where two smallest regions of overlap (SROs) were suggested to influence disease. We ascertained a cohort of eight unrelated patients harboring Xq22-PLP1-DEL and performed high-density array comparative genomic hybridization and breakpoint-junction sequencing. Molecular characterization of Xq22-PLP1-DEL from 17 cases (eight herein and nine published) revealed an overrepresentation of breakpoints that reside within repeats (11/17, ~65%) and the clustering of ~47% of proximal breakpoints in a genomic instability hotspot with characteristic non-B DNA density. These findings implicate a potential role for genomic architecture in stimulating the formation of Xq22-PLP1-DEL. The correlation of Xq22-PLP1-DEL gene content with neurological disease trait in female cases enabled refinement of the associated SROs to a single genomic interval containing six genes. Our data support the hypothesis that genes contiguous to PLP1 contribute to EONDT.

Published

2019

2. Inside Back Cover, Volume 41, Issue 1

Author

Hadia Hijazi, Fernanda S. Coelho, Claudia Gonzaga‐Jauregui, Laura Bernardini, Soe S. Mar, Melanie A. Manning, Andrea Hanson‐Kahn, SakkuBai Naidu, Siddharth Srivastava, Jennifer A. Lee, Julie R. Jones, Michael J. Friez, Thomas Alberico, Barbara Torres, Ping Fang, Sau Wai Cheung, Xiaofei Song, Angelique Davis‐Williams, Carly Jornlin, Patricia A. Wight, Pankaj Patyal, Jennifer Taube, Andrea Poretti, Ken Inoue, Feng Zhang, Davut Pehlivan, Claudia M. B. Carvalho, Grace M. Hobson, and James R. Lupski

Subjects

Genetics, Genetics (clinical)

Published

2019

3. A large X-chromosomal deletion is associated with microphthalmia with linear skin defects (MLS) and amelogenesis imperfecta (XAI)

Author

Z.A. Yuan, Alan Brook, Grace M. Hobson, Jennifer Kirkham, Linda Banser, Angelique Davis-Williams, Melissa Aragon, and Carolyn W. Gibson

Subjects

Adolescent, Amelogenesis Imperfecta, DNA Mutational Analysis, Gene Dosage, Biology, Microphthalmia, Article, X-inactivation, Young Adult, stomatognathic system, Bone Density, Hardness, X Chromosome Inactivation, Genetics, medicine, Humans, Microphthalmos, Genetic Predisposition to Disease, Amelogenesis imperfecta, Child, Dental Enamel, AMELX, Genetics (clinical), Chromosomal Deletion, Chromosomes, Human, X, medicine.disease, Molecular biology, stomatognathic diseases, genomic DNA, Child, Preschool, Dentin, Skin Abnormalities, Female, Chromosome Deletion, Amelogenin, Comparative genomic hybridization

Abstract

A female patient is described with clinical symptoms of both microphthalmia with linear skin defects (MLS or MIDAS) and dental enamel defects, having an appearance compatible with X-linked amelogenesis imperfecta (XAI). Genomic DNA was purified from the patient's blood and semiquantitative multiplex PCR revealed a deletion encompassing the amelogenin gene (AMELX). Because MLS is also localized to Xp22, genomic DNA was subjected to array comparative genomic hybridization, and a large heterozygous deletion was identified. Histopathology of one primary and one permanent molar tooth showed abnormalities in the dental enamel layer, and a third tooth had unusually high microhardness measurements, possibly due to its ultrastructural anomalies as seen by scanning electron microscopy. This is the first report of a patient with both of these rare conditions, and the first description of the phenotype resulting from a deletion encompassing the entire AMELX gene. More than 50 additional genes were monosomic in this patient.

Published

2009

4. Variable expression of a novel PLP1 mutation in members of a family with Pelizaeus-Merzbacher disease

Author

Edwin H. Kolodny, Fuki M. Hisama, Maurice J. Mahoney, Aviva Fattal-Valevski, James Y. Garbern, Angelique Davis-Williams, Gregory M. Pastores, Miriam S. DiMaio, and Grace M. Hobson

Subjects

Adult, Male, Pediatrics, medicine.medical_specialty, Proteolipid protein 1, Pelizaeus-Merzbacher Disease, DNA Mutational Analysis, Mutation, Missense, Cerebral palsy, Variable Expression, Diagnosis, Differential, medicine, Missense mutation, Humans, Point Mutation, Family, Family history, Child, Myelin Proteolipid Protein, Myelin Sheath, Preimplantation Diagnosis, Genetics, Cerebellar ataxia, business.industry, Cerebral Palsy, Pelizaeus–Merzbacher disease, Brain, Middle Aged, medicine.disease, Pedigree, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, Neurology (clinical), medicine.symptom, business, Spastic quadriplegia

Abstract

Pelizaeus-Merzbacher disease is a rare X-linked disorder caused by mutations of the proteolipid protein 1 gene that encodes a structural component of myelin. It is characterized by progressive psychomotor delay, nystagmus, spastic quadriplegia, and cerebellar ataxia. Variable clinical expression was seen in 5 members of a family bearing a novel missense mutation in proteolipid protein 1, c.619T>C. Symptomatic patients included a 6-year-old girl, her younger brother, and their maternal uncle, a 29-year-old college graduate initially diagnosed with cerebral palsy; their brain magnetic resonance imaging studies showed diffuse dysmyelination. The mother had a history of delayed walking, achieved independently by age 3; she and the maternal grandmother were asymptomatic on presentation. Review of clinical information and family history led to consideration of Pelizaeus-Merzbacher disease. Subsequent identification of the causal mutation enabled preimplantation genetic diagnosis and the birth of an unaffected child.

Published

2009