Your search keyword '"Devon Lamb Thrush"' showing total 5 results

1. Pericentromeric regions of homozygosity on the X chromosome: Another likely benign population variant

Author

Yu Li, Julie M. Gastier-Foster, Shalini C. Reshmi, Ruthann Pfau, Robert E. Pyatt, Devon Lamb-Thrush, Theodora Matthews, Sayaka Hashimoto, Danielle Mouhlas, Caroline Astbury, and Elizabeth S. Barrie

Subjects

0301 basic medicine, Proband, Genetics, education.field_of_study, Chromosomes, Human, X, Population, Centromere, Homozygote, Genetic Variation, General Medicine, Consanguinity, Biology, Phenotype, 03 medical and health sciences, 030104 developmental biology, Gene duplication, Humans, Female, education, Gene, Genetics (clinical), X chromosome

Abstract

Purpose While chromosomal regions of homozygosity (ROH) may implicate genes in known recessive disorders, their correlation to disease pathogenicity remains unclear. ROH around the centromere of the X chromosome (pericentromeric, pROH) is regarded as benign, although this has not been empirically demonstrated. Methods We examined microarray results from 122 female individuals harboring ROH bordering the X centromere. Results Consecutive ROH was most frequently observed for regions Xp11.23 to Xp11.21 and Xq11.1 to Xq12, with an average total size of 16.5 Mb. X chromosome pROH was unlikely related to phenotype in 41% (50/122) of cases due to other explanations: likely pathogenic deletion/duplication (17%, 21/122), apparently unaffected female (7%, 8/122), other clinical explanation (7%, 9/122), or consanguinity (10%, 12/122). Of the remaining cases with pROH as the only finding, four genes were associated with recessive disorders that overlapped one or more clinical features reported in our probands (KDM5C, FGD1, ZC4H2, and LAS1L). X chromosome pROH observed in our cohort overlapped with previously reported regions. Conclusions pROH on the X chromosome are commonly observed in both affected individuals with alternate causes of disease as well as in unaffected individuals, suggesting that X chromosome pROH has no clinically significant effect on phenotype.

Published

2017

2. A case of an atypically large proximal 15q deletion as cause for Prader–Willi syndrome arising from a de novo unbalanced translocation

Author

Joan F. Atkin, Shalini C. Reshmi, Julie M. Gastier-Foster, Devon Lamb Thrush, Lauren C. Walters-Sen, Scott E. Hickey, and Caroline Astbury

Subjects

Genetics, Chromosomes, Human, Pair 15, congenital, hereditary, and neonatal diseases and abnormalities, Infant, nutritional and metabolic diseases, Chromosome, Chromosomal translocation, General Medicine, Biology, Subtelomere, Phenotype, Translocation, Genetic, Hypotonia, nervous system diseases, Chromosome 15, Failure to thrive, medicine, Humans, Female, Global developmental delay, Chromosome Deletion, medicine.symptom, Prader-Willi Syndrome, Genetics (clinical)

Abstract

We describe an 11 month old female with Prader–Willi syndrome (PWS) resulting from an atypically large deletion of proximal 15q due to a de novo 3;15 unbalanced translocation. The 10.6 Mb deletion extends from the chromosome 15 short arm and is not situated in a region previously reported as a common distal breakpoint for unbalanced translocations. There was no deletion of the reciprocal chromosome 3q subtelomeric region detected by either chromosomal microarray or FISH. The patient has hypotonia, failure to thrive, and typical dysmorphic facial features for PWS. The patient also has profound global developmental delay consistent with an expanded, more severe, phenotype.

Published

2013

3. Multigeneration family with short stature, developmental delay, and dysmorphic features due to 4q27-q28.1 microdeletion

Author

Julie M. Gastier-Foster, Joan F. Atkin, Devon Lamb Thrush, Caroline Astbury, Scott E. Hickey, Sawona Biswas, and Robert E. Pyatt

Subjects

Adult, Male, Candidate gene, Microarray, Developmental Disabilities, Biology, Long arm, Short stature, Genetics, medicine, Humans, Abnormalities, Multiple, Digital anomalies, Craniofacial, Child, Growth Disorders, Genetics (clinical), Infant, Newborn, Chromosome, Syndrome, General Medicine, Pedigree, Chromosome 4, Female, Chromosome Deletion, Chromosomes, Human, Pair 4, medicine.symptom

Abstract

Deletions of the long arm of chromosome 4 are rare but have been previously reported to be associated with craniofacial anomalies, digital anomalies, developmental delay, growth failure, and cardiovascular anomalies. Strehle et al. previously presented 20 patients with 4q deletions and began to construct a phenotype-genotype map for chromosome 4q. This report follows up on that work by providing clinical and molecular cytogenetic data on a three generation pedigree including seven patients with short stature, dysmorphic features, and developmental delay identified to have a 4q27-q28.1 microdeletion of approximately 5.68 Mb by oligonucleotide chromosomal microarray. This family represents a rare report of an inherited interstitial deletion of the long arm of chromosome 4. To our knowledge, only two cases have been previously reported. The contribution of candidate genes in the region is discussed.

Published

2013

4. Atypical breakpoint in a t(6;17) translocation case of acampomelic campomelic dysplasia

Author

Scott E. Hickey, Caroline Astbury, Robert E. Pyatt, Shalini C. Reshmi, Julie M. Gastier-Foster, Devon Lamb Thrush, Lauren C. Walters-Sen, and Sayaka Hashimoto

Subjects

Breakpoint, Campomelic Dysplasia, Infant, Chromosomal translocation, Karyotype, SOX9 Transcription Factor, General Medicine, Anatomy, SOX9, Biology, Sex reversal, medicine.disease, Translocation, Genetic, Campomelic dysplasia, Chromosome Breakpoints, Dysplasia, Genetics, medicine, Missense mutation, Humans, Chromosomes, Human, Pair 6, Female, Genetics (clinical), Chromosomes, Human, Pair 17

Abstract

Campomelic dysplasia (CD) is a skeletal dysplasia characterized by Pierre Robin sequence (PRS), shortened and bowed long bones, airway instability, and the potential for sex reversal. A subtype of CD, acampomelic CD (ACD), is seen in approximately 10% of cases and preserves long bone straightness. Both syndromes are caused by alterations in SOX9, with translocations and missense mutations being overrepresented in ACD cases. We report a term infant with PRS, severe cervical spine abnormalities, eleven rib pairs, hypoplastic scapulae, and female genitalia. Chromosome analysis identified a 46,XY,t(6;17)(q25;q24) karyotype. FISH analysis with a series of BAC probes localized the translocation breakpoints to 6q27 and a region at 17q24.3 in the range of 459-379 kb upstream of SOX9. Therefore, this case extends the region classified as the proximal breakpoint cluster. In addition, the comorbidity of acampomelia, complete sex reversal, and severe spinal anomalies in our patient underscores the variability in the level of malformation in the CD/ACD family of disorders.

Published

2013

5. MCPH1 deletion in a newborn with severe microcephaly and premature chromosome condensation

Author

Daniela del Gaudio, Christopher A. Tan, Caroline Astbury, Ruthann B. Pfau, Matthew Pastore, Dennis Bartholomew, Julie M. Gastier-Foster, Devon Lamb Thrush, Elizabeth Hamelberg, and Shaun Botes

Subjects

Male, Microcephaly, Karyotype, Cell Cycle Proteins, Nerve Tissue Proteins, Consanguinity, Biology, Exon, Gene duplication, Genetics, medicine, MCPH1 Gene, Chromosomes, Human, Humans, Gene, Genetics (clinical), Genetic testing, medicine.diagnostic_test, Homozygote, Infant, Newborn, General Medicine, Exons, Syndrome, medicine.disease, Maxillofacial Abnormalities, Cytoskeletal Proteins, Premature chromosome condensation, Gene Deletion

Abstract

A newborn with severe microcephaly and a history of parental consanguinity was referred for cytogenetic analysis and subsequently for genetic evaluation. While a 46,XY karyotype was eventually obtained, premature chromosome condensation was observed. A head MRI confirmed primary microcephaly. This combination of features focused clinical interest on the MCPH1 gene and directed genetic testing by sequence analysis and duplication/deletion studies disclosed a homozygous deletion of exons 1-11 of the MCPH1 gene. This case illustrates a strength of standard cytogenetic evaluation in directing molecular testing to a single target gene in this disorder, allowing much more rapid diagnosis at a substantial cost savings for this family.

Published

2013