0000000000757039

AUTHOR

William G. Cole

showing 4 related works from this author

The Molecular Basis of X-Linked Spondyloepiphyseal Dysplasia Tarda

2001

The X-linked form of spondyloepiphyseal dysplasia tarda (SEDL), a radiologically distinct skeletal dysplasia affecting the vertebrae and epiphyses, is caused by mutations in the SEDL gene. To characterize the molecular basis for SEDL, we have identified the spectrum of SEDL mutations in 30 of 36 unrelated cases of X-linked SEDL ascertained from different ethnic populations. Twenty-one different disease-associated mutations now have been identified throughout the SEDL gene. These include nonsense mutations in exons 4 and 5, missense mutations in exons 4 and 6, small (2–7 bp) and large (>1 kb) deletions, insertions, and putative splicing errors, with one splicing error due to a complex deleti…

Spondyloepiphyseal dysplasiaGenetic MarkersMaleX ChromosomeGenetic LinkageNonsense mutationDNA Mutational AnalysisMolecular Sequence DataBiologymedicine.disease_causeOsteochondrodysplasiasFrameshift mutation03 medical and health sciencesExonStructure-Activity Relationship0302 clinical medicinemedicineEthnicityGeneticsMissense mutationHumansGenetics(clinical)Genetic TestingRNA MessengerGenetics (clinical)X chromosome030304 developmental biologyGenetics0303 health sciencesMutationBone DevelopmentPolymorphism GeneticBase SequenceReverse Transcriptase Polymerase Chain ReactionRacial GroupsMembrane Transport ProteinsExonsArticlesmedicine.diseaseOsteochondrodysplasiaBody Height3. Good healthPhenotypeHaplotypesMutationCarrier Proteins030217 neurology & neurosurgeryTranscription FactorsThe American Journal of Human Genetics
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Recessive multiple epiphyseal dysplasia (rMED): phenotype delineation in eighteen homozygotes for DTDST mutation R279W.

2003

Multiple epiphyseal dysplasia (MED) is a generalised skeletal dysplasia that although relatively mild is associated with significant morbidity. Joint pain, joint deformity, waddling gait, and short stature are the main clinical signs and symptoms. In the past, the disorder was subdivided into the milder Ribbing type, usually with flattened epiphyses,1 and the more severe Fairbank type with round epiphyses,2 but many cases were not classifiable as clearly either type.3 MED can be caused by mutations in at least six separate genes: COMP ,4–7 collagen IX ( COL9A1 , COL9A2 , and COL9A3 ),8–13 matrilin 3 ( MATN3 ),15 and the sulphate transporter, DTDST ( DTDST/SLC26A2 ). We have previously repor…

AdultMalePathologymedicine.medical_specialtyAdolescentAnion Transport ProteinsGenes RecessiveBiologySLC26A2ArginineOsteochondrodysplasiasShort statureMultiple epiphyseal dysplasiaGeneticsmedicineHumansChildGenetics (clinical)GeneticsAchondrogenesisSulfatesPoint mutationHomozygoteTryptophanChromosome MappingMembrane Transport ProteinsBiological TransportMiddle Agedmedicine.diseasePhenotypeGenetic defects of metabolism [UMCN 5.1]Amino Acid SubstitutionDysplasiaSulfate TransportersMutation (genetic algorithm)MutationMutation testingbiology.proteinFemalemedicine.symptomCarrier ProteinsLetter to JMGJournal of medical genetics
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Mutation Analysis of LMX1B Gene in Nail-Patella Syndrome Patients

1998

SummaryNail-patella syndrome (NPS), a pleiotropic disorder exhibiting autosomal dominant inheritance, has been studied for >100 years. Recent evidence shows that NPS is the result of mutations in the LIM-homeodomain gene LMX1B. To determine whether specific LMX1B mutations are associated with different aspects of the NPS phenotype, we screened a cohort of 41 NPS families for LMX1B mutations. A total of 25 mutations were identified in 37 families. The nature of the mutations supports the hypothesis that NPS is the result of haploinsufficiency for LMX1B. There was no evidence of correlation between aspects of the NPS phenotype and specific mutations.

inorganic chemicalsGenotype-phenotype correlationDNA Mutational AnalysisLIM-Homeodomain ProteinsHomeodomainHaploinsufficiencyHeteroduplex AnalysisBiologymedicine.disease_causeGenetic determinismNail patellaNail-Patella SyndromeGenotypemental disordersmedicineGeneticsAnimalsHumansInsulinGenetics(clinical)Promoter Regions GeneticGeneGenetics (clinical)health care economics and organizationsNail patella syndromeGenes DominantGeneticsFamily HealthHomeodomain ProteinsMutationLMX1B.technology industry and agricultureDNArespiratory systemmedicine.diseasePhenotypeRatsPhenotypeMutationCancer researchMutation testingHaploinsufficiencyResearch ArticleTranscription FactorsThe American Journal of Human Genetics
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Mutations Involving the Transcription Factor CBFA1 Cause Cleidocranial Dysplasia

1997

AbstractCleidocranial dysplasia (CCD) is an autosomal-dominant condition characterized by hypoplasia/aplasia of clavicles, patent fontanelles, supernumerary teeth, short stature, and other changes in skeletal patterning and growth. In some families, the phenotype segregates with deletions resulting in heterozygous loss of CBFA1, a member of the runt family of transcription factors. In other families, insertion, deletion, and missense mutations lead to translational stop codons in the DNA binding domain or in the C-terminal transactivating region. In-frame expansion of a polyalanine stretch segregates in an affected family with brachydactyly and minor clinical findings of CCD. We conclude th…

GeneticsCleidocranial DysplasiaBiochemistry Genetics and Molecular Biology(all)RuntBrachydactylyAplasiaBiologymedicine.diseaseShort statureMolecular biologyGeneral Biochemistry Genetics and Molecular BiologyHypoplasiaStop codonmedicineMissense mutationmedicine.symptomCell
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