S. B. Fowlow scite author profile

Here we report on two additional cases of distal 6q deletions with one case showing a terminal deletion of chromosome 6 (46,XY, del(6)(pter----q26:)) and one case showing an interstitial deletion of chromosome 6 (46,XY, del(6)(pter----q23::q25----qter)). The association of retinal abnormalities in 6q deletions is supported, and the additional manifestations of skin hyperextensibility, sacral abnormality, and imperforate anus are described.

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Molecular characterization of cytogenetic alterations associated with the Beckwith — Wiedemann syndrome (BWS) phenotype refines the localization and suggests the gene for BWS is imprinted

Weksberg

Teshima

Williams

et al. 1993

Hum Mol Genet

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To define the region of 11p15 involved in Beckwith-Wiedemann syndrome (BWS), we have carried out a molecular genetic analysis of six patients with features of BWS and constitutional cytogenetic abnormalities involving chromosome band 11p15. Molecular analysis confirmed the 11p origin of the duplicated material and defined the smallest region of overlap for such duplications, within which a gene involved in BWS must be located. This region encompasses the beta-globin gene complex (HBB) to 11pter. In both of our informative cases, the 11p duplication was found to be of paternal origin. Two BWS associated balanced translocations of 11p15 were studied to localize the breakpoints on 11p15. Somatic cell hybrids, Southern blotting and fluorescent in situ hybridization (FISH) showed that both breakpoints were between D11S12 and the insulin-like growth factor 2 (IGF2) gene. A non-BWS translocation breakpoint was more proximal, between HBB and calcitonin-A (CALCA). Pedigree analysis showed that both BWS associated 11p15 translocations were transmitted by phenotypically normal mothers. The data are compatible with the hypothesis that the BWS gene is imprinted and that the maternally inherited BWS gene is normally suppressed whereas the paternally inherited allele is active. Thus, duplications of paternal origin would lead to increased dosage of the BWS gene. Similarly increased dosage of the BWS gene could account for the findings in maternally inherited 11p15 translocations by altering normal imprinting, so that the translocated maternal allele remains active. This study defines one or more gene loci for BWS on 11p15.5 in the genomic region from D11S12 to IGF2.

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Malignant Hyperthermia in Duchenne Muscular Dystrophy

et al. 1983

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The Bowen‐Conradi syndrome—a highly lethal autosomal recessive syndrome of microcephaly, micrognathia, low birth weight, and joint deformities

et al. 1979

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This paper describes six Hutterite children from five families who appear to have been affected by the same syndrome that was described in two brothers by Bowen and Conradi [1]. Our additional cases confirm that the major features of the syndrome include porportionate intrauterine growth retardation, microcephaly, micrognathia, a prominent nose, rocker-bottom feet, joint limitation, and failure to thrive, with death within the first year of life. Bowen-Conradi syndrome is an autosomal recessive trait and pedigree records show that all six families now known are related to each other through two couples born in the late 1700s but that there are additional earlier possible sources of the responsible gene. The differential diagnosis of this syndrome is discussed.

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S. B. Fowlow

Chromosome 6q deletions: A report of two additional cases and a review of the literature

Molecular characterization of cytogenetic alterations associated with the Beckwith — Wiedemann syndrome (BWS) phenotype refines the localization and suggests the gene for BWS is imprinted

Malignant Hyperthermia in Duchenne Muscular Dystrophy

The Bowen‐Conradi syndrome—a highly lethal autosomal recessive syndrome of microcephaly, micrognathia, low birth weight, and joint deformities

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