DNA sequence and annotation of the entire human chromosome 7, encompassing nearly 158 million nucleotides of DNA and 1917 gene structures, are presented. To generate a higher order description, additional structural features such as imprinted genes, fragile sites, and segmental duplications were integrated at the level of the DNA sequence with medical genetic data, including 440 chromosome rearrangement breakpoints associated with disease. This approach enabled the discovery of candidate genes for developmental diseases including autism.
We report detailed clinical, cytogenetic, and molecular findings in a girl with a deletion of chromosome 7q31-q32. This child has a severe communication disorder with evidence of oromotor dyspraxia, dysmorphic features, and mild developmental delay. She is unable to cough, sneeze, or laugh spontaneously. Her deletion is on the paternally inherited chromosome and includes the FOXP2 gene, which has recently been associated with speech and language impairment and a similar form of oromotor dyspraxia in at least three other published cases. We hypothesize that our patient's communication disorder and oromotor deficiency are due to haploinsufficiency for FOXP2 and that her dysmorphism and developmental delay are a consequence of the absence of the other genes involved in the microdeletion. We propose that this patient, together with others reported in the literature, may define a new contiguous gene deletion syndrome encompassing the 7q31-FOXP2 region. Cytogenetic and molecular analysis of this region should be considered for other individuals displaying similar characteristics.
Saethre-Chotzen syndrome is a common craniosynostosis syndrome characterized by craniofacial and limb anomalies. Intragenic mutations of the TWIST gene within 7p21 have been identified as a cause of this disorder. There is phenotypic overlap with other craniosynostosis syndromes, and intragenic mutations in FGFR2 (fibroblast growth factor receptor 2) and FGFR3 (fibroblast growth factor receptor 3) have been demonstrated in the other conditions. Furthermore, complete gene deletions of TWIST have also been found in a significant proportion of patients with Saethre-Chotzen syndrome. We investigated 11 patients clinically identified as having the Saethre-Chotzen phenotype and 4 patients with craniosynostosis but without a clear diagnosis. Of the patients with the Saethre-Chotzen phenotype, four were found to carry the FGFR3 P250R mutation, three were found to be heterozygous for three different novel mutations in the coding region of TWIST, and two were found to have a deletion of one copy of the entire TWIST gene. Developmental delay was a distinguishing feature of the patients with deletions, compared to patients with intragenic mutations of TWIST, in agreement with the results of Johnson et al. [1998: Am J Hum Genet 63:1282-1293]. No mutations were found for the four patients with craniosynostosis without a clear diagnosis. Therefore, 9 of our 11 patients (82%) with the Saethre-Chotzen phenotype had detectable genetic changes in FGFR3 or TWIST. We propose that initial screening for the FGFR3 P250R mutation, followed by sequencing of TWIST and then fluorescence in situ hybridization (FISH) for deletion detection of TWIST, is sufficient to detect mutations in > 80% of patients with the Saethre-Chotzen phenotype.
To investigate the role that cardiac anomalies play in the early death frequently seen in the trisomy 13 and the trisomy 18 syndromes, two-dimensional and Doppler echocardiograms from 31 newborn infants with cytogenetic confirmation of these syndromes seen at one institution over a 4.5 year period (1983 to 1988) were reviewed. The mean age at echocardiography was 1.5 days, and the median age at death was 14 days. Significant cyanosis was present in 58%. Cardiac anomalies that would be considered lethal within the neonatal period were present in only 19% of patients. The most common lesions were atrial septal defect (81%), ventricular septal defect (61%) and patent ductus arteriosus (85%). Most ventricular septal defects and patent ductus arteriosus were large. Valvular dysplasia of one or more valves, graded as mild in most cases, was found in 68%, but was not associated with Doppler evidence of significant regurgitation or stenosis in any subject. Of the four valves, the pulmonary valve, followed by the tricuspid valve, was the most commonly dysplastic. Doppler evidence suggestive of elevated pulmonary artery pressure (low velocity bidirectional flow across the ventricular septal defect and patent ductus arteriosus), although expected, was accompanied by greater than normal mean right ventricular cavity and free wall dimensions in these patients. Thus, although the cardiac anomalies most frequently encountered in trisomy 13 and trisomy 18 are nonlethal, the combined findings of frequent cyanosis and increased right ventricular dimensions suggest that other factors such as pulmonary hypertension, perhaps related to maldevelopment of the pulmonary vasculature, may contribute to early death in some of these infants.
Velo-cardio-facial syndrome (VCFS) is a congenital malformation syndrome with variable phenotypic features that has been associated with chromosomal microdeletion 22q11.2. Psychiatric disorders have been reported to be highly prevalent in individuals with this syndrome, and the objective of this study was to assess the nature and extent of psychopathology among individuals with VCFS. We studied 20 children and adolescents with 22q11 deletions determined by fluorescence in situ hybridization (FISH). Control subjects were 11 nondeleted siblings who were the closest age match to the affected subjects. Both affected and control subjects were assessed using two standardized psychiatric research instruments. The results of this study confirmed the high rate of psychiatric disorders among VCFS subjects (60% of our subjects). Of the specific types of disorders, only mood disorders were significantly more common among VCFS subjects compared to sibling controls, with eight VCFS subjects having mood disorders compared with none of the control subjects (P<0.02). Three affected subjects had schizotypal traits comorbid with a mood disorder. In addition, disruptive behavior disorders were frequently diagnosed among VCFS subjects. Using a dimensional measure of psychopathology, significant differences between VCFS subjects and sibling controls were found on three scales: ADHD (P<0.02), separation anxiety (P<0.02), and depression (P<0.01). VCFS subjects were achieving significantly less well academically and requiring significantly more special educational assistance than sibling controls. Follow-up data were available on two subjects, both of whom had been diagnosed with schizophrenia. Further research on psychopathology in VCFS may provide a model of how a specific genetic defect can lead to the development of psychiatric disorders.
Most individuals with cat eye syndrome (CES) have a supernumerary bisatellited chromosome which, on the basis of cytogenetic evidence, has been reported to originate from either chromosome 13 or 22. To resolve this question, a single-copy DNA probe, D22S9, was isolated and localized to 22q11 by in situ hybridization to metaphase chromosomes. The number of copies of this sequence was determined in CES patients by means of Southern blots and densitometry analysis of autoradiographs. In patients with the supernumerary chromosome, four copies were found, whereas in one patient with a duplication of part of chromosome 22, there were three copies. Therefore, the syndrome results from the presence of either three or four copies of DNA sequences from 22q11; there is no evidence that sequences from other chromosomes are involved. This work demonstrates how DNA sequence dosage analysis can be used to study genetic disorders that are not readily amenable to standard cytogenetic analysis.
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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