Pure familial 6q21q22.1 duplication in two generations

Familial transmissions of unbalanced chromosomal abnormalities are rare. We report here the first case of a maternally inherited pure partial duplication of the long arm of chromosome 6 [46,XX,dup(6)(q21q22.1)mat]. The proband was referred for karyotyping as she presented intrauterine growth retardation (IUGR), moderate mental retardation and facial dysmorphism. Molecular cytogenetics analysis with various BACs showed a duplication of 5-10 Mb between 6q21 and 6q22.1. The proband's mother was found to have the same chromosome abnormality and a similar phenotype, but less severe dysmorphism. This variability in clinical findings between generations may have several causes, including attenuation with aging, imprinting or mosaicism. Only three other cases of pure partial 6q duplication similar to that of our case have been reported. The available information for all four cases was used to refine the karyotype-phenotype correlations for duplications of the 6q21q22 segment.     

Mild “duplication 6q syndrome”: A case with partial trisomy (6)(q23.3q25.3)

We report on a female infant with partial 6q trisomy (46,XX,dir dup(6)(q23.3q25.3)) and phenotypic characteristics of the “duplication 6q syndrome,” including intrauterine growth retardation, dolichocephaly, depressed nasal bridge, almond-shaped palpebral fissures, short neck, flexion-contractures of the wrists, and mild generalized hypertonia. Although clearly belonging to the described “duplication 6q syndrome,” her features were milder than those found in the literature. Comparison of the phenotype of this child with other published reports indicates that specific phenotypic components of the duplication 6q syndrome cannot be attributed to duplication of a specific band or bands on 6q. Am. J. Med. Genet. 68:450–454, 1997. © 1997 Wiley-Liss, Inc.     

Duplication 6q21q23 in two unrelated patients

We report on two patients with rare 6q duplications. The karyotype of patient 1 is 46,XY,dup(6)(q21q23.3). The karyotype of patient 2 is 46,XX,dup(6)(q21.15q23.3). These two patients have some nonspecific physical findings in common including a depressed nasal bridge, epicanthal folds, mild heart defects, and developmental delay, but each had other congenital anomalies. Am. J. Med. Genet. 80:112–114, 1998. © 1998 Wiley-Liss, Inc.     

Familial tandem duplication of bands q31.1 to q32.3 on chromosome 4 with mild phenotypic effect

We describe a family carrying a direct duplication of an interstitial segment of the distal long arm of chromosome 4(q31.1q32.3) with a mild clinical phenotype. Affected family members include a 27-year-old woman and 2 of her 4 children, 1 of whom also has Klinefelter syndrome. Although 8 cases of simple duplications or insertions of 4q material have been described, only 3 include bands q31–q32, and these involve additional adjacent material. Affected members of the pedigree reported here have some of the manifestations of previously described cases of duplication 4q, but are less severely affected, suggesting that the genetic material in this region is well tolerated as a partial trisomy. Am. J. Med. Genet. 73:119–124, 1997. © 1997 Wiley-Liss, Inc.     

Familial translocation t(10;14) (q26.1;q32.3): report of three offspring with 10q deletion and 14q duplication

We describe two brothers and a cousin with common clinical features, including mild mental retardation, motor delays, hypotonia with truncal ataxia, esotropia, and mild facial and hand dysmorphia. The initial routine chromosome study failed to detect any abnormality in the proband. Based on a high index of clinical suspicion, high-resolution chromosome studies were performed on the proband's parents. A small reciprocal translocation t(10;14) (q26.1;q32.3) was detected in the father. The breakpoint on the derivative chromosome 14 was further placed telomeric to the immunoglobulin heavy-chain gene cluster at the band q32.33 by fluorescence in situ hybridization. Studies of the proband and two affected paternal cousins revealed that each had inherited the same derivative chromosome 10 from their carrier parents. This unbalanced karyotype resulted from an adjacent-1 segregation of the 10;14 translocation.     

Partial trisomy of chromosome 6q: An interstitial duplication of the long arm

We report on a 5-year-old girl with a de novo interstitial duplication of chromosome 6q21-q23 and delayed development and speech with distinctive minor facial anomalies including a “carp” mouth. Fluorescence in situ hybridization using a chromosome 6 paint probe confirms that the extra material is of chromosome 6 origin. This further delineates the dup(6q) syndrome and the manifestations due to the specific duplicated chromosomal region involved. Am. J. Med. Genet. 80:133–135, 1998. © 1998 Wiley-Liss, Inc.     

Molecular cytogenetic studies of duplication 9q32→q34.3 inserted into 9q13

Fluorescence in situ hybridization (FISH) studies using whole chromosome 9 painting probe, classical satellite (9q12-specific) probe and abl cosmid probe (locus: 9q34) were performed on a female infant who was born with multiple congenital anomalies and the karyotype 46,XX, 9q+. The results of FISH confirm the euchromatic nature of the extra material on the long arm of chromosome 9, and provide evidence that it is of chromosome 9 origin. The structural rearrangement has probably resulted from an insertion of a duplicated segment 9q32→q34.3 into band q13, as shown by the abl cosmid probe. The clinical features in this patient are similar to the previously reported cases of partial trisomy 9q3.     

Duplication 14(q24.3q31) in a father and daughter: Delineation of a possible imprinted region

A number of clinical reports have described children with a variety of congenital anomalies in association with uniparental disomy (upd) of chromosome 14, suggesting that at least some genes on chromosome 14 are subject to parent of origin, or imprinting, effects. However, little else is known about this putative imprinting of chromosome 14. Both maternal and paternal upd have been observed, but a consistent phenotype has only been suggested for the former. Here we report on a child with developmental delay, microcephaly, distinct facial findings, and who has a duplication of 14q24.3q31. The same cytogenetic abnormality was found in her phenotypically normal father. We hypothesize that this segment of chromosome 14 contains maternally silenced genes, and that this duplicated segment defines an imprinted region on chromosome 14. Alternatively, this cytogenetic duplication may be unrelated to the girl's phenotypic anomalies, and this duplication may contain genes that are not subject to dosage effect. Am. J. Med. Genet. 71:361–365, 1997. © 1997 Wiley-Liss, Inc.     

MCA/MR syndrome with features of Hallermann-Streiff syndrome and 4q deficiency/ 14q duplication

Fryns JP, Borghgraef M, Lemmens F, Van den Berghe H. MCA/MR syndrome with features of Hallermann-Streiff syndrome and 4q deficiency/14q duplication.
Clin Genet 1993: 44: 146–148. © Munksgaard, 1993
In this report we present the clinical history and findings in a female newborn with 4q deficiency/14q duplication, the unbalanced product of a paternal t(4;14)(q33;q32). The clinical symptoms and signs observed in this child up to the age of 14 months were most compatible with the diagnosis of Hallermann-Streiff syndrome.     

Familial dup(5)(q15q21) associated with normal and abnormal phenotypes

We studied a familial dup(5q) present in a phenotypically normal father and his monozygotic twin daughters with different abnormal phenotypes. High-resolution chromosome analysis suggested that the duplicated segment was of region q15-21, which seems to be the smallest dup(5q) reported thus far. This dup(5q) was confirmed by fluorescence in situ hybridization with a chromosome 5 painting library and 5q cosmid clones. The presence of the dup(5q) in a normal father suggested that the duplication itself may be harmless. The anomalies in the twins may be due to processes other than this chromosome change. Am. J. Med. Genet. 75:75–77, 1998. © 1998 Wiley-Liss, Inc.     

De novo interstitial tandem duplication of chromosome 4(q21-q28)

We describe a girl with a previously unreported de novo duplication of chromosome 4q involving segment q21-q28. Clinical manifestations included growth and psychomotor retardation, facial asymmetry, hypotelorism, epicanthic folds, mongoloid slant of palpebral fissures, apparently low-set auricles, high nasal bridge, long philtrum, small mouth, short neck, low-set thumbs, and bilateral club foot. This phenotype is compared with that of previously reported cases of duplication 4q. © 1996 Wiley-Liss, Inc.     

Precise mapping of a de novo duplication 18(q21→q22) utilizing cytogenetic,biochemical, and molecular techniques

We describe the first de novo inverted duplication of 18q. Due to the difficulty of identifying de novo chromosome abnormalities based solely on cytologic studies, precise definition of the 18q duplication was attempted by integrating cytogenetic and clinical findings with biochemical and molecular dosage studies. The combined results demonstrated that the proposita had a duplication of 18q21→q22 with a karyotype of 46,XX,–18,+inv dup(18) (pter→q12.1::q22→q21::q12.1→qter). The duplication of this specific chromosome region does not result in the typical 18 phenotype, supporting the hypothesis that various loci on chromosome 18 may interact to produce the manifestations of this syndrome. © 1993 Wiley-Liss, Inc.     

Boy with an interstitial 1q (q31q41) duplication confirmed by fluorescent in situ hybridisation

A 20-year-old man with multiple anomalies caused by a de novo duplication of the long arm of chromosome 1 is presented. The patient suffers from severe mental retardation, epilepsy, bronchial stenosis, and minor anomalies (e.g., hirsutism, midface dysplasia, and beaked nose). A G-banding analysis of the patient's chromosomes showed additional segments in chromosome 1. Fluorescent in situ hybridisation analysis with a chromosome 1 painting probe showed that the extra material originated from chromosome 1. Further analysis with cosmid probes demonstrated that the region involving chromosome bands 1q31 to q41 is present in a tandem duplication. Am. J. Med. Genet. 80:163–168, 1998. © 1998 Wiley-Liss, Inc.     

Duplication 3q: Severe manifestations in an infant with duplication of a short segment of 3q

A patient with duplication of a short segment of 3q (3q21→26) without apparent deletion of 3 or of other chromosomes provided a further opportunity to study manifestations of this abnormality. The proposita had a broad nasal bridge, anteverted nostrils, webbed neck, and clinodactyly V in addition to congenital heart disease, limb abnormalities, cleft palate, and severe developmental delay. The infant did not have the hirsutism and synophrys present in other cases.     

Interstitial Duplication of 7(q22→q34)

We report on a 3-year-old boy with an interstitial duplication of 7(q22→q34), confirmed with fluorescent in-situ hybridization. He had post-natal growth retardation, developmental delay, frontal and parietal bossing, deep-set eyes, strabismus, bilateral optic nerve hypoplasia, and mild dilatation of the cerebral ventricles. His Phenotype was not significantly different from that of the three previously reported patients with interstitial duplication of the smaller segment 7(q22→q31). © 1993 Wiley-Liss, Inc.     

Familial 5q11.2→q13.3 segmental duplication cosegregating with multiple anomalies,including schizophrenia

We report on 2 relatives with a segmental duplication of 5q11.2→13.3. The phenotype is surprisingly limited for the degree of chromosome imbalance, the propositus presenting with schizophrenia. Using RFLP markers, we have shown that the gene for HEXB lies within the duplicated region. We suggest this region as a candidate region for the location of a single major gene which predisposes to schizophrenia and which may be assessed by linkage analysis.     

Duplication 6q22→qter: Definition of the phenotype

We report on a girl with duplication of 6q22.32 → qter and microcephaly, frontal bossing, facial anomalies, and webbed neck. She has congenital heart disease, renal hypoplasia, and hearing loss along with severe developmental delay. Published reports of seven other patients are reviewed and compared. The most frequent anomalies include microcephaly, abnormal face, webbed neck, congenital heart disease, limb contractures, and developmental delay. Am. J. Med. Genet. 78:123–126, 1998. © 1998 Wiley-Liss, Inc.