Your search keyword '"Bartsch, Oliver"' showing total 7 results

1. De-novo Williams-Beuren and inherited Marfan syndromes in a patient with developmental delay and lens dislocation.

Author

Budisteanu M, Papuc SM, Tutulan-Cunita AC, Budisteanu B, Weis E, Arghir A, Zechner U, and Bartsch O

Subjects

Alleles, Child, DNA Mutational Analysis, Developmental Disabilities genetics, Facies, Fibrillin-1 genetics, Genotype, Humans, In Situ Hybridization, Fluorescence, Lens Subluxation genetics, Male, Marfan Syndrome genetics, Mutation, Myosin Heavy Chains genetics, Phenotype, Williams Syndrome genetics, Developmental Disabilities diagnosis, Lens Subluxation diagnosis, Marfan Syndrome complications, Marfan Syndrome diagnosis, Williams Syndrome complications, Williams Syndrome diagnosis

Published

2017

2. Novel clinical findings in the first Egyptian case of Sotos syndrome caused by complete deletion of the NSD1 gene.

Author

Abdalla E, Bartsch O, Galetzka D, and Zechner U

Subjects

Age Determination by Skeleton, Child, Preschool, Chromosomes, Human, Pair 5 genetics, Developmental Disabilities physiopathology, Egypt, Face physiopathology, Gene Deletion, Haploinsufficiency, Hearing Loss, Sensorineural physiopathology, Histone Methyltransferases, Histone-Lysine N-Methyltransferase, Humans, Male, Sotos Syndrome physiopathology, Developmental Disabilities genetics, Hearing Loss, Sensorineural genetics, Intracellular Signaling Peptides and Proteins genetics, Nuclear Proteins genetics, Sotos Syndrome genetics

Published

2017

3. Inheritance of a t(13;14)(q10;q10) Robertsonian translocation with a low level of trisomy 13 mosaicism.

Author

Jenderny J, Schmidt W, and Bartsch O

Subjects

Adult, Female, Germany, Humans, Infant, Male, Abnormalities, Multiple genetics, Chromosomes, Human, Pair 13, Developmental Disabilities genetics, Face abnormalities, Mosaicism, Translocation, Genetic, Trisomy genetics

Abstract

Introduction: Low level of trisomy 13 mosaicism is a rare condition. In the present report, we describe a case of a 19-month-old boy with poor feeding, poor weight gain, mild dysmorphic features, mild muscular hypotonia, and speech delay., Discussion: Cytogenetic analysis on metaphases of lymphocytes revealed an 8% mosaic Robertsonian translocation trisomy 13 in the boy and a balanced Robertsonian translocation, 45,XX,der(13;14)(q10;q10), in his normal mother. Fluorescence in situ hybridization (FISH) on patient lymphocytes disclosed 4% of metaphases with a trisomy 13. The trisomy 13 mosaicism in metaphases could not be identified by interphase FISH. The percentage of three signals (4%) was within the standard deviation in diploid controls. Follow-up of the patient was performed at the age of 7 1/12 years, and in cells from buccal smear of the patient, trisomy 13 was detected in 11% of interphases analyzed that is a higher frequency. Uniparental disomy of chromosomes 13 and 14 were excluded in the boy, and therefore, his phenotypic abnormalities most likely were caused by the low level of trisomy 13 mosaicism., Conclusion: The detailed report of this patient described the infrequent occurrence of a low mosaic Robertsonian translocation trisomy 13. We suggest to study cases of low trisomy mosaicism preferentially using metaphase analyses rather than interphase FISH. Our case is helpful in further defining the phenotype of these patients.

Published

2010

4. DNA sequencing of CREBBP demonstrates mutations in 56% of patients with Rubinstein–Taybi syndrome (RSTS) and in another patient with incomplete RSTS.

Author

Bartsch, Oliver, Schmidt, Stefanie, Richter, Marion, Morlot, Susanne, Seemanová, Eva, Wiebe, Glenis, and Rasi, Sasan

Subjects

*INTELLECTUAL disabilities, *GENETIC mutation, *PEOPLE with intellectual disabilities, *ANTHROPOMETRY, *DEVELOPMENTAL disabilities, *PATHOLOGICAL psychology

Abstract

Rubinstein–Taybi syndrome (RSTS) is a distinct dominant disorder characterized by short stature, typical face, broad angulated thumbs and halluces, and mental retardation. The RSTS can be caused by chromosomal microdeletions and molecular mutations in the CREBBP gene; however, relatively few mutations have been reported to date. Here, we aimed to determine the rate of point mutations and other small molecular lesions in true RSTS and possible mild variants, by using genomic DNA sequencing. A consecutive series of patients including 17 patients from our previous study was investigated. We identified 19 causative mutations of CREBBP in a total of 45 patients representing three different diagnostic groups: (a) 17 mutations in 30 patients with unequivocal RSTS (detection rate 56.6%), (b) two mutations in eight patients with features suggestive of RSTS (“moderate or incomplete RSTS”, detection rate 25%), and (c) no mutation in seven patients with undiagnosed syndromes and isolated features of RSTS. In general, the mutations were distributed without hot spots and most were unique; however, three recurrent mutations (R370X, R1664H, and N1978S) were identified. Furthermore, we detected 15 different intragenic polymorphisms, including two non-synonymous coding polymorphisms, L551I and Q2208H. We report not only the highest detection rate (56.6%) of CREBBP mutations in patients with RSTS to date, but also the second missense mutation (N1978S) in a patient with moderate or incomplete RSTS. Previous studies have identified cytogenetic deletions in the CREBBP gene in eight to 12% of patients and very recently, Roelfsema et al. reported EP300 gene mutations in three of 92 (3.3%) patients with either true RSTS or different syndromes resembling RSTS. Our 56.6% detection rate of molecular mutations in CREBBP in patients with unequivocal RSTS supports the new concept that RSTS is a genetically heterogeneous disorder and furthermore, indicates that RSTS may be caused by gene/s other than CREBBP in up to 30% of cases. [ABSTRACT FROM AUTHOR]

Published

2005

5. Identification of novel mutations in the ABCA12 gene, c.1857delA and c.5653–5655delTAT, causing harlequin ichthyosis.

Author

Follmann, Johannes, Macchiella, Doris, Whybra, Catharina, Mildenberger, Eva, Poarangan, Cornelia, Zechner, Ulrich, and Bartsch, Oliver

Subjects

*GENETIC disorder diagnosis, *GENETIC mutation, *ICHTHYOSIS, *POLYHYDRAMNIOS, *DEVELOPMENTAL disabilities, *AMNIOTIC liquid

Abstract

Abstract: Harlequin ichthyosis (HI) is a severe autosomal recessive developmental disorder of the skin that is frequently but not always fatal in the first few days of life. In HI, mutations in both ABCA12 gene alleles must have a severe impact on protein function and most mutations are truncating. The presence of at least one nontruncating mutation (predicting a residual protein function) usually causes a less severe congenital ichthyosis (lamellar ichthyosis or congenital ichthyosiform erythroderma). Here we report on a girl with severe HI diagnosed by prenatal ultrasound at 33 5/7week gestation. Ultrasound findings included ectropion, eclabium, deformed nose, hands and feet, joint contractures, hyperechogenic amniotic fluid and polyhydramnion. After birth, palliative treatment was provided and she died on her first day of life. Sequence analysis of the ABCA12 gene identified two novel mutations, c.1857delA (predicting p.Lys619*) in exon 15 and c.5653–5655delTAT (predicting p.1885delTyr) in exon 37, each in heterozygous state. The c.5653–5655delTAT mutation is not truncating, but the deleted tyrosine at position 1885 is perfectly conserved among vertebrates and molecular studies evaluated the mutation as probably disease causing and damaging. [Copyright &y& Elsevier]

Published

2013

6. Girl With Partial Turner Syndrome and Absence Epilepsy

Author

Puusepp, Helen, Zordania, Riina, Paal, Mare, Bartsch, Oliver, and Õunap, Katrin

Subjects

*EPILEPSY, *DEVELOPMENTAL disabilities, *SPASMS, *ANTHROPOMETRY

Abstract

This report describes a 16-year-old girl with short stature (−5 standard deviations), normal puberty, panic attacks, absence epilepsy, some stigmata of Turner syndrome, and a Madelung deformity. Routine chromosomal analysis revealed a female karyotype with one abnormal chromosome X, with the suspicion of additional material on the short arm. With fluorescent in situ hybridization and array-multiplex amplifiable probe hybridization methodology, a complex aberration was detected, with a deletion of the distal part of Xp22.33 (including the short-stature homeobox gene) and a duplication of Xp22.32-p22.12 proximal to the deleted segment. The deletion in our patient involves the Xp22.33 region. Two genes in this region may contribute to the patient’s phenotype: short-stature homeobox, and visuospatial/perceptual abilities. The duplication in our patient involves the Xp22.12-p22.32 region, which, according to the Online Mendelian Inheritance in Man database, contains at least 93 genes, 49 of which are of unknown function. It is difficult to conjecture which gene overexpression in this region may have contributed to the phenotype of our patient. To our knowledge, this small, complex chromosome X aberration was not described previously. [Copyright &y& Elsevier]

Published

2008

7. Small Reciprocal Insertion detected by Spectral Karyotyping (SKY) and delimited by Array-CGH Analysis

Author

Matthaei, Anja, Werner, Walter, Gerlach, Eva-Maria, Koerner, Ulrike, Tinschert, Sigrid, Nitz, Inna, Herr, Alexander, Rump, Andreas, Bartsch, Oliver, Hinkel, Klaus G., Schrock, Evelin, and Oexle, Konrad

Subjects

*DEVELOPMENTAL disabilities, *JUVENILE diseases, *GENETICS, *PEOPLE with intellectual disabilities

Abstract

Abstract: A 5.4-year-old male propositus is reported with mild dysmorphic features including hypoplasia of the radial part of both hands affecting thenar, thumb and fingers 2 - 3, incomplete syndactyly of fingers 3 - 4, single palmar creases, brachymesophalangia of toes 3 - 5, dissociated retardation of bone age, telecanthus, spina bifida occulta, cryptorchidism, muscular hypotonia, and borderline mental retardation. His karyotype was unbalanced, 46,XY,der(16)ins(4;16)(q26q28.1; q12.1q12.2)pat. In the propositus'' father who had brachydactyly of fingers 2 - 5 and brachymesophalangia of toes 3 - 5 the insertion was reciprocal, 46,XY,rep ins(4;16)(q26q28.1;q12.1q12.2). Insertions are rare, reciprocal insertions most unusual. The characterization of the insertion in the propositus and the detection of its reciprocity in the father were achieved by the application of spectral karyotyping (SKY). Further examination of the propositus'' unbalanced genome by array-CGH analysis delimited the chromosomal locations of the deletion/insertion rearrangement on a 0.5 - 2 Mb resolution level and allowed to design specific BAC FISH analyses that pinpointed the borders of the affected segments. The rearrangement involved a segment of 7.7 Mb between RP11-1030 g22 and RP11-52k8 at the chromosomal regions 4q26 and 4q28.1, respectively, and a segment of 2.8 Mb between RP11-242n20 at 16q12.1 and RP11-324d17 at 16q12.2. A simple molecular genetic explanation of the phenotype cannot be given. A relation to the Townes Brocks gene (SALL1) located 340 kb proximal of the 16q12 deletion/insertion is unlikely. Possibly more relevant is an overlap of the 16q12 deletion/insertion with a small deletion of the syntenic chromosomal region in the mouse that causes a developmental disorder of digits (“Fused toes”). [Copyright &y& Elsevier]

Published

2005