Norbert Aust scite author profile

Norbert Aust

3Publications

49Citation Statements Received

77Citation Statements Given

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Affiliations

Jena University Hospital, Friedrich Schiller University Jena, Center for Clinical Studies

Publications

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Clinical Impact of Somatic Mosaicism in Cases with Small Supernumerary Marker Chromosomes

Liehr

Klein

Mrasek

et al. 2012

Cytogenet Genome Res

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Somatic mosaicism is present in slightly more than 50% of small supernumerary marker chromosome (sSMC) carriers. Interestingly, non-acrocentric derived sSMC show mosaicism much more frequently than acrocentric ones. sSMC can be present in different mosaic rates, which may go below 5% of the studied cells. Also cryptic mosaicism can be present and mosaics may be differently expressed in different tissues of the body. Even though in the overwhelming majority of the cases somatic sSMC mosaicism has no direct clinical effect, there are also cases with altered clinical outcomes due to mosaicism. Also clinically important is the fact that a de novo sSMC, even present in mosaic, may be a hint of uniparental disomy (UPD). As it is under discussion to possibly replace standard karyotyping by methods like array-CGH, the impracticality of the latter to detect low-level sSMC mosaics and/or UPD has to be considered as well. Overall, sSMC mosaicism has to be studied carefully in each individual case, as it can be extremely informative and of importance, especially for prenatal genetic counseling.

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Comprehensive Analyses of White-Handed Gibbon Chromosomes Enables Access to 92 Evolutionary Conserved Breakpoints Compared to the Human Genome

Weise

Kosyakova

Voigt

et al. 2015

Cytogenet Genome Res

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Gibbon species (Hylobatidae) impress with an unusually high number of numerical and structural chromosomal changes within the family itself as well as compared to other Hominoidea including humans. In former studies applying molecular cytogenetic methods, 86 evolutionary conserved breakpoints (ECBs) were reported in the white-handed gibbon (Hylobates lar, HLA) with respect to the human genome. To analyze those ECBs in more detail and also to achieve a better understanding of the fast karyotype evolution in Hylobatidae, molecular data for these regions are indispensably necessary. In the present study, we obtained whole chromosome-specific probes by microdissection of all 21 HLA autosomes and prepared them for aCGH. Locus-specific DNA probes were also used for further molecular cytogenetic characterization of selected regions. Thus, we could map 6 yet unreported ECBs in HLA with respect to the human genome. Additionally, in 26 of the 86 previously reported ECBs, the present approach enabled a more precise breakpoint mapping. Interestingly, a preferred localization of ECBs within segmental duplications, copy number variant regions, and fragile sites was observed.

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Multicolor FISH methods in current clinical diagnostics

Liehr

Weise

Hamid

et al. 2013

Expert Review of Molecular Diagnostics

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Multicolor FISH (mFISH) assays are currently indispensable for a precise description of derivative chromosomes. Routine application of such techniques on human chromosomes started in 1996 with the simultaneous use of all 24 human whole-chromosome painting probes in multiplex-FISH and spectral karyotyping. Since then, multiple approaches for chromosomal differentiation based on multicolor-FISH (MFISH) assays have been developed. Predominantly, they are applied to characterize marker or derivative chromosomes identified in conventional banding analysis. Since the introduction of array-based comparative genomic hybridization (aCGH), mFISH is also applied to verify and further delineate aCGH-detected aberrations. For the latter, it is important to consider the fact that aCGH cannot detect or characterize balanced rearrangements, which are important to be resolved in detail in infertility diagnostics. In addition, mFISH is necessary to distinguish different imbalanced situations detectable in aCGH; small supernumerary marker chromosomes have to be differentiated from insertions or unbalanced translocations. This review presents an overview on the available mFISH methods and their applications in pre- and post-natal clinical genetics.

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Norbert Aust

Clinical Impact of Somatic Mosaicism in Cases with Small Supernumerary Marker Chromosomes

Comprehensive Analyses of White-Handed Gibbon Chromosomes Enables Access to 92 Evolutionary Conserved Breakpoints Compared to the Human Genome

Multicolor FISH methods in current clinical diagnostics

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