Michaela Neusser scite author profile

We demonstrate that the nuclear topological arrangement of chromosome territories (CTs) has been conserved during primate evolution over a period of about 30 million years. Recent evidence shows that the positioning of chromatin in human lymphocyte nuclei is correlated with gene density. For example, human chromosome 19 territories, which contain mainly gene-dense and early replicating chromatin, are located toward the nuclear center, whereas chromosome 18 territories, which consist mainly of genepoor and later replicating chromatin, is located close to the nuclear border. In this study, we subjected seven different primate species to comparative analysis of the radial distribution pattern of human chromosome 18-and 19-homologous chromatin by three-dimensional fluorescence in situ hybridization. Our data demonstrate that gene-density-correlated radial chromatin arrangements were conserved during higher-primate genome evolution, irrespective of the major karyotypic rearrangements that occurred in different phylogenetic lineages. The evolutionarily conserved positioning of homologous chromosomes or chromosome segments in related species supports evidence for a functionally relevant higher-order chromatin arrangement that is correlated with gene-density.

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Validation and refinement of the revised 2017 European LeukemiaNet genetic risk stratification of acute myeloid leukemia

Herold

et al. 2020

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The revised 2017 European LeukemiaNet (ELN) recommendations for genetic risk stratification of acute myeloid leukemia have been widely adopted, but have not yet been validated in large cohorts of AML patients. We studied 1116 newly diagnosed AML patients (age range, 18-86 years) who had received induction chemotherapy. Among 771 patients not selected by genetics, the ELN-2017 classification reassigned 26.5% of patients into a more favorable or, more commonly, a more adverse-risk group compared with the ELN-2010 recommendations. Forty percent of the cohort, and 51% of patients ≥60 years, were classified as adverse-risk by ELN-2017. In 599 patients <60 years, estimated 5-year overall survival (OS) was 64% for ELN-2017 favorable, 42% for intermediate-risk and 20% for adverse-risk patients. Among 517 patients aged ≥60 years, corresponding 5-year OS rates were 37, 16, and 6%. Patients with biallelic CEBPA mutations or inv(16) had particularly favorable outcomes, while patients with mutated TP53 and a complex karyotype had especially poor prognosis. DNMT3A mutations associated with inferior OS within each ELN-2017 risk group. Our results validate the prognostic significance of the revised ELN-2017 risk classification in AML patients receiving induction chemotherapy across a broad age range. Further refinement of the ELN-2017 risk classification is possible.

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Multicolor 3D Fluorescence In Situ Hybridization for Imaging Interphase Chromosomes

Cremer¹,

Grasser²,

Lanctôt³

et al. 2012

157

141

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Fluorescence in situ hybridization (FISH) of specific DNA probes has become a widely used technique mostly for chromosome analysis and for studies of the chromosomal location of specific DNA segments in metaphase preparations as well as in interphase nuclei. FISH on 3D-preserved nuclei (3D-FISH) in combination with 3D-microscopy and image reconstruction is an efficient tool to analyze the spatial arrangement of targeted DNA sequences in the nucleus. Recent developments of a "new generation" of confocal microscopes that allow the distinct visualization of at least five different fluorochromes within one experiment opened the way for multicolor 3D-FISH experiments. Thus, numerous differently labeled nuclear targets can be delineated simultaneously and their spatial interrelationships can be analyzed on the level of individual nuclei.In this chapter, we provide protocols for the preparation of complex DNA-probe sets suitable for 3D-FISH with up to six different fluorochromes, for 3D-FISH on cultured mammalian cells (growing in suspension or adherently) as well as on tissue sections, and for 3D immuno-FISH.In comparison with FISH on metaphase chromosomes and conventional interphase cytogenetics, FISH on 3D-preserved nuclei requires special demands with regard to probe quality, fixation, and pretreatment steps of cells in order to achieve the two goals, namely the best possible preservation of the nuclear structure and at the same time an efficient probe accessibility.

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Molecular cytotaxonomy of New World monkeys (Platyrrhini) – comparative analysis of five species by multi-color chromosome painting gives evidence for a classification of Callimico goeldii within the family of Callitrichidae

Neusser

Stanyon

Bigoni

et al. 2001

Cytogenet Genome Res

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Chromosome rearrangements are considered as “rare genomic changes” and can provide useful markers and even landmarks for reconstructing phylogenies complementary to DNA sequence data and bio-morphological comparisons. Here, we applied multi-directional chromosome painting to reconstruct the chromosome phylogeny and evolutionary relationships among the New World monkey (Platyrrhini) species Callithrix argentata, Cebuella pygmaea, Saguinus oedipus, Callithrix jacchus and Callimico goeldii. The results clarified several aspects of New Wold monkey phylogeny. In particular the phylogenetic position of C. goeldii was elucidated, which has been controversially discussed and variously classified in the family Callitrichidae, in the family Cebidae or in its own family Callimiconidae. Comparative genome maps were established by multi-color fluorescence in situ hybridization (FISH) with human, S. oedipus and Lagothrix lagothricha chromosome- specific DNA probes. From these data we reconstructed the putative ancestral karyotype of all Callitrichidae. Various derived chromosomal syntenies are shared by all five species and cytogenetically define Callitrichidae – including Callimico goeldii – as a distinctive group within the Platyrrhini. C. pygmaea and C. argentata share identical chromosomal syntenies from which S. oedipus and C. jacchus differ by single independent translocations. A common derived chromosomal change links Callimico with the marmosets to the exclusion of the tamarins, however, it has further diverged from an ancestral marmoset karyotype by at least four apomorphic rearrangements. Saimiri sciureus, representing the Cebinae, exclusively shares a derived syntenic association with all Callithrichidae, defining the genus Saimiri as a sister group.

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Evolutionarily conserved, cell type and species-specific higher order chromatin arrangements in interphase nuclei of primates

et al. 2007

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Several studies demonstrated a gene-density-correlated radial organization of chromosome territories (CTs) in spherically shaped nuclei of human lymphocytes or lymphoblastoid cells, while CT arrangements in flat-ellipsoidal nuclei of human fibroblasts are affected by both gene density and chromosome size. In the present study, we performed fluorescence in situ hybridization (FISH) experiments to three-dimensionally preserved nuclei (3D-FISH) from human and nonhuman primate cultured lymphoblastoid cells and fibroblasts. We investigated apes, Old, and New World monkeys showing either evolutionarily conserved karyotypes, multiple translocations, fusions, or serial fissions. Our goal was to test whether cell type specific differences of higher order chromatin arrangements are evolutionarily conserved in different primate lineages. Whole genome painting experiments and further detailed analyses of individual chromosomes indicate a gene-density-correlated higher order organization of chromatin in lymphoblastoid cell nuclei of all studied primate species, despite evolutionary chromosome reshuffling. In contrast, in primate fibroblast nuclei evolutionary translocations, fissions and fusions resulted in positional shifts of orthologous chromosome segments, thus arguing against a functional role of chromosome size-dependent spatial chromatin arrangements and for geometrical constraints in flat-ellipsoidal fibroblast nuclei. Notably, in both cell types, regions of rearranged chromosomes with distinct differences in gene density showed polarized arrangements with the more gene-dense segment oriented towards the nuclear interior. Our results indicate that nonrandom breakage and rejoining of preferentially gene-dense chromosomes or chromosome segments may have occurred during evolution.

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Replication-timing-correlated spatial chromatin arrangements in cancer and in primate interphase nuclei

Grasser

Neusser

Fiegler

et al. 2008

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Summary Using published high-resolution data on S-phase replication timing, we determined the three-dimensional (3D) nuclear arrangement of 33 very-early-replicating and 31 very-late-replicating loci. We analyzed diploid human, non-human primate and rearranged tumor cells by 3D fluorescence in situ hybridization with the aim of investigating the impact of chromosomal structural changes on the nuclear organization of these loci. Overall, their topology was found to be largely conserved between cell types, species and in tumor cells. Early-replicating loci were localized in the nuclear interior, whereas late-replicating loci showed a broader distribution with a higher preference for the periphery than for late-BrdU-incorporation foci. However, differences in the spatial arrangement of early and late loci of chromosome 2, as compared with those from chromosome 5, 7 and 17, argue against replication timing as a major driving force for the 3D radial genome organization in human lymphoblastoid cell nuclei. Instead, genomic properties, and local gene density in particular, were identified as the decisive parameters. Further detailed comparisons of chromosome 7 loci in primate and tumor cells suggest that the inversions analyzed influence nuclear topology to a greater extent than the translocations, thus pointing to geometrical constraints in the 3D conformation of a chromosome territory.

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Multi-directional chromosome painting maps homologies between species belonging to three genera of New World monkeys and humans

et al. 2004

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We mapped chromosomal homologies in two species of Chiropotes (Pitheciini, Saki Monkeys) and one species of Aotus (Aotinae, Owl Monkey) by multi-directional chromosome painting. Human chromosome probes were hybridized to Chiropotes utahicki, C. israelita and Aotus nancymae metaphases. Wooly Monkey chromosome paints were also hybridized to Owl Monkey metaphases. We established Owl Monkey chromosome paint probes by flow sorting and reciprocally hybridized them to human chromosomes. The karyotypes of the Bearded Saki Monkeys studied here are close to the hypothesized ancestral platyrrhine karytoype, while that of the Owl Monkey appears to be highly derived. The A. nancymae karyotype is highly shuffled and only three human syntenic groups were found conserved coexisting with 17 derived human homologous associations. A minimum of 14 fissions and 13 fusions would be required to derive the A. nancymae karyotype from that of the ancestral New World primate karyotype. An inversion between homologs to segments of human 10 and 16 suggests a link between Callicebus and Chiropotes, while the syntenic association of 10/11 found in Aotus and Callicebus suggests a link between these two genera. Future molecular cytogenetic work will be needed to determine whether these rearrangements represent synapomorphic chromosomal traits.

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Phylogenetic inferences of Atelinae (Platyrrhini) based on multi-directional chromosome painting in Brachyteles arachnoides, Ateles paniscus paniscus and Ateles b. marginatus

Oliveira

Neusser

Pieczarka

et al. 2004

Cytogenet Genome Res

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We performed multi-directional chromosome painting in a comparative cytogenetic study of the three Atelinae species Brachyteles arachnoides, Ateles paniscus paniscus and Ateles belzebuth marginatus, in order to reconstruct phylogenetic relationships within this Platyrrhini subfamily. Comparative chromosome maps between these species were established by multi-color fluorescence in situ hybridization (FISH) employing human, Saguinus oedipus and Lagothrix lagothricha chromosome-specific probes. The three species included in this study and four previously analyzed species from all four Atelinae genera were subjected to a phylogenetic analysis on the basis of a data matrix comprised of 82 discrete chromosome characters. The results confirmed that Atelinae represent a monophyletic clade with a putative ancestral karyotype of 2n = 62 chromosomes. Phylogenetic analysis revealed an evolutionary branching sequence {Alouatta {Brachyteles {Lagothrix and Ateles}}} in Atelinae and {Ateles belzebuth marginatus {Ateles paniscus paniscus {Ateles belzebuth hybridus and Ateles geoffroyi}}} in genus Ateles. The chromosomal data support a re-evaluation of the taxonomic status of Ateles b. hybridus.

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