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  • DIFFERENTIATION  (2)
  • moss
  • orobol
  • 1
    Keywords: EXPRESSION ; GENE ; DIFFERENTIATION ; IDENTIFICATION ; EMBRYONIC STEM-CELLS ; HYPERMETHYLATION ; SUPPRESSOR ; methylome ; CANCER GENOME ; CPG ISLAND SHORES
    Abstract: Epigenetic alterations, that is, disruption of DNA methylation and chromatin architecture, are now acknowledged as a universal feature of tumorigenesis. Medulloblastoma, a clinically challenging, malignant childhood brain tumour, is no exception. Despite much progress from recent genomics studies, with recurrent changes identified in each of the four distinct tumour subgroups (WNT-pathway-activated, SHH-pathway-activated, and the less-well-characterized Group 3 and Group 4), many cases still lack an obvious genetic driver. Here we present whole-genome bisulphite-sequencing data from thirty-four human and five murine tumours plus eight human and three murine normal controls, augmented with matched whole-genome, RNA and chromatin immunoprecipitation sequencing data. This comprehensive data set allowed us to decipher several features underlying the interplay between the genome, epigenome and transcriptome, and its effects on medulloblastoma pathophysiology. Most notable were highly prevalent regions of hypomethylation correlating with increased gene expression, extending tens of kilobases downstream of transcription start sites. Focal regions of low methylation linked to transcription-factor-binding sites shed light on differential transcriptional networks between subgroups, whereas increased methylation due to re-normalization of repressed chromatin in DNA methylation valleys was positively correlated with gene expression. Large, partially methylated domains affecting up to one-third of the genome showed increased mutation rates and gene silencing in a subgroup-specific fashion. Epigenetic alterations also affected novel medulloblastoma candidate genes (for example, LIN28B), resulting in alternative promoter usage and/or differential messenger RNA/microRNA expression. Analysis of mouse medulloblastoma and precursor-cell methylation demonstrated a somatic origin for many alterations. Our data provide insights into the epigenetic regulation of transcription and genome organization in medulloblastoma pathogenesis, which are probably also of importance in a wider developmental and disease context.
    Type of Publication: Journal article published
    PubMed ID: 24847876
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  • 2
    Keywords: CELLS ; EXPRESSION ; CELL ; Germany ; MODEL ; DISEASE ; GENE ; GENE-EXPRESSION ; PROTEIN ; PROTEINS ; DIFFERENTIATION ; MONOCLONAL-ANTIBODY ; MATURATION ; antibodies ; antibody ; MOUSE ; IN-SITU ; immunohistochemistry ; gene expression ; CELL-LINE ; LINE ; SURFACE ; MONOCLONAL-ANTIBODIES ; STRATEGIES ; CELIAC-DISEASE ; EXPRESSION PROFILES ; GLUTEN ; STRATEGY ; DNAJ ; J-DOMAIN
    Abstract: Background: Maturation of enterocytes along the small intestinal crypt-villus axis is associated with significant changes in gene expression profiles. fls485 coding a putative chaperone protein has been recently suggested as a gene involved in this process. The aim of the present study was to analyze fls485 expression in human small intestinal mucosa. Methods: fls485 expression in purified normal or intestinal mucosa affected with celiac disease was investigated with a molecular approach including qRT-PCR, Western blotting, and expression strategies. Molecular data were corroborated with several in situ techniques and usage of newly synthesized mouse monoclonal antibodies. Results: fls485 mRNA expression was preferentially found in enterocytes and chromaffine cells of human intestinal mucosa as well as in several cell lines including Rko, Lovo, and CaCo2 cells. Western blot analysis with our new anti-fls485 antibodies revealed at least two fls485 proteins. In a functional CaCo2 model, an increase in fls485 expression was paralleled by cellular maturation stage. Immunohistochemistry demonstrated fls485 as a cytosolic protein with a slightly increasing expression gradient along the crypt-villus axis which was impaired in celiac disease Marsh IIIa-c. Conclusions: Expression and synthesis of fls485 are found in surface lining epithelia of normal human intestinal mucosa and deriving epithelial cell lines. An interdependence of enterocyte differentiation along the crypt-villus axis and fls485 chaperone activity might be possible
    Type of Publication: Journal article published
    PubMed ID: 20205943
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  • 3
    ISSN: 0031-9422
    Keywords: 6''-malonyl glucosides ; 7-O-glucosides ; Bryales ; Bryum capillare ; Musci ; NMR spectra. ; isoflavones ; moss ; orobol ; pratensein
    Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002
    Topics: Biology , Chemistry and Pharmacology
    Type of Medium: Electronic Resource
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