Publications (12) View all
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Article: Comparative genome-wide DNA methylation analysis of colorectal tumor and matched normal tissues.
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ABSTRACT: Aberrant DNA methylation often occurs in colorectal cancer (CRC). In our study we applied a genome-wide DNA methylation analysis approach, MethylCap-seq, to map the differentially methylated regions (DMRs) in 24 tumors and matched normal colon samples. In total, 2687 frequently hypermethylated and 468 frequently hypomethylated regions were identified, which include potential biomarkers for CRC diagnosis. Hypermethylation in the tumor samples was enriched at CpG islands and gene promoters, while hypomethylation was distributed throughout the genome. Using epigenetic data from human embryonic stem cells, we show that frequently hypermethylated regions coincide with bivalent loci in human embryonic stem cells. DNA methylation is commonly thought to lead to gene silencing; however, integration of publically available gene expression data indicates that 75% of the frequently hypermethylated genes were most likely already lowly or not expressed in normal tissue. Collectively, our study provides genome-wide DNA methylation maps of CRC, comprehensive lists of DMRs, and gives insights into the role of aberrant DNA methylation in CRC formation.Epigenetics: official journal of the DNA Methylation Society 10/2012; 7(12). · 4.58 Impact Factor -
Article: PfSET10, a Plasmodium falciparum methyltransferase, maintains the active var gene in a poised state during parasite division.
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ABSTRACT: A major virulence factor of the malaria parasite Plasmodium falciparum is erythrocyte membrane protein 1 (PfEMP1), a variant protein expressed on the infected erythrocyte surface. PfEMP1 is responsible for adherence of infected erythrocytes to the endothelium and plays an important role in pathogenesis. Mutually exclusive transcription and switched expression of one of 60 var genes encoding PfEMP1 in each parasite genome provides a mechanism for antigenic variation. We report the identification of a parasite protein, designated PfSET10, which localizes exclusively to the perinuclear active var gene expression site. PfSET10 is a histone 3 lysine 4 methyltransferase required to maintain the active var gene in a poised state during division for reactivation in daughter parasites, and as such is required for P. falciparum antigenic variation. PfSET10 likely maintains the transcriptionally permissive chromatin environment of the active var promoter and thus retains memory for heritable transmission of epigenetic information during parasite division.Cell host & microbe 01/2012; 11(1):7-18. · 13.02 Impact Factor -
Article: Autotrophic methanotrophy in verrucomicrobia: Methylacidiphilum fumariolicum SolV uses the Calvin-Benson-Bassham cycle for carbon dioxide fixation.
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ABSTRACT: Genome data of the extreme acidophilic verrucomicrobial methanotroph Methylacidiphilum fumariolicumstrain SolV indicated the ability of autotrophic growth. This was further validated by transcriptome analysis, which showed that all genes required for a functional Calvin-Benson-Bassham (CBB) cycle were transcribed. Experiments with (13)CH(4) or (13)CO(2) in batch and chemostat cultures demonstrated that CO(2) is the sole carbon source for growth of strain SolV. In the presence of CH(4), CO(2) concentrations in the headspace below 1% (vol/vol) were growth limiting, and no growth was observed when CO(2)concentrations were below 0.3% (vol/vol). The activity of the key enzyme of the CBB cycle, ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO), measured with a (13)C stable-isotope method was about 70 nmol CO(2) fixed · min(-1)· mg of protein(-1). An immune reaction with antibody against the large subunit of RuBisCO on Western blots was found only in the supernatant fractions of cell extracts. The apparent native mass of the RuBisCO complex in strain SolV was about 482 kDa, probably consisting of 8 large (53-kDa) and 8 small (16-kDa) subunits. Based on phylogenetic analysis of the corresponding RuBisCO gene, we postulate that RuBisCO of the verrucomicrobial methanotrophs represents a new type of form I RuBisCO.Journal of bacteriology 07/2011; 193(17):4438-46. · 3.94 Impact Factor -
Article: Histone variant innovation in a rapidly evolving chordate lineage.
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ABSTRACT: Histone variants alter the composition of nucleosomes and play crucial roles in transcription, chromosome segregation, DNA repair, and sperm compaction. Modification of metazoan histone variant lineages occurs on a background of genome architecture that shows global similarities from sponges to vertebrates, but the urochordate, Oikopleura dioica, a member of the sister group to vertebrates, exhibits profound modification of this ancestral architecture. We show that a histone complement of 47 gene loci encodes 31 histone variants, grouped in distinct sets of developmental expression profiles throughout the life cycle. A particularly diverse array of 15 male-specific histone variants was uncovered, including a testes-specific H4t, the first metazoan H4 sequence variant reported. Universal histone variants H3.3, CenH3, and H2A.Z are present but O. dioica lacks homologs of macroH2A and H2AX. The genome encodes many H2A and H2B variants and the repertoire of H2A.Z isoforms is expanded through alternative splicing, incrementally regulating the number of acetylatable lysine residues in the functionally important N-terminal "charge patch". Mass spectrometry identified 40 acetylation, methylation and ubiquitylation posttranslational modifications (PTMs) and showed that hallmark PTMs of "active" and "repressive" chromatin were present in O. dioica. No obvious reduction in silent heterochromatic marks was observed despite high gene density in this extraordinarily compacted chordate genome. These results show that histone gene complements and their organization differ considerably even over modest phylogenetic distances. Substantial innovation among all core and linker histone variants has evolved in concert with adaptation of specific life history traits in this rapidly evolving chordate lineage.BMC Evolutionary Biology 01/2011; 11:208. · 3.52 Impact Factor -
Article: Genome-wide interplay of nuclear receptors with the epigenome.
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ABSTRACT: The nuclear receptor superfamily consists of DNA binding transcription factors that are involved in regulating a wide variety of processes such as metabolism, development, reproduction, and immune responses. Upon binding, nuclear receptors modulate transcription through affecting the local chromatin environment via recruitment of various coregulatory proteins. The recent development of new high-throughput sequencing methods allowed for the first time the comprehensive examination of nuclear receptor action in the context of the epigenome. Here, we discuss how recent genome-wide analyses have provided important new insights on the interplay of nuclear receptors and the epigenome in health and disease. This article is part of a Special Issue entitled: Translating nuclear receptors from health to disease.Biochimica et Biophysica Acta 10/2010; 1812(8):818-23. · 4.66 Impact Factor
