Project description:S. pombe genome-wide nucleosome mapping reveals positioning mechanisms distinct from S. cerevisiae

Project description:A key element for defining the centromere identity is the incorporation of a specific histone H3, CENP-A, known as Cnp1p in S. pombe. Previous studies have suggested that functional S. pombe centromeres lack nucleosome arrays and may involve chromatin remodeling as a key step of kinetochore assembly. We used tiling microarrays to show that nucleosomes are in fact positioned in regular intervals in the core of centromere 2, providing the first high resolution map of regional centromere chromatin. Nucleosome locations are not disrupted by mutations in kinetochore proteins cnp1, mis18, mis12, nuf2, mal2, overexpression of Cnp1p, or deletion of ams2. Bioinformatic analysis of the centromere sequence indicates certain enriched motifs in linker regions between nucleosomes and reveals a sequence-bias in nucleosome positioning. We conclude that centromeric nucleosome positions are stable and may be derived from the underlying DNA sequence. In addition, sequence analysis of nucleosome-free regions identifies novel binding sites for the GATA-like protein Ams2p, which participates in CENP-A incorporation. Keywords: Nucleosome Mapping Study

Project description:Hrp3_Purification from Schizosaccharomyces pombe 972h- Eukaryotic genome is composed of repeating units of nucleosomes to form chromatin arrays. A canonical gene is marked by nucleosome free region (NFR) at its 5’ end followed by uniformly spaced arrays of nucleosomes. In fission yeast we show both biochemically and in vivo that both Hrp1 and Hrp3 are key determinants of uniform spacing of genic arrays.

Project description:Nucleosome turnover in Schizosaccharomyces pombe

Project description:Mapping of Rec12 oligonucleotides in Schizosaccharomyces pombe

Project description:A key element for defining the centromere identity is the incorporation of a specific histone H3, CENP-A, known as Cnp1p in S. pombe. Previous studies have suggested that functional S. pombe centromeres lack nucleosome arrays and may involve chromatin remodeling as a key step of kinetochore assembly. We used tiling microarrays to show that nucleosomes are in fact positioned in regular intervals in the core of centromere 2, providing the first high resolution map of regional centromere chromatin. Nucleosome locations are not disrupted by mutations in kinetochore proteins cnp1, mis18, mis12, nuf2, mal2, overexpression of Cnp1p, or deletion of ams2. Bioinformatic analysis of the centromere sequence indicates certain enriched motifs in linker regions between nucleosomes and reveals a sequence-bias in nucleosome positioning. We conclude that centromeric nucleosome positions are stable and may be derived from the underlying DNA sequence. In addition, sequence analysis of nucleosome-free regions identifies novel binding sites for the GATA-like protein Ams2p, which participates in CENP-A incorporation. Keywords: Nucleosome Mapping Study Entire cnt regions and histone-related genes were tiled at 1-5 bp spacing using 60-mer probes.

Project description:Chemical map of S. pombe reveals species-specific features in nucleosome positioning

Project description:Silencing factors induce the elimination of nucleosome-free regions in S. pombe heterochromatin

Project description:The Dynamic Transcriptome of Schizosaccharomyces pombe Revealed by RNA/DNA Hybrid Mapping

Project description:Clustered regulatory signals at nucleosome-depleted regions punctuate a constant nucleosomal landscape in Schizosaccharomyces pombe [Affymetrix]