Project description:Ogataea polymorpha draft genome sequencing

Project description:Ogataea polymorpha strain:LTD 37.2 Genome sequencing

Project description:Ogataea polymorpha CBS 4732 genome sequencing and assembly

Project description:Ogataea polymorpha species complex population genomics

Project description:Transcriptional profiling of hac1 deletion mutant compared to wild type (control). Wild type vs. hac1 deletion mutant of Ogataea angusta DL1 strain in exponential growth. Two biological replicates, with dye-swaps.

Project description:Analysis of the response to hydroxyurea in a yeast aft1 mutant strain compared to wild-type strain (BY4741 or BY4742 backgrounds). Cells were grown in YPD rich medium containong 200 mM hydroxyurea (HU) for 2 hours. Analysis of the response to hydroxyurea in a yeast aft1aft2 mutant strain (Y18aft2d) compared to wild-type strain (CM3260). Cells were grown in YPD rich medium containing 200 mM hydroxyurea (HU) for 2 hours. Gene expression changes due to the aft1 mutation were also analysed in absence of HU (BY4741 background). Analysis of mid-term response to hydroxyurea in a yeast wild-type strain (W303a). Cells were grown in YPD rich medium containing 200 mM hydroxyurea (HU) for 2 hours. Gene expression changes were analysed compared to the same strain grown in the same medium without HU. Keywords: repeat sample

Project description:Transcriptome profiling analysis of the Hansenula polymorpha MET4 gene deletion strain have been carried out to obtain comprehensive information on the HpMet4p-mediated regulatory networks in association with the cadmium (Cd) detoxification and sulfur regulation in H. polymorpha. Total RNA samples were collected from H. polymorpha wild type, and HpMET4 deletion strain, under sulfur starvation or Cd (0.6 mM) stress conditions. The differential fluorescence intensities of each RNA sample were measured after labeling with Cy3 or Cy5. For all analyses, we performed dye swapping experiments to avoid dye bias. Thus, four intensity values were generated for each ORF and averaged for analysis.

Project description:Eukaryotic genomic DNA is packaged in the nucleus as chromatin – a DNA-protein aggregate regulating genome function, including transcription. Chromatin is classified as either active euchromatin or silent heterochromatin, with each marked by distinct histone post-translational modifications (PTMs). Chromatin composition also mediates genome organization, including how heterochromatin aggregates at the nuclear periphery while euchromatin localizes to the nucleus center. In fungi, heterochromatic loci cluster, including independent centromere and telomere clusters that form the Rabl chromosome conformation. However, it is unknown if chromatin composition and genome organization are conserved in closely related fungi, including some yeast species. Here, we examined differences in histone PTM deposition, gene expression, and genome organization in two yeast species from the order Pichiales, which diverged from a common ancestor with Saccharomyces cerevisiae more than 200 million years ago. We focused on Ogataea polymorpha, which is used for industrial protein production, and Ogataea haglerorum, an isolate of which harbors a translocation between chromosomes 1 and 6. We show that the enrichment of three activating PTMs – the trimethylation of lysine 4 of histone H3 (H3K4me3) and the acetylation of lysine 9 of histone H3 (H3K9ac) or lysine 16 of histone H4 (H4K16ac) – are similar genome-wide yet individual gene orthologs have distinct chromatin and expression patterns. While both Ogataea genomes organize into a Rabl conformation, the O. haglerorum translocation alters subtelomeric chromatin composition and expression of genes affected by the translocation. Our work highlights the genome function differences that occur on a microevolutionary scale.

Project description:Eukaryotic genomic DNA is packaged in the nucleus as chromatin – a DNA-protein aggregate regulating genome function, including transcription. Chromatin is classified as either active euchromatin or silent heterochromatin, with each marked by distinct histone post-translational modifications (PTMs). Chromatin composition also mediates genome organization, including how heterochromatin aggregates at the nuclear periphery while euchromatin localizes to the nucleus center. In fungi, heterochromatic loci cluster, including independent centromere and telomere clusters that form the Rabl chromosome conformation. However, it is unknown if chromatin composition and genome organization are conserved in closely related fungi, including some yeast species. Here, we examined differences in histone PTM deposition, gene expression, and genome organization in two yeast species from the order Pichiales, which diverged from a common ancestor with Saccharomyces cerevisiae more than 200 million years ago. We focused on Ogataea polymorpha, which is used for industrial protein production, and Ogataea haglerorum, an isolate of which harbors a translocation between chromosomes 1 and 6. We show that the enrichment of three activating PTMs – the trimethylation of lysine 4 of histone H3 (H3K4me3) and the acetylation of lysine 9 of histone H3 (H3K9ac) or lysine 16 of histone H4 (H4K16ac) – are similar genome-wide yet individual gene orthologs have distinct chromatin and expression patterns. While both Ogataea genomes organize into a Rabl conformation, the O. haglerorum translocation alters subtelomeric chromatin composition and expression of genes affected by the translocation. Our work highlights the genome function differences that occur on a microevolutionary scale.

Project description:Eukaryotic genomic DNA is packaged in the nucleus as chromatin – a DNA-protein aggregate regulating genome function, including transcription. Chromatin is classified as either active euchromatin or silent heterochromatin, with each marked by distinct histone post-translational modifications (PTMs). Chromatin composition also mediates genome organization, including how heterochromatin aggregates at the nuclear periphery while euchromatin localizes to the nucleus center. In fungi, heterochromatic loci cluster, including independent centromere and telomere clusters that form the Rabl chromosome conformation. However, it is unknown if chromatin composition and genome organization are conserved in closely related fungi, including some yeast species. Here, we examined differences in histone PTM deposition, gene expression, and genome organization in two yeast species from the order Pichiales, which diverged from a common ancestor with Saccharomyces cerevisiae more than 200 million years ago. We focused on Ogataea polymorpha, which is used for industrial protein production, and Ogataea haglerorum, an isolate of which harbors a translocation between chromosomes 1 and 6. We show that the enrichment of three activating PTMs – the trimethylation of lysine 4 of histone H3 (H3K4me3) and the acetylation of lysine 9 of histone H3 (H3K9ac) or lysine 16 of histone H4 (H4K16ac) – are similar genome-wide yet individual gene orthologs have distinct chromatin and expression patterns. While both Ogataea genomes organize into a Rabl conformation, the O. haglerorum translocation alters subtelomeric chromatin composition and expression of genes affected by the translocation. Our work highlights the genome function differences that occur on a microevolutionary scale.