Project description:Thraustochytrids Transcriptome

Project description:thraustochytrids sequencing

Project description:Thraustochytrids genome sequencing

Project description:Production of arachidonic acid from Thraustochytrids

Project description:Thraustochytrids of the genera Schizochytrium and Aurantiochytrium accumulate oils rich in the essential, marine n3 fatty acid docosahexaenoic acid (DHA). DHA production in Aurantiochytrium sp T66 was studied with the aim to provide more knowledge about factors that affect the DHA-productivities and the contributions of the two enzyme systems used for fatty acid synthesis in thraustochytrids, fatty acid synthetase (FAS) and PUFA-synthase. Fermentations with nitrogen starvation, which is well-known to initiate lipid accumulation in oleaginous organisms, were compared to fermentations with nitrogen in excess where lipid accumulation was obtained by oxygen limitation. The specific productivities of fatty acids originating from FAS were considerably higher under nitrogen starvation than with nitrogen in excess, while the specific productivities of DHA were the same at both conditions. Global transcriptome analysis showed significant up-regulation of FAS under N-deficient conditions, while the PUFA-synthase genes were only marginally upregulated. Neither of them was upregulated under O2-limitation where nitrogen was in excess, suggesting that N-starvation mainly affects the FAS and may be less important for the PUFA-synthase. The transcriptome analysis also revealed responses likely to be related to the generation of reducing power (NADPH) for fatty acid synthesis.

Project description:The effects of NaCl on terpene metabolism of thraustochytrids

Project description:METABOLIC INSIGHTS INTO DIVERSION OF HYDROPHOBIC AND HYDROPHILLIC WASTE TOWARDS OMEGA FATTY ACID IN THRAUSTOCHYTRIDS

Project description:Single cell Methylome and Transcriptome Sequencing (scM&T-Seq) was performed on index-sorted single CD48- CD135- Lin- Sca-1+ c-Kit+ cells from Scl-tTA; H2B-GFP mouse bone marrow after 100 days of chase. Methylation data is uploaded here.

Project description:C8orf33-proficient and deficient DIvA cells were treated with 4-hydroxy tamoxifen (4OHT) to induce DNA double strand breaks (DSB) at several loci within the human genome. following 4OHT treatment cells were subject to ChIP-seq analysis for KAT8 acetyltransferase to map its enrichment at DSB sites in C8orf33 proficient deficient cells.

Project description:We performed deep targeted somatic mutation analysis to identify cases of clonal hematopoiesis (CH) associated with pre-leukemic mutations. For the healthy cohort, we used our CH panel V3, containing 705 probes, covering leukemia-related Single Nucleotide Variants (SNVs) and Indels in 47 genes, complemented by two amplicon sequencing reactions to cover GC-rich regions in SRSF2 and ASXL1. For the cytopenic cohort, we used our CH panel V4 (described in detail in Biezuner, T. et al., NAR Genom Bioinform, 2022). Both panels were designed to ensure capture uniformity and specificity. Each DNA sample was sequenced twice with a minimum depth of 1,000,000 paired-end reads on an Illumina Novaseq 6000 machine.