Project description:Draft genome sequence of SmDNAV Ns-Ss

Project description:Draft genome sequence of SmDNAV 001

Project description:Sicyoidochytrium minutum DNA virus strain 001 (SmDNAV 001) is a double-stranded DNA (dsDNA) virus that infects the marine fungoid protist Sicyoidochytrium minutum. We report the draft genome sequence of SmDNAV 001. The 236,345-bp genome contained 358 coding sequences (CDSs) and 3 tRNA-coding sequences.

Project description:Streptococcus sp. NM strain:NM Genome sequencing and assembly

Project description:Streptomyces sp. SS strain:SS Genome sequencing and assembly

Project description:SS-31 is a synthetic peptide that improves mitochondrial function and is currently undergoing clinical trials for treatments of heart failure, primary mitochondrial myopathy, and other mitochondrial diseases. SS-31 interacts with cardiolipin which is abundant in the inner mitochondrial membrane, but mechanistic details of its pharmacological effects are unknown. Here we apply a chemical cross-linking/mass spectrometry method to provide direct evidence for specific interactions between SS-31 and mitochondrial proteins. The identified SS-31 interactors are functional components in ATP production and 2-oxoglutarate metabolism and signaling, consistent with improved mitochondrial function resultant from SS-31 treatment. These results offer a glimpse of the protein interaction landscape of SS-31 and provide mechanistic insight relevant to SS-31 mitochondrial therapy

Project description:Salmonella phage NM-3 Raw sequence reads

Project description:Drosophila pseudoobscura strain:SS-R2 H3K9me3 ChIP-seq raw sequence reads

Project description:Streptococcus mitis Nm-65 genome

Project description:We analyzed the backbone fragmentation behavior of tryptic peptides of a four protein mixture and of E. coli lysate subjected to Ultraviolet Photodissociation (UVPD) at 213 nm on a commercially available UVPD-equipped tribrid mass spectrometer. We obtained 15,178 high-confidence peptide-spectrum matches by additionally recording a reference beam-type collision-induced dissociation (HCD) spectrum of each precursor. Type a, b and y ions were most prominent in UVPD spectra and median sequence coverage ranged from 5.8% (at 5 ms laser excitation time) to 45.0% (at 100 ms). Overall sequence fragment intensity remained relatively low (median: 0.4% (5 ms) to 16.8% (100 ms) of total intensity) and remaining precursor intensity high. Sequence coverage and sequence fragment intensity ratio correlated with precursor charge density, suggesting that UVPD at 213 nm may suffer from newly formed fragments sticking together due to non-covalent interactions. UVPD fragmentation efficiency therefore might benefit from supplemental activation, as was shown for ETD. Aromatic amino acids, most prominently tryptophan, facilitated UVPD. This points at aromatic tags as possible enhancers of UVPD. Data are available via ProteomeXchange and on spectrumviewer.org/db/UVPD_213nm_trypPep