Project description:Detection and genetic characterization of viruses present in free-ranging snow leopards (Panthera uncia)

Project description:Fungal diversity in seasonal snow, Antarctic

Project description:African and Asian leopards are highly differentiated at the genomic level

Project description:Pelagic aggregates function as hotspots for microbial activity and biological carbon pumps for exporting OM fixed by photoautotrophs to sediments in lakes and oceans. In iron-rich (ferruginous) lakes, photoferrotrophic or chemolithoautotrophic bacteria appear to contribute to CO2 fixation by oxidizing reduced iron which leads to the formation of iron-rich pelagic aggregates called iron-snow. In acidic lakes, iron snow is colonized mainly by acidophilic iron-cycling microbes that can trigger interspecies aggregation mechanisms. However, the significance of iron oxidizers in carbon fixation, their general role in iron snow functioning, and the flow of carbon within iron snow is still unclear. Here, we combined a two-year metatranscriptome analysis with a 13CO2 metabolic labeling approach to determine general metabolic activities. Protein-based stable isotope probing (protein-SIP) was used to trace the 13CO2 incorporation in iron snow microcosms over time under both oxic and anoxic conditions. Analysis of our mRNA-derived metatranscriptome data identified four key players (Leptospirillum, Ferrovum, Acidithrix, Acidiphilium) with relative abundances (59.6%-85.7%) in iron snow encoding a variety of ecologically relevant pathways, including carbon fixation, polysaccharide biosynthesis, and flagellar-based motility. We did not detect transcriptional activity for carbon fixation from archaea or eukaryotes. The largest numbers of expressed genes (3008, 2991, 2936) matched to the genomes of our previously obtained iron snow isolates (Acidithrix sp. C25, Acidiphilium sp. C61, Acidocella sp. C78) separately. 13CO2 incorporation studies identified Leptospirillum and Ferrovum, as the main active chemolithoautotrophs under oxic conditions, and Ferrovum was the main active organism under anoxic conditions as well. Small amounts of labeled 13C (Relative isotope abundance: 1.0%-5.3%) were found in the heterotrophic Acidiphilium and Acidocella. Overall, our data show that iron oxidizers play an important role in the formation of iron minerals and CO2 fixation, but the majority of fixed C apparently did not reach other iron snow microbes. This finding suggests that most of the fixed C will be directly exported to the sediment without feeding heterotrophs in the water column in acidic ferruginous lakes.

Project description:We report single-cell RNA-sequencing data characterizing the cell types and variability in self-organizing single rosette forebrain organoids differentiated for 1mo, 3mo, and 5mo with 4, 6, and 3 SOSRS used, respectively. The data shows increasing cellular diversity over differentiation time with a high degree of similarity in the cell diversity between SOSRS differentiated to the same timepoint.

Project description:Diversity of selected toll-like receptor (TLR) genes in cheetahs and African leopards

Project description:We report the sequences bound to CENP-A in the dog genome (Canis familiaris) for high-throughput characterization of centromeric sequences. We compare these ChIPSeq reads (72 bp, single read) against a reference centromeric satellite DNA domain database for the dog genome, resulting in the annotation of sequence variation and estimated abundance of seven satellite families together with adjacent, non-satellite sequences. To study global patterns of sequence diversity and characterizing the subset of sequences correlated with centromere function, these sequences were evaluated relative to a comprehensive centromere sequence domain k-mer library. From this analysis, we identify functional sequence features from two satellite families (CarSat1 and CarSat2) that are defined by distinct arrays subtypes. Sequences bound to CENP-A in MDCK (dog) cell line

Project description:Here, we describe CRISPRpath, a CRISPR screening strategy for simultaneously characterizing CREs in multiple genomic loci by leveraging converging phenotypes resulted from transcriptional defects in genes linked to the same biological pathway.

Project description:Here, we describe CRISPRpath, a CRISPR screening strategy for simultaneously characterizing CREs in multiple genomic loci by leveraging converging phenotypes resulted from transcriptional defects in genes linked to the same biological pathway.

Project description:Here, we describe CRISPRpath, a CRISPR screening strategy for simultaneously characterizing CREs in multiple genomic loci by leveraging converging phenotypes resulted from transcriptional defects in genes linked to the same biological pathway.