Project description:Diversity of cortical radial glia cells (RGCs) and their complex relationships to generate neurons in species with expanded germinal zones and a folded cortex, remains unclear. We used TrackerSeq, a technique that integrates DNA barcodes into the genome of electroporated RGCs, to identify the distinct cell lineages that shape ferret cortex.

Project description:Diversity of cortical radial glia cells (RGCs) and their complex relationships to generate neurons in species with expanded germinal zones and a folded cortex, remains unclear. We used single-cell RNA sequencing (scRNA-seq) of microdissected cortical germinal layers (ventricular zone (VZ) and outer subventricular zone (OSVZ)), from two cortical regions (splenial gyrus (SG) and neighboring lateral sulcus (LS)) at two critical time points for ferret cortex development (embryonic day (E) 34 and postnatal day (P) 1) to distinguish the molecular diversity of progenitors and newborn neurons, and study their transcriptomic trajectories.

Project description:scRNA-seq of ferret cortical germinal zones from splenial gyrus and lateral sulcus (Borrell lab)

Project description:Ferret coronavirus Genome sequencing

Project description:The domestic ferret (Mustela putorius furo) has been used as animal model for decades, largely because its susceptibility to infection with a large number of pathogens such as influenza virus, SARS Corona virus and Canine distemper virus. Despite its importance for biomedical research, little is known about the genome of the M. Furo. The number of reagents for molecular and immunological analysis is thus restricted. To circumvent this, we present here a parallel sequencing effort to produce an extensive EST dataset derived from a normalized ferret cDNA library made from mRNA from ferret blood, liver, lung, spleen and brain. We produced more than 500000 sequence reads that were assembled into over 15000 partial ferret transcripts. These ESTs were combined with the available ferret sequences in the GenBank to develop a ferret specific microarray platform. Using this array, we detected tissue specific expression patterns which were confirmed by quantitative real time PCR assays and comparison to orthologous transcription profiles of mouse and human. We also present a set of 41 ferret transcript with even transcription profile across the tested tissues, indicating their usefulness as housekeeping genes. This study paves way for development of additional reagents for analysis of the ferret model. Three biological replicates of blood, lung, spleen, liver and brain was hybridized to the ferret specific microarray.

Project description:Characterization of Ferret Microbiota

Project description:The domestic ferret (Mustela putorius furo) has been used as animal model for decades, largely because its susceptibility to infection with a large number of pathogens such as influenza virus, SARS Corona virus and Canine distemper virus. Despite its importance for biomedical research, little is known about the genome of the M. Furo. The number of reagents for molecular and immunological analysis is thus restricted. To circumvent this, we present here a parallel sequencing effort to produce an extensive EST dataset derived from a normalized ferret cDNA library made from mRNA from ferret blood, liver, lung, spleen and brain. We produced more than 500000 sequence reads that were assembled into over 15000 partial ferret transcripts. These ESTs were combined with the available ferret sequences in the GenBank to develop a ferret specific microarray platform. Using this array, we detected tissue specific expression patterns which were confirmed by quantitative real time PCR assays and comparison to orthologous transcription profiles of mouse and human. We also present a set of 41 ferret transcript with even transcription profile across the tested tissues, indicating their usefulness as housekeeping genes. This study paves way for development of additional reagents for analysis of the ferret model.

Project description:Domestic ferret with Bionano hybrid scaffolds

Project description:High-throughput single-cell assays increasingly require special consideration in experimental design, sample multiplexing, batch effect removal, and data interpretation. Here, we describe a lentiviral barcode-based multiplexing approach, CellTag Indexing, which uses predefined genetic barcodes that are also heritable, enabling cell populations to be tagged, pooled, and tracked over time in the same experimental replicate. We demonstrate the utility of CellTag Indexing by sequencing transcriptomes using a variety of cell types, including long-term tracking of cell engraftment and differentiation in vivo. Together, this presents CellTag Indexing as a broadly applicable genetic multiplexing tool that is complementary with existing single-cell technologies.

Project description:HIFI-Barcode-se400