Project description:Fennoscandian Shield groundwater Metagenome

Project description:Fennoscandian Shield genomic database (FSGD)

Project description:Fennoscandian Shield groundwater Targeted Locus (Loci)

Project description:Taxonomically and functionally diverse microbial communities in deep crystalline rocks of the Fennoscandian shield

Project description:Thiobacillus as a key player for biofilm formation in oligotrophic groundwaters of the Fennoscandian Shield

Project description:Water column metagenomes from two Canadian Boreal Shield lakes

Project description:Metagenomes of Chlorobia enrichment cultures from two Canadian Boreal Shield lakes

Project description:Reference genome of a Fennoscandian Reindeer

Project description:Chromatin boundary elements contribute to the partitioning of mammalian genomes into topological domains to regulate gene expression. Certain boundary elements are adopted as DNA insulators for safe and stable transgene expression in mammalian cells. These elements, however, are ill-defined and less characterized in the non-coding genome, partially due to the lack of a platform to readily evaluate boundary-associated activities of putative DNA sequences. Here we report SHIELD (Site-specific Heterochromatin Insertion of Elements at Lamina-associated Domains), a novel platform tailored for the high-throughput screening of barrier-type DNA elements in human cells. SHIELD takes advantage of the high specificity of serine integrase at heterochromatin, and exploits the natural heterochromatin spreading inside LADs for the discovery of potent barrier elements. We adopted SHIELD to evaluate the barrier activity of 1000 DNA elements in a high-throughput manner and identified 8 novel elements with barrier activities comparable to the core region of cHS4 element. SHIELD should greatly facilitate the discovery of novel barrier DNA elements from the non-coding genome in human cells.

Project description:Study of hypoxia-induced differential expression during zebrafish development at gastrulation (shield) and segmentation (8-somite) stages