The Newfoundland and Labrador mosaic founder population descends from an Irish and British diaspora from 300 years ago

Abstract The founder population of Newfoundland and Labrador (NL) is a unique genetic resource, in part due to its geographic and cultural isolation, where historical records describe a migration of European settlers, primarily from Ireland and England, to NL in the 18th and 19th centuries. Whilst its historical isolation, and increased prevalence of certain monogenic disorders are well appreciated, details of the fine-scale genetic structure and ancestry of the population are lacking. Understanding the genetic origins and background of functional, disease causing, genetic variants would aid genetic mapping efforts in the Province. Here, we leverage dense genome-wide SNP data on 1,807 NL individuals to reveal fine-scale genetic structure in NL that is clustered around coastal communities and correlated with Christian denomination. We show that the majority of NL European ancestry can be traced back to the south-east and south-west of Ireland and England, respectively. We date a substantial population size bottleneck approximately 10-15 generations ago in NL, associated with increased haplotype sharing and autozygosity. Our results reveal insights into the population history of NL and demonstrate evidence of a population conducive to further genetic studies and biomarker discovery

Genome-Scale CRISPR Screens Identify Human Pluripotency-Specific Genes

Summary: Human pluripotent stem cells (hPSCs) generate a variety of disease-relevant cells that can be used to improve the translation of preclinical research. Despite the potential of hPSCs, their use for genetic screening has been limited by technical challenges. We developed a scalable and renewable Cas9 and sgRNA-hPSC library in which loss-of-function mutations can be induced at will. Our inducible mutant hPSC library can be used for multiple genome-wide CRISPR screens in a variety of hPSC-induced cell types. As proof of concept, we performed three screens for regulators of properties fundamental to hPSCs: their ability to self-renew and/or survive (fitness), their inability to survive as single-cell clones, and their capacity to differentiate. We identified the majority of known genes and pathways involved in these processes, as well as a plethora of genes with unidentified roles. This resource will increase the understanding of human development and genetics. This approach will be a powerful tool to identify disease-modifying genes and pathways. : Ihry et al. develop a CRISPR/Cas9 genetic screening platform for hPSCs that enables unbiased genome-scale genetic screening. The platform exhibits high performance and accurately detects the dropout of essential genes. Furthermore, proof-of-concept screens exploit hPSC-specific phenotypes to identify regulators of fitness, survival after single-cell dissociation, and pluripotency. Keywords: CRISPR genome-wide screening, human pluripotent stem cells, iPSC, hESC, PAWR, PMAIP1, DD

Characterization of the Y chromosome in Newfoundland and Labrador: evidence of a founder effect

The population of Newfoundland and Labrador (NL) is largely derived from settlers who migrated primarily from England and Ireland in the 1700-1800s. Previously described as an isolated founder population, based on historical and demographic studies, data on the genetic ancestry of this population remains fragmentary. Here we describe the largest investigation of patrilineal ancestry in NL. To determine the paternal genetic structure of the population, 1,110 Y chromosomes from an NL based cohort were analyzed using 5,761 Y-specific markers. We identified 160 distinct paternal haplotypes, the majority of which (71.4%) belong to the R1b haplogroup. When NL is compared with global reference populations, the haplotype composition and frequencies of the NL paternal lineages primarily resemble the English and Irish ancestral source populations. There is also evidence for genetic contributions from Basque, French, Portuguese, and Spanish fishermen and early settlers that frequented NL. The population structure shows geographical and religious clustering that can be associated with the settlement of ancestral source populations from England and Ireland. For example, the R1b-M222 haplotype, seen in people of Irish descent, is found clustered in the Irish-settled Southeast region of NL. The clustering and expansion of Y haplotypes in conjunction with the geographical and religious clusters illustrate that limited subsequent in migration, geographic isolation and societal factors have contributed to the genetic substructure of the NL population and its designation as a founder population.</p