Horizon Genomics

Vienna, Austria

Horizon Genomics

Vienna, Austria
SEARCH FILTERS
Time filter
Source Type

Gapp B.V.,University of Oxford | Konopka T.,University of Oxford | Penz T.,Austrian Academy of Sciences | Dalal V.,University of Oxford | And 6 more authors.
Molecular Systems Biology | Year: 2016

Reverse genetic screens have driven gene annotation and target discovery in model organisms. However, many disease-relevant genotypes and phenotypes cannot be studied in lower organisms. It is therefore essential to overcome technical hurdles associated with large-scale reverse genetics in human cells. Here, we establish a reverse genetic approach based on highly robust and sensitive multiplexed RNA sequencing of mutant human cells. We conduct 10 parallel screens using a collection of engineered haploid isogenic cell lines with knockouts covering tyrosine kinases and identify known and unexpected effects on signaling pathways. Our study provides proof of concept for a scalable approach to link genotype to phenotype in human cells, which has broad applications. In particular, it clears the way for systematic phenotyping of still poorly characterized human genes and for systematic study of uncharacterized genomic features associated with human disease. © 2016 The Authors. Published under the terms of the CC BY 4.0 license


Lackner D.H.,Horizon Genomics | Carre A.,Horizon Genomics | Guzzardo P.M.,Horizon Genomics | Banning C.,Horizon Genomics | And 7 more authors.
Nature Communications | Year: 2015

Genome engineering has been greatly enhanced by the availability of Cas9 endonuclease that can be targeted to almost any genomic locus using so called guide RNAs (gRNAs). However, the introduction of foreign DNA sequences to tag an endogenous gene is still cumbersome as it requires the synthesis or cloning of homology templates. Here we present a strategy that enables the tagging of endogenous loci using one generic donor plasmid. It contains the tag of interest flanked by two gRNA recognition sites that allow excision of the tag from the plasmid. Co-transfection of cells with Cas9, a gRNA specifying the genomic locus of interest, the donor plasmid and a cassette-specific gRNA triggers the insertion of the tag by a homology-independent mechanism. The strategy is efficient and delivers clones that display a predictable integration pattern. As showcases we generated NanoLuc luciferase- and TurboGFP-tagged reporter cell lines. © 2015, Nature Publishing Group. All rights reserved.

Loading Horizon Genomics collaborators
Loading Horizon Genomics collaborators