TY - JOUR T1 - Topokaryotyping demonstrates single cell variability and stress dependent variations in nuclear envelope associated domains JF - bioRxiv DO - 10.1101/401539 SP - 401539 AU - Anamarija Jurisic AU - Chloe Robin AU - Pavel Tarlykov AU - Lee Siggens AU - Brigitte Schoell AU - Anna Jauch AU - Karl Ekwal AU - Claus Storgaard Sørensen AU - Marc Lipinski AU - Muhammad Shoaib AU - Vasily Ogryzko Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/08/27/401539.abstract N2 - Analysis of large-scale interphase genome positioning with reference to a nuclear landmark has recently been studied using sequencing-based single cell approaches. However, these approaches are dependent upon technically challenging, time consuming and costly high throughput sequencing technologies, requiring specialized bioinformatics tools and expertise. Here, we propose a novel, affordable and robust microscopy-based single cell approach, termed Topokaryotyping, to analyze and reconstruct the interphase positioning of genomic loci relative to a given nuclear landmark, detectable as banding pattern on mitotic chromosomes. This is accomplished by proximity-dependent histone labeling, where biotin ligase BirA fused to nuclear envelope marker Emerin was coexpressed together with Biotin Acceptor Peptide (BAP)-histone fusion followed by (i) biotin labeling, (ii) generation of mitotic spreads, (iii) detection of the biotin label on mitotic chromosomes and (iv) their identification by karyotyping. Using Topokaryotyping, we identified both cooperativity and stochasticity in the positioning of emerin-associated chromatin domains in individual cells. Furthermore, the chromosome-banding pattern showed dynamic changes in emerin-associated domains upon physical and radiological stress. In summary, Topokaryotyping is a sensitive and reliable technique to quantitatively analyze spatial positioning of genomic regions interacting with a given nuclear landmark at the single cell level in various experimental conditions. ER -