We envisage that the scale of these experiments will increase imp

We envisage that the scale of these experiments will increase impressively in the coming years. Emergence of microfluidics systems, able to generate sequencing-ready libraries for thousands to millions of individual cells in parallel is www.selleckchem.com/products/Erlotinib-Hydrochloride.html likely. Such methods, as well

as massive single-cell genotyping assays [78], combined with clever bioinformatics approaches to infer relationships and life histories of individual cells, will provide detailed insight into the emergence and clonal expansion of each tumour subclone, allowing a truly holistic view on tumour evolution. Little is known about the variability in the epigenome and the transcriptome of single cells, as this is masked in current analyses of mixed large cell populations. We envisage that future methods that can profile the (epi)genome and the transcriptome of the same single cell will allow detailed insights into the transcriptional and phenotypic consequences of genomic changes in cancer. Finally, by sequencing individual CTCs and DTCs together with primary tumour cells and metastases, we will learn more about the mechanisms that trigger single tumour cells to leave the site of their origin, the dormancy of DTCs and their resistance to cancer therapy. We anticipate that partial or full cancer genomes of (fine-needle)

cancer biopsies, CTCs and/or DTCs will routinely be sequenced as part of the clinical evaluation and likely personalized Suplatast tosilate treatments in the future. CTCs may be particularly important Selleck NVP-BKM120 in this regard as they represent easily obtainable liquid biopsies

allowing real-time monitoring of both metastatic potential and patient-specific suitability of therapy. The last few years have seen rapid development of technologies that permit detailed analysis of the genomes and transcriptomes of single cells. Single-cell approaches now stand poised to provide an unprecedented view into cancer evolution. T.V. is a co-inventor on patent applications involving single-cell analyses. Papers of particular interest, published within the period of review, have been highlighted as: • of special interest We acknowledge the Wellcome Trust (UK), the Research Foundation — Flanders (FWO; Belgium) [FWO-G.0687.12 to T.V. and P.V.L.], and the KU Leuven [Belgium; SymBioSys, PFV/10/016 to T.V.]. PVL is supported by a postdoctoral research fellowship of the FWO. “
“Current Opinion in Genetics & Development 2014, 24:107–113 This review comes from a themed issue on Cancer genomics Edited by David J Adams and Ultan McDermott For a complete overview see the Issue and the Editorial Available online 26th February 2014 0959-437X/$ – see front matter, © 2014 The Authors. Published by Elsevier Ltd. All rights reserved. http://dx.doi.org/10.1016/j.gde.2013.12.005 DNA polymerases are responsible for synthesis of DNA and are essential for replication, DNA repair and genetic recombination.

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