PLoS ONE (Jan 2015)

A rapid molecular approach for chromosomal phasing.

  • John F Regan,
  • Nolan Kamitaki,
  • Tina Legler,
  • Samantha Cooper,
  • Niels Klitgord,
  • George Karlin-Neumann,
  • Catherine Wong,
  • Shawn Hodges,
  • Ryan Koehler,
  • Svilen Tzonev,
  • Steven A McCarroll

DOI
https://doi.org/10.1371/journal.pone.0118270
Journal volume & issue
Vol. 10, no. 3
p. e0118270

Abstract

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Determining the chromosomal phase of pairs of sequence variants - the arrangement of specific alleles as haplotypes - is a routine challenge in molecular genetics. Here we describe Drop-Phase, a molecular method for quickly ascertaining the phase of pairs of DNA sequence variants (separated by 1-200 kb) without cloning or manual single-molecule dilution. In each Drop-Phase reaction, genomic DNA segments are isolated in tens of thousands of nanoliter-sized droplets together with allele-specific fluorescence probes, in a single reaction well. Physically linked alleles partition into the same droplets, revealing their chromosomal phase in the co-distribution of fluorophores across droplets. We demonstrated the accuracy of this method by phasing members of trios (revealing 100% concordance with inheritance information), and demonstrate a common clinical application by phasing CFTR alleles at genomic distances of 11-116 kb in the genomes of cystic fibrosis patients. Drop-Phase is rapid (requiring less than 4 hours), scalable (to hundreds of samples), and effective at long genomic distances (200 kb).