Combed single DNA molecules imaged by secondary ion mass spectrometry.

Armelle Cabin-Flaman Anne-Françoise Monnier Yannick Coffinier Jean-Nicolas Audinot David Gibouin Tom Wirtz Rabah Boukherroub Henri-Noël Migeon Aaron Bensimon Laurent Jannière Camille Ripoll Vic Norris

Anal Chem

Equipe Assemblages Moléculaires: Modélisation et Imagerie SIMS, Laboratoire MERCI EA 3829, Faculté des Sciences de l'Université de Rouen, Mont Saint Aignan, France.

Published: September 2011

Studies of replication, recombination, and rearrangements at the level of individual molecules of DNA are often limited by problems of resolution or of perturbations caused by the modifications that are needed for imaging. The Combing-Imaging by Secondary Ion Mass Spectrometry (SIMS) (CIS) method helps solve these problems by combining DNA combing, cesium flooding, and quantitative imaging via the NanoSIMS 50. We show here that CIS can reveal, on the 50 nm scale, individual DNA fibers labeled with different, nonradioactive isotopes and, moreover, that it can quantify these isotopes so as to detect and measure the length of one or more short nucleic acid fragments associated with a longer fiber.

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http://dx.doi.org/10.1021/ac201685t	DOI Listing

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