Literature DB >> 30018694

Distribution of label spacings for genome mapping in nanochannels.

D Ödman1, E Werner1, K D Dorfman2, C R Doering3, B Mehlig1.   

Abstract

In genome mapping experiments, long DNA molecules are stretched by confining them to very narrow channels, so that the locations of sequence-specific fluorescent labels along the channel axis provide large-scale genomic information. It is difficult, however, to make the channels narrow enough so that the DNA molecule is fully stretched. In practice, its conformations may form hairpins that change the spacings between internal segments of the DNA molecule, and thus the label locations along the channel axis. Here, we describe a theory for the distribution of label spacings that explains the heavy tails observed in distributions of label spacings in genome mapping experiments.

Year:  2018        PMID: 30018694      PMCID: PMC6019347          DOI: 10.1063/1.5038417

Source DB:  PubMed          Journal:  Biomicrofluidics        ISSN: 1932-1058            Impact factor:   2.800


  33 in total

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Authors:  C Bustamante; J C Macosko; G J Wuite
Journal:  Nat Rev Mol Cell Biol       Date:  2000-11       Impact factor: 94.444

2.  DNA confined in nanochannels: hairpin tightening by entropic depletion.

Authors:  Theo Odijk
Journal:  J Chem Phys       Date:  2006-11-28       Impact factor: 3.488

3.  Tuneable elastomeric nanochannels for nanofluidic manipulation.

Authors:  Dongeun Huh; K L Mills; Xiaoyue Zhu; Mark A Burns; M D Thouless; Shuichi Takayama
Journal:  Nat Mater       Date:  2007-05-07       Impact factor: 43.841

4.  Channel confinement of flexible and semiflexible macromolecules.

Authors:  Peter Cifra
Journal:  J Chem Phys       Date:  2009-12-14       Impact factor: 3.488

5.  Fluctuations of a long, semiflexible polymer in a narrow channel.

Authors:  Theodore W Burkhardt; Yingzi Yang; Gerhard Gompper
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2010-10-01

6.  Conformational Properties of a Back-Folding Wormlike Chain Confined in a Cylindrical Tube.

Authors:  Jeff Z Y Chen
Journal:  Phys Rev Lett       Date:  2017-06-16       Impact factor: 9.161

7.  Hairpins in the conformations of a confined polymer.

Authors:  E Werner; A Jain; A Muralidhar; K Frykholm; T St Clere Smithe; J Fritzsche; F Westerlund; K D Dorfman; B Mehlig
Journal:  Biomicrofluidics       Date:  2018-03-09       Impact factor: 2.800

8.  Simulation of DNA Extension in Nanochannels.

Authors:  Yanwei Wang; Douglas R Tree; Kevin D Dorfman
Journal:  Macromolecules       Date:  2011-08-23       Impact factor: 5.985

9.  Nanochannel confinement: DNA stretch approaching full contour length.

Authors:  Yoori Kim; Ki Seok Kim; Kristy L Kounovsky; Rakwoo Chang; Gun Young Jung; Juan J dePablo; Kyubong Jo; David C Schwartz
Journal:  Lab Chip       Date:  2011-03-23       Impact factor: 6.799

10.  Transition between two regimes describing internal fluctuation of DNA in a nanochannel.

Authors:  Tianxiang Su; Somes K Das; Ming Xiao; Prashant K Purohit
Journal:  PLoS One       Date:  2011-03-15       Impact factor: 3.240
View more
  5 in total

1.  Simulations corroborate telegraph model predictions for the extension distributions of nanochannel confined DNA.

Authors:  Aditya Bikram Bhandari; Kevin D Dorfman
Journal:  Biomicrofluidics       Date:  2019-08-08       Impact factor: 2.800

2.  Extension distribution for DNA confined in a nanochannel near the Odijk regime.

Authors:  Hui-Min Chuang; Jeffrey G Reifenberger; Aditya Bikram Bhandari; Kevin D Dorfman
Journal:  J Chem Phys       Date:  2019-09-21       Impact factor: 3.488

3.  Limitations of the equivalent neutral polymer assumption for theories describing nanochannel-confined DNA.

Authors:  Aditya Bikram Bhandari; Kevin D Dorfman
Journal:  Phys Rev E       Date:  2020-01       Impact factor: 2.529

4.  Single-molecule optical genome mapping in nanochannels: multidisciplinarity at the nanoscale.

Authors:  Jonathan Jeffet; Sapir Margalit; Yael Michaeli; Yuval Ebenstein
Journal:  Essays Biochem       Date:  2021-04-16       Impact factor: 8.000

5.  DNA looping by two 5-methylcytosine-binding proteins quantified using nanofluidic devices.

Authors:  Ming Liu; Saeid Movahed; Saroj Dangi; Hai Pan; Parminder Kaur; Stephanie M Bilinovich; Edgar M Faison; Gage O Leighton; Hong Wang; David C Williams; Robert Riehn
Journal:  Epigenetics Chromatin       Date:  2020-03-16       Impact factor: 4.954
  5 in total

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