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OMIC
06602

NeatFreq

A software tool that reduces a data set to more uniform coverage by clustering and selecting from reads binned by their median kmer frequency (RMKF) and uniqueness. The normalization of deep coverage spikes, which would otherwise inhibit consensus resolution, enables High Throughput Sequencing (HTS) assembly projects to consistently run to completion with existing assembly software.

Specifications

Software type:
Package
Interface:
Command line interface
Restrictions to use:
None
Operating system:
Unix/Linux
Programming languages:
Perl
License:
GNU General Public License version 2.0
Computer skills:
Advanced
Stability:
Stable
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Publications

  • (McCorrison et al., 2014) NeatFreq: reference-free data reduction and coverage normalization for De Novo sequence assembly. BMC bioinformatics.
    PMID: 25407910

Classification

Literature

  • (Magoc et al., 2013) GAGE-B: an evaluation of genome assemblers for bacterial organisms. Bioinformatics.
    PMID: 23665771
  • (Miller et al., 2010) Assembly algorithms for next-generation sequencing data. Genomics.
    PMID: 20211242
  • (Narzisi and Mishra, 2011) Comparing de novo genome assembly: the long and short of it. PloS one.
    PMID: 21559467
  • (Henson et al., 2012) Next-generation sequencing and large genome assemblies. Pharmacogenomics.
    PMID: 22676195
  • (Kleftogiannis et al., 2013) Comparing memory-efficient genome assemblers on stand-alone and cloud infrastructures. PloS one.
    PMID: 24086547
  • (Nagarajan and Pop, 2013) Sequence assembly demystified. Nature reviews Genetics.
    PMID: 23358380
  • (Bradnam et al., 2013) Assemblathon 2: evaluating de novo methods of genome assembly in three vertebrate species. GigaScience.
    PMID: 23870653
  • (Salzberg et al., 2012) GAGE: A critical evaluation of genome assemblies and assembly algorithms. Genome research.
    PMID: 22147368
  • (Utturkar et al., 2014) Evaluation and validation of de novo and hybrid assembly techniques to derive high-quality genome sequences. Bioinformatics.
    PMID: 24930142
  • (Alkan et al., 2011) Limitations of next-generation genome sequence assembly. Nature methods.
    PMID: 21102452
  • (Love et al., 2016) Evaluation of DISCOVAR de novo using a mosquito sample for cost-effective short-read genome assembly. BMC genomics.
    PMID: 26944054

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