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Items: 1 to 20 of 293

1.

High-quality draft assemblies of mammalian genomes from massively parallel sequence data.

Gnerre S, Maccallum I, Przybylski D, Ribeiro FJ, Burton JN, Walker BJ, Sharpe T, Hall G, Shea TP, Sykes S, Berlin AM, Aird D, Costello M, Daza R, Williams L, Nicol R, Gnirke A, Nusbaum C, Lander ES, Jaffe DB.

Proc Natl Acad Sci U S A. 2011 Jan 25;108(4):1513-8. doi: 10.1073/pnas.1017351108. Epub 2010 Dec 27.

2.

Mind the gap: upgrading genomes with Pacific Biosciences RS long-read sequencing technology.

English AC, Richards S, Han Y, Wang M, Vee V, Qu J, Qin X, Muzny DM, Reid JG, Worley KC, Gibbs RA.

PLoS One. 2012;7(11):e47768. doi: 10.1371/journal.pone.0047768. Epub 2012 Nov 21.

3.

ALLPATHS: de novo assembly of whole-genome shotgun microreads.

Butler J, MacCallum I, Kleber M, Shlyakhter IA, Belmonte MK, Lander ES, Nusbaum C, Jaffe DB.

Genome Res. 2008 May;18(5):810-20. doi: 10.1101/gr.7337908. Epub 2008 Mar 13.

4.

GAGE: A critical evaluation of genome assemblies and assembly algorithms.

Salzberg SL, Phillippy AM, Zimin A, Puiu D, Magoc T, Koren S, Treangen TJ, Schatz MC, Delcher AL, Roberts M, Marçais G, Pop M, Yorke JA.

Genome Res. 2012 Mar;22(3):557-67. doi: 10.1101/gr.131383.111. Epub 2012 Jan 6. Erratum in: Genome Res. 2012 Jun;22(6):1196.

5.

Assemblathon 1: a competitive assessment of de novo short read assembly methods.

Earl D, Bradnam K, St John J, Darling A, Lin D, Fass J, Yu HO, Buffalo V, Zerbino DR, Diekhans M, Nguyen N, Ariyaratne PN, Sung WK, Ning Z, Haimel M, Simpson JT, Fonseca NA, Birol İ, Docking TR, Ho IY, Rokhsar DS, Chikhi R, Lavenier D, Chapuis G, Naquin D, Maillet N, Schatz MC, Kelley DR, Phillippy AM, Koren S, Yang SP, Wu W, Chou WC, Srivastava A, Shaw TI, Ruby JG, Skewes-Cox P, Betegon M, Dimon MT, Solovyev V, Seledtsov I, Kosarev P, Vorobyev D, Ramirez-Gonzalez R, Leggett R, MacLean D, Xia F, Luo R, Li Z, Xie Y, Liu B, Gnerre S, MacCallum I, Przybylski D, Ribeiro FJ, Yin S, Sharpe T, Hall G, Kersey PJ, Durbin R, Jackman SD, Chapman JA, Huang X, DeRisi JL, Caccamo M, Li Y, Jaffe DB, Green RE, Haussler D, Korf I, Paten B.

Genome Res. 2011 Dec;21(12):2224-41. doi: 10.1101/gr.126599.111. Epub 2011 Sep 16.

6.

De novo assembly of a 40 Mb eukaryotic genome from short sequence reads: Sordaria macrospora, a model organism for fungal morphogenesis.

Nowrousian M, Stajich JE, Chu M, Engh I, Espagne E, Halliday K, Kamerewerd J, Kempken F, Knab B, Kuo HC, Osiewacz HD, Pöggeler S, Read ND, Seiler S, Smith KM, Zickler D, Kück U, Freitag M.

PLoS Genet. 2010 Apr 8;6(4):e1000891. doi: 10.1371/journal.pgen.1000891.

7.

Evaluation and validation of de novo and hybrid assembly techniques to derive high-quality genome sequences.

Utturkar SM, Klingeman DM, Land ML, Schadt CW, Doktycz MJ, Pelletier DA, Brown SD.

Bioinformatics. 2014 Oct;30(19):2709-16. doi: 10.1093/bioinformatics/btu391. Epub 2014 Jun 14.

8.

Efficient de novo assembly of large genomes using compressed data structures.

Simpson JT, Durbin R.

Genome Res. 2012 Mar;22(3):549-56. doi: 10.1101/gr.126953.111. Epub 2011 Dec 7.

9.

High quality draft sequences for prokaryotic genomes using a mix of new sequencing technologies.

Aury JM, Cruaud C, Barbe V, Rogier O, Mangenot S, Samson G, Poulain J, Anthouard V, Scarpelli C, Artiguenave F, Wincker P.

BMC Genomics. 2008 Dec 16;9:603. doi: 10.1186/1471-2164-9-603.

10.

ABySS: a parallel assembler for short read sequence data.

Simpson JT, Wong K, Jackman SD, Schein JE, Jones SJ, Birol I.

Genome Res. 2009 Jun;19(6):1117-23. doi: 10.1101/gr.089532.108. Epub 2009 Feb 27.

11.

The MaSuRCA genome assembler.

Zimin AV, Marçais G, Puiu D, Roberts M, Salzberg SL, Yorke JA.

Bioinformatics. 2013 Nov 1;29(21):2669-77. doi: 10.1093/bioinformatics/btt476. Epub 2013 Aug 29.

12.

De novo assembly of short sequence reads.

Paszkiewicz K, Studholme DJ.

Brief Bioinform. 2010 Sep;11(5):457-72. doi: 10.1093/bib/bbq020. Epub 2010 Aug 19. Review.

13.

Advances in plant genome sequencing.

Hamilton JP, Buell CR.

Plant J. 2012 Apr;70(1):177-90. doi: 10.1111/j.1365-313X.2012.04894.x. Review.

14.

SHARCGS, a fast and highly accurate short-read assembly algorithm for de novo genomic sequencing.

Dohm JC, Lottaz C, Borodina T, Himmelbauer H.

Genome Res. 2007 Nov;17(11):1697-706. Epub 2007 Oct 1.

15.

Identification of optimum sequencing depth especially for de novo genome assembly of small genomes using next generation sequencing data.

Desai A, Marwah VS, Yadav A, Jha V, Dhaygude K, Bangar U, Kulkarni V, Jere A.

PLoS One. 2013 Apr 12;8(4):e60204. doi: 10.1371/journal.pone.0060204. Print 2013.

16.

Comparing de novo genome assembly: the long and short of it.

Narzisi G, Mishra B.

PLoS One. 2011 Apr 29;6(4):e19175. doi: 10.1371/journal.pone.0019175.

17.

A post-assembly genome-improvement toolkit (PAGIT) to obtain annotated genomes from contigs.

Swain MT, Tsai IJ, Assefa SA, Newbold C, Berriman M, Otto TD.

Nat Protoc. 2012 Jun 7;7(7):1260-84. doi: 10.1038/nprot.2012.068.

18.

State of the art de novo assembly of human genomes from massively parallel sequencing data.

Li Y, Hu Y, Bolund L, Wang J.

Hum Genomics. 2010 Apr;4(4):271-7. Review.

19.

6-10× pyrosequencing is a practical approach for whole prokaryote genome studies.

Li J, Jiang J, Leung FC.

Gene. 2012 Feb 15;494(1):57-64. doi: 10.1016/j.gene.2011.11.051. Epub 2011 Dec 13.

PMID:
22192914
20.

Genome sequencing of bacteria: sequencing, de novo assembly and rapid analysis using open source tools.

Kisand V, Lettieri T.

BMC Genomics. 2013 Apr 1;14:211. doi: 10.1186/1471-2164-14-211.

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