SPAdes: a new genome assembly algorithm and its applications to single-cell sequencing A Bankevich, S Nurk, D Antipov, AA Gurevich, M Dvorkin, AS Kulikov, ... Journal of computational biology 19 (5), 455-477, 2012 | 22172 | 2012 |
Sharing and community curation of mass spectrometry data with Global Natural Products Social Molecular Networking M Wang, JJ Carver, VV Phelan, LM Sanchez, N Garg, Y Peng, ... Nature biotechnology 34 (8), 828-837, 2016 | 3350 | 2016 |
Assembly of long, error-prone reads using repeat graphs M Kolmogorov, J Yuan, Y Lin, PA Pevzner Nature biotechnology 37 (5), 540-546, 2019 | 3084 | 2019 |
metaSPAdes: a new versatile metagenomic assembler S Nurk, D Meleshko, A Korobeynikov, PA Pevzner Genome research 27 (5), 824-834, 2017 | 3078 | 2017 |
Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution ICGS Consortium Nature 432, 695–716, 2004 | 2920* | 2004 |
Genome sequence of the Brown Norway rat yields insights into mammalian evolution RGSP Consortium Nature 428, 493-521, 2004 | 2526* | 2004 |
The complete sequence of a human genome S Nurk, S Koren, A Rhie, M Rautiainen, AV Bzikadze, A Mikheenko, ... Science 376 (6588), 44-53, 2022 | 1921 | 2022 |
An Eulerian path approach to DNA fragment assembly PA Pevzner, H Tang, MS Waterman Proceedings of the national academy of sciences 98 (17), 9748-9753, 2001 | 1849 | 2001 |
De novo identification of repeat families in large genomes AL Price, NC Jones, PA Pevzner Bioinformatics 21 (suppl_1), i351-i358, 2005 | 1845 | 2005 |
Transforming cabbage into turnip: polynomial algorithm for sorting signed permutations by reversals S Hannenhalli, PA Pevzner Journal of the ACM (JACM) 46 (1), 1-27, 1999 | 1222 | 1999 |
Assembling single-cell genomes and mini-metagenomes from chimeric MDA products S Nurk, A Bankevich, D Antipov, AA Gurevich, A Korobeynikov, A Lapidus, ... Journal of Computational Biology 20 (10), 714-737, 2013 | 1184 | 2013 |
MS-GF+ makes progress towards a universal database search tool for proteomics S Kim, PA Pevzner Nature communications 5 (1), 5277, 2014 | 1115 | 2014 |
Computational molecular biology: an algorithmic approach P Pevzner MIT press, 2000 | 990 | 2000 |
Support vector machines: Theory and applications T Evgeniou, M Pontil Advanced course on artificial intelligence, 249-257, 1999 | 930* | 1999 |
How to apply de Bruijn graphs to genome assembly PEC Compeau, PA Pevzner, G Tesler Nature biotechnology 29 (11), 987-991, 2011 | 903 | 2011 |
PepNovo: de novo peptide sequencing via probabilistic network modeling A Frank, P Pevzner Analytical chemistry 77 (4), 964-973, 2005 | 854 | 2005 |
An introduction to bioinformatics algorithms NC Jones, PA Pevzner MIT press, 2004 | 825 | 2004 |
De Novo Peptide Sequencing via Tandem Mass Spectrometry V Dančík, TA Addona, KR Clauser, JE Vath, PA Pevzner Journal of computational biology 6 (3-4), 327-342, 1999 | 821 | 1999 |
Combinatorial approaches to finding subtle signals in DNA sequences. PA Pevzner, SH Sze ISMB 8, 269-278, 2000 | 811 | 2000 |
Assembling genomes and mini-metagenomes from highly chimeric reads S Nurk, A Bankevich, D Antipov, A Gurevich, A Korobeynikov, A Lapidus, ... Research in Computational Molecular Biology: 17th Annual International …, 2013 | 807 | 2013 |