Analyzing genomes with cumulative skew diagrams A Grigoriev Nucleic acids research 26 (10), 2286-2290, 1998 | 513 | 1998 |
A relationship between gene expression and protein interactions on the proteome scale: analysis of the bacteriophage T7 and the yeast Saccharomyces cerevisiae A Grigoriev Nucleic acids research 29 (17), 3513-3519, 2001 | 325 | 2001 |
High resolution cosmid and P1 maps spanning the 14 Mb genome of the fission yeast S. pombe JD Hoheisel, E Maier, R Mott, L McCarthy, AV Grigoriev, LC Schalkwyk, ... Cell 73 (1), 109-120, 1993 | 293 | 1993 |
On the number of protein–protein interactions in the yeast proteome A Grigoriev Nucleic acids research 31 (14), 4157-4161, 2003 | 199 | 2003 |
Protein domains correlate strongly with exons in multiple eukaryotic genomes–evidence of exon shuffling? M Liu, A Grigoriev Trends in Genetics 20 (9), 399-403, 2004 | 160 | 2004 |
Structural variants in 3000 rice genomes RR Fuentes, D Chebotarov, J Duitama, S Smith, JF De la Hoz, ... Genome research 29 (5), 870-880, 2019 | 138 | 2019 |
Algorithms and software tools for ordering clone libraries: application to the mapping of the genome of Schizosaccharomyces pombe R Mott, A Grigoriev, E Maier, J Hoheisel, H Lehrach Nucleic Acids Research 21 (8), 1965-1974, 1993 | 102 | 1993 |
Age-driven modulation of tRNA-derived fragments in Drosophila and their potential targets S Karaiskos, AS Naqvi, KE Swanson, A Grigoriev Biology direct 10, 1-13, 2015 | 101 | 2015 |
Codon and amino acid usage in retroviral genomes is consistent with virus-specific nucleotide pressure B Berkhout, A Grigoriev, M Bakker, VV Lukashov AIDS research and human retroviruses 18 (2), 133-141, 2002 | 98 | 2002 |
Complete coverage of the Schizosaccharomyces pombe genome in yeast artificial chromosomes E Maier, JD Hoheisel, L McCarthy, R Mott, AV Grigoriev, AP Monaco, ... nature genetics 1 (4), 273-277, 1992 | 96 | 1992 |
Strand-specific compositional asymmetries in double-stranded DNA viruses A Grigoriev Virus research 60 (1), 1-19, 1999 | 81 | 1999 |
Impact of age-associated increase in 2′-O-methylation of miRNAs on aging and neurodegeneration in Drosophila M Abe, A Naqvi, GJ Hendriks, V Feltzin, Y Zhu, A Grigoriev, NM Bonini Genes & development 28 (1), 44-57, 2014 | 80 | 2014 |
Mutations induced by bacteriophage T7 RNA polymerase and their effects on the composition of the T7 genome A Beletskii, A Grigoriev, S Joyce, AS Bhagwat Journal of Molecular Biology 300 (5), 1057-1065, 2000 | 63 | 2000 |
Significant expansion of exon-bordering protein domains during animal proteome evolution M Liu, H Walch, S Wu, A Grigoriev Nucleic acids research 33 (1), 95-105, 2005 | 55 | 2005 |
Dynamics of tRNA fragments and their targets in aging mammalian brain S Karaiskos, A Grigoriev F1000Research 5, 2016 | 52 | 2016 |
Inferring targeting modes of Argonaute-loaded tRNA fragments L Guan, S Karaiskos, A Grigoriev RNA biology 17 (8), 1070-1080, 2020 | 51 | 2020 |
Computational meta-analysis of ribosomal RNA fragments: potential targets and interaction mechanisms L Guan, A Grigoriev Nucleic acids research 49 (7), 4085-4103, 2021 | 40 | 2021 |
GROM-RD: resolving genomic biases to improve read depth detection of copy number variants SD Smith, JK Kawash, A Grigoriev PeerJ 3, e836, 2015 | 37 | 2015 |
Identification and autonomous replication capability of a chromosomal replication origin from the archaeon Sulfolobus solfataricus P Contursi, FM Pisani, A Grigoriev, R Cannio, S Bartolucci, M Rossi Extremophiles 8, 385-391, 2004 | 27 | 2004 |
An integrated YAC map of the human X chromosome. HR Crollius, MT Ross, A Grigoriev, CJ Knights, E Holloway, J Misfud, K Li, ... Genome research 6 (10), 943-955, 1996 | 27 | 1996 |