Reverse transcriptase encoded by a human transposable element SL Mathias, AF Scott, HH Kazazian Jr, JD Boeke, A Gabriel Science 254 (5039), 1808-1810, 1991 | 879 | 1991 |
Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence JM Kim, S Vanguri, JD Boeke, A Gabriel, DF Voytas Genome research 8 (5), 464-478, 1998 | 634 | 1998 |
Widespread RNA editing of embedded alu elements in the human transcriptome DDY Kim, TTY Kim, T Walsh, Y Kobayashi, TC Matise, S Buyske, ... Genome research 14 (9), 1719-1725, 2004 | 593 | 2004 |
Many human L1 elements are capable of retrotransposition DM Sassaman, BA Dombroski, JV Moran, ML Kimberland, TP Naas, ... Nature genetics 16 (1), 37-43, 1997 | 529 | 1997 |
Retrotransposon reverse-transcriptase-mediated repair of chromosomal breaks SC Teng, B Kim, A Gabriel Nature 383 (6601), 641-644, 1996 | 293 | 1996 |
Morbidity in childhood—a longitudinal view B Starfield, H Katz, A Gabriel, G Livingston, P Benson, J Hankin, S Horn, ... New England Journal of Medicine 310 (13), 824-829, 1984 | 203 | 1984 |
Patching broken chromosomes with extranuclear cellular DNA X Yu, A Gabriel Molecular cell 4 (5), 873-881, 1999 | 167 | 1999 |
Utilization and morbidity: random or tandem? B Starfield, J Hankin, D Steinwachs, S Horn, P Benson, H Katz, A Gabriel Pediatrics 75 (2), 241-247, 1985 | 135 | 1985 |
p53 responsive elements in human retrotransposons CR Harris, A Dewan, A Zupnick, R Normart, A Gabriel, C Prives, ... Oncogene 28 (44), 3857-3865, 2009 | 117 | 2009 |
Ku-dependent and Ku-independent end-joining pathways lead to chromosomal rearrangements during double-strand break repair in Saccharomyces cerevisiae X Yu, A Gabriel Genetics 163 (3), 843-856, 2003 | 98 | 2003 |
Replication infidelity during a single cycle of Ty1 retrotransposition. A Gabriel, M Willems, EH Mules, JD Boeke Proceedings of the National Academy of Sciences 93 (15), 7767-7771, 1996 | 96 | 1996 |
A 20.7 kb deletion within the factor VIII gene associated with LINE-1 element insertion N Van de Water, R Williams, P Ockelford, P Browett Thrombosis and haemostasis 79 (05), 938-942, 1998 | 90 | 1998 |
A rapidly rearranging retrotransposon within the miniexon gene locus of Crithidia fasciculata A Gabriel, TJ Yen, DC Schwartz, CL Smith, JD Boeke, B Sollner-Webb, ... Molecular and cellular biology, 1990 | 84 | 1990 |
Reverse transcriptase encoded by a retrotransposon from the trypanosomatid Crithidia fasciculata. A Gabriel, JD Boeke Proceedings of the National Academy of Sciences 88 (21), 9794-9798, 1991 | 79 | 1991 |
Global mapping of transposon location A Gabriel, J Dapprich, M Kunkel, D Gresham, SC Pratt, MJ Dunham PLoS genetics 2 (12), e212, 2006 | 65 | 2006 |
Sickle-cell anemia: a look at global haplotype distribution A Gabriel, J Przybylski Nature Education, 2010 | 56 | 2010 |
Reciprocal Translocations in Saccharomyces cerevisiae Formed by Nonhomologous End Joining X Yu, A Gabriel Genetics 166 (2), 741-751, 2004 | 55 | 2004 |
In vivo Ty1 reverse transcription can generate replication intermediates with untidy ends EH Mules, O Uzun, A Gabriel Journal of virology 72 (8), 6490-6503, 1998 | 52 | 1998 |
Retrotransposon reverse transcription. A Gabriel Reverse transcriptase, 275-328, 1993 | 42 | 1993 |
In-frame linker insertion mutagenesis of yeast transposon Ty1: phenotypic analysis LT Braiterman, GM Monokian, DJ Eichinger, SL Merbs, A Gabriel, ... Gene 139 (1), 19-26, 1994 | 36 | 1994 |