| Expanding the genetic code of an animal S Greiss, JW Chin Journal of the American Chemical Society 133 (36), 14196-14199, 2011 | 306 | 2011 |
| Sirtuin/Sir2 phylogeny, evolutionary considerations and structural conservation S Greiss, A Gartner Molecules and cells 28 (5), 407-416, 2009 | 244 | 2009 |
| Expanding the genetic code of Drosophila melanogaster A Bianco, FM Townsley, S Greiss, K Lang, JW Chin Nature chemical biology 8 (9), 748-750, 2012 | 232 | 2012 |
| Proteome labeling and protein identification in specific tissues and at specific developmental stages in an animal TS Elliott, FM Townsley, A Bianco, RJ Ernst, A Sachdeva, SJ Elsässer, ... Nature biotechnology 32 (5), 465-472, 2014 | 192 | 2014 |
| DAF-16/FOXO and EGL-27/GATA promote developmental growth in response to persistent somatic DNA damage MM Mueller, L Castells-Roca, V Babu, MA Ermolaeva, RU Müller, ... Nature cell biology 16 (12), 1168-1179, 2014 | 114 | 2014 |
| C. elegans SIR-2.1 translocation is linked to a proapoptotic pathway parallel to cep-1/p53 during DNA damage-induced apoptosis S Greiss, J Hall, S Ahmed, A Gartner Genes & development 22 (20), 2831-2842, 2008 | 92 | 2008 |
| Efficient and rapid C. elegans transgenesis by bombardment and hygromycin B selection I Radman, S Greiss, JW Chin PLoS One 8 (10), e76019, 2013 | 80 | 2013 |
| Transcriptional profiling in C. elegans suggests DNA damage dependent apoptosis as an ancient function of the p53 family S Greiss, B Schumacher, K Grandien, J Rothblatt, A Gartner BMC genomics 9, 1-10, 2008 | 74 | 2008 |
| Evidence that CED-9/Bcl2 and CED-4/Apaf-1 localization is not consistent with the current model for C. elegans apoptosis induction E Pourkarimi, S Greiss, A Gartner Cell Death & Differentiation 19 (3), 406-415, 2012 | 69 | 2012 |
| Cell-nonautonomous regulation of C. elegans germ cell death by kri-1 S Ito, S Greiss, A Gartner, WB Derry Current Biology 20 (4), 333-338, 2010 | 56 | 2010 |
| Precise optical control of gene expression in C elegans using improved genetic code expansion and Cre recombinase L Davis, I Radman, A Goutou, A Tynan, K Baxter, Z Xi, JM O'Shea, ... Elife 10, e67075, 2021 | 20* | 2021 |
| Using a quadruplet codon to expand the genetic code of an animal Z Xi, L Davis, K Baxter, A Tynan, A Goutou, S Greiss Nucleic Acids Research 50 (9), 4801-4812, 2022 | 15 | 2022 |
| Genetic Encoding of Unnatural Amino Acids in C. elegans L Davis, S Greiss Noncanonical Amino Acids: Methods and Protocols, 389-408, 2018 | 9 | 2018 |
| Generation of photocaged nanobodies for intracellular applications in an animal using genetic code expansion and computationally guided protein engineering JM O'Shea, A Goutou, J Brydon, CR Sethna, CW Wood, S Greiss ChemBioChem 23 (16), e202200321, 2022 | 7* | 2022 |
| Methods for incorporating unnatural amino acids in eukaryotic cells J Chin, A Dieters, R Uprety, SM Hancock, S Greiss | 4 | 2012 |
| T-3 C. elegans SIR-2.1 translocation is linked to a pro-apoptotic pathway parallel to cep-1/p53-like during DNA damage induced apoptosis S Greiss March 29–April 2-Carmona, Spain, 24, 0 | | |
