Standout Papers
- Programmable editing of a target base in genomic DNA without double-stranded DNA cleavage (2016)
- Programmable base editing of A•T to G•C in genomic DNA without DNA cleavage (2017)
- Methods for the directed evolution of proteins (2015)
- Increasing the genome-targeting scope and precision of base editing with engineered Cas9-cytidine deaminase fusions (2017)
- Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purity (2017)
- Directed evolution of adenine base editors with increased activity and therapeutic application (2020)
Immediate Impact
15 by Nobel laureates 41 from Science/Nature 85 standout
Citing Papers
Computational design of soluble and functional membrane protein analogues
2024 StandoutNatureNobel
Past, present, and future of CRISPR genome editing technologies
2024 Standout
Works of Michael S. Packer being referenced
Programmable base editing of A•T to G•C in genomic DNA without DNA cleavage
2017 StandoutNature
Programmable editing of a target base in genomic DNA without double-stranded DNA cleavage
2016 StandoutNature
Author Peers
| Author | Last Decade | Papers | Cites | ||||
|---|---|---|---|---|---|---|---|
| Michael S. Packer | 8091 | 2236 | 148 | 1224 | 18 | 8.6k | |
| Luke W. Koblan | 7143 | 2196 | 150 | 1058 | 19 | 7.6k | |
| Holly A. Rees | 6910 | 1888 | 151 | 858 | 18 | 7.2k | |
| Julie E. Norville | 8011 | 1763 | 68 | 888 | 11 | 8.7k | |
| Marc Güell | 8629 | 2238 | 100 | 955 | 37 | 10.3k | |
| Ian M. Slaymaker | 8285 | 1618 | 76 | 1118 | 21 | 8.6k | |
| Yanfang Fu | 7125 | 1656 | 80 | 721 | 19 | 7.9k | |
| Aditya Raguram | 6194 | 1841 | 129 | 1118 | 23 | 6.7k | |
| Matthew H. Larson | 8016 | 1921 | 37 | 640 | 19 | 8.6k | |
| Nathalie T. Nguyen | 6155 | 1406 | 74 | 690 | 26 | 6.6k | |
| Alexis C. Komor | 8765 | 2449 | 144 | 1255 | 41 | 9.5k |
All Works
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