Standout Papers
- CRISPR-Cas12a target binding unleashes indiscriminate single-stranded DNase activity (2018)
- CRISPR–Cas12-based detection of SARS-CoV-2 (2020)
- Enhanced proofreading governs CRISPR–Cas9 targeting accuracy (2017)
- Programmed DNA destruction by miniature CRISPR-Cas14 enzymes (2018)
- Structures of a CRISPR-Cas9 R-loop complex primed for DNA cleavage (2016)
- A conformational checkpoint between DNA binding and cleavage by CRISPR-Cas9 (2017)
- A Broad-Spectrum Inhibitor of CRISPR-Cas9 (2017)
Immediate Impact
40 by Nobel laureates 53 from Science/Nature 157 standout
Citing Papers
Amplification-free, OR-gated CRISPR-Cascade reaction for pathogen detection in blood samples
2025 Standout
Past, present, and future of CRISPR genome editing technologies
2024 Standout
Works of Janice S. Chen being referenced
CRISPR-Cas12a target binding unleashes indiscriminate single-stranded DNase activity
2018 StandoutScienceNobel
Enhanced proofreading governs CRISPR–Cas9 targeting accuracy
2017 StandoutNatureNobel
Author Peers
| Author | Last Decade | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|
| Janice S. Chen | 7248 | 262 | 670 | 2052 | 1441 | 25 | 8.4k | |
| Max J. Kellner | 5634 | 174 | 521 | 1127 | 891 | 16 | 6.5k | |
| Lucas B. Harrington | 5883 | 240 | 520 | 1082 | 477 | 21 | 6.3k | |
| Patrick Essletzbichler | 7442 | 344 | 569 | 1051 | 660 | 11 | 8.0k | |
| Nina M. Donghia | 4743 | 49 | 524 | 1793 | 942 | 18 | 6.3k | |
| Jeong Wook Lee | 5427 | 42 | 440 | 2280 | 769 | 85 | 6.8k | |
| Julia Joung | 15081 | 749 | 1115 | 1942 | 1195 | 19 | 16.2k | |
| Jonathan Livny | 4478 | 46 | 349 | 855 | 1191 | 65 | 6.3k | |
| Roby P. Bhattacharyya | 3948 | 58 | 329 | 1038 | 881 | 53 | 5.4k | |
| Cameron Myhrvold | 3763 | 64 | 376 | 1312 | 678 | 25 | 4.3k | |
| Nichole M. Daringer | 3289 | 44 | 410 | 1228 | 630 | 12 | 3.8k |
All Works
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