Standout Papers
- RNA-guided editing of bacterial genomes using CRISPR-Cas systems (2013)
- Programmable repression and activation of bacterial gene expression using an engineered CRISPR-Cas system (2013)
- Exploiting CRISPR-Cas nucleases to produce sequence-specific antimicrobials (2014)
- PhageTerm: a tool for fast and accurate determination of phage termini and packaging mechanism using next-generation sequencing data (2017)
- Phages and their satellites encode hotspots of antiviral systems (2022)
- Phage–host coevolution in natural populations (2022)
- In situ targeted base editing of bacteria in the mouse gut (2024)
Immediate Impact
94 by Nobel laureates 78 from Science/Nature 297 standout
Citing Papers
Past, present, and future of CRISPR genome editing technologies
2024 Standout
Establishing a synthetic orthogonal replication system enables accelerated evolution in E. coli
2024 StandoutScience
Works of David Bikard being referenced
Computational design of novel Cas9 PAM-interacting domains using evolution-based modelling and structural quality assessment
2023
RNA-guided editing of bacterial genomes using CRISPR-Cas systems
2013 Standout
Author Peers
| Author | Last Decade | Papers | Cites | |||
|---|---|---|---|---|---|---|
| David Bikard | 6088 | 2019 | 1782 | 63 | 7.3k | |
| Joseph Bondy‐Denomy | 4210 | 992 | 2298 | 70 | 5.2k | |
| Daniel H. Haft | 5926 | 1011 | 1865 | 57 | 9.0k | |
| Edze R. Westra | 7474 | 2337 | 3163 | 80 | 8.8k | |
| Peter C. Fineran | 5927 | 1932 | 4058 | 133 | 8.8k | |
| Francisco J. M. Mojica | 5604 | 1406 | 1263 | 33 | 6.2k | |
| Cynthia M. Sharma | 7330 | 3096 | 2626 | 85 | 8.9k | |
| Karen L. Maxwell | 3960 | 858 | 2529 | 88 | 5.5k | |
| Patrick Boyaval | 8706 | 1827 | 2027 | 85 | 10.6k | |
| Christophe Fremaux | 9078 | 2078 | 2436 | 45 | 10.2k | |
| Dennis Romero | 7685 | 1799 | 2290 | 39 | 8.7k |
All Works
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