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| Vaknin I, Amit R. (2022) Molecular and experimental tools to design synthetic enhancers. Current Opinion in Biotechnology. 76: 102728 |
| Katz N, Tripto E, Granik N, et al. (2021) Overcoming the design, build, test bottleneck for synthesis of nonrepetitive protein-RNA cassettes. Nature Communications. 12: 1576 |
| Anavy L, Vaknin I, Atar O, et al. (2019) Data storage in DNA with fewer synthesis cycles using composite DNA letters. Nature Biotechnology. 37: 1229-1236 |
| Katz N, Cohen R, Atar O, et al. (2019) An Assay for Quantifying Protein-RNA Binding in Bacteria. Journal of Visualized Experiments : Jove |
| Katz N, Cohen R, Solomon O, et al. (2019) Synthetic 5' UTRs Can Either Up- or Downregulate Expression upon RNA-Binding Protein Binding. Cell Systems |
| Katz N, Cohen R, Solomon O, et al. (2018) An in vivo binding assay for RNA-binding proteins based on repression of a reporter gene. Acs Synthetic Biology |
| Levy L, Anavy L, Solomon O, et al. (2017) A Synthetic Oligo Library and Sequencing Approach Reveals an Insulation Mechanism Encoded within Bacterial σ(54) Promoters. Cell Reports. 21: 845-858 |
| Brunwasser-Meirom M, Pollak Y, Goldberg S, et al. (2016) Using synthetic bacterial enhancers to reveal a looping-based mechanism for quenching-like repression. Nature Communications. 7: 10407 |
| Brunwasser-Meirom M, Pollak Y, Goldberg S, et al. (2016) Using synthetic bacterial enhancers to reveal a looping-based mechanism for quenching-like repression Nature Communications. 7 |
| Amit R. (2012) Towards synthetic gene circuits with enhancers: biology's multi-input integrators Sub-Cellular Biochemistry. 64: 3-20 |