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- ...erial cell density (qorum sensing) and regulates the effector functions of CATE. It allows our engineered bacteria to autonomously decide whether they are <figcaption><b>Figure 1:</b>Genetic circuit of CATE. CATE consists of an regulator (upper) and actuator (lower) plasmid. The AND gate9 KB (1,419 words) - 23:02, 1 November 2017
- ...erial cell density (qorum sensing) and regulates the effector functions of CATE. It allows our engineered bacteria to autonomously decide whether they are <figcaption><b>Figure 1:</b>Genetic circuit of CATE. CATE consists of an regulator (upper) and actuator (lower) plasmid. The AND gate10 KB (1,527 words) - 23:08, 1 November 2017
- ...erial cell density (qorum sensing) and regulates the effector functions of CATE. It allows our engineered bacteria to autonomously decide whether they are <figcaption><b>Figure 1:</b>Genetic circuit of CATE. CATE consists of an regulator (upper) and actuator (lower) plasmid. The AND gate8 KB (1,180 words) - 22:37, 1 November 2017
- <p>CATE transports azurin to tumor cells and releases it via controlled cell lysis.12 KB (1,736 words) - 03:29, 2 November 2017
- <b>Figure 1:</b> The pTlpA promoter regulates the lysis step of CATE. The promoter is bound and inhibited by TlpA repressor proteins below 37 °2 KB (353 words) - 03:20, 2 November 2017
- CATE deploys protein E to release the cytotoxic agent within tumor cells upon he13 KB (1,981 words) - 20:40, 21 October 2021
- <b>Figure 1:</b> The pTlpA promoter regulates the lysis step of CATE. The promoter is bound and inhibited by TlpA repressor proteins below 37 °7 KB (1,085 words) - 01:42, 2 November 2017
- <p>CATE deploys protein E to release the cytotoxic agent within tumor cells upon he5 KB (776 words) - 03:44, 2 November 2017
- ...erial cell density (qorum sensing) and regulates the effector functions of CATE. It allows our engineered bacteria to autonomously decide whether they are1 KB (210 words) - 03:49, 2 November 2017
- ...d RNA detection</b>. East-Seletsky A, O'Connell MR, Knight SC, Burstein D, Cate JH, Tjian R, Doudna JA.<i> Nature. 2016 Sep 26. doi: 10.1038/nature19802.</1 KB (154 words) - 03:48, 2 November 2017
- The catechol-2,3-dioxygenase gene (CatE) comes from Bacillus subtilis.2 KB (254 words) - 15:40, 23 October 2020
- The catechol-2,3-dioxygenase gene (CatE) comes from Bacillus subtilis.890 B (118 words) - 14:20, 27 October 2017
- ...d RNA detection</b>. East-Seletsky A, O'Connell MR, Knight SC, Burstein D, Cate JH, Tjian R, Doudna JA.<i> Nature. 2016 Sep 26. doi: 10.1038/nature19802.</1 KB (153 words) - 21:22, 15 December 2017
- ...4]</a> East-Seletsky, A., O’Connell, M. R., Knight, S. C., Burstein, D., Cate, J. H. D., Tjian, R., & Doudna, J. A. (2016). Two distinct RNase activities28 KB (3,899 words) - 17:50, 19 October 2021