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- ...on a evolutionary stability analysis to determine a kill switch's network topology guideline. For that, BNU China's kill switch of 2014 has been modeled and s ...biological processes in more detailed and extended their provided network topology with these relevant processes which, for instance, involve dimerization pro10 KB (1,526 words) - 22:35, 16 October 2019
- ...ws iterative non-cytoplasmatic, transmembrane and cytoplasmic regions. The topology might indicate, that the transporter will be integrated into the inner memb ..., and Sonnhammer, E.L.L. </b> (2007). Advantages of combined transmembrane topology and signal peptide prediction-the Phobius web server. Nucleic Acids Res. 3564 KB (10,011 words) - 08:18, 6 December 2017
- ...diction server [6] with high confidence values: Type confidence = 0.91 and topology confidence = 0.93 (Figure 3): ...n Heijne, G., & Sonnhammer, E. L. (2001). Predicting transmembrane protein topology with a hidden Markov model: application to complete genomes. Journal of mol7 KB (1,025 words) - 00:30, 22 October 2019
- ...t the expression of both the sgRNA and the dCas9 from a single plasmid ('''Topology A'''), in which the promoter to be stabilized resides, broke the system and :Another option was the genome insertion of dCas9 ('''Topology B'''), which would offer increased system stability, but, when simulated in14 KB (2,002 words) - 23:39, 17 October 2018
- ...P will phosphorylate the downstream response regulator, ComA. The membrane topology of ComP has been investigated, but the crystal/NMR structure is unknown. For more information on the ComP receptor topology, see:1 KB (149 words) - 01:57, 26 October 2006
- ...proteins, one repressor and one hybrid promoter (Fig. 2). Along with the topology, one can just choose any combination of sets of repressor proteins and prom3 KB (552 words) - 17:09, 28 October 2013
- ...105</sub> consist of three transmembrane domains (TMD) with an N-out, C-in topology while S<sub>107</sub> only has two TMDs, caused by an extra positive charge10 KB (1,645 words) - 10:58, 30 October 2017
- This topology provides a higher basal LuxR concentration inside the cell. This circuit wa ''Figure 1: Flow chart of PFR (Positive Feedback + Repressor) circuit. This topology resembles the one of a coherent feedforward loop with an added positive inv4 KB (516 words) - 03:52, 14 October 2022
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,107 words) - 07:22, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,180 words) - 07:19, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,123 words) - 07:20, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,105 words) - 07:23, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in27 KB (4,052 words) - 07:49, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,111 words) - 07:49, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,085 words) - 11:03, 2 October 2024
- ...c="https://static.igem.wiki/teams/5061/wiki/figures/contribution/cont-xyls-topology-b.png" width="600px"> ...c acid ligand (blue) upon docking with SwissDock (A) and the corresponding topology diagram representation (B). The DNA-binding domain (HTH) is highlighted in28 KB (4,106 words) - 12:57, 2 October 2024
- ...vel of gyrase enzyme inside the cell and thus also maintain a steady-state topology of the DNA molecules itself.5 KB (786 words) - 21:10, 1 October 2011
- ...of gyrase at par are purely structural, for example, local changes in DNA topology due to the wrapping of DNA by gyrase may be already enough to induce the do2 KB (252 words) - 02:18, 10 October 2011
- ...''' A). The standardly redesigned AND gate of PKU_Beijing 09 team. B). The topology and mechanism of AND gate. Parts showing in box constitute the core process2 KB (296 words) - 07:02, 5 October 2011
- ...''' A). The standardly redesigned AND gate of PKU_Beijing 09 team. B). The topology and mechanism of AND gate. Parts showing in box constitute the core process2 KB (294 words) - 08:04, 5 October 2011