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• Part:BBa K4387000:Design
  The sequence of the pNorVβ was obtained from the paper of Xiaoyu J. Chen et al. [1] <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  722 B (102 words) - 20:12, 13 October 2022
• Part:BBa K4387001:Design
  The sequence of the regulator NorR was obtained from the paper of Xiaoyu J. Chen et al. [1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  536 B (73 words) - 10:20, 4 October 2022
• Part:BBa K4387004:Design
  Xiaoyu J. Chen et al. <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  547 B (74 words) - 08:15, 12 October 2022
• Part:BBa K4387005:Design
  Xiaoyu J. Chen et al. <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  546 B (74 words) - 15:05, 11 October 2022
• Part:BBa K4387006:Design
  Xiaoyu J. Chen et al. [1] <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  551 B (74 words) - 08:09, 12 October 2022
• Part:BBa K4387007:Design
  * Xiaoyu J. Chen et al. [1] <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  970 B (132 words) - 08:04, 12 October 2022
• Part:BBa K4387009:Design
  Xiaoyu J. Chen et al. [1] <li>[1] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  551 B (74 words) - 07:53, 12 October 2022
• Part:BBa K2116002
  <li>[3] Xiaoyu J. Chen, Baojun Wang, Ian P. Thompson, and Wei E. Huang et al. Rational Design and Characterizat
  10 KB (1,570 words) - 18:20, 13 October 2022
• Part:BBa K2197303
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  13 KB (1,998 words) - 13:12, 21 October 2019
• Part:BBa K2197300
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  16 KB (2,543 words) - 18:12, 21 October 2019
• Part:BBa K3007029
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  13 KB (2,081 words) - 18:13, 21 October 2019
• Part:BBa K3007000
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,626 words) - 12:11, 21 October 2019
• Part:BBa K3007000:Experience
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,541 words) - 04:33, 20 October 2019
• Part:BBa K3007001
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,595 words) - 12:13, 21 October 2019
• Part:BBa K3007001:Experience
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,522 words) - 02:43, 20 October 2019
• Part:BBa K3007021
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [4] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  9 KB (1,486 words) - 19:18, 20 October 2019
• Part:BBa K3007002
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,552 words) - 02:43, 20 October 2019
• Part:BBa K3007002:Experience
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [5] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,522 words) - 02:44, 20 October 2019
• Part:BBa K3007003
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [6] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  11 KB (1,690 words) - 02:41, 20 October 2019
• Part:BBa K3007003:Experience
  For the first question, we interviewed Dr. Xiaoyu Chen, a scientist who majors in biosensors. He suggested us that changing t [6] Wan, X., Volpetti, F., Petrova, E., French, C., Maerkl, S. J., & Wang, B. (2019). Cascaded amplifying circuits enable ultrasensitive cellular sen
  10 KB (1,540 words) - 02:48, 20 October 2019