Cirino lab publications can be found on Dr. Cirino’s Google Scholar page (link)
Some recent examples:
- A Doshi, I Bandey, D Nevozhay, N Varadarajan, PC Cirino, Design and characterization of a salicylic acid-inducible gene expression system for Jurkat cells. Journal of Biotechnology, 2022
- Y Wang, N Nguyen, SH Lee, Q Wang, JA May, R Gonzalez, PC Cirino, Engineering Escherichia coli for anaerobic alkane activation: Biosynthesis of (1‐methylalkyl)succinates. Biotechnology and Bioengineering 119 (1), 315-320, 2022
- A Doshi, F Sadeghi, N Varadarajan, PC Cirino, Small-molecule inducible transcriptional control in mammalian cells. Critical Reviews in Biotechnology 40 (8), 1131-1150, 2020
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Z Wang, A Doshi, R Chowdhury, Y Wang, CD Maranas, PC Cirino, Engineering sensitivity and specificity of AraC-based biosensors responsive to triacetic acid lactone and orsellinic acid. Protein Engineering, Design and Selection 33, 2020
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S Qian, Y Li, PC Cirino, Biosensor-guided improvements in salicylate production by recombinant Escherichia coli. Microbial Cell Factories 18., 2019
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CS Frei, S Qian, PC Cirino, New engineered phenolic biosensors based on the AraC regulatory protein. Protein Engineering, Design and Selection 31 (6), 213-220, 2018
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RB McLay, HN Nguyen, YA Jaimes-Lizcano, NK Dewangan, Simone Alexandrova, Debora F Rodrigues, Patrick C Cirino, Jacinta C Conrad, Level of Fimbriation Alters the Adhesion of Escherichia coli Bacteria to Interfaces. Langmuir 34 (3), 1133-1142, 2018
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Y Li, S Qian, R Dunn, PC Cirino, Engineering Escherichia coli to increase triacetic acid lactone (TAL) production using an optimized TAL sensor-reporter system. Journal of Industrial Microbiology and Biotechnology 45 (9), 789-793, 2018
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Y Li, Z Wang, PC Cirino, Design and characterization of new β-glucuronidase active site variants with altered substrate specificity. Biotechnology letters 40 (1), 111-118, 2018