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Kate E Galloway

Showing results (11-20 of 39) with videos related to

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Current Opinion in Systems Biology|November 4, 2022
Engineering cell fate: Applying synthetic biology to cellular reprogrammingNathan B Wang, Adam M Beitz, Kate E Galloway
Trends in Biotechnology|August 8, 2021
Synthetic gene circuits as tools for drug discoveryAdam M Beitz, Conrad G Oakes, Kate E Galloway
Annual Review of Chemical and Biomolecular Engineering|April 10, 2024
Accelerating Diverse Cell-Based Therapies Through Scalable DesignEmma L Peterman, Deon S Ploessl, Kate E Galloway
Genome Biology|February 22, 2012
Synthetic biology: advancing biological frontiers by building synthetic systemsYvonne Y Chen, Kate E Galloway, Christina D Smolke
Biorxiv : the Preprint Server for Biology|May 25, 2026
Engineering high-titer lentiviral vectors for robust expression of RNA-based gene circuitsKasey S Love, Brittany A Lende-Dorn, Kate E Galloway
Cell Systems|November 19, 2020
Understanding and Engineering Chromatin as a Dynamical System across Length and TimescalesChristopher P Johnstone, Nathan B Wang, Stuart A Sevier, et al.
Cell Reports|September 6, 2025
Chemogenetic tuning reveals optimal MAPK signaling for cell-fate programmingBrittany A Lende-Dorn, Jane C Atkinson, Yunbeen Bae, et al.
Trends in Biotechnology|June 10, 2025
Engineered transcription factor-binding arrays for DNA-based gene expression control in mammalian cellsAnnalise Zouein, Brittany Lende-Dorn, Kate E Galloway, et al.
Biorxiv : the Preprint Server for Biology|July 9, 2024
Model-guided design of microRNA-based gene circuits supports precise dosage of transgenic cargoes into diverse primary cellsKasey S Love, Christopher P Johnstone, Emma L Peterman, et al.
Cell Systems|April 29, 2025
Model-guided design of microRNA-based gene circuits supports precise dosage of transgenic cargoes into diverse primary cellsKasey S Love, Christopher P Johnstone, Emma L Peterman, et al.
Pageof 4

Showing results (11-20 of 39) with videos related to

Sort By:
Pageof 4
Current Opinion in Systems Biology|November 4, 2022
Engineering cell fate: Applying synthetic biology to cellular reprogrammingNathan B Wang, Adam M Beitz, Kate E Galloway
Trends in Biotechnology|August 8, 2021
Synthetic gene circuits as tools for drug discoveryAdam M Beitz, Conrad G Oakes, Kate E Galloway
Annual Review of Chemical and Biomolecular Engineering|April 10, 2024
Accelerating Diverse Cell-Based Therapies Through Scalable DesignEmma L Peterman, Deon S Ploessl, Kate E Galloway
Genome Biology|February 22, 2012
Synthetic biology: advancing biological frontiers by building synthetic systemsYvonne Y Chen, Kate E Galloway, Christina D Smolke
Biorxiv : the Preprint Server for Biology|May 25, 2026
Engineering high-titer lentiviral vectors for robust expression of RNA-based gene circuitsKasey S Love, Brittany A Lende-Dorn, Kate E Galloway
Cell Systems|November 19, 2020
Understanding and Engineering Chromatin as a Dynamical System across Length and TimescalesChristopher P Johnstone, Nathan B Wang, Stuart A Sevier, et al.
Cell Reports|September 6, 2025
Chemogenetic tuning reveals optimal MAPK signaling for cell-fate programmingBrittany A Lende-Dorn, Jane C Atkinson, Yunbeen Bae, et al.
Trends in Biotechnology|June 10, 2025
Engineered transcription factor-binding arrays for DNA-based gene expression control in mammalian cellsAnnalise Zouein, Brittany Lende-Dorn, Kate E Galloway, et al.
Biorxiv : the Preprint Server for Biology|July 9, 2024
Model-guided design of microRNA-based gene circuits supports precise dosage of transgenic cargoes into diverse primary cellsKasey S Love, Christopher P Johnstone, Emma L Peterman, et al.
Cell Systems|April 29, 2025
Model-guided design of microRNA-based gene circuits supports precise dosage of transgenic cargoes into diverse primary cellsKasey S Love, Christopher P Johnstone, Emma L Peterman, et al.
Pageof 4