Dr David Miller
Projects as Co-Investigator
1 of 2
- Design of bioactive sesquiterpene-based chemical signals with enhanced stability (01/01/2011 - 31/08/2014)
- Development and evaluation of selective allosteric calpain-1 inhibitors (01/01/2016 - 31/12/2019)
- Development of novel semiochemicals for crop protection (01/11/2018 - 30/09/2022)
- Engineering water capture in terpene synthases (01/03/2018 - 05/03/2022)
- Harnessing microbial genomics and chemistry to discover new antibiotics (10/07/2017 - 09/07/2018)
Research Datasets
- Data for 'Simulation-guided engineering enables a functional switch in selinadiene synthase towards hydroxylation' - Srivastava P, Miller D, Allemann R (2024). Cardiff University. 10.17035/d.2024.0307793923. chemistry/biochemistry Biocatalysis Terpene cyclases Enzymes
- Raw datasets associated with the publication Active Site Loop Engineering Abolishes Water Capture in Hydroxylating Sesquiterpene Synthases - Srivastava Prabhakar L, Johns Sam T, Walters Rebecca, et al. (2023). Cardiff University. 10.17035/d.2023.0291278347. Enzymology Molecular dynamics Biocatalysis
- Raw datasets associated with the publication "Single Point Mutation Abolishes Water Capture in Germacradien-4-ol Synthase". - Requena Víctor, Srivastava Prabhakar, Miller David, et al. (2024). Cardiff University. 10.17035/d.2024.0304658740. chemistry/biochemistry Biocatalysis Terpene cyclases
- Structure-based design of allosteric calpain-1 inhibitors populating a novel bioactivity space - Kalash L, Cresser-Brown J, Habchi J, et al. (2018). Cardiff University. 10.17035/d.2018.0061359778. Computational chemistry Synthetic biological molecules
