Phil Hill
University of Nottingham
16 Papers
61 Citations
Phil Hill is an academic researcher from University of Nottingham. The author has contributed to research in topics: Chemistry & Biology. The author has an hindex of 5, co-authored 12 publications.
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Papers
Iron-Catalysed Radical Polymerisation by Living Bacteria.
TL;DR: This methodology provides a means by which bacterial redox systems can be exploited to generate 'unnatural' polymers in the presence of 'host' cells, thus setting up the possibility of making natural-synthetic hybrid structures and conjugates.
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The use of a viral 2A sequence for the simultaneous over-expression of both the vgf gene and enhanced green fluorescent protein (eGFP) in vitro and in vivo.
TL;DR: The viral 2A sequence is suitable for gene manipulation in the Siberian hamster and allows long-term simultaneous over-expression of 2 genes in vitro and in vivo, demonstrating dual expression in the hypothalami of Siberian hamsters and mice.
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A Bioluminescent Microbial Biosensor for In Vitro Pretreatment Assessment of Cytarabine Efficacy in Leukemia
Habib M. Alloush,Elizabeth Anderson,Ashley Martin,Mark W. Ruddock,Johanna E. Angell,Phil Hill,Priyanka Mehta,M. Ann Smith,J. Graham Smith,Vyv Salisbury +9 more
TL;DR: The biosensor-based assay may offer a predictor for evaluating the sensitivity of leukemic cells to Ara-C before patients undergo chemotherapy and allow customized treatment of drug-sensitive patients with reduced Ara- C dose levels.
Quorum-sensing, intra- and inter-species competition in the staphylococci
TL;DR: The molecular mechanisms underlying the agr-mediated generation of, and response to, AIPs and the molecular basis of AIP-dependent activation and inhibition of AgrC are described.
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Development of a Corynebacterium glutamicum bio-factory for self-sufficient transaminase reactions
Stylianos Grigoriou,Pierre Kugler,Evelina Kulcinskaja,Frederik Walter,John R. King,Phil Hill,Volker F. Wendisch,Elaine O'Reilly,Elaine O'Reilly +8 more
TL;DR: The report represents the first example of the application of a metabolically engineered organism for the production of smart diamine donors and their application in a transaminase biotransformation.
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