D
Douglas B. Kell
Researcher at University of Liverpool
Publications - 657
Citations - 55792
Douglas B. Kell is an academic researcher from University of Liverpool. The author has contributed to research in topics: Systems biology & Dielectric. The author has an hindex of 111, co-authored 634 publications receiving 50335 citations. Previous affiliations of Douglas B. Kell include Max Planck Society & University of Wales.
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The deconvolution of pyrolysis mass spectra using genetic programming: application to the identification of some Eubacterium species
TL;DR: This work exploits the evolutionary computational technique of genetic programming, which rapidly and automatically produced simple mathematical functions that were also able to classify organisms to each of the four bacterial groups correctly and unambiguously.
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Automated manipulation of systems biology models using libSBML within Taverna workflows
TL;DR: The Taverna workflow system has been extended to enable it to use and invoke Java classes and methods as tasks within Taverna workflows, demonstrated by a workflow in which libSBML is used to map gene expression data onto a metabolic pathway represented as a SBML model.
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Biochemical changes accompanying the long-term starvation of Micrococcus luteus cells in spent growth medium
Galina V. Mukamolova,N. D. Yanopol'skaya,Tatyana V. Votyakova,V. I. Popov,Arseny S. Kaprelyants,Douglas B. Kell +5 more
TL;DR: Changes in the biochemical properties of Micrococcus luteus cells were studied during the transition to a dormant state after incubation in an extended stationary phase, with significant fluctuations during the first 10–20 days of starvation, which may reflect cryptic growth in the culture.
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Comparative genomic assessment of novel broad-spectrum targets for antibacterial drugs.
Thomas A. White,Douglas B. Kell +1 more
TL;DR: TRNA methyltransferase and translation initiation factor IF-1 (infA) emerged as potential and novel antimicrobial targets very worthy of further investigation and might be of value in other areas of post-genomic drug discovery.
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On the audio- and radio-frequency dielectric behaviour of anchorage-independent, mouse L929-derived LS fibroblasts
TL;DR: The utility of dielectric methods as a means for estimating the biomass of animal cells in suspension culture was assessed, using mouse L929-derived LS fibroblasts, with a proposed Maxwell-Wagner mechanism taking place in the region of the plasma membrane protrusions of these cells.