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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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Journal ArticleDOI
The Potential of LPS-Binding Protein to Reverse Amyloid Formation in Plasma Fibrin of Individuals With Alzheimer-Type Dementia
TL;DR: PPP taken from individuals with AD exhibits considerable amyloid structure when clotting is initiated with thrombin but without added LPS and may be reversed by the addition of very small amounts of LBP, providing further evidence for a role of microbes and their inflammagenic cell wall products.
Journal ArticleDOI
Plant seed classification using pyrolysis mass spectrometry with unsupervised learning: The application of auto-associative and Kohonen artificial neural networks
TL;DR: In this paper, the authors used pyrolysis mass spectrometry (PyMS) to obtain high dimensional (150 m/z values) biochemical fingerprints from Begonia semperflorens Summer Rainbow, Campanula carpatica White Gem, Lobelia erinus White Fountain, and lobster erinus white lady plant seeds.
Book ChapterDOI
On the Determination of the Size of Microbial Cells Using Flow Cytometry
TL;DR: The Skatron Argus 100 flow cytometer as discussed by the authors uses a high pressure mercury arc lamp as the excitation source, and the machine makes use of an open flow chamber in which a jet impinges at an angle onto the surface of a microscope cover slip (Fig. 4.1).
Journal ArticleDOI
Single-nucleotide polymorphism detection using nanomolar nucleotides and single-molecule fluorescence
TL;DR: The method was applied with success to the detections of SNPs that are known to occur in the BRCA1 and CFTR genes.
Journal ArticleDOI
Secretion of an antibacterial factor during resuscitation of dormant cells in Micrococcus luteus cultures held in an extended stationary phase
TL;DR: It is concluded that the stimulating effect of viable cells, and of supernatant taken from batch cultures, on the resuscitation of dormant cells might be connected in part with overcoming the activity of an antibacterial factor causing self-poisoning of dormant Cells during their resuscitation.