D
David A. Jackson
Researcher at King's College London
Publications - 1166
Citations - 76015
David A. Jackson is an academic researcher from King's College London. The author has contributed to research in topics: Optical fiber & Interferometry. The author has an hindex of 136, co-authored 1095 publications receiving 68352 citations. Previous affiliations of David A. Jackson include University of California, Berkeley & University of Alberta.
Papers
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Journal ArticleDOI
Statistically integrated metabonomic-proteomic studies on a human prostate cancer xenograft model in mice.
Mattias Rantalainen,Olivier Cloarec,Olaf Beckonert,Ian D. Wilson,David A. Jackson,Robert Tonge,Rachel Rowlinson,Steve Rayner,Janice Nickson,Robert W. Wilkinson,Jonathan D. Mills,Johan Trygg,Jeremy K. Nicholson,Elaine Holmes +13 more
TL;DR: This approach can provide enhanced recovery of combination candidate biomarkers across multi-omic platforms, thus, enhancing understanding of in vivo model systems studied by multiple omic technologies.
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Viral infections in allergy and immunology: How allergic inflammation influences viral infections and illness
Michael R. Edwards,Katherine Strong,Aoife Cameron,Ross P. Walton,David A. Jackson,Sebastian L. Johnston +5 more
TL;DR: A rationale for why anti‐TH2 biologics are particularly successful in controlling asthma exacerbations is proposed and ways in which future clinical studies could be used to find direct evidence for this hypothesis are suggested.
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Regulation of CD44 Binding to Hyaluronan by Glycosylation of Variably Spliced Exons
Kelly L. Bennett,Brett Modrell,Brad Greenfield,Armando Bartolazzi,I Stamenkovic,R Peach,David A. Jackson,F Spring,Alejandro Aruffo +8 more
TL;DR: In this paper, the hyaluronan (HA)-binding function (lectin function) of the leukocyte homing receptor, CD44, is tightly regulated by differential splicing.
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Combined distributed temperature and strain sensor based on Brillouin loss in an optical fiber
TL;DR: A novel distributed sensor that utilizes the temperature and strain dependence of the frequency at which the Brillouin loss is maximized in the interaction between a cw laser and a pulsed laser is presented.
The Relationship between Auxin Transport and Maize Branching 1(C)(W)(OA)
TL;DR: It is concluded that branching mechanisms are conserved and can, in addition, explain the formation of axillary meristems (spikelet-pair and spikelet meristem) that are unique to grasses.