Julian F. Burke
University of Sussex
102 Papers
1.7K Citations
Julian F. Burke is an academic researcher from University of Sussex. The author has contributed to research in topics: Gene & FMRFamide. The author has an hindex of 37, co-authored 102 publications. Previous affiliations of Julian F. Burke include East Sussex County Council.
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Papers
Ownership of the human genome
TL;DR: Europe would do well to ponder over the stake already held by Japan and the United States in human genome patents, according to a report by the European Commission.
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Genomic organization of the FMRFamide gene in Lymnaea: multiple exons encoding novel neuropeptides
Elaine Kellett,Susan E. Saunders,Ka Wan Li,Julian W. Staddon,Paul R. Benjamin,Julian F. Burke +5 more
TL;DR: Analysis of the right internal parietal nerve using mass spectrometry showed that the novel peptide SKPYMRFamide was cleaved from the precursor, suggesting a physiological function in the CNS.
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Alternative RNA Splicing Generates Diversity of Neuropeptide Expression in the Brain of the Snail Lymnaea: In Situ Analysis of Mutually Exclusive Transcripts of the FMRF amide Gene
TL;DR: The aim was to analyse the pattern by which exons of this neuropeptide locus combine during splicing of the primary RNA transcript, and to investigate the functional significance of splicing by mapping the expression and neuronal localization in the CNS of the alternative mRNA transcripts, in the context of defined neuronal networks and single identified neurons.
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Expression of Drosophila heat shock genes is regulated in Rat-cells.
TL;DR: The introduction of a Drosophila 87A heat shock locus into the genome of Rat-1 cells suggests that the induction mechanism and regulatory sequences for the heat shock response have been conserved between Dosophila and mammals.
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Neural Modulation of Gut Motility by Myomodulin Peptides and Acetylcholine in the Snail Lymnaea
Stephen J. Perry,Volko A. Straub,György Kemenes,Niovi Santama,Belinda M. Worster,Julian F. Burke,Paul R. Benjamin +6 more
TL;DR: Coapplication of all five myomodulin peptides gave a greater increase in tonus than that produced by the peptide applied individually, suggesting that corelease of the peptides onto the gut would produce an enhanced response.
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