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Institution

John Radcliffe Hospital

HealthcareOxford, Oxfordshire, United Kingdom
About: John Radcliffe Hospital is a healthcare organization based out in Oxford, Oxfordshire, United Kingdom. It is known for research contribution in the topics: Population & Antigen. The organization has 14491 authors who have published 23670 publications receiving 1459015 citations.


Papers
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Journal ArticleDOI
09 May 1996-Nature
TL;DR: It is suggested that RhlB acts by unwinding RNA structures that impede the processive activity of PNPase, and is thus an important enzyme in mRNA turnover.
Abstract: THE Escherichia coli RNA degradosome is a multi-enzyme complex that contains the exoribonuclease polynucleotide phosphorylase (PNPase) and the endoribonuclease RNase E1,2. Both enzymes are important in RNA processing and messenger RNA degradation3–14. Here we report that enolase and RhlB are two other major components of the degradosome. Enolase is a glycolytic enzyme with an unknown role in RNA metabolism. RhlB is a member of the DEAD-box family of ATP-dependent RNA helicases, which are found in both prokaryotes and eukaryotes15–26. We show that the degradosome has an ATP-dependent activity that aids the degradation of structured RNA by PNPase. Incubation of the degradosome with affinity-purified antibody against RhlB inhibited the ATP-stimulated RNA degradation. These results suggest that RhlB acts by unwinding RNA structures that impede the processive activity of PNPase. RhlB is thus an important enzyme in mRNA turnover.

557 citations

Journal ArticleDOI
TL;DR: An event‐related fMRI study investigates where in the human brain these interactions between taste and odour stimuli (administered retronasally) may be realized, and provides evidence on the neural substrate for the convergence of taste and olfactory stimuli to produce flavour in humans.
Abstract: The functional architecture of the central taste and olfactory systems in primates provides evidence that the convergence of taste and smell information onto single neurons is realized in the caudal orbitofrontal cortex (and immediately adjacent agranular insula). These higher-order association cortical areas thus support flavour processing. Much less is known, however, about homologous regions in the human cortex, or how taste-odour interactions, and thus flavour perception, are implemented in the human brain. We performed an event-related fMRI study to investigate where in the human brain these interactions between taste and odour stimuli (administered retronasally) may be realized. The brain regions that were activated by both taste and smell included parts of the caudal orbitofrontal cortex, amygdala, insular cortex and adjoining areas, and anterior cingulate cortex. It was shown that a small part of the anterior (putatively agranular) insula responds to unimodal taste and to unimodal olfactory stimuli, and that a part of the anterior frontal operculum is a unimodal taste area (putatively primary taste cortex) not activated by olfactory stimuli. Activations to combined olfactory and taste stimuli where there was little or no activation to either alone (providing positive evidence for interactions between the olfactory and taste inputs) were found in a lateral anterior part of the orbitofrontal cortex. Correlations with consonance ratings for the smell and taste combinations, and for their pleasantness, were found in a medial anterior part of the orbitofrontal cortex. These results provide evidence on the neural substrate for the convergence of taste and olfactory stimuli to produce flavour in humans, and where the pleasantness of flavour is represented in the human brain.

556 citations

Journal ArticleDOI
11 Jan 1990-Nature
TL;DR: A deletion of the dystrophin gene is described in a family segregating for very mild BMD, one member of which was still ambulant at age 61 years, which removes a central part of the DystrophIn gene encompassing 5,106 base pairs of coding sequence, almost half the coding information.
Abstract: Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD), a much milder form of the disease where the age of onset can sometimes be as late as the third or fourth decade of life, are caused by mutations in the same X-linked gene, a 14 kilobase (kb) transcript which is spread over more than 2 megabases of the human X chromosome. The corresponding protein, dystrophin, has a relative molecular mass of 400,000. Most mutations causing DMD and BMD are deletions and deletions associated with both phenotypes are observed throughout the gene sequence. This observation led to the suggestion that DMD patients possess deletions that disrupt the reading frame of the protein, whereas BMD patients have deletions that retain the translational reading frame and enable the muscle cells to produce altered dystrophin products. This theory is supported by immunoblotting studies, which show that DMD patients lack dystrophin in their muscle cells or that dystrophin is present at very low levels, whereas BMD patients produce a protein with reduced abundance or abnormal size. Here we describe a deletion of the dystrophin gene in a family segregating for very mild BMD, one member of which was still ambulant at age 61 years, which removes a central part of the dystrophin gene encompassing 5,106 base pairs of coding sequence, almost half the coding information. Immunological analysis of muscle from one of the patients demonstrates that this mutation results in the production of a truncated polypeptide localized correctly in the muscle cell. These results are particularly significant in the context of gene therapy which, if it is ever envisaged, would be facilitated by the replacement of the very large dystrophin gene with a more manipulatable mini-gene construct.

554 citations

Journal ArticleDOI
01 Jul 1991-Placenta
TL;DR: The earlier theories for the causation of pre-eclampsia assumed that deportation was the cause of eclamptic fits, but later evidence that it is a feature of normal human pregnancy has nullified this supposition.

554 citations

Journal ArticleDOI
TL;DR: In this paper, the pathogenesis of pre-eclampsia can be related to defined immune mechanisms that are appropriate to the fetomaternal frontier, and the first pregnancy preponderance and partner specificity can be explained by this model.
Abstract: Pre-eclampsia develops in stages, only the last being the clinical illness This is generated by a non-specific, systemic (vascular), inflammatory response, secondary to placental oxidative stress and not by reactivity to fetal alloantigens However, maternal adaptation to fetal (paternal alloantigens) is crucial in the earlier stages A pre-conceptual phase involves maternal tolerization to paternal antigens by seminal plasma After conception, regulatory T cells, interacting with indoleamine 2,3-dioxygenase, together with decidual NK cell recognition of fetal HLA-C on extravillous trophoblast may facilitate placental growth by immunoregulation Complete failure of this mechanism would cause miscarriage, while partial failure would cause poor placentation and dysfunctional uteroplacental perfusion The first pregnancy preponderance and partner specificity of pre-eclampsia can be explained by this model For the first time, the pathogenesis of pre-eclampsia can be related to defined immune mechanisms that are appropriate to the fetomaternal frontier Now, the challenge is to prove the detail

553 citations


Authors

Showing all 14542 results

NameH-indexPapersCitations
Douglas G. Altman2531001680344
Salim Yusuf2311439252912
David J. Hunter2131836207050
Mark I. McCarthy2001028187898
Stuart H. Orkin186715112182
Richard Peto183683231434
Ralph M. Steinman171453121518
Adrian L. Harris1701084120365
Rory Collins162489193407
Nicholas J. White1611352104539
David W. Johnson1602714140778
David Cella1561258106402
Edmund T. Rolls15361277928
Martin A. Nowak14859194394
Kypros H. Nicolaides147130287091
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
202311
202252
20211,048
20201,013
2019916
2018773