Institutions Eligible for the Accelerated Process Under Senior Appointments

Total Page：16

File Type：pdf, Size：1020Kb

Institutions eligible for the accelerated process under Senior Appointments UK Higher Education Institutions All UK Higher Education Institutions (HEIs) that can award degrees as defined by law UK Research and Innovation (UKRI) and its Councils – Institutes and units Daresbury Laboratory NERC British Antarctic Survey MRC Harwell NERC British Geological Survey MRC Head Office NERC Centre for Ecology and Hydrology MRC Laboratory of Molecular Biology Rutherford Appleton Laboratory MRC London Institute of Medical Sciences UK Astronomy Technology Centre MRC Toxicology Unit BBSRC Institutes are shown as independent research National Oceanographic Centre organisations on the right hand side UK Independent Research Organisations and Institutes Alan Turing Institute National Physical Laboratory Babraham Institute National Portrait Gallery British Library Natural History Museum British Museum The Pirbright Institute Cancer Research UK (institutes & units) Plymouth Marine Laboratory Culham Centre for Fusion Energy (CCFE)/Euratom Quadram Institute Diamond Light Source Ltd Roslin Institute Earlham Institute Rothamsted Research EMBL – European Bioinformatics Institute Royal Botanic Gardens – Kew The Francis Crick Institute The Royal Institution of Great Britain Health Data Research UK (HDR UK) The Sainsbury Laboratory Institute for Fiscal Studies Science Museum Group Institute of Development Studies Scottish Association for Marine Sciences John Innes Centre Square Kilometre Array National Archives UK Dementia Research Institute National Centre for Social Research UK Space Agency National Institute of Economic and Social Research Victoria & Albert Museum National Maritime Museum Wellcome Trust Sanger institute National Museums Liverpool Zoological Society of London, Institute of Zoology National Museums of Scotland RESEARCH AND INNOVATION TALENT VISA ELIGIBLE INSTITUTIONS – VERSION 01/10/19 1.

Copy Link

Recommended publications

Wellcome Trust Annual Report and Financial Statements 2017 Contents
Annual Report and Financial Statements 2017 2 Wellcome Trust Annual Report and Financial Statements 2017 Contents Report from the Chair and the Director 5 Trustee’s Report 8 What we do 8 Review of Charitable Activities 9 Review of Investment Activities 18 Financial Review 29 Structure and Governance 34 Risk Management 37 Remuneration Report 40 Audit Committee Report 43 Independent Auditor’s Report 45 Financial Statements 58 Consolidated Statement of Financial Activities 58 Consolidated Balance Sheet 59 Statement of Financial Activities of the Trust 60 Balance Sheet of the Trust 61 Consolidated Cash Flow Statement 62 Notes to the Financial Statements 63 Reference and Administrative Details 117 3 Wellcome Trust Annual Report and Financial Statements 2017 “ At Wellcome, we believe in the power of ideas to improve health” Jeremy Farrar Director 4 Wellcome Trust Annual Report and Financial Statements 2017 Report from the Chair and the Director “Our core approach is funding people to explore great ideas, at every step of the way from discovery to impact” At Wellcome, we believe in the power of ideas to improve cause of maternal mortality in the world. It also includes health. Funded from our independent investment portfolio, supporting research in the humanities and social sciences, we support thousands of scientists and researchers in more such as a project which this year published ethical guidelines than 70 countries, as well as innovators, educators and artists. for involving pregnant women in Zika vaccine research. Together, we take on big problems, fuel imaginations and spark And resources like the Human Induced Pluripotent Stem Cell debate, working always to achieve better health for everyone.
[Show full text]
The Electron Microscopy Science Technology Platform at the Francis
The Francis Crick Institute is a The Electron biomedical discovery institute Microscopy dedicated to understanding the fundamental biology underlying Science health and disease. Its work Technology is helping to understand why disease develops and to translate Platform at discoveries into new ways to the Francis prevent, diagnose and treat illnesses such as cancer, heart Crick Institute disease, stroke, infections, and Lucy Collinson neurodegenerative diseases. An independent organisation, its founding partners are the Medical Research Council (MRC), Cancer Research UK, Wellcome, University College London, Imperial College London and King’s College London. The Crick was formed in 2015, with many of the Crick’s scientists joining from two ‘parent’ institutes, the MRC’s National Institute for Medical Research and Cancer Research UK’s London Research Institute, and in 2016 it moved into a brand new state-of- the-art building in central London which brings together 1500 scientists and support staff working collaboratively across disciplines, making it the biggest biomedical research facility under a single roof in Europe. © Nick Guttridge 4 ISSUE 46 JUNE 2017 5 Each microscope room is a six-sided shielded box, • The Phenom-World DelPhi benchtop SEM with walls that contain complex metallic layers has an integrated fluorescence microscope to attenuate DC fields, and an active cancellation for correlative imaging system to attenuate AC fields. Under each • The FEI Twin 120 kV TEM has a cryo stage for microscope is a concrete platform, cast in place, and screening vitrified macromolecular samples supported by air springs that remove environmental prior to imaging on 200 kV and 300 kV TEMs vibration to <1 Hz.
[Show full text]
A Short History of the Royal Aeronautical Society
A SHORT HISTORY OF THE ROYAL AERONAUTICAL SOCIETY Royal Aeronautical Society Council Dinner at the Science Museum on 26 May 1932 with Guest of Honour Miss Amelia Earhart. Edited by Chris Male MRAeS Royal Aeronautical Society www.aerosociety.com Afterburner Society News RAeS 150th ANNIVERSARY www.aerosociety.com/150 The Royal Aeronautical Society: Part 1 – The early years The Beginning “At a meeting held at Argyll Lodge, Campden Hill, Right: The first Aeronautical on 12 January 1866, His Grace The Duke of Argyll Exhibition, Crystal Palace, 1868, showing the presiding; also present Mr James Glaisher, Dr Hugh Stringfellow Triplane model W. Diamond, Mr F.H. Wenham, Mr James Wm. Butler and other exhibits. No fewer and Mr F.W. Brearey. Mr Glaisher read the following than 77 exhibits were address: collected together, including ‘The first application of the Balloon as a means of engines, lighter- and heavier- than-air models, kites and ascending into the upper regions of the plans of projected machines. atmosphere has been almost within the recollection A special Juror’s Report on on ‘Aerial locomotion and the laws by which heavy of men now living but with the exception of some the exhibits was issued. bodies impelled through air are sustained’. of the early experimenters it has scarcely occupied Below: Frederick W Brearey, Wenham’s lecture is now one of the aeronautical Secretary of the the attention of scientific men, nor has the subject of Aeronautical Society of Great classics and was the beginning of the pattern of aeronautics been properly recognised as a distinct Britain, 1866-1896.
[Show full text]
Structure of Human Aspartyl Aminopeptidase Complexed With
Chaikuad et al. BMC Structural Biology 2012, 12:14 http://www.biomedcentral.com/1472-6807/12/14 RESEARCH ARTICLE Open Access Structure of human aspartyl aminopeptidase complexed with substrate analogue: insight into catalytic mechanism, substrate specificity and M18 peptidase family Apirat Chaikuad1, Ewa S Pilka1, Antonio De Riso2, Frank von Delft1, Kathryn L Kavanagh1, Catherine Vénien-Bryan2, Udo Oppermann1,3 and Wyatt W Yue1* Abstract Backround: Aspartyl aminopeptidase (DNPEP), with specificity towards an acidic amino acid at the N-terminus, is the only mammalian member among the poorly understood M18 peptidases. DNPEP has implicated roles in protein and peptide metabolism, as well as the renin-angiotensin system in blood pressure regulation. Despite previous enzyme and substrate characterization, structural details of DNPEP regarding ligand recognition and catalytic mechanism remain to be delineated. Results: The crystal structure of human DNPEP complexed with zinc and a substrate analogue aspartate-β- hydroxamate reveals a dodecameric machinery built by domain-swapped dimers, in agreement with electron microscopy data. A structural comparison with bacterial homologues identifies unifying catalytic features among the poorly understood M18 enzymes. The bound ligands in the active site also reveal the coordination mode of the binuclear zinc centre and a substrate specificity pocket for acidic amino acids. Conclusions: The DNPEP structure provides a molecular framework to understand its catalysis that is mediated by active site loop swapping, a mechanism likely adopted in other M18 and M42 metallopeptidases that form dodecameric complexes as a self-compartmentalization strategy. Small differences in the substrate binding pocket such as shape and positive charges, the latter conferred by a basic lysine residue, further provide the key to distinguishing substrate preference.
[Show full text]
A Critical Base Pair in K-Turns That Confers Folding Characteristics and Correlates with Biological Function
ARTICLE Received 16 Apr 2014 | Accepted 2 Sep 2014 | Published 29 Oct 2014 DOI: 10.1038/ncomms6127 OPEN A critical base pair in k-turns that confers folding characteristics and correlates with biological function Scott A. McPhee1, Lin Huang1 & David M.J. Lilley1 Kink turns (k-turns) are widespread elements in RNA that mediate tertiary contacts by kinking the helical axis. We have found that the ability of k-turns to undergo ion-induced folding is conferred by a single base pair that follows the conserved AG pairs, that is, the 3b3n position. A Watson–Crick pair leads to an inability to fold in metal ions alone, while 3n ¼ Gor3b¼ C (but not both) permits folding. Crystallographic study reveals two hydrated metal ions coordinated to O6 of G3n and G2n of Kt-7. Removal of either atom impairs Mg2 þ - induced folding in solution. While SAM-I riboswitches have 3b3n sequences that would predispose them to ion-induced folding, U4 snRNA are strongly biased to an inability to such folding. Thus riboswitch sequences allow folding to occur independently of protein binding, while U4 should remain unfolded until bound by protein. The empirical rules deduced for k-turn folding have strong predictive value. 1 Cancer Research UK Nucleic Acid Structure Research Group, MSI/WTB Complex, The University of Dundee, Dow Street, Dundee DD1 5EH, UK. Correspondence and requests for materials should be addressed to D.M.J.L. (email: [email protected]). NATURE COMMUNICATIONS | 5:5127 | DOI: 10.1038/ncomms6127 | www.nature.com/naturecommunications 1 & 2014 Macmillan Publishers Limited.
[Show full text]
Living Healthier for Longer Sharing Data Saves Lives
News from the Medical Research Council network Spring 2014 Leading science for better health MEASUREto How some MRC scientific workshops are making custom-made kit to enable pioneering research Living healthier for longer Supporting innovative ageing research through the Lifelong Health and Wellbeing initiative Sharing data saves lives Opinions from two MRC researchers Network can also be downloaded as a PDF at: www.mrc.ac.uk/network CONTENTS NEWS News COMMENT FROM £39.1m for improving data research 3 £39.1m for improving Science festival fun 4 John Let’s talk about dementia 7 data research Savill A £32m MRC investment, announced by Universities and Science the MRC Consortium for Medical Microbial Bioinformatics led by Minister David Willetts at the High Performance Computing and Warwick University, the Medical Bioinformatics partnership led People CHIEF EXECUTIVE Big Data Conference in London on 6 February, plus an additional by Imperial College London and University College London £7.1m, is the latest instalment of a £90m funding initiative to Partners which includes the Francis Crick Institute, will also Dr Jane Cope on the power of persuasion 9 In February, the Minister for tackle health and bioinformatics challenges for the advancement support career opportunities for computational scientists, Universities and Science David of medical research. technologists and programme leaders, enhancing the UK’s skills Willetts announced a £32m MRC in this area. investment into improving the UK’s Six major strategic awards will strengthen collaborative links, capability in, and capacity for, improve tools and infrastructure for researchers and support the Mr Willets said: “Making the most of large and complex data is a Latest discoveries medical bioinformatics.
[Show full text]
Evidence Synthesis on the EU-UK Relationship on Research and Innovation January 2018
Evidence synthesis on the EU-UK relationship on research and innovation January 2018 1. Introduction The Royal Society and the Wellcome Trust have undertaken a rapid evidence synthesis on the EU-UK research and innovation relationship as part of their Future Partnership Project. Organisations and individuals were invited to submit evidence and analyses for inclusion. Evidence was also gathered through internet searches to ensure an inclusive approach. The Annex is a summary of the methods. Two questions were used in gathering evidence and in determining the material in scope: 1. What incentives, infrastructure and mechanisms can be accessed by research and innovation organisations, funders and individuals in Member States to support collaborations? 2. How do Member States currently use and benefit from these and how might they be affected by Brexit? This paper is a synthesis of the evidence and covers funding, infrastructures, mobility, collaboration and regulation, with a focus on links between the EU and the UK. 2. Overview of the evidence base A few major reports were of particular relevance; the Royal Society’s three reports on the role of the EU in UK research and innovation and two reports commissioned from Technopolis Group by UK organisations, on the role of EU funding in UK research and innovation and the impact of collaboration: the value of UK medical research to EU science and health1,2. These documents were often referenced in other submissions. A report from the Lords Science and Technology Committee’s inquiry on EU Membership and UK Science also summarises many sources of evidence relevant to this synthesis.
[Show full text]
Common Acronyms Engineers SOE Society of Operations Engineers Licensed Members TWI the Welding Institute BCS the Chartered Institute for IT
SEE Society of Environmental Common Acronyms Engineers SOE Society of Operations Engineers Licensed Members TWI The Welding Institute BCS The Chartered Institute for IT BINDT British Institute of Non-Destructive Testing Professional Affiliates CIBSE Chartered Institution of Building ACostE Association of Cost Engineers Services Engineers APM Association for Project CIHT Chartered Institution of Highways Management and Transportation CABE Chartered Association of Building CIPHE Chartered Institute of Plumbing and Engineers Heating Engineering CQI Chartered Quality Institute CIWEM Chartered Institution of Water and IAEA Institute of Automotive Engineer Environmental Management Assessors EI Energy Institute IAT Institute of Asphalt Technology IAgrE Institution of Agricultural Engineers ICES Chartered Institution of Civil ICE Institution of Civil Engineers Engineering Surveyors IChemE Institution of Chemical Engineers ICorr Institute of Corrosion ICME Institute of Cast Metals Engineers ICT Institute of Concrete Technology IED Institution of Engineering IDE Institute of Demolition Engineers Designers IDGTE Institution of Diesel and Gas IET Institution of Engineering and Turbine Engineers Technology IExpE Institute of Explosives Engineers IFE Institution of Fire Engineers IMA Institute of Mathematics and its IGEM Institution of Gas Engineers and Applications Managers IMF Institute of Materials Finishing IHE Institute of Highway Engineers INCOSE UK International Council on Systems Engineering (UK Chapter) IHEEM Institute of Healthcare Engineering
[Show full text]
The Diamond Light Source
The Diamond Light Source ... a bright future for UK and World science Richard P. Walker, Technical Director What is Diamond ? • The largest scientific investment in the UK for 30 years • A synchrotron light source producing pinpoint UV and X-ray light beams of exceptional brightness • A ‘super microscope’ for new research opportunities into the structure and properties of matter What is Diamond ? • A Power Converter ! 15 MW of electrical power from the grid … 300-500 kW of X-rays … … but most of which only produces unwanted heat; only a fraction is selected for use in experiments. What is Synchrotron Radiation ? SR is electromagnetic radiation emitted when a high energy beam of charged particles (electrons) is deflected by a magnetic field. What’s so special about Synchrotron Radiation ? SR SR is emitted over a wide range of the electromagnetic spectrum, from Infra-red to hard X-rays Any desired radiation wavelength can be produced - enabling a very wide range of scientific and technological applications What’s so special about Synchrotron Radiation ? SR is very intense, and has extremely high brightness (emitted from a small area, with small angular divergence, determined by the properties of the electron beam) High brightness means: - it can be focused to sub-micron spot sizes: possibility of examining extremely small samples or investigating the structure and properties of objects with very fine spatial resolution - experiments can be carried out much more quickly: high through-put of samples or ability to follow chemical and biological reactions in real-time Diamond is a “third-generation” synchrotron radiation source • 1st generation: machines originally built for other purposes e.g.
[Show full text]
Wellcome Trust Annual Report and Financial Statements 2018 Is © the Wellcome Trust and Is Licensed Under Creative Commons Attribution 2.0 UK
Annual Report and Financial Statements 2018 Table of contents Report from Chair 3 Report from Director 4 Trustee’s Report 5 What we do 6 Review of Charitable Activities 7 Review of Investment Activities 18 Financial Review 28 Structure and Governance 33 Social Responsibility 38 Risk Management 40 Remuneration Report 42 Nomination Committee Report 44 Remuneration Committee Report 45 Investment Committee Report 46 Audit and Risk Committee Report 47 Independent Auditor’s Report 49 Financial Statements 59 Consolidated Statement of Financial Activities 60 Consolidated Balance Sheet 61 Statement of Financial Activities of the Trust 62 Balance Sheet of the Trust 63 Consolidated Cash Flow Statement 64 Notes to the Financial Statements 65 Reference and Administrative Details 116 2 Table of Contents Wellcome Trust Annual Report 2018 Report from Chair In March 2018, the Board of Governors and I year, driven by the performance of the investment decided to reappoint Jeremy Farrar as Director portfolio, which returned 13.4%, or 10.7% after of Wellcome for a further five years. Under his inflation. This year has seen a return of market leadership, Wellcome is ambitious, innovative and volatility as the economic cycle has matured. willing to take risks in pursuit of our mission of Central Banks, led by the US Federal Reserve, have improving health by helping great ideas to thrive. begun to raise interest rates and remove the prop to Wellcome’s work is underpinned by the financial asset prices previously provided by quantitative strength we derive from our £25.9 billion investment easing. Uncertainties about Brexit have generated portfolio.
[Show full text]
Royal Society, 1985
The Public Understanding of Science Report of a Royal Society adhoc Group endorsed by the Council of the Royal Society The Royal Society 6 Carlton House Terrace London SWlY 5AG CONTENTS Page Preface 5 Summary 6 1. Introduction 7 2. Why it matters 9 3. The present position 12 4. Formal education 17 5. The mass media 2 1 6. ' The scientific community 24 7. Public lectures, children's activities, museums and libraries 27 8. Industry 29 9. Conclusions and recommendations 31 Annexes A. List of those submitting evidence B. Visits and seminars C. Selected bibliography PREFACE This report was prepared by an ad hoc group under the chairmanship of Dr W.F. Bodmer, F.R.S.; it has been endorsed by the Council of the Royal Society. It deals with an issue that is important not only, or even mainly, for the scientific community but also for the nation as a whole and for each individual within it. More than ever, people need some understanding of science, whether they are involved in decision-making at a national or local level, in managing industrial companies, in skilled or semi-skilled employment, in voting as private citizens or in making a wide range of personal decisions. In publishing this report the Council hopes that it will highlight this need for an overall awareness of the nature of science and, more particularly, of the way that science and technology pervade modern life, and that it will generate both debate and decisions on how best they can be fostered. The report makes a number of recommendations.
[Show full text]
Wellcome Trust Annual Report and Financial Statements 2019 Is © the Wellcome Trust and Is Licensed Under Creative Commons Attribution 2.0 UK
Annual Report and Financial Statements 2019 Table of contents Report from Chair 3 Report from Director 5 Trustee’s Report 7 What we do 8 Review of Charitable Activities 9 Review of Investment Activities 21 Financial Review 31 Structure and Governance 36 Social Responsibility 40 Risk Management 42 Remuneration Report 44 Remuneration Committee Report 46 Nomination Committee Report 47 Investment Committee Report 48 Audit and Risk Committee Report 49 Independent Auditor’s Report 52 Financial Statements 61 Consolidated Statement of Financial Activities 62 Consolidated Balance Sheet 63 Statement of Financial Activities of the Trust 64 Balance Sheet of the Trust 65 Consolidated Cash Flow Statement 66 Notes to the Financial Statements 67 Alternative Performance Measures and Key Performance Indicators 114 Glossary of Terms 115 Reference and Administrative Details 116 Table of Contents Wellcome Trust Annual Report 2019 | 2 Report from Chair During my tenure at Wellcome, which ends in The macro environment is increasingly challenging, 2020, I count myself lucky to have had the which has created volatility in financial markets. opportunity to meet inspiring people from a rich Q4 2018 was a very difficult quarter, but the diversity of sectors, backgrounds, specialisms resumption of interest rate cuts by the US Federal and scientific fields. Reserve underpinned another year of gains for our portfolio. We recognise that the cycle is extended, Wellcome’s achievements belong to the people and that the portfolio is likely to face more who work here and to the people we fund – it is challenging times ahead. a partnership that continues to grow stronger, more influential and more ambitious, spurred by The team is working hard to ensure that our independence.
[Show full text]