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Chemical biology symposium

15 May 2023, London, United Kingdom


Introduction
This symposium will showcase the state of the art in chemical biology, bringing together the wider community with leading national and international experts in the field. The event covers cutting edge topics in chemical biology and highlight the wider scope and impact of the field. Additional aims of the event are to stimulate research collaboration, networking and engagement within the chemical biology community, as well as with those in related disciplines.
 
This event will include a poster session, providing an opportunity for early career researchers to share and discuss their recent research advances and to network with others delegates. Abstracts are welcomed from PhD students who are in their final year of study (at the time of submission), postdoctoral researchers and early career academics.

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Speakers
Marius Clore, National Institutes of Health, Bethesda, United States

Dr Clore's research focuses on the development and application of nuclear magnetic resonance (NMR) to study the structure and dynamics of biological macromolecules and their complexes in solution. He is particularly interested in exploring fundamental questions associated with protein dynamics and macromolecular interactions.

His research group is using NMR to detect and characterise short-lived, sparsely-populated states of macromolecules. Many important biological processes proceed through transient intermediate states that comprise only a fraction of the overall population of a molecular system. As a result, they are invisible (i.e. 'dark') to conventional biophysical techniques (including crystallography, cryo-electron microscopy and single molecule spectroscopies). The group's research provides new insights into macromolecular recognition and assembly, and the effect of the invisible 'dark' state on some NMR observables so that its footprint is readily observed in measurements on the NMR visible species.

His work on amyloid-β, huntingtin and Hsp40 has implications for the treatment of a range of neurodegenerative diseases associated with protein aggregation and amyloid formation.

Marius Clore is a NIH Distinguished Investigator, a Member of the US National Academy of Sciences and a Fellow of the Royal Society. He has won numerous awards including the RSC Centenary and Khorana Prizes, and the Biochemical Society Centenary Award.


Claire Eyers, University of Liverpool, United Kingdom

Professor Eyers’ team use analytical chemistry strategies, specifically based around a technique called mass spectrometry, to explore the protein components of cells and tissues.

Mass spectrometry is a sophisticated strategy for determining mass, which the team use to work out the amount and sequence of proteins from biological, environmental or clinical samples. They develop different ways of using this technique to understand how biological systems respond to their environment or change as a result of disease. By defining changes in cellular protein profile under different conditions, the team can devise strategies to exploit these for therapeutic intervention, to develop hypotheses to understand biological drivers, or to use as markers of disease.


Emily Flashman, University of Oxford, United Kingdom

Professor Flashman’s team look at the role of enzymes in plant and humans in response to reduced oxygen availability. The team explores how the structure and mechanism of these enzymes helps them control their rate of reaction with oxygen and therefore their ability to act as good oxygen sensors. In both humans and plants, these oxygen-sensing enzymes take oxygen from the atmosphere and transfer the oxygen atoms onto specific target proteins. This acts as a signal for the target proteins to be degraded by the cell. If oxygen levels reduce, the rate of enzyme activity decreases and the target proteins are stabilised.

 

The consequence of this stabilisation is that cells adapt to the reduced oxygen availability, for example by switching to anaerobic metabolism. This system has been known for some time in humans, and inhibitors of the oxygen-sensing enzymes has led to treatments for anaemia. Excitingly, finding inhibitors for plant oxygen-sensing enzymes or engineering changes to their structure and mechanism could slow their activity and help plants survive flooded (low oxygen) conditions for longer. This will be important in generating crops that are more tolerant of stresses associated with climate change.


Kai Johnsson, Max Planck Institute for Medical Research, Germany

Kai Johnsson is Director of the Department of Chemical Biology at the Max Planck Institute (MPI) for Medical Research, and Professor at the Institute of Chemical Sciences and Engineering of the École Polytechnique Fédérale de Lausanne (EPFL). His current research interests focus on the development of chemical approaches to visualize and manipulate biochemical activities in living cells. In the past he has introduced a number of widely used research tools and used these tools to make biological discoveries. He introduced methods to specifically label proteins in living cells (i.e. SNAP-tag and CLIP-tag), developed new fluorescent probes and sensors, and conducted studies on the mechanism of action of drugs and drug candidates.
Kai Johnsson obtained his Diploma and PhD from the ETH Zürich in Switzerland. He joined the faculty of EPFL in 1999 and in 2017 became Director at the MPI for Medical Research. Kai Johnsson was Associate Editor of ACS Chemical Biology from 2005 to 2010 and since 2021 Executive Editor of the Journal of the American Chemical Society. He is member of the Editorial Advisory Board of Science and was member of the Research Council of the Swiss National Science Foundation from 2011-17. He received the Prix APLE for the invention of the year 2003 of EPFL, the Novartis Lectureship Award 2012/13, the Karl-Heinz Beckurts Prize 2016 and is elected member of EMBO.


Mauro Maccarrone, University of L'Aquila, Italy

Dr. Enzymology and Bio-Organic 91AV, is Professor and Chair of Biochemistry at the Department of Biotechnological and Applied Clinical Sciences, University of L’Aquila (Italy). He is also Head of the Lipid Neurochemistry Unit at the European Center for Brain Research – IRCCS Santa Lucia Foundation, Rome. 

Published numerous highly cited full papers (citations = 22442, h-index = 79 according to Scopus). Invited speaker at more than 110 international congresses, Guest Editor of 16 theme-issues of scientific journals (including Drug Discovery Vol. 76 (2021) by RSC), holder of 9 granted patents. 

President of the International Cannabinoid Research Society (ICRS) in 2010-2011. Chair of the 2015 Gordon Research Conference on “Cannabinoid Function in the CNS”. Visiting Professor at University of Cambridge in 2017.

Received various international awards, including the “2016 Mechoulam Award” for cannabinoid research and the “2020 Tu Youyou Award” for medicinal chemistry.

Included by Stanford University in the “2022 World Top 2% Scientists’ List”, and listed among the “Top Italian Scientists”.


Lydia Meyer-Turkson, Former Sr Director Transactions J&J, United States

Lydia Meyer-Turkson is the Global Early Innovation Partnering Leader for Oncology working out of the Boston Innovation Center.
In her role, Lydia serves as the key point of contact for the oncology therapeutic area for interactions with the Janssen R&D (JRD) leadership to ensure external innovation opportunities are centrally coordinated and strategically aligned with business priorities. Lydia joined Johnson & Johnson Innovation in January 2022 from Inari Agriculture Inc, a Flagship Ventures company. In her prior role as Vice President of Business Development at Inari, she developed, led and executed the company’s partnering strategy for its gene editing and deep learning technologies in human therapeutics. She worked closely with the Leadership Team, External Innovation, Legal and Patent colleagues to define opportunities aligned to strategic goals and build the business case for partnering. Lydia brings 20 years of broad ranging business development experience working with R & D teams commercializing platform technologies across a range of in and outlicensing transactions, M&A and research collaborations in oncology and rare disease drug discovery, biomarkers and diagnostics. She has worked in the UK, Europe and US with CEO and Executive teams in roles at Horizon Discovery plc (aquired by Perkin Elmer), Evotec GmbH and Epistem plc helping lead business growth. Lydia earned her M.Phil (Masters) in 91AV at Cardiff University and MBA at Manchester Business School, UK and is a Fellow of the 91AV and member of the Integrated 91AV- Biology Research Committee there. Lydia is passionate about socioeconomic diversity and inclusion and has undertaken volunteer roles as reviewer for the L’Oréal Women in Science Awards Committee for Sub-Saharan Africa and the Women in Cancer Research AACR Scholarship Awards Committee.



Abstract Submission
Posters will be displayed throughout the meeting in-person only.

Additional Information

Authors will be notified of the outcome of the review process within about 4 weeks of the submission deadline. The abstracts should be no longer than one A4 page in portrait layout. Please ensure you provide the details of the presenting author and indicate whether you are submitting an abstract for oral or poster presentation.
Registration

In-person registration includes:

  • Attendance at all scientific sessions
  • Attendance at the poster session
  • Refreshments throughout the meeting and lunch
  • Attendance at the drinks reception
  • Access to recordings of all scientific sessions post-event
In-person registration fees are as follows (subject to VAT at the prevailing rate):
Early bird Standard
Member £63.00 £73.50
Non-member £73.50 £84.00
Student member £42.00 £52.50
Student non-member £52.50 £63.00
Accommpanying person £40.00 £40.00


Virtual registration Գܻ:​
  • Attendance at all scientific sessions via the 91AV’s virtual conference platform
  • Live interaction with delegates attending in-person and other virtual delegates
  • Access to the virtual exhibitor/sponsor rooms
  • Access to recordings of all scientific sessions post-event

Virtual registration fees are as follows (subject to VAT at the prevailing rate):

Standard
Member £26.25
Non-member £36.75
Student member £10.50
Student non-member £15.75


Planning your trip

We encourage delegates who are planning to attend events in person to arrange suitable travel and accommodation insurance, which should include cover for the postponement or cancellation of travel caused by regulations and guidelines relating to Covid-19. We also recommend considering flexible travel and accommodation booking options where possible.

Accessibility

The 91AV is keen to encourage and enable as many people as possible to attend our events, to benefit from the networking opportunities and the chance to hear talks from leaders in the field. If you would like to discuss accessibility, please contact us to discuss your requirements so that we can enable your attendance.

Terms and Conditions for Events run by the 91AV

Bursaries

Researcher development grants

If you are an RSC member and a PhD student or postdoctoral researcher based at a higher education or research institution you are eligible to apply for a Researcher development grant.

This grant can provide up to £500 towards activities that will develop your skills and experience as a researcher, which includes participation at conferences, either in-person or virtual.

Applications are processed monthly, with the deadline for each round being the last day of the month, and decisions being sent out by the 21st of the following month. Researcher development grants can be applied for in addition to Grants for carers and Assistance grants.

Grants for carers

Grants for carers have been introduced following the 91AV Breaking the barriers report where 78% of chemists working in UK academia felt that managing parenting and/or caring responsibilities has an impact on women’s retention and progression. This fund is not limited to women scientists and welcomes applications from anyone with caring responsibilities. These grants have been supported by The 91AV’s Chemists’ Community Fund.

You can apply for up to a maximum of £1000/year to assist with additional financial costs that you incur for care usually provided by you whilst you attend a chemistry related meeting, conference or workshop or a professional development event.

Caring responsibilities are wide and varied, and so each application will be individually assessed, examples of applications that we will consider include:
  • paying for extra home help or nursing care for a dependent whilst you will not be present
  • additional medical/respite care for a dependent whilst you will not be present
  • travel expenses for a relative to travel with you to care for dependents whilst you attend a meeting or event
  • paying for extended hours with a care worker/childminder/play scheme to cover time when you will arrive home later than normal.
You are eligible to apply if: 
  • you are a chemist
  • you will incur additional caring expenses whilst attending a chemistry-related meeting, conference, event or workshop or a professional development event
  • you will use these funds to cover the cost of care that you usually provide 
  • you are based in the UK or Ireland or if not, you will normally have held three years RSC membership (past or current).
Sponsorship & supporting organisations
A selection of sponsorship opportunities are available for companies who would like to promote their activities at the Chemical biology symposium.

As well as booking a exhibition space, there are opportunities to sponsor poster sessions or advertise in the abstract book. A sponsorship menu document will be available to download from this page with more details and prices soon.

If you would like more information about sponsoring the Chemical biology symposium, please contact the Commercial Sales Department at the 91AV on advertising@rsc.org
Venue
The 91AV

The 91AV, Burlington House, Piccadilly, London, W1J 0BA, United Kingdom


The Burlington House (Royal Academy) courtyard is located on the north side of Piccadilly, directly across the street from Fortnum and Mason. The 91AV is located on the right hand side of the Burlington House courtyard.

Travel

By underground: The nearest stations are Green Park or Piccadilly Circus; both are a 5-minute walk to the venue. If you use Green Park please leave via Piccadilly Northside and look for the Royal Academy entrance, turn left out of the station, you will see the red flags of Burlington House ahead of you.

By train: London Kings Cross, London Liverpool Street or London Victoria train stations are the most accessible and then require a short tube journey to the venue You can take either the Piccadilly or Victoria line to Green Park or Piccadilly tube stations and only the Victoria line to Green Park from Victoria station

By coach: National Express operates a comprehensive coach service to most parts of the country from Victoria Coach Station, 164 Buckingham Palace Road, Sw1W 9TP
National Express coaches: www.nationalexpress.com
Megabus low-cost coach tickets: http://uk.megabus.com

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