SwedNESS PhD school: Neutrons in Life Science and Biomaterials

Europe/Stockholm
on Zoom

on Zoom

Description

LINXS, on behalf of SwedNess, will be hosting a course on Neutrons in Life Science and Biomaterials.

Time: 14-18 juni 2021
Place: Zoom
Course leaders: Tommy Nylander, LU and Trevor Forsyth, ILL
Credits:  3 hp
Grade Scale: Pass/Fail
Eligibility & Prerequisites: PhD students within SwedNess + other PhD students and Postdocs. Maximal number of participants 30. Students will be expected to have a laptop computer sufficient for the analysis and modeling. These practicals will be adapted to be possible on “standard” laptops. Literature will be distributed 2 weeks before course start at the latest.

Motivation letter: After the deadline for registration, the organizing group will decide which applicants are accepted for the school. The selection will be based on the applicants’ letter of motivation (maximum half an A4) that must be included in the registration. The motivation letter should declare the applicants’ research focus and what they want and expect to gain from this PhD school.

Course goals:
·      Orientation of the common classes of biomolecules, how the interact and assembly into organelles, cells and tissue
·      Orientation of the main neutron techniques to reveal structure and dynamics in life science
·      The toolbox for data evaluation
·      Useful complementary techniques
·      How to write a successful neutron beam time application.

Schedule: 2x2h lectures & discussions before lunch, exercises and presentation of own project in the afternoon.
Extent: 5 days full time  + 1 week of writing case study
Examination: literature report, presentation of own research, neutron beam time proposal and hand-in of case study
Teachers: To be confirmed 

Application deadline: June 7 

COURSE DESCRIPTION

The aim of the course is to expose SwedNESS students to state-of-the-art neutron methodology in Life Science, and to provide a widened knowledge and experience basis for using biomaterials in their own research as a basis for building functional hypotheses. Examples of how neutron methods in Life Science can be used to increased functional understanding and develop novel concepts will be given by internationally recognised expertise. Theory and examples of best-practice will be presented within the following areas: Proteins, Lipids, Carbohydrates, Structure and dynamics, Cells and surfaces, and Industrial applications. Exercises will include both hands-on evaluation of real neutron data in-silico as well as literature studies and beam time proposal writing. The aim of the course is to prepare for active use of neutrons in own research projects as well as to develop neutron experiments and methodology for other life science application in general, including biomaterials and biomedical applications like drug delivery.   

PROPOSED SCHEDULE (TEACHERS TO BE CONFIRMED)

Day 1: Proteins
1.     Protein properties: prerequisites for neutron study
2.     Protein crystallization
3.     Labelling for neutron studies
4.     Biophysical pre-analysis before neutron studies

Startup: Literature club
Startup: Neutron beam time proposal in Life Science 

Day 2: Structure and dynamics
1.     Fiber diffraction, structure determination
2.     Dynamics
3.     Small-angle neutron scattering
4.     Modelling and molecular simulations  

Computer lab sessions working with real data

Day 3: Biomolecules Lipids, carbohydrates, biopolymers
1.     Carbohydrates
2.     Lipids and lipid self-assembly
3.     The crowded environment
4.     Glycosylation, lectins and molecular recognition

Computer lab sessions working with real data

Day 4: Cells and surfaces
1.     Cell surfaces and membrane mimics
2.     Vesicles, bilayers and nano domains
3.     Lipolytic enzymes, lipid deutereration
4.     Membrane proteins  

Computer lab sessions working with real data

Day 5: Biomedical applications
1.     Lipid nanoparticles for mRNA delivery Marianna Yanez 
2.     Imaging in life science
3.     The air-liquid interface and pharmaceutical applications

Preliminary list of lecturers

Dr. Frank Gabel, Institut de Biologie Structurale (IBS), Grenoble, France
Dr. Esko Oksanen, European Spallation Source ERIC, Lund, Sweden
Dr. Victoria Garcia Sakai, ISIS, STFC, Rutherford Appleton Laboratory, Harwell, Oxfordshire, UK.
Dr. Susana C. M. Teixeira, NIST Centre for Neutron Research, Gaithersburg, MD, USA
Professor Trevor Forsyth, Institut Laue Langevin/Keele University, Grenoble, France
Dr. Marta Martinez Sanz, CIAL-CSIC, Madrid, Spain
Dr Hanna Barriga, Karolinska Institutet (KI), Stockholm, Sweden
Professor Anthony Watts, University of Oxford, UK
Professor Anna Stradner, Lund University, Sweden
Dr. John Katsaras, Oak Ridge National Laboratory, TN, USA
Dr. Anne Imberty, CNRS, Unversité Grenoble Alpes, Grenoble, France
Dr. Hanna Wacklin-Knecht, European Spallation Source ERIC, Lund, Sweden
Dr. Marianna Yanez Arteta, AstraZeneca, Molndal, Sweden
Dr. Richard Campbell, University of Manchester, UK
Professor Motomu Tanaka, University of Heidelberg/Kyoto University, Germany/Japan
Professor Sara Snogerup Linse, Lund University
Dr. Sophie Le Cann, Paris, France
Prof. Ilpo Vattulainen, Helsinki, Finland

CONTACTS

Course leader Tommy Nylander
Co-arranged with Trevor Forsyth and Selma Maric

Hosted by LINXS (contact: Åsa Grunning)

 

During our events we sometimes take photographs and short film clips to profile our activities. Please let us know if you don’t want to be in any photos/films before we start the event. Some of the talks might be recorded to be used for educational purposes in the LINXS website.

By registering to our events you give your permission to LINXS, according to the General Data Protection Regulation (GDPR), to register your name and e-mail address to be used for the sole purpose of distributing newsletters and communications on LINXS activities.

For practical questions, please contact:
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