The BioS Priority Research Area – structural and translational biology is one of seven areas identified at the Jagiellonian University in connection with the implementation of the Excellence Initiative – Research University program.

BioS PRA Members

The BioS PRA has brought together five units of the Jagiellonian University:

• Faculty of Biochemistry, Biophysics and Biotechnology (FBBB)
• Faculty of Biology (FB)
• Małopolska Centre of Biotechnology (MCB)
• Jagiellonian Centre for Experimental Therapeutics (JCET)
• SOLARIS National Synchrotron Radiation Centre (Solaris)

Research fields

The grant awarded to the BioS PRA and the activities undertaken by the PRA’s members are aimed at achieving a high level of internationally recognisable research in the fields indicated below.
 
1. STRUCTURAL BIOLOGY
 Research field scope: Structural biology focuses on research aimed at understanding the spatial structure of organic and inorganic molecules important in biology, as well as their dynamics and interactions. It also studies molecules produced by humans from elements similar to biological molecules. Given the diversity and complexity of the research problems in this area, it is important to use a variety of techniques to obtain information in high (for example, cryo-EM microscopy) and low resolution or to apply indirect inference based on all relevant techniques used in biology, chemistry, physics, and related sciences, as well as computational methods. Since these research techniques are complementary, a hybrid approach is justified, which consists in inferring about the system under analysis based on results obtained using several techniques. 

2. OMICS & BIOINFORMATICS
Research field scope: Technological development in the area of ‘omic’ research (such as genomics, proteomics, transcriptomics, metabolomics, lipidomics) and bioinformatics has opened up new opportunities for biologists working in a vast field, both in basic research and research with application potential. It is also an excellent example of synergy resulting from interdisciplinary collaboration between geneticists and specialists in computational biology. Big data combined with machine learning methods make it possible to identify genotypic and phenotypic characteristics, and this, in turn, creates opportunities for the development of personalised medicine and the improvement of the quality of life.

3. CELL, SYSTEMS AND TRANSLATIONAL BIOLOGY
Research field scope: Research at the level of plant and animal cells, including, among others, studying the physiological, pathological and therapeutic mechanisms. In particular, research into cellular processes, cell-to-cell interactions, and cell/organism responses to environmental factors, using model organisms, as well as research into chemical imaging in tissues and cells, and translational biology. 

4. EVOLUTIONARY BIOLOGY AND BIODIVERSITY RESEARCH
Research field scope: The study of evolutionary processes and processes shaping global and local biodiversity patterns. Apart from its cognitive importance, such research provides the basis for developing strategies to minimise the impact of anthropogenic factors on biodiversity and the functioning of ecosystems and the whole biosphere.

5. BIOLOGY OF CONFLICT AND COOPERATION 
Research field scope: Understanding the relations between organisms in systems with different types of interactions, especially antagonistic (e.g. pathogen-host) and symbiotic (e.g. microbiome-host, mycorrhiza). Experimental research and theoretical modelling of the mechanisms of infection, defence and tolerance and their evolution. (Pato)physiological consequences of interactions.