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National projects

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1.03 Natural sciences and mathematics / Biology
1.04 Natural Sciences and mathematics/Chemistry
1.04.02 Natural sciences and mathematics / Chemistry / Structural chemistry
1.05 Natural sciences and mathematics/Biochemistry and molecular biology
1.07. Natural sciences and mathematics / Computer intensive methods and applications
1.09 Pharmacy
1-09 Natural sciences and Mathematics - Pharmacy
2.04 Ingeeniring Sciences Technologies / Material Science and Technology
2.05.02 Engineering sciences and technologies/Mechanics/Experimental mechanics
2.06 Engineering sciences and technologies / Systems and cybernetics
2.13 Engineering sciences and technologies / Process engineering
3.00 Medical Sciences
3.01 Medical sciences/ Microbiology and immunology
3.03 Medical sciences/ Neurobiology
3.04 Medical Sciences/Oncology
3.05 Medical sciences / Human reproduction
3.06 Medical sciences / Cardiovascular system
3.07 Medical sciences/Metabolic and hormonal disorders
3.08 Medical Sciences / Public Healt
3.08 Medical Sciences / Public Health
4.00 Biotechnical Sciences
4.01.02 Biotechnical sciences / Forestry, wood and paper technology / Wood technology
4.03 Biotechnical sciences / Plant production
4.04.03 Biotechnical sciences / Veterinarian medicine / Therapy and health prevention of animals
4.06 Biotehniške vede
4.06 Biotechnical sciences / Biotechnology
4.06.01 Biotechnical sciences-Biotechnology-Recombinant DNA technology
4.06.02 Biotechnical sciences / Biotechnology / Bio-engineering
4.06.04 Biotechnical sciences/Biotechnology/Microbe biotechnology

Range:

Protein interaction atlas for prediction of genetic variations involved in drug interactions and disease development

Computer intensive methods and applications is extremely propulsive area of scientific research in which the use of supercomputers and computer clusters is used to solve the most demanding computational problems in theoretical and applied research in natural and technical sciences. We deal with solving of various types of problems, such as, structure and dynamics of...

01. July 2019 - 06. January 2022 | 1.07. Natural sciences and mathematics / Computer intensive methods and applications

ProBiS-Fold approach for binding site detection for whole structural human proteome in drug discovery

The ProBiS-Fold approach, on which the ProBiS-Fold web server is based, will enable for the first-time interactions between most human protein structures not limited to the Protein Data Base structures only, prediction of selectivity and ligand binding, and observation of conserved water effects and ligand binding sequence variants. This work will provide the scient...

01. October 2022 - 30. September 2025 | 1.07. Natural sciences and mathematics / Computer intensive methods and applications