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9th International Conference on Structural Biology, will be organized around the theme “Lets Gear the Future with Structural Biology”
Structural Biology 2017 is comprised of 15 tracks and 81 sessions designed to offer comprehensive sessions that address current issues in Structural Biology 2017.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
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Biomolecules are very small to see in detail even by most cutting-edge light microscopes. The methods that the structural biologists use to determine their structures in general involve the measurements on huge numbers of identical molecules at the same time. Some of the best methods include X-ray crystallography, Cryo-Electron Microscopy and Nuclear Magnetic Resonance. Very often scientists use them to study the "native states" of biomolecules.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 1-1X-ray crystallography
- Track 1-2Nuclear magnetic resonance
- Track 1-3Cryo-electron microscopy
- Track 1-4Mass spectroscopy
- Track 1-5Single particle analysis
- Track 1-6Structural genomics
- Track 1-7Structural virology
- Track 1-8Structural pathology
- Track 1-9Structural bacteriology
Computational approaches are a boon for structural biology. In general the structure of molecules is determined by experimental methods is both time intense and cost effective. To overcome these constraints, computational approaches like ab-initio modelling, homology modeling and threading method are used.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 2-1Structural bioinformatics and computational biology
- Track 2-2Homolgy modeling
- Track 2-3Ab-initio method
- Track 2-4Threading
Structural bioinformatics is an exceptionally cost effective solution for protein structure determination. Purely computational prediction methods, like ab initio fragment assembly, advanced fold recognition, composite approaches, and molecular docking are regularly applied today to extend our understanding of protein structures. However, predicted structures are not given the same reliance as their experimental complements. Hybrid approaches are a means to overcome these limitations; by incorporating limited experimental measurements, reliable structures can be computed and unlikely predictions eliminated. Hybrid approaches take advantage of data derived from a wide range of different biophysical and biochemical methods. These methods are of growing interest in current researches of structural biology.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 3-1Hybrid of experimental methods
- Track 3-2Hybrid of computational methods
- Track 3-3Hybrid of experimental and computational methods
Single molecule anaysis enables to better understand the physical basis of life by studying the individual molecules that comprise living cells. With a clearer understanding of the individual components that comprise integrated living systems, researchers are better able to grasp the many complex interactions between gene products or molecules that cause disease.
- Track 4-1Single molecule biophysics
- Track 4-2Folding
- Track 4-3Channels and transporters
- Track 4-4Enzyme catalysis
Structural bioinformatics deals with the analysis and prediction of the three-dimensional structure of macromolecules such as proteins, RNA, and DNA. It deals with generalizations about macromolecular 3D structure such as comparisons of overall folds and local motifs, principles of molecular folding, evolution, and binding interactions, and structure/function relationships, working both from experimentally solved structures and from computational models. On the other hand structural proteomics concentrates on the analysis of protein structures at large-scale. It compares protein structures and helps identify functions of newly discovered genes. The structural analysis also helps to understand that where drugs bind to proteins and also show where proteins interact with each other. This understanding is achieved using different technologies such as X-ray crystallography and NMR spectroscopy.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 5-1Algorithms
- Track 5-2Software
- Track 5-3Databases
- Track 5-4Tools
Structural molecular biology comprehends the areas of science devoted to a detailed understanding of the fundamental molecular and biochemical components of living systems and of how these components interact in an organism. Such understanding finds application in numerous areas including basic biotechnology, diagnostics and forensics, and drug discovery.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 6-1Chemical Biology
- Track 6-2Protein behaviour
- Track 6-3Macromolecular interaction
- Track 6-4Protein function
Viruses display a wide diversity of shapes and sizes, called morphologies. In general, viruses are much smaller than bacteria. Even though individually viruses are rather simple, as a group they are exceptionally diverse in both replication strategies and structures. Many viruses are important human pathogens.
Techniques such as x-ray crystallography, NMR and cryo-EM are used to determine viral structures. These structure in-turn are used to develop anti-viral drugs and vaccines.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 7-1X-ray crystallography
- Track 7-2Solution NMR spectroscopy
- Track 7-3Cryo-electron tomography
Sequencing meets structural biology is a dedicated track to show how the recently developed methods are used to determine the structure of molecules. This approach proves itself helpful in a more efficient way. Synergistic use of three-dimensional structures and deep sequencing is done to realize the effect of personalized medicine.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 8-1Next generation sequencing
- Track 8-2Deep sequencing for protein structure determination
- Track 8-3Sequencing for cancer studies
- Track 8-4Advances in sequencing
Regulation of gene expression comprises a comprehensive range of mechanisms that are used by cells to regulate the production of specific gene products, and is familiarly termed as gene regulation. Sophisticated programs of gene expression are extensively observed in biology, for example to trigger developmental pathways, adapt to new food sources, or respond to environmental stimuli. Essentially any step of gene expression can be modulated, from transcription initiation to post translation modification of a protein.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 9-1Analysis of gene expression
- Track 9-2Protein structure and cell signalling
- Track 9-3Ion channel and enzyme linked protein receptors
- Track 9-4GPCRs-structure and function
- Track 9-5Computational studies of GPCRs
- Track 9-6GPCR drug discovery
- Track 9-7Targetting signalling networks
- Track 9-8Signalling networks and cancer
Molecular modelling and simulation embraces all the hypothetical methods and computational procedures used to mimic the behaviour of macromolecules. These techniques are used in diverse fields of drug design,computational chemistry, materials science and computational biology for studying macromolecular systems ranging from small to large biological systems. Simplest calculations can be achieved by hand, but certainly computers are essential to perform molecular modelling of reasonably sized system. Molecular simulation on the other hand uses powerful computers to simulate the interactions between atoms and to understand the properties of materials. Such simulations involve methods that range from very detailed quantum mechanical calculations on atoms to coarse-grained classical dynamics of large groups of molecules on a timescale of milliseconds or longer.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 10-1Molecular mechanics
- Track 10-2Molecular and structural dynamics
- Track 10-3Single molecule biophysics and structural biology
- Track 10-4Monte Carlo simulations
- Track 10-5Molecular docking
- Track 10-6Quantum mechanical and semi-empirical calculations
Drug design is also referred as rational drug design. It is an inventive process to find new medication centred on the knowledge of biological target. Drug is most commonly a small molecule that inhibits or activates the function of a biomolecule, which in turn outcomes in a therapeutic benefit to the patient. Drug design commonly but not essentially relies on computational techniques. This type of modelling is often mentioned to as computer-aided drug design. Drug design that depends on the knowledge of the 3D structure of the target is known as structure-based drug design. The main methods available for drug design are structure based drug design and ligand based drug design.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 11-1Structure based drug design
- Track 11-2Ligand based drug design
- Track 11-3Drug interactions
- Track 11-4Virtual screening and drug design
- Track 11-5Computational biology of drug target identification and validation
- Track 11-6Nanomedicine
The main focus of a structural biologist is protein structure determination and drug design. Protein plays an important role in human body. Living things would not exist without proteins. Proteins are involved in all aspects of living things. Several proteins provide structure to cells; others tend bind to and carry vital molecules all through the body. Some proteins are involved in biochemical reactions in the body which are termed as enzymes. Others are involved in muscle contractions and immunity. Structure determination of proteins has always been a challenging filed. The complex areas in the field include viruses, pathogens, membrane proteins and signalling pathways. Novel progressions are being done in the arenas of nanopatternig and multi scale modelling ofcell signalling proteins.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 12-1Macromolecular machinery
- Track 12-2Membrane proteins
- Track 12-3Pathogens and viruses
- Track 12-4Nanopatterning
- Track 12-5Multiscale modeling for signalling proteins
Major part of research is being carried out in the area of cancer. The main aim is to design and discover novel and effective drugs to cure the disease. Structural biology combined with molecular modelling mainly aims atdrug designing. Subsequently, numerous team leaders in Structural biology carry out cancer research to accelerate the exploitation of molecular understanding of biomolecules in the advancement of novel cancer therapies.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 13-1Antibiotic resistance
- Track 13-2Structure biology of oncogenic drug targets
- Track 13-3Molecular chaperones as cancer drug targets
- Track 13-4Towards drug discovery
- Track 13-5Cancer diagnostics market
Structural biology aims at understanding biomolecules at atomic level. All most all aspects in structural biology research seem to be complex. Researchers have been proven to be successful in solving many of the complexities like determination of protein structures, functional annotations and drug designing. Though structures of proteins are solved on a huge scale, the gap between available sequence data and structure data is enormous. Bridging this gap is one of the main challenges. In the current research, some of the most complex areas are protein folding, catching the complication of dynamic nanomachines and signalling networks, understanding the intrinsically disordered proteins.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 14-1Targeting intrinsically disordered proteins (IDPs)
- Track 14-2Catching the complexity of dynamic nanomachines
- Track 14-3Bridging the gap between sequence data and structure data
- Track 14-4Networks of signalling
- Track 14-5Protein folding dynamics
Structural biology is one of the expanding fields. In the course of time many advances have taken place. Huge number of solved structures has amplified rapidly. The field of drug design and drug discovery has been advanced. Functional annotations are another field where progressions are being seen. Alterations in order to improve the effectiveness of prevailing tools can also be noted. Remarkable advances can be seen in the areas of imaging technologies and advancement of hybrid methods to understand the structure and function of proteins.
Relevant Conferences
International Conference on Biochemistry, October 10-12, 2016 Kuala Lumpur, Malaysia, USA; 7th InternationalConference on Proteomics, October 24-26, 2016 Rome, Italy; 3rd International Conference on Big Data Analysis and Data Mining, September 26-28, 2016 London, UK; 5th International Conference on Computational Systems Biology, August 22-23, 2016 Philadelphia, USA; International Conference on Nucleic Acids August 04-06, 2016 Seattle, USA; 253rd ACS National Meeting, April 02-06, 2017 San Francisco, USA; Conference on Membrane Transport Proteins, June 12-17, 2016 Lucca, Italy; Conference on Protein Folding Dynamics, January 10-15, 2016 Galveston, USA; 9th International Workshop on X-ray Radiation Damage to Biological Crystalline Samples, March 09-11 2016 Lund, Sweden; Biophysical Society’s 60th Annual Meeting, February 27-March 02 2016 Los Angeles, USA; 15th European Conference on Computational Biology, September 03-07 2016 The Hague, Netherlands; The 31st Symposium of The Protein Society, July 24-27, 2017 Montreal, Canada.
- Track 15-1Technological advances in existing methods
- Track 15-2New and potentially disruptive technologies
- Track 15-3Advances in structure determination
- Track 15-4Advances in drug design
- Track 15-5Advances in tool development
- Track 15-6Advances in imaging technologies