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The Ninth International Conference on Bioinformatics, Biocomputational Systems and Biotechnologies

BIOTECHNO 2017
May 21 - 25, 2017 - Barcelona, Spain


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Details:

  • Colocated with other events part of BioSciencesWorld 2017
  • Featuring the symposium:
  • Posters will be presented during the conference
  • A Work in Progress track is available for preliminary work
  • A Research Ideas track is available for ideas in early stages
  • A Doctoral Forum track is available for discussing and publishing early PhD thesis research
Submission (full paper)

January 3 February 6, 2017

Notification

March 3 March 4, 2017

Registration

March 18, 2017

Camera ready

April 9, 2017

ISSN: 2308-4383
ISBN: 978-1-61208-560-9

Published by IARIA XPS Press

Archived in the free access ThinkMindTM Digital Library
Prints available at Curran Associates, Inc.
Authors of selected papers will be invited to submit extended versions to a IARIA Journal
Articles will be submitted to appropriate indexes.

conference contact: [email protected]

All tracks/topics are open to both research and industry contributions.

Secial tracks: (submission deadline: April 13)

CMPM: Computational Methods for Precision Medicine
Chair and Coordinator: Prof. Dr. Jaime Seguel, University of Puerto Rico at Mayaguez, Puerto Rico [email protected]

MLPM: Machine Learning Approaches to Precision Medicine
Chair and Coordinator: Alexandru Floares, Md, PhD, President of SAIA Institute - Cluj, Romania [email protected]
Co-Chair: Dr. Andrea Bracciali, SICSA Lecturer, University of Stirling, UK [email protected]

COMMEND: Comparative Metagenomics and Disease
Chair and Coordinator: Vincenzo Belcastro, PMI R&D, Philip Morris Products S.A., Neuchatel, Switzerland [email protected]

BIOLEARN: Machine Learning for Biomedical Applications
Chair and Coordinator: Dipl.-Inform. Thomas Schmid, Universität Leipzig, Germany [email protected]

 

Tracks:

A. Bioinformatics, chemoinformatics, neuroinformatics and applications

  • Bioinformatics (Bioinformatics modeling; Bioinformatics databases; Epidemic models; Informatics and statistics in bio-pharmaceutical research; Machine learning and artificial intelligence in molecular design; Systems biology and metabolic networks; Medical informatics; Genomics informatics; Biostatistics; Structural and functional genomics; Identifying molecular sequence and structure databases; Mechanisms for specifying molecular interactions and structure predictions; Formalisms for gene regulation and expression databases; Algorithms for gene identification and pattern discovery; Techniques for gene expression analysis; Modeling and simulation of biomarkers)
  • Advanced biocomputation technologies (Stochastic modeling; Computational drug discovery; Graph theory and bioinformatics; Biological databases and information retrieval; Experimental studies and results; Application of computational intelligence in medicine and biological sciences (artificial neural networks, fuzzy logic, evolutionary computing, and simulated annealing); High-performance computing as applied to natural and medical sciences; Hardware computing accelerators; Computer-based medical systems (automation in medicine, etc.); Other aspects and applications relating to technological advancements in medicine and biological sciences; Novel applications)
  • Chemoinformatics (Computer-aided drug design; Concepts, methods, and tools for drug discovery; Virtual screening of chemical libraries; ADMET - absorption, distribution, metabolism, excretion, and toxicity; QSAR - quantitative structure-activity relationships; Protein-ligand docking and scoring functions; Chemical similarity and diversity; Chemogenomics in drug discovery; QSPR - quantitative structure-property relationships; Theoretical models in chemical reactivity; Mathematical chemistry and chemical graphs; In silico environmental toxicology; Computer-assisted chemical engineering; Combinatorial chemistry; Graph theory in chemistry; Prediction of drug toxicity; Property prediction; Molecular mechanics and quantum chemical calculations; Modeling and measurements of solid-liquid and vapor-liquid equilibria; Blood-brain barrier penetration; Comparison of the similarity(diversity of chemo-data libraries; Chemoinformatics applications)
  • Bioimaging ( Image processing in medicine and biological sciences; Measurements techniques; Mass spectrometry; Numerical(mathematical approaches; Biological data integration and visualization)
  • Neuroinformatics (Neurosciences; Neurocomputing)

B. Computational systems (genetics, biology, and microbiology)

  • Bio-ontologies and semantics (Software environments for bio-computation, bio-informatics, and biomedical applications; Medical informatics; Epidemic models; Biological data mining; Biomedical knowledge discovery; Pattern classification and recognition; Mathematical biology; Graph theory and bio-informatics; Stochastic modeling; Biological databases and information retrieval; Processing mutation information; Archiving of mutation specific information)
  • Biocomputing (Computational biology; Bioengineering; Biomedical image computing and informatics; Biomedical automation and control; Image-based diagnosis and therapy; Modeling and simulation of systems biology; Applications of large-scale bio-systems)
  • Genetics (Gene regulation; Gene expression databases; Gene pattern discovery and identification; Genetic network modeling and inference; Gene expression analysis; RNA and DNA structure and sequencing; Evolution of regulatory genomic sequences; Biological data mining and knowledge discovery; Bio-pattern classification and recognition; Bio-sequence analysis and alignment; Comparative genomics; Structural and functional genomics; Amino acid sequencing)
  • Molecular and Cellular Biology (Protein modeling; Molecular interactions; Metabolic modeling and pathways; Evolution and phylogenetics; Macromolecular structure prediction; Proteomics; Protein folding and fold recognition; Molecular sequence and structure databases; Molecular dynamics and simulation; Molecular sequence classification, alignment and assembly)
  • Microbiology (Bio-nanotechnologies; Self-assembly and self-replication; Global regulatory networks and mechanisms; Microbial propagation and immunity; Microbial therapies; Microbial life under extreme energy limitation; Cellular microbiology and contact systems; Phylogenetics; Genome dynamics; Transmission dynamics and evolution of emerging diseases; Metagenomics and drug resistance; Microbes and alternative energies)

C. Biotechnologies and biomanufacturing

  • Fundamentals in biotechnologies (Bioengineering; Bioelectronics; Biomaterials; Bio-films in ecology and medicine; Biometric screening techniques; Biorobotics)
  • Biodevices (Biosensors; Biomechanical devices; Biochips; Biocomputing; Biometrics devices; Specialized biodevices; Nanotechnology for biosystems)
  • Biomedical technologies (Biomedical engineering; Biomedical instrumentation; Biomedical metrology and certification; Biomedical sensors; Biomedical monitoring devices; Biomedical devices with embedded computers; Biomedical integrated systems)
  • Biological technologies (Biological data integration; Image processing in medicine and biological sciences; Biological data visualization; Synthetic biological systems)
  • Biomanufacturing (Manufacturing platforms; Biopharmaceutical industry; Generic biopharmaceuticals; Bioprocess management; Clinical trials; Disposables and product changeover; Upstream and downstream bioprocessing; Technology benchmarks; International regulations)
 
 

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