Call for Abstract

Scientific Program

International Conference on Synthetic Biology , will be organized around the theme ““Recent Advancement and Discoveries in Synthetic Biology””

Synthetic Biology-2015 is comprised of 14 tracks and 100 sessions designed to offer comprehensive sessions that address current issues in Synthetic Biology-2015.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Track 1:Synthetic Biology Trends in Oncology

  • Track 1-1Drug Target Identification
  • Track 1-2Drug Discovery and Therapeutic Treatment in Cancer Research
  • Track 1-3Oncogenic

Track 2:Evolutionary Biology

  • Track 2-1Modern evolutionary synthesis
  • Track 2-2Classical population genetics
  • Track 2-3Genetic architecture
  • Track 2-4Molecular evolution in DNA sequence data to evolutionary theory
  • Track 2-5Computational phylogenetics
  • Track 2-6Evolutionary computation
  • Track 2-7Phylogenetic comparative methods
  • Track 2-8Evolutionary physiology

Track 3: Synthetic Genomics

  • Track 3-1Synthetic genomics Vaccines
  • Track 3-2Dialysis Machines
  • Track 3-3Infusion Pumps
  • Track 3-4Functional genomics
  • Track 3-5Regenomics
  • Track 3-6Metagenomics
  • Track 3-7BioBrick
  • Track 3-8Unnatural nucleotides and Amino Acids
  • Track 3-9Synthetic genetic pathways
  • Track 3-10Artificial Organs

Track 4:Design and construction of Synthetic Gene Networks

  • Track 4-1Design and construction of synthetic gene networks Gene transcription, translation
  • Track 4-2Genetic network analysis
  • Track 4-3Genetic network modeling
  • Track 4-4Modeling and optimization
  • Track 4-5Mathematical modeling of cellular systems

Track 5:Molecular Modeling and Drug Designing

  • Track 5-1Computer-aided drug design
  • Track 5-2Structure-based drug design
  • Track 5-3Bioinformatics for designing
  • Track 5-4Vaccine Design and Development
  • Track 5-5Retrometabolic drug design
  • Track 5-6Docking, homology and loop modelling

Track 6:Genome Design and Next-generation genomic technologies

  • Track 6-1Designing of the targeting vector
  • Track 6-2Identification, expansion and testing of the BAC clone
  • Track 6-3Modeling and optimization
  • Track 6-4Mathematical modeling of cellular systems
  • Track 6-5Applications of genomics in Synthetic biology and bioengineering
  • Track 6-6Computational genomics
  • Track 6-7Cheminformatics
  • Track 6-8Immunomics
  • Track 6-9Pathogenomics

Track 7:Development of Recombinant-DNA technology

  • Track 7-1Advanced Vector DNA Meothods
  • Track 7-2Role of Genetic Engineering in Development of Synthetic Biology
  • Track 7-3Application of recombinant DNA technology in Synthetic Biology
  • Track 7-4Genetically modified organism
  • Track 7-5Application of engineered proteins
  • Track 7-6Recombinant virus Development
  • Track 7-7Molecular cloning

Track 8:Novel materials and Biosensors

  • Track 8-1DNA Biosensors
  • Track 8-2Nano Biosensors
  • Track 8-3Biosensors & Bioelectronics
  • Track 8-4Bioreceptors
  • Track 8-5Biotransducer
  • Track 8-6Electro-switchable biosurfaces

Track 9:Protein Engineering Design and Selection

  • Track 9-1Proteomics and proteome
  • Track 9-2Protein synthesis and folding
  • Track 9-3Protein prediction
  • Track 9-4Computational protein design
  • Track 9-5Application of engineered proteins
  • Track 9-6Structure-Based Combinatorial Protein Engineering (SCOPE)
  • Track 9-7Fast parallel proteolysis

Track 10:Advanced DNA Sequencing

  • Track 10-1Next-generation methods for DNA sequencing
  • Track 10-2Transmission electron microscopy DNA sequencing
  • Track 10-3Cancer genome sequencing
  • Track 10-4Advanced methods and de novo sequencing
  • Track 10-5Methods in development of DNA sequencing
  • Track 10-6Multiplex ligation-dependent probe amplification
  • Track 10-7Sequence profiling tools

Track 11:Computational Biology

  • Track 11-1Computational Bio modeling
  • Track 11-2Computational Genomics
  • Track 11-3Computational Neuroscience
  • Track 11-4Computational Pharmacology
  • Track 11-5Computational Evolutionary biology
  • Track 11-6Cancer Computational Biology

Track 12:Biotechnology and Bioprocess Engineering

  • Track 12-1Biological conversion of waste materials into products
  • Track 12-2Modeling of biological materials
  • Track 12-3Designing and Development of Bio-Rector and Fermenter
  • Track 12-4Designing and Development of product recovery techniques
  • Track 12-5Industrial production of Mobilized and Immobilized enzymes
  • Track 12-6Industrial Waste management

Track 13:Industrial Synthetic Biology

  • Track 13-1Industrial Development of Synthetic Biology
  • Track 13-2Genetically Modified Foods
  • Track 13-3Industrial Production of Green Chemicals
  • Track 13-4Industry Uses of Synthetic Biology
  • Track 13-5Production of Bio-Fuels, Chemicals and Pharmaceuticals
  • Track 13-6Commercialization of Nano Biotechnology
  • Track 13-7Plant synthetic biology
  • Track 13-8Production of Natural products from synthetic biology

Track 14:Animal Cell and Tissue Engineering

  • Track 14-1Synthetic Biology Advances in impacting Stem Cell Applications
  • Track 14-2Facial Prosthetics
  • Track 14-3Ocular Prosthetics
  • Track 14-4Cochlear Implants
  • Track 14-5Corrective Lenses
  • Track 14-6Artificial Limbs
  • Track 14-7Heart-Lung Machine
  • Track 14-8Pacemakers
  • Track 14-9Animal Cloning and Organogenesis
  • Track 14-10Monoclonal and Polyclonal Antibodies
  • Track 14-11Stem Cell Technology
  • Track 14-12Somato Prosthetics