Call for Abstract

5th International Conference on Proteomics & Bioinformatics, will be organized around the theme “Emerging trends with new innovations in proteomics and bioinformatics”

Proteomics 2015 is comprised of 12 tracks and 80 sessions designed to offer comprehensive sessions that address current issues in Proteomics 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 1-1Annotation, visualization, integrated discovery
  • Track 1-2Functional organization in yeast proteome
  • Track 1-3Proteomics approaches to identify biomarkers
  • Track 1-4Microarrays approaches in proteomics
  • Track 1-5Molecular and cellular proteomics
  • Track 1-6Biomarkers of bio fluids
  • Track 1-7Global analysis of protein localization
  • Track 1-8Structure and function of actin binding proteins
  • Track 2-1Matrix-assisted laser desorption (MALDI-TOF-MS)
  • Track 2-2Electrospray ionization mass spectrometry (ESI-MS)
  • Track 2-3Liquid chromatography mass spectrometry (LC-MS)
  • Track 2-4Multidimensional protein identification technology – MudPIT
  • Track 2-5Separation strategies-organelle fractionation,chromatographic fractionations
  • Track 2-6Protein identification and validation
  • Track 2-7Mass spectrometry-based proteomics
  • Track 2-8Over expression and purification of the proteins
  • Track 3-1Human proteome
  • Track 3-2Mitochondrial proteome
  • Track 3-3Yeast proteome
  • Track 3-4Applied proteomics
  • Track 3-5Quantitative proteomics
  • Track 3-6Functional proteomics
  • Track 3-7iTRAQ proteomics
  • Track 3-8Structural proteomics
  • Track 3-9Proteome profiling
  • Track 4-1Human proteome database
  • Track 4-2Plasma proteome database
  • Track 4-3Plant proteome database
  • Track 4-4Yeast proteome database
  • Track 4-5Microbial proteome database
  • Track 5-1Protein identifications and interactions
  • Track 5-2Cancer proteomics
  • Track 5-3Structural biology and biophysics
  • Track 5-4RNA data processing by transcriptomics
  • Track 5-5Tools for annotating and understanding NGS variants
  • Track 5-6Advanced computational genomic analysis
  • Track 5-7Next generation sequencing technologies
  • Track 5-8Analysis of DNA polymorphism data
  • Track 5-9Protein sequence analysis
  • Track 5-10Molecular patterns on DNA
  • Track 6-1Genetic function approximation to QSAR
  • Track 6-2Molecular dynamics and density-functional theory
  • Track 6-3Molecular mechanisms of DNA damage repair
  • Track 6-4Development of novel therapeutic agents
  • Track 6-5Chemistry on drug discovery
  • Track 6-6Targeted drug delivery and gene therapy
  • Track 7-1Bioinformatic tools
  • Track 7-2Computational systems biology
  • Track 7-3Protein–protein interaction network
  • Track 7-4Machine learning in molecular systems biology
  • Track 7-5Human genome sequence
  • Track 7-6Computational metabolomics
  • Track 8-1Pattern recognition and machine learning
  • Track 8-2Practical machine learning tools and techniques
  • Track 8-3Machine learning in prediction of protein secondary structure
  • Track 8-4Support vector machines
  • Track 10-1Tumor metastasis
  • Track 10-2Structural proteomics
  • Track 10-3Proteomics in CNS drug development
  • Track 10-4Laser capture microdissection
  • Track 10-5Blood-based biomarker discovery
  • Track 10-6Nutrigenomics and nutrigenetics
  • Track 10-7Mass spectrometry-based proteomics in medical research
  • Track 10-8Clinical proteomic technologies in biological system
  • Track 11-1Gene therapy
  • Track 11-2Molecular medicine in more drug targets
  • Track 11-3Microbial genome applications in antibiotic resistance
  • Track 11-4Meta-analysis of genome-wide association data
  • Track 11-5Database building and management
  • Track 11-6Clinical application of bioinformatics
  • Track 11-7Sequence analysis of the genome
  • Track 12-1Proteomics clinical biomarkers