Call for Abstract

4th International Conference on Proteomics & Bioinformatics, will be organized around the theme “To strengthen and foster advances in the field of proteomics and bioinformatics”

Proteomics-2014 is comprised of 13 tracks and 101 sessions designed to offer comprehensive sessions that address current issues in Proteomics-2014.

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 1-1Protein purification and separation
  • Track 1-2Protein characterization techniques
  • Track 1-3Analysis of protein complexes
  • Track 1-4Protein identification and profiling
  • Track 1-5Advance crystallographic techniques
  • Track 1-6Protein structure prediction and protein folding problems
  • Track 1-7Protein-protein interactions
  • Track 1-8Protein microarrays
  • Track 1-9Structural Proteomics
  • Track 1-10Functional Proteomics
  • Track 2-1Convergence of systems biology - Models and approaches
  • Track 2-2Proteome informatics
  • Track 2-3High-throughput protein structural studies (MS, NMR and X-ray crystallography)
  • Track 2-4High-throughput computational methods for protein 3D structure and function determination
  • Track 2-5Robotics, nanotechnology, and microfluidics
  • Track 2-6In silico strategies for biological systems
  • Track 2-7Human proteome
  • Track 2-8Proteomics in development of anti-cancer therapeutics
  • Track 2-9In silico drug discovery
  • Track 2-10Array based technologies
  • Track 2-11Gel Electrophoresis
  • Track 3-1Biomedical applications of proteomics
  • Track 3-2Immunoinformatics
  • Track 3-3Computational proteomics
  • Track 3-4Proteomics in neuro science
  • Track 3-5Metabolomics and expression proteomics
  • Track 3-6Proteomics technologies in biomarker discovery
  • Track 3-7Stem cell proteomics and gene therapy
  • Track 3-8Application of proteomics in agricultural biotechnology
  • Track 3-9Structural bioinformatics
  • Track 3-10Genome and proteome manipulation
  • Track 3-11Proteomics using multidimensional LC
  • Track 4-1Cellular and sub cellular proteomics
  • Track 4-2Regulatory proteomics
  • Track 4-3Mass spectrometry in proteomics
  • Track 4-4Structural and functional proteomics
  • Track 4-5Computational analysis of cellular signaling
  • Track 4-6Molecular networks
  • Track 5-1Protein Identification, analysis, and profiling
  • Track 5-2Biomarker discoveries and validation
  • Track 5-3MALDI imaging and high throughput screening
  • Track 5-4Interactive proteomic analysis
  • Track 5-5Quantitative proteomic analysis
  • Track 5-6Flow cytometry
  • Track 6-1Molecular biology and genetic engineering
  • Track 6-2Sequence analysis and genome annotation
  • Track 6-3Gene expression profiles
  • Track 6-4High-throughput sequencing data analysis
  • Track 6-5Bio-ontologies
  • Track 6-6Comparative genomics
  • Track 6-7Gene regulation and transcriptomics
  • Track 6-8Computational methods for gene structure prediction
  • Track 6-9Human genome project
  • Track 6-10Structural and functional genomics
  • Track 6-11Single nucleotide polymorphism (SNP)
  • Track 6-12Mathematical and statistical models in genomics
  • Track 7-1Lung cancer proteomics
  • Track 7-2Breast cancer proteomics
  • Track 7-3Pancreatic cancer proteomics
  • Track 7-4Prostate cancer proteomics
  • Track 7-5Ovarian cancer proteomics
  • Track 7-6Colorectal cancer proteomics
  • Track 8-1Proteomic analysis of purified protein derivative
  • Track 8-2Potential tumor biomarkers
  • Track 8-3Application of proteomics in lab diagnosis
  • Track 8-4Clinical applications of proteomics
  • Track 8-5Single molecule proteomics for clincal studies
  • Track 8-6Urine as a source for clinical proteme analysis
  • Track 8-7Pharmacogenetics
  • Track 9-1Microbial community proteomics
  • Track 9-22D-Polyacrylamide gel electrophoresis
  • Track 9-3Quantitative metaproteomics
  • Track 9-4Soil metaproteomics
  • Track 9-5Microbial metaproteomics
  • Track 9-6Marine metaproteomics
  • Track 9-7Metagenomics & proteogenomics
  • Track 10-1Drug Design & chemi-informatics
  • Track 10-2Gene Toxicology and toxicogenomics
  • Track 10-3RNA therapeutics
  • Track 10-4Drug induced toxicity and safe therapeutic dosage
  • Track 11-1Epigenomics
  • Track 11-2Phylogenomics
  • Track 11-3Population genomics
  • Track 11-4Molecular evolution
  • Track 11-5Genetics and population analysis
  • Track 12-1Bioinformatics application in nanotechnology
  • Track 12-2Biometrics and DNA computing
  • Track 12-3Application of bioinformatics in biotechnology
  • Track 12-4Data Mining & visualization
  • Track 12-5Genotypes and molecular phenotypes therapy
  • Track 12-6Cancer bioinformatics
  • Track 12-7Bioinformatics challenges for personalized medicine
  • Track 12-8Bioinformatics models, methods & algorithms
  • Track 12-9Neural networks and machine learning in bioinformatics
  • Track 13-1Programming studies in bioinformatics
  • Track 13-2Database management system(DBMS)
  • Track 13-3Biostatistics
  • Track 13-4Biocomputing
  • Track 13-5Databases & Tools of bioinformatics
  • Track 13-6Pathways, networks and systems
  • Track 13-7Motif search and discovery