Call for Abstract

Scientific Program

3rd International Conference on Genomics & Pharmacogenomics, will be organized around the theme “Implications & Impacts of Genomic Advances on Global Health”

Genomics 2015 is comprised of 14 tracks and 102 sessions designed to offer comprehensive sessions that address current issues in Genomics 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:Biomarkers & Molecular Markers

  • Track 1-1Cancer Biomarkers
  • Track 1-2Clinical & Transaltional Biomarkers in Drug Discovery
  • Track 1-3Chromosomal Biomarkers of Genomics
  • Track 1-4Molecular Imaging Biomarkers
  • Track 1-5Bigdata to Advance Personalized Medicine

Track 2:Functional Genomics

  • Track 2-1Functional genomics and bioinformatics
  • Track 2-2Patterns and determinants of variation in functional genomics
  • Track 2-3Comparative Functional Genomics
  • Track 2-4Functional genomics of pain in drug development
  • Track 2-5Functional Genomics and Molecular Analysis
  • Track 2-6Structural Genomics
  • Track 2-7Microbial functional genomics
  • Track 2-8Metabolomics
  • Track 2-9Genomic Sequencing
  • Track 2-10Biochemistry, biotechnology, and genomics
  • Track 2-11Chemical genomics
  • Track 2-12Phytochemical genomics
  • Track 2-13Mitochondrial Genomics

Track 3:Next Generation Sequencing

  • Track 3-1Sequencing Technologies
  • Track 3-2NGS Data Analysis
  • Track 3-3Role of NGS in Cancer Drug Development
  • Track 3-4Clinical Applications of NGS
  • Track 3-5Advances of NGS in Therapeutics
  • Track 3-6Exome sequencing
  • Track 3-7Hybrid sequencing approach

Track 4:Cancer Genomics

  • Track 4-1Cancer-related micro RNA and m-RNA
  • Track 4-2Tumor Heterogenecity
  • Track 4-3Cancer Genomics nad Proteomics impact factor
  • Track 4-4Molecular underpinnings of therapeutic targets
  • Track 4-5Abberant DNA methylation in cancer

Track 5:Pharmacogenomics & Personlaized Medicine

  • Track 5-1Cancer Pharmacogenomics
  • Track 5-2Pharmacogenitics & Individualized therapy
  • Track 5-3Pharmacogenomics in Clinical Therapeutics
  • Track 5-4Translational Pharmacogenomics
  • Track 5-5Applications of NGS to Pharmacogenomics

Track 6:Clinical Genomics

  • Track 6-1Techniques and tools in clinical genetics
  • Track 6-2Molecular genetics of common and complex diseases
  • Track 6-3Clinical gene therapy
  • Track 6-4Genomics Healthcare
  • Track 6-5Techniques and tools in clinical genetics
  • Track 6-6Molecular genetics of common and complex diseases
  • Track 6-7Gene therapy for cancer treatment

Track 7:Micro RNA and ncRNA

  • Track 7-1miRNA Biogenesis
  • Track 7-2MicroRNA expression
  • Track 7-3miRNA expression
  • Track 7-4MicroRNA in Cancer
  • Track 7-5microRNA expression analysis
  • Track 7-6Single Molecule Genomics
  • Track 7-7Ion mobility-mass spectrometry to microRNA analysis
  • Track 7-8PCR analysis of blood and saliva specific microRNA markers
  • Track 7-9Visual Detection of microRNA
  • Track 7-10Single Cell MicroRNA Analysis
  • Track 7-11Meta-analysis of microRNA

Track 8:Genome Project

  • Track 8-1Epigenetics
  • Track 8-2Genetics & Global Health
  • Track 8-3Human Genome Evolution
  • Track 8-4Single Cell Technologies
  • Track 8-5Synthetic Biology
  • Track 8-6Genome Reaarangement
  • Track 8-7Gene silencing

Track 9:Bioinformatics in Genomics, Proteomics and Computational Biology

  • Track 9-1BioData mining
  • Track 9-2Computational genomics and computational proteomics
  • Track 9-3In vitro models for drug development
  • Track 9-4Molecular modelling and drug designing
  • Track 9-5Sequence analysis and allignment
  • Track 9-6Tools for functional and comparative genomics and proteomics
  • Track 9-7Systems genetics and systems biology

Track 10:Reproductive Genomics

  • Track 10-1Genome Integrity
  • Track 10-2Germline Genomics
  • Track 10-3Gene regulation in mammals
  • Track 10-4Genetically modified embryos
  • Track 10-5Genetic Diseases
  • Track 10-6DNA Patternity testing

Track 11:Plant Genome and Evolutionary Genomics

  • Track 11-1Genome evolution and environmental genomics
  • Track 11-2Molecular evolution and molecular phylogeny
  • Track 11-3Population and quantitative genetics
  • Track 11-4Molecular genomics and mendelian inheritance
  • Track 11-5Developmental genetics and genomics
  • Track 11-6Rice Genome
  • Track 11-7Impact of transposable elements on population diversification and genome evolution
  • Track 11-8Mouse Genome
  • Track 11-9Comparitive genomics
  • Track 11-10Wheat Genome
  • Track 11-11Cotton Genome

Track 12:Microbial Genome & Genomics

  • Track 12-1Microbial functional genomics
  • Track 12-2Microbial genetics
  • Track 12-3Bacterial and viral Genomics
  • Track 12-4Microbiomics
  • Track 12-5Ecoli Genome and Genomics

Track 13:Future Aspects and Emerging Fields in Genomics

  • Track 13-1Genetic epidemiology and pharmacoepidemiology
  • Track 13-2Genetic counselling
  • Track 13-3Phenomics
  • Track 13-4Synthetic biology and bioengineering
  • Track 13-5Translational genetics and genomics
  • Track 13-6Molecular pharming
  • Track 13-7Genomics in ageing

Track 14:mRNA analysis

  • Track 14-1mRNA expression
  • Track 14-2mRNA processing
  • Track 14-3mRNA Biomarkers
  • Track 14-4Gene expression profiling
  • Track 14-5Transcriptome analysis
  • Track 14-6Gene fusion analysis