Scope and Importance:
The Scope of the conference is to gather all the Students, Doctors, Researchers, Faculty, Colleges, Health Professionals, Genetics Associations and Societies, Genetic Counselors, biotechnologist, Bio pharmacists, Business Delegates, and Scientists to approach and deliver all the attendees about the latest scientific advancements on the respective sphere. This Genomics, proteomics, and bioinformatics Conference is focusing on understanding concepts and decision-making related to genetics, genomics, proteins, proteomics, bioinformatics, molecular biology, biotechnology, pharmacy, medicine, and academia.
Genomics is the study of genetics and determining the complete DNA sequence of an organism's genome. Genomics also involves the study of intragenomic processes, regulatory analysis, and mechanism of gene regulation for aggregate portrayal and evaluation of qualities. Genomics does not involve single research but it approaches the understanding of genetic factors and mode of the gene for the evolution of genome sequence and comparative genomics. Genomics purpose is to understand individual gene’s effects on the entire genome. The study of genomic evolution involves multiple fields in sequence and is made available to the public and scientific community.
Proteomics is a study of protein set - coded by the genome in an organism, system, or biological context.
Proteomics can provide significant biological information and knowledge on which proteins are involved in the biological process and their interaction with specific proteins and the movement of proteins between subcellular compartments, and the involvement of the protein in metabolic pathways. Proteomics is used to investigate rates of protein production, modification, degradation, and steady-state abundance.
Bioinformatics enables the scientist to organize, analyze, model, exploring and interpreting data to understand, visualize and store information associated with biological research and management by use of computational tools and information technology. Biological information is merged in computers for analysis.
Bioinformatics focuses on molecular biology: macromolecular structures, genome sequences, and the results of functional genomics experiments (e.g. expression data). Bioinformatics employs a wide range of computational techniques including structural alignment and sequence, data mining, macromolecular geometry, phylogenetic tree construction, database design, prediction of protein structure and function, gene finding, and expression data clustering. Bioinformatics combines the computational tools, information science, and biology and helps answer biological questions.
Conference Sessions
- Advances in Genomics, Proteomics and Bioinformatics
- Animal Genetics and Genomics
- Applications of genomics
- Biochemistry and Biophysics
- Bioinformatics and Computational Biology
- Biological Databases
- Biomarkers and Microarrays
- Biostatistics
- Cancer Genomics
- Cardiac Proteomics
- Clinical Genomics
- Comparative Genomics
- Computational Molecular Biology
- DNA - Protein Interactions
- Epigenomics and Epigenetics
- Functional Genomics
- Gene Editing and Genetic Engineering
- Gene Expression
- Genetic Disorders
- Genome Analysis
- Genomic Instability
- Genomic Medicine
- High Throughput Sequencing
- Insilico Analysis
- Mass Spectrometry in Proteome Research
- Metagenomics
- Microbial Genomics
- Next Generation Sequencing
- Nutrigenomics
- Personalized and Regenerative Medicine
- Phylogenetics
- Plant Genomics and Molecular Pharming
- Protein Expression and Analysis
- Proteomics from Discovery to Function
- Sequence Analysis
- Structural Bioinformatics
- Systems Biology
- Trends in Genomics and Pharmacogenomics