Scientific Approach of Proteomics

The Proteogenomics gives an accurate prediction for the  Modification. Where the Exon splice is also being performed extensively. Antibody Profiling is also developing for the study of humoral response of infectious agents. Metaproteomics involves rapid continuous mapping of all peptides to all known genomes and proteomes to get the identity of different organisms which is to be present in a sample. In the Interaction ProteomicsCharacterization of protein interactions is made in order to understand the function of individual proteins, protein complexes, and protein interaction networks. In expression proteomics differential protein expression is used as function of gene knockout.

Some related Conferences:

7th International Conference on Biomarkers & Clinical Research November 28-30, 2016 Baltimore, USA; 2nd International Meeting on Clinical Case Reports April 18-20, 2016 Dubai; 2nd International Conference on Clinical Trials August 22-24, 2016 Philadelphia, USA; 4th International Conference on Clinical Pharmacy October 31-01, 2016 Las Vegas, USA; 3rd International Conference on Health Informatics and Technology June 27-29, 2016 New Orleans, USA; Systems biology and Proteomics Conference, April 3, 2016 San Diego, USA; Image processing for cryo electron microscopy Conference September 01-11, 2015 UK; 2nd Plant Proteomics Conference September 2016, Bratislava, Germany; ABRF  ProteomicsGenomics meeting, Feburary 20-23, 2016 USA, EUPA Proteomics 9th  Congress June 23-28, 2015 Milano.

Molecular & Cellular Proteomics (MCP) showcases contributions that describe the structural and functional properties of proteins and their expression, particularly with respect to developmental time courses. Emphasis is placed on determining how the presence or absence of proteins affects biological responses, and how the interaction of proteins with germane cellular partners allows them to function. Gram-positive bacteria are usually exploited as bio-farms naturally producing a wide range of small biologically active metabolites, such as antibiotics, extensively used in medicine, food-industry, chemistry and bio-remediation strategies. High-throughput identification of proteins with the latest generation of hybrid high-resolution mass spectrometers is opening new perspectives in microbiology. I present, here, an overview of tandem mass spectrometry technology and bioinformatics for shotgun proteomics that make 2D-PAGE approaches obsolete. Non-labelling quantitative approaches have become more popular than labelling techniques on most proteomic platforms because they are easier to carry out while their quantitative outcome is rather robust.

  • Proteomics and Bioinformatics
  • Integration of Microbiology and Proteomics
  • Integrative Biology
  • Microbial Proteomics to Synthetic Biology
  • Systems Biology

Related Conference of Scientific Approach of Proteomics

Scientific Approach of Proteomics Conference Speakers