Institute for Integrative Genome Biology

Proteomics Core



The W. M. Keck Proteomics Laboratory at Noel T. Keen Hall houses the following equipment.

InstrumentKeen Hall Location
LTQ-Orbitrap Fusion Rm 1018
Waters Capillary HPLC Rm 1018
LC-MALDIprep Rm 1018
2D-Nano-UPLC Rm 1018
Liquid SDS Protein Fractionator Rm 1017
Precellys Sample Homogenizer Rm 1017
Speedvac Sample Concentrator Rm 1017

The main techniques used are the LTQ-Orbitrab Fusion MS coupled to 2-dimension nano-UPLC to perform MudPIT experiments in routine basis. Q-STAR MALDI-MS/MS and Q-TOF ESI-MS/MS are also available based on individual requests. Nano-UPLC (nanoAcquity) is able to provide on-line either one-dimension or two-dimension separation using combination of high pH/low pH reverse phase. LTQ-Orbitrab Fusion is an advanced high-end MS system that integrates functions of three mass analyzers: quadrupole, ion-trap, and orbitrap. The new Orbitrab Fusion is able to support top-down proteomics with ultra-high resolution up to 450,000. Its high sensitivity (<1 fmole) and fast scanning speed (20 spectra/sec) permit detection of low and very-low abundant peptide ions in bottom-up proteomics. Three different fragmentation technologies including CID, HCD, and ETD are employed to generate MSn (n=2-10) spectra in any given experiments, and combination of the three methods can result in most comprehensive coverage of proteome and protein sequences as possible. ETD (electron transfer dissociation) is a very useful method for mapping post-translational modification sites and can support studies of many types of PTMs such as phosphoproteomics and glycoproteomics. Quantitative methods of SILAC and TMT labeling and label-free are readily available in the software control and can be applied to large-scale quantitative proteomics. Bioinformatics tools such as Mascot, Maxquant, and ProteoIQ are used to analyze MS raw data and perform database dependent protein identification.

In addition to MS data quality and analysis, experimental design is also critical in the interpretation of proteomics results. Biological conclusions drawn from proteomics research are largely dependent on how samples are treated and prepared. In order to execute scientifically and technically appropriate experiments, researchers need to have knowledge and experience in connecting the two routines: biological sample treatment and analytical chemistry. We are delighted to provide technical consultation in this regard before users set up their experiments.

More Information

General Campus Information

University of California, Riverside
900 University Ave.
Riverside, CA 92521
Tel: (951) 827-1012

Career OpportunitiesUCR Libraries
Campus StatusDirections to UCR

Genomics Information

Institute of Integrative Genome Biology
2150 Batchelor Hall

Tel: (951) 827-7177
E-mail: Aurelia Espinoza, Managing Director