In observance of a holiday, Agilent CrossLab/iLab Operations Software Support Help Desk will be closed during U.S. hours on Monday, September 1st, 2025. We will resume regular U.S. support hours on Tuesday, September 2nd, 2025. EU and APAC Support will remain open during this time. For urgent matters, please add "Urgent" to the ticket/email subject or press "1" when prompted to escalate a call on the iLab Support phone, and we will prioritize those requests first.
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Welcome to the University of Texas System Proteomics Network!
Our mission is to advance science and improve the understanding of disease through the development, implementation, and advancement of proteomics through strategic investment in the state-of-the-art technology, expert consultation, collaboration and training.
Proteomics, the large-scale comprehensive study of proteins, how they work, and their application to human health, holds great promise in contributing to the prevention and cure of disease by translating basic science discoveries into the clinical practice of personalized medicine. The University of Texas System (UTS) Proteomics Network is a major UTS collaborative initiative of our academic and health institutions continuing their tradition of excellence in advancing science and improving health care. The Network provides key services to enhance the capabilities of investigators and researchers by extending access to available institutional proteomics infrastructure, instrumentation, and technical expertise for basic, translational and clinical proteomics. It is designed to promote better utilization and enhanced capabilities of existing proteomics cores, as well as promote research and development of new and emerging proteomics core functionalities that will enhance research activities and studies impacting human health at all UT System institutions.
The main goals of the UTS Proteomics Network are:
Provide scientists and researchers system-wide access to leading-edge technology, advanced methodologies and progressive technical and scientific expertise, while establishing a national reputation through education, outreach and strategic technology and scientific investments;
Improve research acuity, efficiency and cost-effectiveness through investment in high-performance technologies and computational solutions that enable cores to better attract and support competitive grant-funded research;
Offer educational opportunities for users, trainees and young researchers related to advanced technologies and analytical methodologies in proteomics;
Increase inter-institutional collaborations on proteomics projects.
Please take a look around by clicking any of the tabs above to discover more of what the University of Texas System Proteomics Network has to offer to ensure your research project is as cost-efficient and scientifically sound as possible. Then log-in and begin your project!
The CTPC services provided are designed to identify and quantitate proteins and their modifications in a broad range of research specimens from simple purified protein samples to biomarker discovery and verification in complex mixtures such as cell and tissue extracts, plasma andor other biofluids
The lab has multiple modern mass spectrometers. Protein analysis services include molecular mass determination, protein identification, sequence and post-translational modification site characterization. Quantitative analysis of lipids and intermediary metabolites by GC/MS is also available.
TThe Metabolomics Core provides state-of-the-art, ultra-high resolution mass spectrometry platforms capable of measuring thousands of metabolites and lipids in biological matrices of all types (e.g., cells, media, tissues, whole blood, plasma, urine)
The FCCIF specializes in single cell technologies including FACS Cell Sorting, Analytical Flow Cytometry, Multispectral Flow Cytometry, Suspension Mass Cytometry, Imaging Mass Cytometry, Confocal Imaging, Live Cell Imaging, Multispectral Imaging, and High-plex Tissue Imaging,.
Functional Proteomics Reverse Phase Protein Array RPPA Core provides cancer center members with access to a powerful, highthroughput, quantitative costeffective antibodybased assay to characterize basal or ligandinduced protein expression and modification, and timeresolved responses appropriat
Price is per sample and includes raw, normalized, and median-centered data and two heatmaps (1 supervised and 1 unsupervised) for antibodies on the Expanded Antibody List
(1) Type of sample. For example: gel band, cell lysate, immunoprecipitation proteins.
(2) If the diagnostic specimens are infectious substances. An infectious substance is defined as a substance containing a viable microorganism, such as a bacterium, virus, rickettsia, parasite or fungus, that is known or reasonably believed to cause disease in humans or animals.
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