As one of the world’s leading independent biomedical research institutions, Texas Biomedical Research Institute is dedicated to advancing the health of our global community through innovative biomedical research.
Principal Investigator(s)
Mohan, Mahesh
Identify epigenetic mechanisms associated with monocyte/microglia activation associated with HIV associated neurocognitive disorder using the SIV-rhesus macaque model. In addition, we will use cannabinoids to suppress inflammation and determine the epigenetic mechanisms underlying its anti-inflammatory effects.
As one of the world’s leading independent biomedical research institutions, Texas Biomedical Research Institute is dedicated to advancing the health of our global community through innovative biomedical research.
Principal Investigator(s)
Hammargren, Mark
Acquisition and deployment of the CrimeEye video surveillance system with Genetec video analytics that will allow our security team to maximize their efforts to keep our campus secure by having better situational awareness through enhanced monitoring, verification and validation of threats improving security response times.
As one of the world’s leading independent biomedical research institutions, Texas Biomedical Research Institute is dedicated to advancing the health of our global community through innovative biomedical research.
Principal Investigator(s)
Shtanko, Olena
Funded by
Emergence Venture Partners, LLC
The goal is to have immediate impact by identifying prophylactic/therapeutic interventions using micronutrients as effective, low-cost, low-risk countermeasures to reduce viral damage to human airway cells and mitigate virus spread during this pandemic. The impact of our focus on ?epithelial defense? will provide an immediate means to fortify airway epithelial barrier function early during SARS-CoV-2 illness, which will reduce lung water accumulation and dyspnea in infected patients.
59th Medical Wing at the Wilford Hall Ambulatory Surgical Center (WHASC)
The 59th Medical Wing at the Wilford Hall Ambulatory Surgical Center (WHASC) provides support for research conducted by investigators and their collaborators addressing the unique scientific needs of the Air Force, the Department of Defense and the Nation.
59th Medical Wing at the Wilford Hall Ambulatory Surgical Center (WHASC)
The 59th Medical Wing at the Wilford Hall Ambulatory Surgical Center (WHASC) provides support for research conducted by investigators and their collaborators addressing the unique scientific needs of the Air Force, the Department of Defense and the Nation.
The University of Texas at San Antonio is an emerging Tier One research institution with nearly 29,000 students.
Principal Investigator(s)
Hermann, Brian
Renthal, Robert
Seshu, Janakiram
Rathbone, Christopher
Cassill, J
Funded by
Natl Science Fdn
PROJECT SUMMARY Interrogation of basic biological phenomena in the post-genome era relies heavily on high-throughput. sensitive technologies that provide molecular profiles of cells and tissues. High-dimensionality molecular measurements (e.g.. levels of mRNAs for many/all genes) can be readily accomplished in bulk samples and down to the single-cell level. producing comprehensive (???omics) profiles for given samples that address research needs. However. such techniques necessarily ignore the tissue localization of gene products in order to produce the high-dimensionality data.