New review highlights imaging the activities of vascular disrupting agents | Mason Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/mason-lab/new-review-highlights-imaging-activities-vascular-disrupting-agents
New review highlights imaging the activities of vascular disrupting agents
Understanding how the function of biomolecular condensates scales with size | Rosen Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/rosen-lab/understanding-how-function-biomolecular-condensates-scales-size
Understanding how the function of biomolecular condensates scales with size
Structure Characterization of WO3/ZrO2 Catalysts by Raman Spectroscopy
https://labs.utsouthwestern.edu/sites/default/files/2022-11/03_Zhao_RamanSpect.pdf
However, since the specific surface areas of WZH samples are larger than those of WZ samples, the dispersion capacity per gram of ZrO, of WZH is larger than that of WZ.
Molecular basis of cooperativity in pH-triggered supramolecular self-assembly
https://labs.utsouthwestern.edu/sites/default/files/2022-08/114_Li_natcomm.pdf
Light scattering count rates (b), polymer mass distribution (c) and charges states (d) of different polymers are shown at the protonation degree of 50%. (e) Quantification of unimer and micelle charge states of PEO-b-PDPA at protonation degree of 50%.
Functional Characterization of Dysregulated miRNAs in Head and Neck Cancer | Story Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/story-lab/research/biomarkers-therapeutic-response-radiotherapy-head-and-neck-cancer/functional
Dysregulation of miRNAs can lead to tumorigenesis through changes in regulation of key cellular processes such as cell proliferation, cell survival, and apoptosis.
D'Orso Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/dorso-lab
D'Orso Lab studies gene regulatory networks in normal and disease states as well as in the context of host-pathogen interactions.
Molecular basis of cooperativity in pH-triggered supramolecular self-assembly
https://labs.utsouthwestern.edu/sites/default/files/2022-11/114_Li_natcomm.pdf
Light scattering count rates (b), polymer mass distribution (c) and charges states (d) of different polymers are shown at the protonation degree of 50%. (e) Quantification of unimer and micelle charge states of PEO-b-PDPA at protonation degree of 50%.
iTAKL Family of Studies | ANSIR Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/ansir-lab/research/itakl-family-studies
iTAKL Family of Studies | ANSIR Lab | UT Southwestern, Dallas, Texas Skip to main content UT Southwestern Research Labs ANSIR Lab à Research Research sub-navigation iTAKL Family of Studies Traumatic Brain Injuries Virtual Biopsy Deep Learning for Brain Tumors and Neuroimaging Methods MEG Resting State
Regulation of Membrane Turnover | Hilgemann Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/hilgemann-lab/research/regulation-membrane-turnover
Regulation of Membrane Turnover | Hilgemann Lab | UT Southwestern, Dallas, Texas Skip to main content UT Southwestern Research Labs Hilgemann Lab à Research Research sub-navigation Formation and Functions of Membrane Domains Regulation of Membrane Turnover Cardiac Function Key Physiological Processes
Cardiovascular Clinical Research Center (CCRC) | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/cardiovascular-clinical-research-center-ccrc
We conduct state-of-the-art clinical trials in the field of cardiovascular diseases, offering patients access to advanced clinical therapies that would otherwise not be available.