Research News Hoxhaj Lab discovers how mitochondria use NADPH to fuel fatty acid synthesis, lipoylation All Research News >
Key Discovery DeBerardinis Lab finds high glucose contribution to tricarboxylic acid cycle involved in predicting cancer spread All Discoveries >
Research News Hoxhaj Lab discovers how mitochondria use NADPH to fuel fatty acid synthesis, lipoylation All Research News >
Key Discovery DeBerardinis Lab finds high glucose contribution to tricarboxylic acid cycle involved in predicting cancer spread All Discoveries >
Metabolism April 29, 2025 Hoxhaj Lab discovers how mitochondria use NADPH to fuel fatty acid synthesis, lipoylation Mitochondrial NADPH — a metabolite and essential electron donor — drives mitochondrial fatty acid…
February 5, 2025 Hoxhaj receives 2025 TAMEST Mary Beth Maddox Award and Lectureship Read more about Gerta’s honor here….
January 24, 2025 Scientists unveil high-resolution human NAD kinase structure, key cancer metabolism regulator Researchers at Children’s Medical Center Research Institute at UT Southwestern (CRI) and the Centre…
December 18, 2024 Hoxhaj named TAMEST 2025 Mary Beth Maddox Award and Lectureship recipient (Update): See pictures of Gerta receiving her award on Feb. 5, 2025, here. DALLAS…
September 23, 2024 Featured in The Scientist: An Overlooked Nucleotide Recycling Pathway Fuels Tumor Growth
Cancer Biology, Metabolism July 11, 2024 Tumor growth fueled by nucleotide salvage Hoxhaj Lab measures purine pathways across tissues and tumors, revealing crucial role of salvage…
February 6, 2024 Hoxhaj awarded Vilcek Prize for ‘Creative Promise in Biomedical Science’ Gerta Hoxhaj, Ph.D., has been awarded the 2024 Vilcek Prize for ‘Creative Promise in Biomedical…
June 15, 2023 Hoxhaj receives Pew Charitable Trusts research award UT Southwestern faculty member, Gerta Hoxhaj, Ph.D., Assistant Professor at the Children’s Medical Center Research Institute at …
Metabolism April 8, 2021 Mitochondrial NADP+ is essential for proline biosynthesis during cell growth Nicotinamide adenine dinucleotide phosphate (NADP+) is vital to produce NADPH, a principal supplier of…