Search Labs

A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z
Core Facilities >

Krämer Lab

The goal of the Krämer laboratory is to understand the molecular mechanisms that regulate responses to diverse cellular stresses.

  • Helmut Krämer, Ph.D.
Retinal cell biology
Genetics, Development and Disease Neuroscience

Kraus Lab

The Kraus Lab is interested in the basic mechanisms of nuclear signaling and gene regulation by small molecules and how these signaling pathways relate to human physiology and disease states.

  • W. Lee Kraus, Ph.D.
Gene regulation
Genetics, Development and Disease

Lai Lab

We are interested in understanding how animals process both external and internal sensory information to interact appropriately with their environment.

  • Helen Lai, Ph.D.
Neuroscience

Larynx Lab

The UT Larynx Lab is a collaboration between The University of Texas at Dallas and UT Southwestern. Our research focuses on the role of the larynx in vocal production and sensorimotor voice and breathing disorders.

  • Adrianna Shembel, Ph.D.

Le Lab

Welcome to the Le Laboratory in the Department of Dermatology and Simmons Comprehensive Cancer Center. One aim of our lab is to help train the next generation of scientists and physicians.

  • Lu Q. Le, M.D., Ph.D.
Neurofibromatosis Dermatology cancer biology stem cells Hair Development Epithelial stem cells Skin stem cells Hair stem cells

Lee Lab

Our research is aimed at innovating and translating computational technology to advance biomedical research and medical diagnoses/treatments.

  • Jeon Lee, Ph.D.
Biomedical Engineering

Lega Lab

Texas Computational Memory Lab research focuses on analyzing the neural activity that gives rise to successful memories and facilitates memory retrieval. 

  • Bradley Lega, M.D.
memory encoding retrieval
Neuroscience

Lehrman Lab

The Lehrman lab uses biochemical approaches to study the functions of sugars and sugar-polymers coupled to proteins and lipids, and as free molecules. Our work involves broken-cell systems, living cultured cells, and animals. This area of research, known as Glycobiology, is an emerging field that encompasses most aspects of biology and medicine.

  • Mark Lehrman, Ph.D.

Levi Lab

Our mission is to improve the lives of people living with skin and musculoskeletal diseases through rigorous science and compassion.

  • Benjamin Levi, M.D.
Biomedical Engineering Genetics, Development and Disease

Li (Nan) Lab

The N-LAB's mission is to develop novel neuroimaging and neuroengineering methods to integrate molecular and system neuroscience and solve brain science problems.

  • Nan Li, Ph.D.
Biomedical Engineering Neuroscience

Li (Wen-hong) Lab

The overarching goal of Wen-hong Li Lab is to investigate mechanisms responsible for maintaining islet cell function and to devise new strategies for enhancing beta cell fitness and robustness to prevent or treat diabetes.

  • Wen-hong Li
Diabetes Islet biology chemical biology drug delivery molecular imaging
Biological Chemistry Biomedical Engineering

Li (Xiaochun) Lab

Our lab focuses on membrane proteins in cholesterol biogenesis, transport, and signaling using multiple approaches from protein engineering, to x-ray crystallography and cryo-EM.

  • Xiaochun Li, Ph.D.
Cell and Molecular Biology Molecular Biophysics

Li (Xin) Lab

Our lab studies the fundamental mechanisms of how commensal fungi survive and persist within a host niche filled with a multitude of innate and adaptive immune effectors, under both homeostatic and inflammatory conditions. We aim for our study to provide unique insights into human diseases, such as asthma, inflammatory bowel disease, and cancer, and provides the foundation for novel immunotherapeutic approaches.

  • Xin Li, Ph.D.
mucosal immunity Innate Immunity Inflammation Gut microbiome
Immunology Molecular Microbiology

Liang Lab

The Liang lab's research focuses on delineating the pathophysiological mechanisms underlying chronic liver disease.

  • Shuang Liang
chronic liver disease non-alcoholic fatty liver diseases (5196

Ligorio Lab

Our mission is to understand the most fundamental questions in cancer biology, such as tumor initiation, progession, and response to therapy, through state-of-the-art experimentation, fruitful collaborations and, above all, out-of-the box thinking to develop novel, safe(r) and more effective therapies to win the fight against cancer!

  • Matteo Ligorio, M.D., Ph.D.
Cancer Biology

Lin (Milo) Lab

The Lin lab develops theoretical models and uses computational tools to find the performance limits of complex biological systems. 

  • Milo M. Lin, Ph.D.
Biomedical Engineering Molecular Biophysics

Lin (Weichun) Lab

The goal of Lin (Weichun) Lab's research is to understand how neurons establish synaptic connections during development, and how these connections are maintained throughout adulthood. Toward this goal, we are currently focusing on the following two areas of research.

  • Weichun Lin, Ph.D.
Neuroscience

Lin (Yingxi) Lab

The Lin Lab studies the transformation of brief experiences into enduring memories, their impact on behaviors, and the differing responses seen in both healthy and diseased conditions. Utilizing a multidisciplinary approach, our research explores how experience-induced genetic programs establish connections between experiences and synaptic modifications within neural circuits, ultimately driving persistent behavioral changes.

  • Yingxi Lin, Ph.D.
Neuroscience

Liou Lab

The Liou Lab seeks to understand the principles underlying communication between organelles within mammalian cells.

  • Jen Liou, Ph.D.
Cellular Physiology
Cell and Molecular Biology

Liszczak Lab

Glen Liszczak  laboratory is exploring cellular signaling mechanisms that regulate transcription and preserve genome stability.

  • Glen Liszczak, Ph.D.
Biological Chemistry

Liu (Chen) Lab

The Liu lab investigates genetic and environmental factors leading towards obesity and metabolic syndrome in children and adolescents.

  • Chen Liu, Ph.D.

Liu (Jiaen) Lab

BiMIR aims at pushing the state of the art in clinical diagnosis and benefit to patients by developing novel medical imaging technologies and enhancing our understanding of the underlying tissue health conditions.

  • Jiaen Liu, Ph.D.
Biomedical Engineering

Liu (Li) Lab

The Liu Lab is Interested in developing and evaluating novel therapies, notably targeting tumor vasculatures.

  • Li Liu, Ph.D.
Image-guided therapy Breast Cancer
Biomedical Engineering

Liu (Xin) Lab

Xin Liu Lab is interested in understanding the regulation of transcription and chromatin dynamics underlying many fundamental biological processes including differentiation, development, and oncogenesis.

  • Xin Liu, Ph.D.
Chromatin
Molecular Biophysics

Liu (Yi) Lab

The Liu Lab is interested in the functions and mechanism of codon usage biases, circadian clocks, and non-coding RNA

  • Yi Liu, Ph.D.
Transcription codon usage circadian clock RNA interference translation Transcription Neurospora
Genetics, Development and Disease