Immunology and Infectious Disease

Immunology and Infectious Disease

Andreas J. Baumler, PhD

SOM: Medical Microbiology and Immunology 

(See also: Microbiology, GI Physiology/Gastroenterology)

I am a microbiologist interested in the interaction of enteric pathogens with their hosts. We use mouse models to study Salmonella pathogenesis and host response. The main goals of this work are to interrogate mechanisms that enable typhoidal Salmonella serovars, such as Salmonella typhi, to evade innate immune recognition and mechanisms that enable non-typhoidal Salmonella serovars, such as Salmonella typhimurium, to take advantage of the host inflammatory response to edge out competing gut microbes. Furthermore, we use day-of-hatch chickens to investigate how Salmonella enteritidis colonizes the infant gut. We are also interested in how the gut microbiota confers colonization resistance against Escherichia coli and other commensal Enterobactericeae and in understanding the pathogenesis of colonic crypt hyperplasia caused by Citrobacter rodentium in mice, which is an animal model for infection with enterohaemorrhagic E. coli (EHEC).

STAR students can expect to work on projects related to control of microbiota composition and function by the intestinal epithelium. Students will also receive exposure to mouse handling, infection, sample collection and analysis (e.g., microbiota composition, epithelial metabolism, microbial metabolites).

Please visit Dr. Baumler's website for more information.

Charles L. Bevins MD, PhD

Department of Microbiology and Immunology, School of Medicine

Our laboratory is interested in innate immunity of mucosal tissues, and we are focused on key effector molecules of host defense: antimicrobial peptides. Antimicrobial peptides are endogenous antibiotics, isolated from diverse species throughout the plant and animal kingdoms. They represent an evolutionary ancient mechanism of host defense. These peptides typically have a broad-spectrum of antimicrobial activity that includes bacteria, fungi and certain viruses.  Defensins are the major class of antimicrobial peptides in humans and other mammals.  Investigations from our laboratory have discovered that certain defensins are expressed in abundance by epithelial cells at wet mucosal surface.  Our studies support a model - antimicrobial peptide constitutes part of an active, early host defense response of challenged epithelial cells.  The long-range goal of our research is to understand the specific role that these epithelial antimicrobial peptides play in mucosal innate immunity, including maintaining homeostasis at baseline and responding to challenge by pathogenic microbes.  Our current collaborative studies include: (i) characterizing the primary structure and biological activity of the tissue forms defensins, (ii) defining the key regulatory steps for the expression of these molecules, (iii) exploring potential mechanisms of therapeutic modulation of these systems. The investigations include biochemical and molecular biological approaches and analysis of transgenic and other animal models.

Faculty Bio

Eliza Bliss-Moreau, PhD

Department of Psychology, College of Letters and Sciences

California National Primate Research Center

(See also: Behavior/Animal Welfare, Cardiovascular Biology, Neurology/Neurobiology)

Dr. Bliss-Moreau’s multi-method, multi-level, multi-disciplinary, multi-species research program is focused on understanding the biological mechanisms that generate healthy and unhealthy emotions and social behavior, with the goal of developing new effective treatments and interventions for emotion-related psychopathology and understanding how and why emotions evolved.  Her research program adopts a lifespan approach, primarily studying nonhuman primates from infancy through old age – what the Bliss-Moreau Lab refers to as womb-to-tomb affective science.  The lab works at levels from cellular neurobiology to the study of social systems (and everything in between).  Additionally, the Bliss-Moreau Lab pursues topics related to variation in neural development, both during early development (following viral infection with Zika virus) and in the diseases of old age (namely Alzheimer’s disease).

Dr. Bliss-Moreau can be reached via email at eblissmoreau@ucdavis.edu or visit the lab website for more information.

Terza Brostoff

(see also: Pathology/Virology)

Dr. Brostoff is a board-certified veterinary microbiologist with emphasis in immunology and virology. Her laboratory's current interests include:

• Developing novel diagnostic tests for infectious diseases and cancer
• Developing lipid nanoparticle-encapsulated mRNA vaccines
• Understanding the contribution of extracellular vesicles to viral infection

Potential STAR projects include:

• Validation of a novel diagnostic test for feline coronavirus
• Measuring the T-cell responses to mRNA vaccines
• Analyzing EVs from infected vs. uninfected animals to understand how they may contribute to disease progression

If interested, please email tmbrostoff@ucdavis.edu to discuss further.

Faculty Bio

Jonathan Dear, DVM, MAS, DACVIM (SAIM)

VM: Medicine & Epidemiology

(see also: Internal Medicine)

Dr. Jonathan Dear is a board-certified small animal internal medicine specialist at the University of California, Davis. A graduate of the University of Georgia College of Veterinary Medicine, Dr. Dear completed his residency at UC Davis. Dr. Dear also completed a master's degree in clinical research at the UC Davis School of Medicine. Dr. Dear's clinical interests include urinary and respiratory medicine, while his research interests also include small animal infectious diseases. Dr. Dear is the current president of the International Society for Companion Animal Infectious Disease.

Possible 10-week research projects for STAR students include: Evaluation of NSAIDs for sporadic cystitis in dogs: literature review, study design and grant writing, working with patients in a clinical trial setting, introduction to statistical methods, manuscript writing and review.

Contact information: Jonathan Dear, jddear@ucdavis.edu, 530-752-7133

Faculty Bio

Peter Ernst, DVM, MSc, PhD

Affiliated with UC Veterinary Medical Center – San Diego

Director for the Division of Comparative Pathology and Medicine
Director for the Chiba University/UCSD Center for Mucosal Immunology, Allergy and Vaccine Development

Co-Director of UCVMC

Professor of Pathology, UC San Diego
Professor of Pathology, Microbiology, and Immunology, UC Davis

Our general research interests are in the area of comparative (human to mouse) mucosal immunology with specific projects in immune-epithelial cell interactions involved in the microbial pathogenesis of acute and chronic diseases of the gastrointestinal tract. Our current emphasis in on the role of adenosine as an anti-inflammatory mediator and how it protects from disruption in the microbiota that trigger disease. In addition, we are examining the role of bacteria in generating oxidative DNA damage in the digestive tract and its regulation by DNA repair enzymes.

Summer research students will be exposed to studies related to immune regulation in the digestive tract relevant to chronic inflammation and DNA damage.
Link to Dr. Ernst’s current publications
Link to Dr. Ernst’s website

Please contact Dr. Ernst for more information: pernst@ucsd.edu

Rodrigo Gallardo, DVM, PhD, DACPV

(See also: Food Animal Medicine, Pathology/Virology)

I am a poultry veterinarian with experience in poultry production, management and health. I obtained my DVM degree from the University of Chile and a PhD from Auburn University in avian molecular virology. I am board certified by the American College of Poultry Veterinarians (ACPV). I worked for several years in a layer breeder facility in charge of reproduction and hatchery for Hy-line international. I have worked as an assistant veterinarian in diagnostic laboratories using serological, virological and molecular methods for detection of viral diseases affecting the poultry industry including Newcastle disease (NDV), avian influenza (AI), infectious bronchitis (IBV), avian reoviruses (ARV), infectious coryza (IC), etc. I have been involved in manufacturing NDV and IBV biological products both live attenuated and inactivated. In research, I have worked on characterizing viral pathogens and the immune responses they elicit in chickens. During my career I have been working with RNA viruses, particularly corona and reoviruses, trying to understand their variability and evolution in immunocompetent and immunodeficient hosts. Currently, I am the head of the Poultry Medicine Program at the University of California in Davis where I teach, perform research and outreach. My passion is to help the poultry industry translating research into practical actions. I currently collaborate with the broiler and layer industry in California in the surveillance and prevention of Newcastle disease, Reoviruses, IBV and infectious coryza. I also provide support in poultry medicine and disease prevention to poultry companies in the Caribbean and Central and South America.

E-mail: ragallardo@ucdavis.edu

Faculty Bio

Melanie Gareau, Ph.D.

Microbiota-gut-brain axis

VM: Anatomy, Physiology and Cell Biology

(See also: GI/Gastroenterology, Behavior and Neurology)

Dr. Gareau is a physiologist primarily interested in studying the microbiota-gut-brain axis. It is increasingly being recognized that the microbes that live the gastrointestinal tract, collectively referred to as the intestinal microbiota, can contribute to modulating cognition and mood. The research focus of her laboratory is in determining how manipulating the microbiota within the gut, using models of infection with bacterial pathogens or administration of beneficial probiotic bacteria, can change cognitive function, anxiety, and depression-like behaviors in mouse models of disease. Dr. Gareau has a particular interest in how the microbiota-gut-brain axis responds to stimulation with psychological stressors and under conditions of intestinal inflammation, such as in models of inflammatory bowel disease (IBD). Ongoing projects in the laboratory include studying behavior in mouse models of IBD and following pathogenic E. coli infection.

If interested, please contact Dr. Gareau: mgareau@ucdavis.edu

Meera Heller DVM, PhD, DACVIM

VM: Medicine & Epidemiology 

(See also: Internal Medicine, Food Animal Medicine & Food Safety)

Not taking students in 2025

I’m an Assistant Professor of Clinical Livestock Medicine and Surgery (C barn).   My research interests lie in the area of immunology and infectious disease, specifically in the areas of innate immune response and juvenile immunity.  My research goals are to improve prevention and treatment of calfhood disease, or disease in neonates of any species.  My clinical expertise is in internal medicine and surgery of ruminants and swine, and I have a special interest in cattle and goats.  Potential research projects include bench-top projects working with bovine bacterial pathogens in the lab, field research on a novel approach to prevention pink eye in cattle,  field research to document a vector borne disease  in goat populations in northern California, and clinically important retrospective studies using the VMACS database.  I am also open to project ideas from students, and am happy to help you craft a research question that fits your interests.

Please contact Dr. Heller via email at mcheller@ucdavis.edu.

Faculty Bio

Tessa LeCuyer, DVM, PhD

Assistant Agronomist, Pathology, Microbiology & Immunology

(See also: Microbiology/Parasitology, Dermal Biology/Dermatology)

Dr. LeCuyer is a veterinary clinical microbiologist who assists with laboratory diagnosis of infectious diseases in the VMTH.  Her research interests include antimicrobial stewardship, detection of antimicrobial resistance and impacts on clinical outcomes, chronic bacterial infections, and improving diagnostic testing.

Potential STAR research projects include: 1) Evaluation of novel therapies for canine otitis, 2) Determination of factors that impact antimicrobial drug selection and treatment outcomes for patients with infectious diseases, 3) Characterization of bacteria that cause recurrent infections (especially urinary tract infections in dogs).  Skills to be developed include laboratory techniques, such as bacterial cultivation, PCR, antimicrobial susceptibility testing, and biofilm detection assays, as well as non-laboratory skills such as medical record review, antimicrobial selection skills, bioinformatics, and retrospective data analysis techniques.

Both laboratory based and non-lab based projects are possible.   

For more information on projects, email tlecuyer@ucdavis.edu.

Faculty Bio

Brian Leonard

Department of Surgical & Radiological Sciences

(see also: Opthalmology/Ocular Biology, Translational Research)

My research focuses on ocular surface health and immunity. I am particularly interested in the factors that promote tear film stability and the pathologies that lead to destabilization and ocular surface disease. Additionally, I am interested in the innate immune system of the ocular surface and the potential for modulating host responses to limit microbial keratitis.

Active projects in the lab include ocular surface disease, dry eye disease, ocular surface immunity, corneal immunology and corneal microbiology.

I can be reached at bcleonard@ucdavis.edu for questions.

Faculty Bio

Jonna Mazet, DVM, MPVM, PhD

(See also: Epidemiology, Global Health, Non-Human Primate Medicine)

Jonna Mazet, DVM, MPVM, PhD, is a Professor of Epidemiology and Disease Ecology and Executive Director of the One Health Institute in the UC Davis School of Veterinary Medicine, where she focuses on global health problem solving, especially for emerging infectious disease and conservation challenges. Dr. Mazet is active in international One Health research programs, most notably in relation to disease transmission among wildlife, domestic animals, and people and the ecological drivers of disease emergence. Currently, she is the Global Director of a $175 million viral emergence early warning project, named PREDICT, that has been developed with the US Agency for International Development’s (USAID) Emerging Pandemic Threats Program. She was elected to the US National Academy of Medicine in 2013 in recognition of her successful and innovative approach to emerging environmental and global health threats.   

Contact info:  jkmazet@ucdavis.edu

Stephen McSorley, PhD

VM: APC

Dr. McSorley is an immunologist whose research is focused on understanding T and B cell responses to bacterial infections particularly in the intestine and female reproductive tract. The overall goal of these NIH-funded projects is to improve understanding of memory responses in order to develop new vaccines. Specific research projects include: developing a sub-unit vaccine against systemic Salmonella infection; visualizing T cell responses to Chlamydia infection in the reproductive tract; examining innate activation of T cells during bacterial infections. Dr. McSorley also has an ongoing collaborative project with the Center for Companion Animal Health that seeks to develop new biologic therapeutics for canine oncology.

Please email Dr. McSorley for more information or potential STAR projects.

Faculty Bio

Lisa Miller, PhD

Immunology, respiratory, pediatric

California National Primate Research Center

(See also: Pulmonary Medicine)

Dr. Miller's research program is focused on understanding the relationship between early life environmental exposures, immunity and chronic disease.  We study how mucosal and systemic immunity is established during infancy, and determine the impact of air pollutants, allergens, and infectious disease on childhood health.  A major emphasis has been in the elucidation of mechanisms for immune susceptibility that lead to pediatric airways dysfunction, which may ultimately lead to generation of new diagnostics and preventative medicine.  

We will be conducting research on wildfire smoke health effects using cell cultures, murine models, and blood samples from nonhuman primates.

Dr. Miller can be reached via email.

Faculty Bio

Victor Nizet, M.D.*

Affiliated with UC Veterinary Medical Center – San Diego

(See also: Microbiology/Parasitology)

Dr. Nizet is a Pediatric Physician-Scientist, Infectious Diseases Specialist and Chief of the Division of Pediatric Pharmacology & Drug Discovery at UCSD School of Medicine and Skaggs School of Pharmacy & Pharmaceutical Sciences. Dr. Nizet leads a large and productive basic and translational research program focused upon the innate immune system, bacterial pathogenesis and the development of new immune-based infectious disease treatment strategies including novel antibiotics, targeted neutralization of bacterial virulence phenotypes, and pharmacologic augmentation of host phagocyte function.

Please contact Peter Ernst pernst@ucsd.edu or Christina Sigurdson csigurdson@ucsd.edu first for more information.

Faculty Bio

Kent E. Pinkerton, Ph.D.

Professor of Anatomy, Physiology and Cell Biology

(see also: cardiology, pathology/virology, pharmacology/toxicology and pulmonary medicine)

1) To take an innovative approach in addressing air quality issues in dairy and cattle operations by the examination of direct health effects on the cardiopulmonary systems of mice and rats exposed to ambient particles using a concentrator system at the Tulare Veterinary Medicine Teaching and Research Center.

2) To examine the effects of environmental factors (gases and particles in the air) on peri-natal development to affect lung anatomy and pulmonary function in the rat. From conception to adulthood in the rats takes approximately 6 weeks, an easy fit for one summer!

3) To measure heart rate variability as an indicator of change in autonomic control in the mouse exposed to Davis, CA summer particulates.

4) To take a comparative biology approach to elucidate mechanistic environmental pathways leading to increased susceptibility (fetal onset of adult disease).

5) To examine the role of secondhand smoke on increased susceptibility to infection (influenza).

6) To explore the role of metabolomics as an early indicator of disease (asthma, altered immune function, increased susceptibility to infection).

Dr. Pinkerton can be reached via email at kepinkerton@ucdavis.edu.

Faculty Bio

Krystle Reagan

VM: Medicine & Epidemiology

(see also: Internal Medicine)

Dr. Reagan is a small animal internal medicine specialist with a focus in infectious diseases and a 50% clinical appointment in the VMTH.  Her laboratory research focus includes:

• Development and validation of infectious disease diagnostics
• Integration of artificial intelligence into clinical decision making
• Translation of novel therapeutics into clinical trials

Current projects include:

• Development of CRISPR based molecular tools for detection of viral pathogens
• Use of next generation sequencing for detection of bacterial infections
• Validation of artificial intelligence/machine learning algorithms for the prediction of diagnosis and patient outcome

Please feel free to reach out at kreagan@ucdavis.edu to discuss possible STAR projects.

Faculty Bio

Colin Reardon, Ph.D.

Immunology, IBD, T1D 

VM: Anatomy, Physiology, & Cell Biology

(See also: Gastroenterology/GI Physiology)

Dr. Reardon is an immunologist specializing in the regulation of immunology. He is particularly interested in the mechanisms of communication between the nervous and immune systems. Although thought of as disparate fields of study, these two systems have co-evolved and are now appreciated to influence each other. Dr. Reardon’s research focuses on the modification of immune outcomes by neurotransmitters, and on the recently discovered production of the neurotransmitter acetylcholine (Ach) by B- and T-cells. Dr. Reardon’s research has previously identified that the commensal microbiota is involved in the regulation of Ach production by these immune cells. . Various projects are currently ongoing in the laboratory that will seek to establish the role of specific neurons in modulating immunopathologies, including inflammatory bowel disease and diabetes. Based on this, testing of small molecule agonists, and neurostimulator devices (in collaboration with biomedical engineers) to modulate immunopathologies will be performed in the laboratory. To accomplish this a variety of complementary techniques will be used including flow cytometry, confocal and intravital microscopy.

Summer research projects will include: Understanding how neurons in discrete brain regions control inflammation or the host response to pathogens.

If interested, please contact Dr. Reardon creardon@ucdavis.edu.

Faculty Bio

Hannah Savage, DVM, PhD, DACVM

Assistant Professor of Microbiology
Department of Pathology, Microbiology, and Immunology

(see also: Microbiology)

The Savage lab studies interactions between pathogens, the microbiota, and host. In particular, I currently focus on how the microbiota promotes a heathy colonocyte immunometabolism and how this interaction is altered during disease, putting the host at risk of infection with pathogens and pathobionts. My overall research goal is to understand the basis behind these host-microbiota interactions during health so that host health can be supported with therapeutics during microbial disruption to prevent a loss of colonization resistance.

Potential STAR student projects: 1) Investigate effects of chemotherapy in a mouse model and potential treatment options to improve outcomes during chemotherapy, focusing on prevention of systemic infections. 2) Investigating how high Candida albicans burden can be protective against other pathogens in a mouse model. 3) Investigating potential management of ileitis/Crohn’s disease in a mouse model. STAR students will learn how to do techniques such as mouse necropsies for intestinal samples, bacterial plating, qPCR, RT-PCR, histopathology, DNA preparation for sequencing, -omics analysis, and/or flow cytometry.

I may also have veterinary species-based projects available (example: analysis of changes in dog microbiota and intestinal environment during chemotherapy treatment) depending on funding.

Please contact Dr. Savage at hpsavage@ucdavis.edu for more information.

-Faculty Bio-

Fauna L Smith

Assistant Professor of Livestock Reproduction and Herd Health
VM: Population Health and Reproduction

(see also: Food Animal Medicine/Food Safety, Pathology/Virology)

Dr Smith is an Assistant Professor of Livestock Herd Health and Reproduction.   Her expertise is in immunology and infectious disease.  Her research interests are in the areas of small ruminant emerging diseases, development and assessment of herd level preventative measures for infectious disease and immune development and sex differences in ruminants.  Dr. Smith is boarded in Large Animal Internal Medicine and her clinical focus is small ruminant herd health.  Potential research topics include immune characterization of sheep and goats, field research on a novel approach to prevention of gastrointestinal or respiratory diseases of sheep and goats, and bio-surveillance of California's small ruminant populations for emerging infectious diseases.

Dr. Smith can be reached at flsmith@ucdavis.edu.

Faculty Bio

Esteban Soto-Martinez, MSc, DVM, PhD, Dipl. ACVM

VM: Medicine and Epidemiology (See also: Microbiology, Pathology, WIldlife/Zoonoses)

Dr. Esteban Soto is a board certified veterinary microbiologist who has an interest in aquatic animal health. Our laboratory main research interests are to understand the pathogenesis of important infectious diseases of wild and aquatic animals, and to develop strategies to protect animals from these diseases. Members in our laboratory study One Health, Aquatic Animal Disease, and Fish Disease through a combination of microbiological, molecular, and epidemiological methods. Current projects involve studying the ecology, diversity and host-pathogen interaction of Francisella noatunensis, Piscirickettsia salmonis, Veronaea botryosa, Erysipelothrix rhusiopathiae, Flavobacterium spp., Saprolegnia ferax, Koi herpes virus and other fish pathogens; and studying the ecology, diversity and host-pathogen interaction of hypermucoid Klebsiella pneumoniae in marine mammals.

Please email Dr. Soto-Martinez for more information - sotomartinez@ucdavis.edu 

Faculty Bio

Renée Tsolis

Department of Medical Microbiology and Immunology, School of Medicine

(see also: Microbiology/Parasitology)

Dr. Tsolis is a microbiologist studying host-pathogen interactions leading to disease during infection. Her laboratory uses a variety of animal models to study how two groups of zoonotic pathogens, non-typhoidal Salmonella and zoonotic Brucella species, interact with the immune system to cause disease. For non-typhoidal Salmonella species, Dr. Tsolis' group is interested in learning why underlying co-morbidities such as malaria and malnutrition increase the incidence of death from systemic infection in the developing world, and her laboratory has developed mouse models to gain insight into immunomodulatory effects of Vitamin A deficiency and malaria. For Brucella, the laboratory has developed models to understand both chronic infection that this group of organisms causes within the mononuclear phagocyte system and to interrogate placental infections in pregnant animals that lead to abortion in domestic animals. Collaborations with UCD research Dr. Luckhart in the Medical Microbiology department, Dr. McSorley in the Center for Comparative Medicine and Dr. Stephensen in the USDA Western Human Nutrition Research Center have been instrumental in establishing this interdisciplinary research program. The long-term goal of Dr. Tsolis' work is to uncover basic principles of how bacterial pathogens manipulate the immune response to cause disease and ensure their transmission to the next host.

We are using mouse models to study how bacterial pathogens (Salmonella, Brucella, Chlamydia) interact with the immune system to cause infection. STAR students can learn immunology and microbiology skills as well as molecular biology approaches to study inflammation and host and microbial gene expression.

Please visit Dr. Tsolis' website for more information.

Nissi Varki, M.D.*

Comparative pathology, mouse models of human disease

Affiliated with UC Veterinary Medical Center – San Diego

Director of Histopathology Resources, Cancer and Mouse Histopathology
Professor of Pathology

(See also: Cardiology, Oncology, Pathology/Virology)

Dr. Nissi Varki's research interests include comparative histopathology analysis of genetically altered mice, and models of human diseases including cancer, inflammatory disorders and microbial infections. She is investigating the role of glycosylated molecules in tumor progression and metastasis, including evidence for a human-specific mechanism for diet and antibody-mediated inflammation in human carcinogenesis. Another area of recent exploration is the tissue and species-specific expression of sialic-acid binding lectin receptors known as Siglecs, which play an important role in regulating host innate immune responses and inflammation. Dr. Varki also has a longstanding interest in immunological mechanisms operating at the gastrointestinal mucosal epithelium and their role in chronic colitis and colon cancer development. Dr. Varki serves as Director of the Histopathology Core laboratories Mouse Phenotyping Services at UC San Diego and teaches in the histology and pathology laboratory sessions for medical students, mentors numerous undergraduate students and high school students and serves on the Recruitment and Admissions Committee for the UC San Diego School of Medicine.
Link to Dr. Varki’s current publications
Link to Dr. Varki’s website

*Please contact Peter Ernst pernst@ucsd.edu or Christina Sigurdson csigurdson@ucsd.edu first for more information.

Bart Weimer, PhD

(See also: Genetics/Genomics, Immunology/Infectious Disease, Microbiology/Parasitology)

Dr. Weimer is a microbiologist that combines genomics to study the intersection between the host and microbiome. This ranges from single organisms that are zoonotic to the complex microbiome communities of various tissues of animals and humans. He leads the 100K Pathogen Genome Project that is focused on population microbial genomics to understand genomic diversity of infectious microbes but also virulence, antimicrobial resistance, zoonotic transmission dynamics, clinical diagnostics, and global traceability. This project also provides a basis for reference genomes for metagenomic studies that integrate metabolism and host association that impact health and disease.

His group studies problems that range from single gene and single organism disease impacts on disease and diagnostics to community interactions that impart host changes via small molecules between the epithelium and distant tissues. His work with bacterial/stem cell interactions is one model for movement of bacteria between different sites in the body. His group ranges from bench experiments to population bioinformatics to metabolomics of microbial systems.

Some focus areas for his lab are: Some focus areas for his lab are: Linking genetic variation to zoonotic organisms - gut and oral applications = genomics and metagenomics.

Dr. Weimer can be reached via email.

Faculty Bio

Sebastian Winter, MSc, PhD

Department of Internal Medicine, UC Davis Health

(See also: GI Physiology/Gastroenterology, Microbiology/Parasitology)

Summer research students in the Winter lab will participate in the following:

1. Defining the molecular mechanisms of how the gut microbiota influences mucosal and systemic inflammation.

2. Defining the disease-associated metabolism of enteric pathogens such as Salmonella, Yersinia, and E. coli. Skills: Bacterial genetics, mouse genetics, metabolomics, bacterial culture and growth experiments, quantifying gut inflammation.

Dr. Winter can be reached via email.

Faculty Bio