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Prospective students should use this checklist to obtain specific admissions requirements on how to apply to Graduate School

View PDF version of the Immunology catalog description


Dr. Peter Burrows


(205) 934-6529


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William W. Andrews, Professor

T. Prescott Atkinson, Professor; immunodeficiencies, allergy, inflammation

Scott R. Barnum, Professor; Neuroimmunology, complement, EAE, cerebral malaria

Khurram Bashir, Professor; neuroimmunology, MS

Etty Benveniste, Professor; cytokines, neuroimmunology

J. Edwin Blalock, Professor; pulmonary immunology

Suresh Boppana, Professor;

S. Louis Bridges, Jr., Professor; Genetics of rheumatoid arthritis

David E. Briles, Professor; host-pathogen interactions, S. pneumoniae

Elizabeth E. Brown, Assistant Professor; epidemiology of immune disease

Donald Buchsbaum, Professor; Cancer immunotherapy

R. Pat Bucy, Professor; T cell immunology

Daniel C. Bullard, Associate Professor; adhesion molecules, autoimmune disease

Peter D. Burrows, Professor; B cell development and function

David D. Chaplin, Professor; Lymphoid tissue development

Noel K. Childers, Professor; mucosal immunology, oral pathogens

James Collawn, Professor; sorting and endocytic pathways

Randy Cron, Associate Professor; Immunotherapy

Randall S. Davis, Associate Professor; Fc receptors, lymphocyte development

Patricia De Sarno, Assistant Professor; Experimental autoimmune encephalomyelitis

Jeffrey C. Edberg, Associate Professor; Fc receptors, rheumatoid arthritis

Craig A. Elmets, Professor; dendritic cell biology

Charles O. Elson, III, Professor; Mucosal immunology

David O. Freedman, Professor; immuno-parasitology, tropical medicine

Kohtaro Fujihashi, Professor; Mucosal immunology

James F. George, Professor; Transplantation

Vithal K. Ghanta, Professor; Cancer biology

Paul Goepfert, Associate Professor; Immune responses to HIV

Laurie E. Harrington, Assistant Professor; T cell memory

Zdenek Hel, Assistant Professor; HIV pathogenesis

Hui-Chen Hsu, Associate Professor; Autoimmunity

Louis B. Justement, Professor; Lymphocyte signaling

Janusz Kabarowski, Associate Professor; bio-active lipids and inflammation

Judith A. Kapp, Professor; ocular immunology, autoimmune disease

Richard A. Kaslow, Professor; epidemiology of HIV infections

John F. Kearney, Professor; B cell development

Robert P. Kimberly, Professor; Fc receptors, rheumatoid arthritis

Christopher A. Klug, Professor; Hematopoietic stem cells

Hiromi Kubagawa, Professor; Immunopathology

Richard D. Lopez, Associate Professor; gamma/delta T cells

Robinna G. Lorenz, Professor; Mucosal immunology

Sadis Matalon, Professor; reactive oxygen and nitrogen species

Jiri Mestecky, Professor; Mucosal immunology

Suzanne M. Michalek, Professor; Mucosal immunology

John D. Mountz, Professor; T cells in autoimmunity

Moon Nahm, Professor; Immunity to pneumococci

Jan Novak, Associate Professor; Glycosylation in immune responses

Hongwei Qin, Assistant Professor; Immune signaling

Raghavan Raju, Associate Professor; Acute inflammation

Chander Raman, Associate Professor; T cell immunology

David Randolph, Assistant Professor; T cell immunology

Russell W. Read, Associate Professor; Ocular immunology

Harry W. Schroeder, Jr., Professor; Immunogenetics

Lisa M. Schwiebert, Associate Professor; Asthma

Chad Steele, Associate Professor; Pulmonary immunology

Alexander J. Szalai, Professor; C-reactive protein, F c receptors, innate immuity

Jianming Tang, Associate Professor; genetic contribution to infection and immunity

Laura Timares, Assistant Professor; Dendritic cell biology

Hubert Tse, Assistant Professor; diabetes, reactive oxygen species, autoimmune disease

Mark R. Walter, Professor; structure of cytokines and cytokine receptors

Casey T. Weaver, Professor; T cell immunology

Douglas A. Weigent, Professor; Neuroimmunology

Jianming Wu, Assistant Professor; Autoimmune disease

Hui Xu, Associate Professor; Immunoregulation

Janet Yother, Professor; host-pathogen interactions

Nabiha Yusuf, Instructor; Environmental immunology

Allan J. Zajac, Associate Professor; Immunovirology

Huang-Ge Zhang, Associate Professor; Clinical/Translational

Tong Zhou, Professor; immunotherapy, autoimmune disease

Theme Information


The Immunology Graduate Theme is a part of the UAB Graduate Biomedical Sciences Program.  We are an interdisciplinary program emphasizing the study of multiple aspects of the immune system, from basic molecular mechanisms to whole animal studies and human translational research.  The remarkable breadth of our program can be seen in the primary departments of the almost fifty theme faculty members. Faculty from the Departments of Microbiology, Cell Biology, Biochemistry and Molecular Genetics, Genetics, Biology, Pathology, Physiology and Biophysics, Medicine, Pediatrics, Environmental Health Sciences, Epidemiology, Surgery, Ophthalmology, Dermatology, and Dentistry are involved in internationally recognized research and in the training of PhD-level graduate students and postdoctoral fellows.  Currently, forty-five students are in training in the laboratories of our immunology faculty.  Primary areas of research include: Allergy, Autoimmunity, Cancer Immunology, Clinical/Translational, Developmental Immunology, Host Defense, Immunodeficiency, Immunogenetics, Inflammation, Mucosal and Ocular Immunology, Neuroimmunology, Structural Immunology, and Transplantation Immunology.  Students obtaining a PhD in the Immunology Graduate Theme will be well-versed in modern immunology and have the option to pursue diverse career pathways.

Admission Requirements

Acceptance is based on undergraduate record (curriculum and grade point average [GPA]), Graduate Record Exam (GRE) scores, letters of recommendation, a personal statement of research and career interests, and past research activities. Domestic candidates who pass the first round of selection will be invited to visit UAB and meet the Immunology faculty and students.

The general requirements for acceptance into the Theme are:

  • minimum GPA of 3.0 on a 4.0 scale
  • combined verbal/quantitative GRE score ≥1100
  • a strong background in biology, chemistry, and/or mathematics. Undergraduate level courses in immunology, cell biology, biochemistry, physics, genetics, organic and analytical chemistry are strongly encouraged.  Undergraduate mathematics through calculus is also recommended. 

International students must submit scores from the Test of English as a Foreign Language (TOEFL) earned within the last two years.  Applicants with scores of 600 (paper-based) or 250 (computer-based) or higher will be considered.

All students in the program receive a stipend (currently $26,000), tuition and fees, and single coverage health insurance.  Support is provided by the Theme, by the student's mentor, or through one of many fellowship programs.

Overview of the Theme

The Theme emphasizes interdisciplinary training in all areas of modern immunology.  The first year of the program involves fundamental coursework and three research-based rotations in laboratories of the student's choosing. A qualifying examination and admission to candidacy take place in the second to third year.  Advanced coursework, journals clubs, and dissertation research occur in the second and subsequent years.  It is expected that completion of the PhD will require five to six years.

To broaden their training experience, students are introduced to research at the national and international levels through seminars presented by outside speakers and by attendance at national and international scientific meetings.  Students take an active role in inviting and hosting speakers at UAB, and they are strongly encouraged to present their own results at outside meetings. 

Additional Information

Deadline for Entry Term(s):

Consult Theme Director for information

Deadline for All Application Materials to be in the Graduate School Office:

Domestic Applications: Mar 15

International Applications: Jan 15

Number of Evaluation Forms Required:


Entrance Tests


For detailed information, contact Dr. Peter Burrows, Theme Director, UAB Immunology Graduate Theme, SHEL 406, 1825 University Blvd., Birmingham, Alabama 35294-2182.

Telephone (205)934-6529

Fax (205) 996-6749

E-mail This email address is being protected from spambots. You need JavaScript enabled to view it.

Course Descriptions

Core Curriculum


  • Amino acids and primary protein structure
  • Protein secondary and tertiary structure
  • Postranslational modifications  and allosteric changes
  • Glycobiology
  • Lipid structure and metabolism
  • Thermodynamic principles of biochemical reactions
  • Enzyme kinetics
  • Enzyme mechanisms and regulation
  • Amino acid/nitrogen metabolism
  • Glycolysis, gluconeogenesis and citric acid cycle
  • Glycogenesis, glycogenolysis and pentose phosphate pathway
  • Electron transport/oxidative phosphorylation


  • DNA recombination
  • Nucleic acids & DNA replication
  • Prokaryotic transcription
  • Prokaryotic translation
  • Prokaryotic gene regulation
  • Eukaryotic genome organization
  • Eukaryotic DNA replication
  • Eukaryotic transcription
  • Eukaryotic translation
  • Eukaryotic gene regulation I
  • Eukaryotic gene regulation II
  • Mendelian inheritance
  • Genetic variation and polymorphisms


  • Integrated systems: From organelles to organs
  • Membrane structure/function
  • Cytoskeleton
  • Secretion
  • Endocytosis, lysosomal targeting, protein degradation
  • Biochemistry of signal transduction
  • Cell cycle
  • Cell-cell junctions and polarity
  • ECM and ECM-cell interactions
  • Cell motility
  • Apoptosis
  • Discipline of pharmacology
  • Pharmacokinetics

Theme Specific Courses

Introductory Immunology. Introductory Immunology is a team-taught survey course that covers basic concepts of innate and adaptive immunity. These integrated series of lectures provide a firm foundation in immunology, especially for those with minimal immunology background, and serve as an important refresher for the developing immunologist. Students actively participate in the course through weekly presentations of selected immunology topics based on the current literature.

Lymphocyte Biology. The objective of this class is to provide first year immunology students with the opportunity to gain a more in-depth understanding of selected aspects of lymphocyte biology. Possible topics include T cell subsets, B cell biology, lymphocyte activation, and transplantation immunology. The course is literature intense and students are required to read and present numerous scientific papers.

Dendritic Cell Biology. Understanding the biology and function of the immune system's professional antigen presenting cells, the dendritic cells, is a fast moving challenge.  The course will cover the seminal papers in the field that have laid the groundwork for our current understanding of this group of complex cells. The major component of the class will emphasize student presentations of assigned reviews and journal articles.  Presentations will include an overview (provided by the review article) and 2-3 papers per class.

History of Immunology. This course will examine the concepts that have shaped what we now consider pillars in our knowledge of the immune system. The course will cover the major events and discoveries that led to these established concepts and, where possible, the advent of technologies that facilitated these advances. The course will involve student participation in the form of presentations in selected areas as well as lectures by some individuals who were part of this history.

Neuroimmunology. The purpose of this course is threefold; 1) to provide students with a basic overview of immunology and neuroscience in conjunction with a specific focus on how neuroinflammatory processes affect the brain, 2) to teach students basic neuroanatomy of the brain, and 3) to have students understand the clinical implications of neuroinflammatory diseases by attending rounds with clinicians. How the immune system influences the brain is an emerging field in neuroscience research and is currently not being addressed in a graduate or medical course.

Innate Immunity. The study of innate immunity has made a resurgence in recent years and its critical role, not only in host defense against invading pathogens, but in the development of adaptive immune responses is now appreciated.  This course will provide an in-depth look at selected aspects of the innate immune response including the cellular and molecular components critical to its development.  The course will involve student presentations on selected topics.

Mucosal Immunology. The mucosal immune system is essentially the primary site of interaction between invading pathogens and the immune system.  Mucosal immunity has always been a strength of the immunology community at UAB and is rarely covered at most other institutions.  This class will provide in-depth analysis of the structural features that distinguish the mucosal immune system from the peripheral immune system.  Features of innate and adaptive immunity as they relate to mucosal immune responses will also be covered.  The course will involve student presentations on selected topics.

Journal Clubs

MIC 797-00: Cellular and Molecular Immunology Journal Club

MIC 796-00: Neuroimmunology Journal Club

MIC 737-VT: Mucosal Immunology Journal Club

MIC 772-VT: Bacterial Pathogenesis Journal Club

MIC 724-VT: Virology Journal Club

MIC 785-00: Post-Transcriptional Regulatory Mechanisms

MIC 786-00: Retrovirology Journal Club

MIC 789-00: Journal Club in Biological Crystallography