Catalog of Courses for Microbiol, Immun & Cancer Biol
This course will cover contemporary topics relevant to the detection and treatment of solid tumors and hematopoietic cancers. These include, but are not limited to, clinical trials, metabolism and cancer, cancer stem cells, cancer biomarkers, systems and networks in cancer. Students will attend organ-based tumor boards, which expose the students to the team-based approach for individualizing treatments that is practiced in the UVA Cancer Center. Prerequisite: MICR 8040 and MICR 8044.
Attendance required for all graduate students in microbiology. Topics of current research interest are presented each week by staff, students, or visiting scientists. One hour per week.
Critical analysis of current research areas in microbiology and related fields. Central topics will be covered seriatim by the staff. Students will present in rotation their analyses of pertinent scientific literature. Two conference hours per week.
Critical analysis of current research areas in microbiology and related fields. Central topics will be covered seriatim by the staff. Students will present in rotation their analyses of pertinent scientific literature. Two conference hours per week.
This course examines the molecular basis of cancer and how environmental and hereditary factors cooperate to elicit the transformed phenotype and promote cancer progression. It is team taught by both basic scientists and clinical faculty, providing students with an introduction to clinical presentation, progression, and outcomes; genetic/cellular/tissue drivers of oncogenesis and metastasis; and therapeutic challenges for the treatment of cancer
This course will cover contemporary topics relevant to the detection and treatment of solid tumors and hematopoietic cancers. These include, but are not limited to, clinical trials, metabolism and cancer, cancer stem cells, cancer biomarkers, systems and networks in cancer. Students will attend organ-based tumor boards, which expose the students to the team-based approach for individualizing treatments that is practiced in the UVA Cancer Center. Prerequisite: MICR 8040 and MICR 8044.
This course builds on MICR8040, Fundamentals in Cancer, to expand your understanding of the molecular basis of cancer. This course will expose you to non-tumor cell autonomous drivers of cancer in addition to continuing to further develop your knowledge of major contributors to cancer. Topics will include cancer cell metabolism, hormone receptor signaling, tumor angiogenesis, the plethora of cells in the tumor microenvironment, and metastasis.
Provides a detailed introduction to the innate and adaptive arms of the immune system, focusing on cell interactions and molecular pathways that regulate development of immune responses. Lectures will emphasize experimental approaches that underpin current understanding and serve as tools for further investigation. Appropriate for graduate students and clinical fellows. A previous introductory course in immunology is strongly recommended.
Continuation of MICR 8200, introducing additional components of innate and adaptive arms of the immune system. Also covers how the components of the immune system are integrated in different anatomic compartments during development of specific immune responses, including responses to pathogens and tumors, and conditions of allergy and autoimmunity. Lecture emphasis will be similar to that of MICR 8200. Prerequisite: MICR 8200.
The module will cover in depth selected contemporary topics in molecular and cellular immunology. Sessions are discussion-based and facilitated by faculty. Students will learn how to critically evaluate primary literature and to clearly present scientific information. Prerequisite: MICR 8200: Building Blocks of the Immune System and MICR 8202: Integration and Diversification of the Immune System or instructor permission.
The course will cover the science and policies governing the study of select agents, and emerging infectious diseases. Topics will include, but are not limited to pathogen characteristics, regulatory requirements, recognition and detection of intentional and natural outbreaks, emergency preparedness and interfaces with public health.
Students will learn the basic concepts, technology, and processes that guide the practical use of common statistical methods. The course introduces descriptive and inferential statistics and applications to real-world data. Students will reinforce learning with problem sets, a publicly sharable R portfolio, and a final project to achieve practical competence in the use of statistical software and interpretation of results.
This foundational module will cover fundamentals of the biology of bacteria and viruses. Bacteriology topics to be discussed include bacterial physiology, genetics, and gene regulation, and how these and other features impact drug discovery and pathogenesis. Virology topics to be discussed include virus structure and assembly, viral replication, viral genetic regulation, virus/immune interactions, and applications of viruses in 21st century.
This course will discuss the grant process including applications for federal and foundation grants, proposal writing and submissions, and grant reviews. A research proposal (based loosely on guidelines for NIH postdoctoral fellowship grant application) on a selected topic in Microbial Pathogenesis will be developed by each student (or student teams). Prerequisite: MICR 8400 and MICR 8401. Please contact course director Isabelle Derre (id8m@virginia.edu) to discuss potential exemptions.
This module will cover in depth selected advanced contemporary topics in virology. This year's focus will be the current topics on virus-host cell interactions. Sessions will be based on published primary literature and will be discussions facilitated by the faculty. Students will learn how to critically evaluate the primary literature and to clearly present scientific information. Prerequisite: MICR 8400 and instructor permission.
Research in microbiological related disciplines, e.g. cancer, immunology, bacteriology, virology, infectious diseases, cell signaling, nuclear transport, host-pathogen interactions, gene expression, etc.
For doctoral dissertation, taken under the supervision of a dissertation director.
Critical analysis of current research areas in microbiology and related fields. Central topics will be covered seriatim by the staff. Students will present in rotation their analyses of pertinent scientific literature. Two conference hours per week.
This course examines the molecular basis of cancer and how environmental and hereditary factors cooperate to elicit the transformed phenotype and promote cancer progression. It is team taught by both basic scientists and clinical faculty, providing students with an introduction to clinical presentation, progression, and outcomes; genetic/cellular/tissue drivers of oncogenesis and metastasis; and therapeutic challenges for the treatment of cancer
This course will cover contemporary topics relevant to the detection and treatment of solid tumors and hematopoietic cancers. These include, but are not limited to, clinical trials, metabolism and cancer, cancer stem cells, cancer biomarkers, systems and networks in cancer. Students will attend organ-based tumor boards, which expose the students to the team-based approach for individualizing treatments that is practiced in the UVA Cancer Center. Prerequisite: MICR 8040 and MICR 8044.
This course builds on MICR8040, Fundamentals in Cancer, to expand your understanding of the molecular basis of cancer. This course will expose you to non-tumor cell autonomous drivers of cancer in addition to continuing to further develop your knowledge of major contributors to cancer. Topics will include cancer cell metabolism, hormone receptor signaling, tumor angiogenesis, the plethora of cells in the tumor microenvironment, and metastasis.
Provides a detailed introduction to the innate and adaptive arms of the immune system, focusing on cell interactions and molecular pathways that regulate development of immune responses. Lectures will emphasize experimental approaches that underpin current understanding and serve as tools for further investigation. Appropriate for graduate students and clinical fellows. A previous introductory course in immunology is strongly recommended.
Continuation of MICR 8200, introducing additional components of innate and adaptive arms of the immune system. Also covers how the components of the immune system are integrated in different anatomic compartments during development of specific immune responses, including responses to pathogens and tumors, and conditions of allergy and autoimmunity. Lecture emphasis will be similar to that of MICR 8200. Prerequisite: MICR 8200.
The module will cover in depth selected contemporary topics in molecular and cellular immunology. Sessions are discussion-based and facilitated by faculty. Students will learn how to critically evaluate primary literature and to clearly present scientific information. Prerequisite: MICR 8200: Building Blocks of the Immune System and MICR 8202: Integration and Diversification of the Immune System or instructor permission.
The course will cover the science and policies governing the study of select agents, and emerging infectious diseases. Topics will include, but are not limited to pathogen characteristics, regulatory requirements, recognition and detection of intentional and natural outbreaks, emergency preparedness and interfaces with public health.
This foundational module will cover fundamentals of the biology of bacteria and viruses. Bacteriology topics to be discussed include bacterial physiology, genetics, and gene regulation, and how these and other features impact drug discovery and pathogenesis. Virology topics to be discussed include virus structure and assembly, viral replication, viral genetic regulation, virus/immune interactions, and applications of viruses in 21st century.
The class provides a comprehensive study of pathogenic microbes and their unique and conserved mechanisms of virulence. Prerequisite: Core Course and Molecular Principles of Bacteriology and Virology
This course will discuss the grant process including applications for federal and foundation grants, proposal writing and submissions, and grant reviews. A research proposal (based loosely on guidelines for NIH postdoctoral fellowship grant application) on a selected topic in Microbial Pathogenesis will be developed by each student (or student teams). Prerequisite: MICR 8400 and MICR 8401. Please contact course director Isabelle Derre (id8m@virginia.edu) to discuss potential exemptions.
This module will cover in depth selected advanced contemporary topics in virology. This year's focus will be the current topics on virus-host cell interactions. Sessions will be based on published primary literature and will be discussions facilitated by the faculty. Students will learn how to critically evaluate the primary literature and to clearly present scientific information. Prerequisite: MICR 8400 and instructor permission.
Research in microbiological related disciplines, e.g. cancer, immunology, bacteriology, virology, infectious diseases, cell signaling, nuclear transport, host-pathogen interactions, gene expression, etc.
For doctoral dissertation, taken under the supervision of a dissertation director.