PhD level courses offer advanced study in doctoral programs, sought after as the highest level of education available through university degree programs. Many schools offer research fellowships and other doctoral programs aimed at cultivating scientific growth.
Those seeking a scientific education may ask “What is a PhD in Microbiology?” Doctoral-level studies in microbiology focus on advanced application of scientific techniques to study microorganisms and how they affect human life, technology, the ecosystem, and other factors in natural science. Often microbiology programs focus on the next generation of advanced technology used in development of biology-based technologies that provide significant advantages at a commercial level. Microbiology can also focus on bacterial diseases and their identification, prevention, and treatment.
In a microbiology program, students often acquire such advanced abilities as cell sample preparation and cell culturing. They can also attain capabilities applicable in a number of settings, such as exceptional presentation and speaking skills.
Each microbiology program is unique to its university and thus may have unique cost structures. Consult with prospective universities and their admissions staff to understand the expenses inherent in attending their program.
Careers in microbiology can vary widely due to the universal application of microbiological principles. A PhD graduate in microbiology may go on to be a pathologist or researcher, working in disease control and prevention by researching bacterial pathogens and devising cures. Other graduates may end up as food scientists, using their knowledge of microbiology to understand how microorganisms impact food production and development. Some microbiologists have even moved onto work in the field of energy production, exploring alternative methods for biofuel and energy generation using microorganisms.
To find the right program in microbiology, students should consider factors such as location and online availability, including whether they want to study locally or abroad. For additional information, search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
The doctoral program "Microbiology and Biochemistry" is a member of the Göttingen Graduate School for Neurosciences, Biophysics, and Molecular Biosciences (GGNB). The research-oriented program is taught in English and open to students who hold a Master's degree (or equivalent) in the biosciences, chemistry, physics, medicine, or related fields. [+]
Ph.D. in Microbiology and Biochemistry
The doctoral program "Microbiology and Biochemistry" is a member of the Göttingen Graduate School for Neurosciences and Molecular Biosciences (GGNB). It is hosted by the Göttingen Center for Molecular Biosciences (GZMB) and is conducted jointly by the University of Göttingen and the Max Planck Institute for Biophysical Chemistry.The research-oriented program is taught in English and open to students who hold a Master's degree (or equivalent) in the biosciences, chemistry, physics, medicine, or related fields.The Microbiology and Biochemistry program accepts students who are interested in all problems of microbiology and biochemistry. Training is aimed at achieving a comparative understanding of microorganisms work at a molecular level and how they contribute to interactions in their natural environments; a critical sense of how to apply comprehensive genomic analysis tools, and an ability to set up and test conceptual models for molecular functions.... [-]
The objective of the Ph.D. degree in Microbiology is to impart advanced scientific knowledge in microbiology, to provide training opportunities in conducting state-of-the-art basic research in microbiology, and closely related disciplines. [+]
The objective of the Ph.D. degree in Microbiology is to impart advanced scientific knowledge in microbiology, to provide training opportunities in conducting state-of-the-art basic research in microbiology, and closely related disciplines.Program Vision and Goals
The ultimate vision of the Ph.D. program in microbiology at Alabama State University is to make essential scientific and societal advancements for the benefit of the state of Alabama, region, and nation through the operation of a unique new doctoral research and training program. The research, education and service outcomes of the proposed Ph.D. Program in Microbiology will benefit Alabama’s citizens in important ways, namely: 1) create new opportunities to study environmental and commercial food resource issues important to the state’s economy, and the health and safety of its citizens, (2) provide marketable, doctoral-level training opportunities in areas of emerging scientific importance, (3) foster the development and implementation of scientific strategies that maximize stewardship of the state’s environmental and commercial resources, and (4) produce a pool of scientists capable of employing contemporary tools to address emerging societal threats such as rising food and waterborne diseases, bioterrorism, environmental contaminants, and new-generation microbial pathogens.... [-]
This field of study is focused on education of specialists competent to work in a wide spectrum of microbiology. A study is targeted on the complex mastering of several branches of contemporary microbiology, including environmental, clinical and food microbiology together with principles of molecular genetics. [+]
This field of study is focused on education of specialists competent to work in a wide spectrum of microbiology. The study is targeted on the complex mastering of several branches of contemporary microbiology, including environmental, clinical and food microbiology together with principles of molecular genetics.Careers
The graduate is prepared for research, but also for the leading position in many branches of technological, clinical, environmental and food microbiology laboratories. It guarantees a deep knowledge of basic microbiology and contemporary arrays of molecular biology and biochemistry.Selection of recent theses β-N-Acetylhexosaminidase from Talaromyces flavus The role of SUMO in cellular response to stress Isolation of antimicrobial peptides from plants Isolation and characterization of lipases and their biotechnological applications New vaccination tools inducing T cell immunity Uptake and intracellular sequestration of zinc by the ectomycorrhizal fungus Russula atropurpurea Pro-apoptotic signaling of Bordetella pertussis adenylate cyclase toxin Preparation and characterization of recombinant ameloblastin Biofilm, virulence and control strategies of Listeria monocytogenes The study of biological systems responsible for the degradation of chlorbenzoic acids Miscellaneous ... [-]