A PhD is the abbreviation for Doctor of philosophy. This degree is a post graduate program delivered to a high level student researcher who has done deep research in a specific field or subject.
Students who want to work in the science realm may need to take a class or series of classes in the area of biochemistry. These may include macromolecules, enzyme structure and function, metabolism, biochemical reactions and genetics.
The Chemical Biology Program emphasizes the interface between Chemistry and Biology, as well as its potential applications for other fields. It involves the study of inte
Ph.D. in Chemical Biology
The Chemical Biology Program emphasizes the interface between Chemistry and Biology, as well as its potential applications for other fields. It involves the study of interactions between small molecules and their possible biological targets, the study of biological pathways using chemical tools, drug delivery, as well as chemical understanding of disease states, in order to create basic science knowledge for future drug discovery efforts.The Program has been designed to train graduates to be capable of initiating collaborations on new frontiers of research with a multidisciplinary nature.
Candidates should hold a Master’s degree or its equivalent in the above-mentioned fields, with a cumulative GPA of at least 3.50 at the Master’s level.
Candidates holding a Bachelor’s degree with First Class Honors are also eligible.
The graduate study is organized by the department of physical and macromolecular chemistry in collaboration with the Institute of Organic Chemistry and Biochemistry of th
The graduate study is organized by the department of physical and macromolecular chemistry in collaboration with the Institute of Organic Chemistry and Biochemistry of the Academy of Sciences, covering computational chemistry, quantum chemistry, and molecular modeling. The study is focused on biomacromolecules (DNA and proteins) and complex molecular systems. The following projects can be studied:
structure and dynamics of pairs and oligomers of DNA in the ground and excited electronic state,
interaction of DNA with proteins and ligands,
study of non-covalent interactions, particularly the regular and irregular hydrogen bonds,
stabilizing interactions in biomolecules - peptides and proteins and theoretical models of protein folding,
theoretical study of chemical reactivity and catalysis,
physical and chemical properties of molecular sieves,
development of methods for the description of the static and dynamic properties of weakly bound systems,
study of carbon nanostructures,
interaction of biologically relevant ions with hydrated proteins,
structure and dynamics of ions in solvents and at interfaces,
physical and chemical processes on atmospheric aerosols,
Structure, dynamics, and function of RNA and DNA.
Students entering this Program are trained in all fields of Biochemistry including bioenergetics, enzymology, molecular biology, protein chemistry and structure, immunoch
Chemistry of the Life Processes
Students entering this Program are trained in all fields of Biochemistry including bioenergetics, enzymology, molecular biology, protein chemistry and structure, immunochemistry, xenobiochemistry (biochemistry of foreign substances), chemical and cellular fundaments of the metabolic reactions etc. Students participating in the Program are actively involved in grant-supported research projects at the Department of Biochemistry of the Faculty of Science of Charles University Prague as well as in the collaborating laboratories at the Academy of Sciences of Czech Republic, and in regional and company laboratories. The studies in the Program are successfully completed after obtaining the English Language Certificate (issued by independent organizations), and after passing the State Doctoral Examination in biochemistry and two other subjects (usually suggested by the supervisor), and the defense of the PhD Thesis the important part of which is at least one publication in international peer-reviewed journal at which the candidate must be the principal author....
The doctoral program in Bioorganic Chemistry encompasses both experimental work and theoretical courses in Organic and Bioorganic Chemistry. The program puts a particular
The doctoral program in Bioorganic Chemistry encompasses both experimental work and theoretical courses in Organic and Bioorganic Chemistry. The program puts a particular emphasis on high-level theoretical knowledge and practical skills in organic synthesis, physical methods of Organic Chemistry, structure elucidation, and molecular modeling focused on Quantitative Structure-Activity Relationships. Graduates will be highly proficient in Organic Chemistry focused on the design and synthesis of biologically active compounds. They will be well qualified to undertake research and development work in Chemistry and Pharmacy, including the design and manufacturing of drugs, their transporters and pharmaceutical auxiliary substances....
The purpose of the Ph.D. in Biochemistry is to provide qualifying students with an in-depth understanding and integrated knowledge of advanced applicable theory in the fi
The purpose of the Ph.D. in Biochemistry is to provide qualifying students with an in-depth understanding and integrated knowledge of advanced applicable theory in the field of Biochemistry. A Ph.D. in Biochemistry is a pure science-based research study that requires candidates to demonstrate high-level research capability and make a significant and original academic contribution at the frontiers of the discipline of specialization.
The PhD in Biochemistry demands a very high level of intellectual, theoretical and practical specialized science knowledge and insight into problems related to the field of study and of the application of advanced experimental methods and techniques of the modern research, as well as of fundamental scientific and academic values in generating, processing, interpreting and presenting research data orally and in written form....
The doctoral program is drawn to prepare experts for independent creative work applying a high level of knowledge in the fields of biochemistry, molecular biology, geneti
The doctoral program is drawn to prepare experts for independent creative work applying a high level of knowledge in the fields of biochemistry, molecular biology, genetics, microbiology and advanced instrumental techniques. The graduates are prepared to work in various types of biochemical research in medical, food, environmental and agricultural areas, in biotechnological, pharmaceutical and food industry, as well as in various types of analytical laboratories. Thanks to their deep knowledge in life sciences they are also prepared to adapt to work in various related professions.
The graduates are prepared to provide top research-oriented on life sciences in medical, food, agricultural and environmental areas and to serve in leading positions in research institutions and biotechnological industry. They will find a job in academic institutions, in biotechnological, pharmaceutical and food industry, in governmental institutions and supervisory bodies....
QBM seeks to train a cohort of young scientists who, while firmly anchored in their home discipline, are well versed in multiple approaches and styles of thought. The goa
QBM seeks to train a cohort of young scientists who, while firmly anchored in their home discipline, are well versed in multiple approaches and styles of thought. The goal is for the students to get comfortable in communicating across traditional boundaries, especially across the divide between experiment and quantitative theory – to become, in effect, scientifically bi- or multilingual. To this end, the school offers an integrated interdisciplinary Ph.D. program that consists of three main components:
An interdisciplinary research project which combines concepts and methods from different fields.
A substantial program of formal course work with a general and an individual component centered around an interdisciplinary core course that covers key problems in bioscience from multiple perspectives.
Further activities to enhance students’ other transferable skills to succeed in science as a competitive profession.