File Name: physical biochemistry applications to biochemistry and molecular biology .zip
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Biochemistry, the central scientific discipline linking the chemical, physical and biological sciences, exerts a profound influence on the progress of medicine and agriculture. By applying concepts and methods of chemistry and physics to the fundamental problems of biology, biochemists have made great progress in their effort to understand the chemistry of living organisms.
Major discoveries concerning the biochemistry of genetic material provide the tools of molecular biology that are essential to contemporary life sciences research. Biochemists and molecular biologists are concerned with living things and thus, must be fluent in the concepts of biological sciences. Since a biochemist's tools include many techniques derived from the physical sciences, he or she must receive sound education in mathematics, physics and chemistry.
Our academic programs are designed to integrate these disciplines, preparing students for a wide range of professional careers. Challenging positions for well-trained biochemists and molecular biologists are available in colleges and universities, state and federal laboratories, research institutes, medical centers and in an increasing number of industrial organizations, particularly the pharmaceutical and food industries.
Biochemists are involved with research on the chemistry of processes occurring in plants, animals and various microorganisms, and with the discovery and development of antibiotics, vitamins, hormones, enzymes, insecticides and molecular genetics techniques. This provides students taking these degree options an opportunity to take the American Society of Biochemistry and Molecular Biology certification exam.
An honors program is also available in undergraduate degree plans. The undergraduate curriculum provides a broad background in chemistry and the biological sciences and permits flexibility to meet particular interests of the student. Courses in biochemistry are based on general, organic and analytical chemistry.
The undergraduate curriculum also provides students with sufficient background in the basic sciences of mathematics, physics, chemistry and biology needed for graduate study in most disciplines of contemporary science of agriculture or medicine and other allied health subjects, and is excellent for pre-professional students. This minor is designed to give students a firm background in the fundamentals of Biochemistry and Molecular Biology and to develop critical thinking skills for the interpretation of new findings in these disciplines.
The knowledge gained by this minor gives a science educator, a laboratory technician, an industrial employee or a life sciences researcher the ability to apply these disciplines.
This minor will also demonstrate competency in these disciplines to post-graduate health institutions. Description: An introduction to biochemical research through guided work on a relevant experimental problem.
Offered for variable credit, credits, max 2. Description: Introduction to research though the study of primary research papers. Description: Examination of specific diseases at all scales, from the biology of the causal agent to global impacts. The molecular biology of the agent, interactions with the human body, and the etiology, epidemiology, history and current state of the disease, ethical considerations, and prospects and cures.
Description: A descriptive survey of organic functional groups and biomolecules. Mode of formation and function of these molecules in microorganisms, plants and animals as they relate to biotechnology, environmental sciences and health related issues.
A terminal course for students in applied biological science education. Not recommended for pre-professional students or students planning graduate study in biological sciences. Description: Connect knowledge of organic chemistry to biochemistry to better understand and appreciate the chemical principles in forming bimolecular structures and functions. Description: Directed research projects with faculty members in biochemistry and molecular biology. Identify a research question, develop a hypothesis, experimental approach, perform the experiments, and summarize their results in oral and written forms.
Description: Classical and statistical thermodynamics with applications to pure systems, solutions and electrochemistry; transport; chemical and enzyme kinetics, quantum chemistry of structure and chemical bond; and spectroscopy all with emphasis on biological applications.
Description: An introduction to the chemistry of living systems. Chemical properties of the constituents of living organisms. Modes of formation, reactions and function of these compounds in microorganisms, plants and animals. Intended for non-majors. Description: Biochemistry of nucleic acids, proteins, amino acids, carbohydrates, and lipids with an emphasis on the kinetics, thermodynamics, catalytic and regulatory strategies of biochemical reactions and bioenergetics. Designed for biochemistry majors.
Description: Integrated lecture-laboratory course on fundamental theories and techniques in biochemical, forensic, and clinical research. Hands-on experience in mass spectrometry, DNA analysis, metabolic assays, kinetic assays, and protein purification. Previously offered as BIOC Schedule types: Lab, Lecture, Combined lecture and lab. Description: Continuation of Biochemistry I with focus on metabolic pathways, cycles, and control mechanisms. This course will cover bioenergetics and metabolism of carbohydrates, lipids, amino acids and nucleotides.
Description: Applications of biochemistry, molecular biology and genetic engineering with emphasis on protein structure and function, regulation of cell function, metabolism and disease processes. Description: The biochemistry of fundamental processes in normal and disease states of eukaryotic cells. Primary literature based experimental approaches to the mechanisms of intracellular protein trafficking, cytoskeleton, cell adhesion, mitosis, cell cycle, cytokinesis, and apoptosis.
Description: Providing an introduction to programming for those intending to work with large biological datasets. This course covers the basics of Shell programming, scripting languages and examples of using software and packages. Description: A senior capstone course for the development of scientific verbal and written communications and assessment of cumulative abilities.
Focus is on problem solving, group discussion, primary literature review, oral presentation, and writing. Description: Training in independent work, study of relevant literature and experimental investigation of an assigned problem. Offered for variable credit, credit hours, maximum of 10 credit hours.
Description: For MS thesis. Offered for variable credit, credit hours, maximum of 6 credit hours. Description: Introduction to graduate research. Policies for laboratory safety, research compliance, and ethical conduct of scientific research are presented. Description: An introduction to molecular genetics on the graduate level. Description: Techniques for effective communication of scientific reasoning, logic, and critical thinking. Explanation of rationale, hypotheses, and experimental design.
Public presentations as logical arguments. The course focuses on biomolecular systems. Description: Students will provide presentations to demonstrate their mastery of research literature, new research results, explanations for research roadblocks, and their ability to synthesize new knowledge and draw conclusions.
Description: Organism function at the biochemical level and how this relates to the more complex biological systems of plants and animals. Description: Chemistry of cellular constituents; introduction to the chemical processes in living systems. The first in a series of courses for graduate students in biochemistry and related fields. Description: Lecture and laboratory course in basic biochemistry and molecular biology methods for separation and analysis of biological materials, including chromatography, electrophoresis, centrifugation, use of radioisotopes, molecular cloning and DNA sequencing.
Description: Reaction sequences and cycles in the enzymatic transformations of fats, proteins and carbohydrates; energy transfer, biosynthesis and integration in the metabolic pathways. In subsequent semesters, individual research problems pursued in laboratories of department faculty for six weeks and one credit hour each.
Description: For PhD dissertation. Offered for variable credit, credit hours, maximum of 60 credit hours. Offered for variable credit, credit hours, maximum of 2 credit hours. Strong focus on the primary literature and experimental strategies used in modern cell biology.
Description: Principles and techniques of genomics technologies and their applications in basic science and applied animal and plant research. Genome sequencing, variation detection, transcriptomics, proteomics, metabolomics, metagenomics, systems biology, forward and reverse genetics.
Prerequisites: One semester each of biochemistry, calculus and physical chemistry. Description: Two independent modules dealing with applications of physical chemistry and math to biological phenomena: 1 numerical analyses and selected spectroscopic methods, and 2 thermodynamics and transport properties. Modules may be taken together as two credits or individually for one credit. Description: Principles underlying heritable changes in gene expression caused by mechanisms other than changes in the DNA sequence.
The roles of chromatin structure, DNA and histone modification, and small RNAs in plant and animal development and disease. Applications of epigenetic-based therapeutics and the use of RNA interference in plants and animals. Description: Structure and biological function of nucleic acid containing structures with emphasis on recombinant DNA methodologies, information content, nucleic acid-protein interaction, regulation and rearrangement. Description: Theory of and methods for studying the physical and chemical basis of protein structure and function; and the enzyme catalysis, including kinetics, chemical modification and model studies.
Examples from current literature. Description: Components, organization and biosynthesis of plasma, mitochondrial and photosynthetic membranes, emphasizing structure-function relationships. Mechanism of metabolites, protons and electrons transport. Energy conservation in bioenergetic apparatus such as mitochondria, chloroplasts or bacterial chromatophores.
Description: Biochemistry of processes and structures of special importance to plants, such as photosynthesis, cell walls, nitrogen fixation, secondary metabolites and storage proteins. Description: Recent developments in biochemistry. Subject matter varies from semester to semester; students should inquire at the department office before enrolling.
Offered for variable credit, credit hours, maximum of 15 credit hours. This graduate program is also an integral part of the extensive basic research activities supported by the Oklahoma Agricultural Experiment Station. Individuals should have at least two semesters of organic chemistry and one semester of biochemistry, molecular biology, calculus, analytical and physical chemistry.
Students may be required to take appropriate undergraduate courses, if major deficiencies are identified. A non-thesis Master of Science degree is also available. It does not require a research thesis, but requires a report and extensive technical training in the laboratory.
The non-thesis MS plan requires thirty 30 credit hours of coursework and two 2 hours of research. The non-thesis MS is not recommended for students wishing to pursue a PhD. The Doctor of Philosophy Degree.
All graduate students must maintain a B-average in their graduate coursework. A grade of C in a single graduate course can place the student on academic probation. The Department offers research experience in a variety of areas.
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Biochemistry , study of the chemical substances and processes that occur in plants , animals , and microorganisms and of the changes they undergo during development and life.Reply
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