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BIOL 5630 - Comparative Animal Physiology
4
3 lecture hours per week. P: 2 BIOL and 2 organic CHEM courses; C: . Principles of function of organ systems of major groups of animals. Nutrition, digestion, respiration, skin and temperature control, blood and circulatory systems, excretion, the muscular-skeletal system, nervous coordination, and endocrine system.
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BIOL 5631 - Comparative Animal Physiology Laboratory
0
1 3-hour lab per week. P: 2 BIOL and 2 organic CHEM courses; C: . Principles of function of organ systems of major groups of animals. Nutrition, digestion, respiration, skin and temperature control, blood and circulatory systems, excretion, the muscular-skeletal system, nervous coordination, and endocrine system.
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BIOL 5640 - Entomology
4
3 lecture hours per week. P: 12 s.h. BIOL; C: . General anatomy, physiology, ecology, and classification of insects.
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BIOL 5641 - Entomology Laboratory
0
1 3-hour lab per week. P: 12 s.h. BIOL; C: . General anatomy, physiology, ecology, and classification of insects.
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BIOL 5680 - Current Topics in Coastal Biology
3
P: Consent of instructor. Seminar on environmental issues in coastal biology presented by directed reading, lecture, and discussion.
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BIOL 5800 - Principles of Biochemistry I
3
3 lecture hours per week. P: BIOL 3310, 3311; or consent of instructor; CHEM 2760, 2763. Intermediary metabolism, metabolic processes, and metabolic regulation of major groups of compounds in living cells.
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BIOL 5870 - Molecular Biology of the Gene
3
P: BIOL 2300. Genetics of prokaryotic and eukaryotic organisms at molecular level. Structure and function of nucleic acids; replication, recombination, and repair; control of gene expression; and other related topics.
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BIOL 5890 - Virology
3
P: BIOL 2100, 2101; or 5870; 3220, 3221. Plant, animal, and bacterial viruses. Emphasis on distinctive features of viruses as related to parasitism, disease, and basic research.
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BIOL 5900 - Biotechniques
2
2 1-hour lectures. P: BIOL 2100, 2101, BIOL 5870 ; consent of instructor; RP: BIOL 4890, BIOL 4891. Theory and practice of modern genetic engineering technology. Topics include DNA purification, electrophoresis, restriction mapping, use of DNA modifying enzymes, basic cloning in plasmid vectors, and strain construction by conjugation and transduction.
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BIOL 5901 - Biotechniques Laboratory
3
2 4-hour labs per week. P: BIOL 2100, 2101, BIOL 5870 ; consent of instructor; RP: BIOL 4890, BIOL 4891; C: BIOL 5900. Theory and practice of modern genetic engineering technology. Topics include DNA purification, electrophoresis, restriction mapping, use of DNA modifying enzymes, basic cloning in plasmid vectors, and strain construction by conjugation and transduction.
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BIOL 5930 - Microcomputer Applications in Molecular Biology
2
1 lecture per week. P: BIOL 3310, 3311; or BIOL 4890, 4891; or BIOL 5870. Techniques for analysis of biological characteristics of nucleic acid and protein molecules using BASIC with microcomputers.
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BIOL 5931 - Microcomputer Applications in Molecular Biology Laboratory
0
1 3-hour lab per week. P: BIOL 3310, BIOL 3311; or BIOL 4890, BIOL 4891; or BIOL 5870. Techniques for analysis of biological characteristics of nucleic acid and protein molecules using BASIC with microcomputers.
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BIOL 5950 - Taxonomy of Vascular Plants
4
1 2-hour lecture per week. P: 12 s.h. BIOL or consent of instructor; recommended BIOL 2250, BIOL 2251; C: . Plant importance, identification, classification, and evolution as well as how plants interact with living and nonliving environments. Field experiences emphasize major communities and dominant floral elements of coastal NC.
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BIOL 5951 - Taxonomy of Vascular Plants Laboratory
0
1 4-hour lab per week. P: 12 s.h. BIOL or consent of instructor; recommended BIOL 2250, BIOL 2251; C: . Plant importance, identification, classification, and evolution as well as how plants interact with living and nonliving environments. Field experiences emphasize major communities and dominant floral elements of coastal NC.
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BIOL 5995 - Internship
1
3 hours per week. May be repeated once for a maximum of 2 s.h. P: Consent of instructor. Lab experiences under direct supervision of a member of biology faculty.
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BIOL 6003 - Seminar
1
Student, staff, and guest speakers on current research.
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BIOL 6030 - Topics in Cell Biology
3
P: Consent of instructor. Some combination of current work in bioenergetics, membrane biology, immunobiology, cell/organelle differentiation, and functions of specialized cells. Other topics not routinely considered in undergraduate courses will be reviewed also. Content varies with instructor interests.
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BIOL 6040 - Animal Behavior
4
3 lecture hours per week. P: Consent of instructor; C: . Presentation of historical development of animal behavior as field of study through directed reading, discussion, and practical experience. Presentation of some current principles and experimental approaches to animal behavior.
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BIOL 6041 - Animal Behavior Laboratory
0
1 3-hour lab per week. P: Consent of instructor; C: . Presentation of historical development of animal behavior as field of study through directed reading, discussion, and practical experience. Presentation of some current principles and experimental approaches to animal behavior.
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BIOL 6071 - Human Gross Anatomy
4
P: Consent of instructor. Dissection-based regional study of human cadaver.
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BIOL 6082 - Fundamentals of Vertebrate Endocrinology
3
3 lecture hours per week. P: BIOL 3310, 3311; or 3320, 3321; or equivalent; C: BIOL 6083 . Neurosecretions and endocrine glands. Emphasis on evolution, development, morphology, and physiology of endocrine system. Hormone biosynthesis and mechanisms of action.
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BIOL 6083 - Fundamentals of Vertebrate Endocrinology Laboratory
1
1 3-hour lab per week. P: BIOL 3310, 3311; or 3320, 3321; or equivalent; C: BIOL 6082 . Neurosecretions and endocrine glands. Emphasis on evolution, development, morphology, and physiology of endocrine system. Hormone biosynthesis and mechanisms of action.
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BIOL 6100 - Advances in Molecular Biology
2
May be repeated once for credit with consent of instructor. P: BIOL 4890, BIOL 4891; or BIOL 5870; consent of instructor. In-depth focus on problems of current interest in molecular biology and genetic engineering. Topics vary.
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BIOL 6110 - Bioterrorism and Biosecurity
3
Detection and identification of and defense against biological warfare agents, including international and domestic security programs.
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BIOL 6120 - Advances in Molecular Biology
2
May be repeated once for credit with consent of instructor. P: BIOL 4890, 4891; or BIOL 5870; consent of instructor. In-depth focus on problems of current interest in molecular biology and genetic engineering. Topics vary.
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BIOL 6130 - Advances in Developmental Biology
2
P: Consent of instructor. Recent advances in animal and plant development. Specific discussion includes gene regulation, embryonic induction, hormone action, cell movement, cell growth, photoperiodism, etc., in relation to differentiation.
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BIOL 6200 - Mechanisms of Genetic Recombination
2
P: BIOL 3220, 3221; or BIOL 5870 ; BIOL 5810 , BIOL 5821 ; consent of instructor. Aspects of genetic recombination, including general and site specific recombination, gene mapping methods, DNA and RNA sequence rearrangements, and transposable genetic elements. Emphasis on current developments in growing field.
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BIOL 6210 - Phylogenetic Theory
3
Theory and practice of modern phylogenetic methods. Topics include basic evolutionary concepts, reconstructing evolutionary relationships using molecular and other data, and statistical methods for assessing reliability of phylogenetic analyses. Emphasis on hands-on experience with phylogenetic computer programs.
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BIOL 6220 - Evolution: Topics for Advanced Students
3
P: A genetics course. Current concepts of evolution, presented by reading, lecture, and discussion.
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BIOL 6230 - Advanced Techniques in Molecular Biology
2
2 lectures per week. P: BIOL 5900 , BIOL 5901 ; C: . Advanced genetic engineering techniques for basic and applied research.
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BIOL 6231 - Advanced Techniques in Molecular Biology Laboratory
3
2 4-hour labs per week. P: BIOL 5900 , BIOL 5901 ; C: BIOL 6230 . Advanced genetic engineering techniques for basic and applied research.
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BIOL 6240 - Principles of Biochemistry I
3 Formerly BIOL 5800
P: Graduate standing in biology or consent of instructor. Intermediary metabolism and metabolic regulation of major groups of compounds in organisms and current research topics in biochemistry.
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BIOL 6242 - Principles of Biochemistry II
3 Formerly BIOL 5810
P: Graduate standing in biology or consent of instructor. Intermediary metabolism including the pentose phosphate and Entner-Doudoroff pathways, glycogen and fatty acid metabolism, biosynthesis of amino acids, nucleotides, and lipids. DNA replication and repair, RNA synthesis and processing and protein synthesis and degradation. Signal transduction and the control of gene expression.
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BIOL 6244 - Principles of Biochemistry Laboratory
1 Formerly BIOL 5821
P: Graduate standing in biology or consent of instructor. General biochemistry laboratory to complement BIOL 6240 and BIOL 6242 .
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BIOL 6250 - Protein Purification Techniques
4
P: BIOL 4890, BIOL 4891. Purification methods used to isolate enzymes and other proteins from living cells. Recombinant DNA-based enzyme purification techniques.
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BIOL 6251 - Protein Purification Techniques Laboratory
0
P: BIOL 4890, 4891. Purification methods used to isolate enzymes and other proteins from living cells. Recombinant DNA-based enzyme purification techniques.
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BIOL 6300 - Neurophysiology
3
2 lecture hours per week. P: BIOL 3310, 3311; or 3320, 3321; or equivalent; C: . Cellular physiology of neurons and interrelationships between neurons.
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BIOL 6301 - Neurophysiology Laboratory
0
1 3-hour lab per week. P: BIOL 3310, 3311; or 3320, 3321; or equivalent; C: . Cellular physiology of neurons and interrelationships between neurons.
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BIOL 6504 - Research Problems in Biology
2
4 research hours per week. May be repeated for credit with change of topic. P: Consent of instructor. Research completed under supervision of faculty member.
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BIOL 6514 - Research Problems in Biology
2
4 research hours per week. May be repeated for credit with change of topic. P: Consent of instructor. Research completed under supervision of faculty member.
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BIOL 6700 - Plant Physiological Ecology
2
P: One ecology course. Physiological mechanisms of plants relevant at individual, community, and ecosystem levels. Emphasis on higher plants in stressful environments.
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BIOL 6800 - Population Ecology
2
P: One ecology course; consent of instructor. Intrinsic and extrinsic controls of microbe, plant, and animal population dynamics.
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BIOL 6820 - Systems Ecology
3
2 lecture hours per week. P: One ecology course; consent of instructor; C: . Ecosystem structure and function utilizing systems analysis methods and computer models.
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BIOL 6821 - Systems Ecology Laboratory
0
1 3-hour lab per week. P: One ecology course; consent of instructor; C: . Ecosystem structure and function utilizing systems analysis methods and computer models.
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BIOL 6850 - Advances in Ecology
2
May be repeated for credit with change of topic. P: BIOL 2250, 2251; or equivalent; consent of instructor. Advanced treatment of specialized topics in ecology. Emphasis on readings from primary literature.
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BIOL 6860 - Advances in Ecology
2
May be repeated for credit with change of topic. P: BIOL 2250, 2251; or equivalent; consent of instructor. Advanced treatment of specialized topics in ecology. Emphasis on readings from primary literature.
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BIOL 6880 - Introduction to Research
2
Library reference services and cataloging systems. Writing techniques and problems encountered in preparation of thesis and research publications.
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BIOL 6900 - Vertebrate Reproductive Biology
3
P: One cell and developmental biology or physiology course or consent of instructor. Mechanisms involved in vertebrate reproduction. Morphology, physiology, and biochemistry of reproductive systems. Topics include neuroendocrine control, environmental, and other factors regulating reproductive cycles as well as current research in reproductive technology.
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BIOL 6992 - Internship in Applied Biology
3
Variable classroom and/or lab hours per week. P: Completion of basic courses prescribed by joint screening committee composed of faculty from the biology department closely allied to proposed area of study and representatives from specific applied area (industry, government, etc.) Experience in classroom, research, governmental, or industrial applications of biology.
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BIOL 6993 - Internship in Applied Biology
2
Variable classroom and/or lab hours per week. P: Completion of basic courses prescribed by joint screening committee composed of faculty from the biology department closely allied to proposed area of study and representatives from specific applied area (industry, government, etc.) Experience in classroom, research, governmental, or industrial applications of biology.
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BIOL 6994 - Internship
1
3 contact hours per week. May be repeated for credit. P: Consent of instructor. Experience in classroom situations under direct supervision of biology faculty member.
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BIOL 7000 - Thesis
1-6
May be repeated. May count maximum of 6 s.h.
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BIOL 7001 - Thesis: Summer Research
1
May be repeated. No credit may count toward degree. Students conducting thesis research may only register for this course during summer.
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BIOL 7005 - Coastal Ecological Processes
4 Formerly BIOL 6910
P: Graduate standing in CRM program or consent of instructor. For PhD students and natural science MS students. Presentation and discussion of fundamental concepts of chemistry and biology within the context of the coastal zone and with emphasis on local ecosystems.
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BIOL 7010 - Estuarine Ecology
3 Formerly BIOL 6010
P: Consent of instructor. Discussion of the physical and biological properties of estuaries, estuarine fisheries, and human impacts on estuaries.
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BIOL 7020 - Marine Biology
3 Formerly BIOL 6020
P: Consent of instructor; C: . Biology and ecology of marine organisms with at least one field trip to coast for collection and identification.
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BIOL 7021 - Marine Biology Laboratory
0 Formerly BIOL 6021
P: Consent of instructor; C: . Biology and ecology of marine organisms with at least one field trip to coast for collection and identification.
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BIOL 7080 - Molecular Endocrinology
3
P: Consent of instructor. Review of modern concepts, theories, techniques and frontiers of molecular endocrinology with emphasis on functions, structures, signaling and regulation of hormones and receptors.
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BIOL 7090 - Experimental Embryology
4 Formerly BIOL 6090
3 lecture hours per week. P: BIOL 4060, 4061; C: . Historical and current understanding of molecular mechanisms underlying development. Applies experimental techniques to marine invertebrates, amphibian, and chick material.
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BIOL 7091 - Experimental Embryology Laboratory
0 Formerly BIOL 6091
1 3-hour lab per week. P: BIOL 4060, 4061; C: . Historical and current understanding of molecular mechanisms underlying development. Applies experimental techniques to marine invertebrates, amphibian, and chick material.
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BIOL 7130 - Current Literature in Development Biology
1
P: Consent of instructor. Review of current research literature related to development biology. Emphasis on critical analysis.
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BIOL 7170 - Immunology I
3
P: 1 course in genetics and 1 course in microbiology, or consent of instructor. Introduces immunology. Emphasis on lymphocytes, antigen presenting cells, lymphoid tissue, and antibodies.
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BIOL 7180 - Cell Culture and Hybridoma Technology
3 Formerly BIOL 6180
1 lecture hour per week. P: BIOL 7170 or equivalent; C: . Principles and mechanisms of producing monoclonal antibodies. Emphasis on basic science application of monoclonal antibodies and laboratory techniques in cell culture and construction of hybridomas. Includes discussion of recent literature that includes scientific application of monoclonal antibodies.
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BIOL 7181 - Cell Culture and Hybridoma Technology Laboratory
0 Formerly BIOL 6181
6 lab hours per week. P: BIOL 7170 or equivalent; C: . Principles and mechanisms of producing monoclonal antibodies. Emphasis on basic science application of monoclonal antibodies and laboratory techniques in cell culture and construction of hybridomas. Includes discussion of recent literature that includes scientific application of monoclonal antibodies.
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BIOL 7190 - Immunology II
3 Formerly BIOL 6190
P: BIOL 7170 or equivalent. Emphasis on MHC and T cell biology. Includes review and presentation of recent immunological literature.
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BIOL 7200 - Invertebrate Biology
4 Formerly BIOL 5200
3 lecture hours per week. P: 8 s.h. in BIOL; C: . Functional anatomy, development, ecology and evolutionary history of invertebrates. Lab emphasizes species of the Southeast Atlantic coast and estuaries.
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BIOL 7201 - Invertebrate Biology Laboratory
0 Formerly BIOL 5201
1 3-hour lab per week. P: 8 s.h. in BIOL; C: . Functional anatomy, development, ecology and evolutionary history of invertebrates. Lab emphasizes species of the Southeast Atlantic coast and estuaries.
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BIOL 7210 - Transgenic Methodology and Application
2
2 lecture hours per week. P: BIOL 5900 , BIOL 5901 or consent of instructor; C: . Production of transgenic animals and evaluation of selected genetic engineered constructs.
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BIOL 7211 - Transgenic Methodology and Application Laboratory
3
1 6-hour lab per week. P: BIOL 5900 , BIOL 5901 or consent of instructor; C: BIOL 7210 . Production of transgenic animals and evaluation of selected genetic engineered constructs.
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BIOL 7212 - Gene Targeting and Knockout Animals
2
2 lecture hours per week. P: BIOL 5900 , BIOL 5901 ; or consent of instructor; C: BIOL 7213 . Gene manipulation and production of knockout animals.
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BIOL 7213 - Gene Targeting and Knockout Animals Laboratory
3
1 6-hour lab per week. P: BIOL 5900 , BIOL 5901 ; or consent of instructor; C: . Gene manipulation and production of knockout animals.
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BIOL 7215 - Advanced Topics in Phylogenetic Theory
3
P: BIOL 6210 or consent of instructor. Current advanced topics in the theory and practice of modern phylogenetics presented by reading, lecture, and discussion.
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BIOL 7240 - The Evolution of Genes and Genomes
3
Recent advances in comparative genomics, focusing on the evolution of more complex eukaryotic genomes.
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BIOL 7300 - Landscape Ecology
3
P: Consent of instructor; RP: an ecology course; a statistics course. Interaction between spatial distribution of habitat patches and ecological processes at different scales.
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BIOL 7310 - Ecological Modeling and Simulation
3
P: BIOL 2250, 2251 or equivalent; or consent of instructor. Dynamic computer models of ecological systems. Focus on the development of algorithms and numerical solutions to ecological processes at diverse hierarchical scales.
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BIOL 7320 - Ecological Dimensions of Coastal Management
3
P: Consent of instructor. Key ecosystem perspectives and environmental policies associated with coastal management and land-use. Ecological and environmental framework of coastal cities as they pertain to the functioning of a healthy human ecosystem.
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BIOL 7330 - Ecosystems of Coastal Cities
3
P: Consent of instructor. Structure and function of coastal cities as an ecosystem. Political and economic framework of coastal cities as they pertain to the functioning of a healthy urban ecosystem.
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BIOL 7345 - Cell Motility
2 Formerly BIOL 6345 Same as ANAT 7345 ; BIOC 7345
P: General chemistry, organic chemistry, general biology, and general physics; or consent of instructor. Multidisciplinary exploration of mechanism, structure, and function of motile systems essential for eukaryotic life.
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BIOL 7350 - Current Literature in Fish Ecology
1
P: Consent of instructor. Review of current research literature related to fish ecology, fisheries, and fisheries management with emphasis on critical analysis.
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BIOL 7360 - Fisheries Management
3
P: BIOL 2250 or 3660; MATH 2121; consent of instructor. Introduces fisheries management topics, including exploited populations of living aquatic resources – fish, shellfish, and other harvestable organisms.
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BIOL 7400 - Wetland Ecology and Management
4 Formerly BIOL 5400
3 lecture hours per week. P: A course in ecology or consent of instructor; C: . Ecological structure and functioning of wetland ecosystems such as marshes, swamps, bogs, and similar areas, and relationships between scientific understanding and wetland regulation and management. Field trips to representative wetlands are required.
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BIOL 7401 - Wetland Ecology and Management Laboratory
0 Formerly BIOL 5401
1 lab per week. P: A course in ecology or consent of instructor; C: . Ecological structure and functioning of wetland ecosystems such as marshes, swamps, bogs, and similar areas, and relationships between scientific understanding and wetland regulation and management. Field trips to representative wetlands are required.
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BIOL 7480 - Cell Biology
4 Formerly BIOL 6480
2 lecture hours per week. P: Consent of instructor; C: . Investigates how cells develop, function, communicate, control their activities, and die.
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BIOL 7481 - Cell Biology Laboratory
0 Formerly BIOL 6481
6 lab hours per week. P: Consent of instructor; C: . Investigates how cells develop, function, communicate, control their activities, and die.
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BIOL 7630 - Fish Physiology
3
P: Consent of instructor. Emphasis on basic concepts and research frontiers related to fish physiology.
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BIOL 7740 - Behavioral Ecology
4 Formerly BIOL 5740
3 lecture hours per week. P: Permission of instructor; C: . Animal behavior investigated through the integration of evolution, ecology, and genetics. Readings from a text and current scientific literature, and weekly discussions.
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BIOL 7741 - Behavioral Ecology Laboratory
0 Formerly BIOL 5741
2 lab hours per week. P: Permission of instructor; C: . Animal behavior investigated through the integration of evolution, ecology, and genetics. Readings from a text and current scientific literature, and weekly discussions.
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BIOL 7781 - Bioinformatics
0
P: Course in biochemistry or consent of instructor. Bioinformatic skills necessary for routine molecular sequence analyses using computational programs.
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BIOL 7870 - Molecular Genetics
3 Formerly BIOL 6870
P: 1 course in genetics and 2 semesters of organic chemistry or consent of instructor. Introduces molecular mechanisms responsible for DNA replication, repair, and recombination as well as transcription and translation.
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BIOL 7875 - Plant Molecular Biology
3
P: BIOL 5870 , BIOL 7870 ; or consent of instructor. Introduction and analysis of the molecular mechanisms regulating plant physiology, growth and development.
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BIOL 7880 - Bioinformatics
4
P: Course in biochemistry or consent of instructor. Bioinformatic skills necessary for routine molecular sequence analyses using computational programs.
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BIOL 7890 - Current Literature in Molecular Biology
1 Formerly BIOL 6890
P: Consent of instructor. Review of current research literature related to molecular biology. Emphasis on critical analysis.
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BIOL 7895 - Current Literature in Cell Biology
1
P: Consent of instructor. Review of current research literature related to cell biology. Emphasis on critical analysis.
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BIOL 7900 - Ecological Statistics
3
P: Consent of instructor; RP: an ecology course. Philosophy of statistical methods, principles of sampling and experimental design, and common approaches to the analysis of ecological data.
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BIOL 7920 - Conservation Biology
3 Formerly BIOL 6920
P: Consent of instructor; RP: an ecology course. Applies principles of ecology, biogeography, population genetics, economics, sociology, anthropology, and philosophy to maintenance and restoration of biological diversity and management.
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BIOL 7950 - Preparing for the Job Market
3
P: Consent of instructor. Skills pertinent for career development beyond the PhD, including public speaking, the job search, job application materials, interviewing techniques, networking, and job discussion panels.
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BIOL 7970 - Teaching Natural Science in Higher Education
3
P: Consent of instructor. Pedagogical best practices and unique aspects of teaching and learning of the natural sciences in higher education contexts.
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BIOL 8810 - Methods and Techniques
3
May be repeated for credit. P: Consent of instructor. One semester rotation through research laboratories supervised by IDPBS approved faculty members.
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BIOL 8815 - Seminar in Biological Sciences
1
May be repeated for credit. P: Consent of instructor. Presentations on research or critical review of current literature topics by students in IDPBS program. Seminar presentation.
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BIOL 8830 - Introduction to Research
5
May be repeated for credit. May count maximum of 15 s.h. P: Consent of instructor. Assignment to major advisor during second year of program. Design of experimental protocols and participation in research program.
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East Carolina University