BS in Physiology and Developmental Biology
(65–66 hours*)

Program Requirements    |    View MAP

1. Complete the following life sciences core courses:
   BIO 420 : Evolutionary Biology. (2:2:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   BIO 420 : Evolutionary Biology. (2:2:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	MMBIO 240 & PWS 340
   RECOMMENDED:	Concurrent enrollment in Bio 421.
   DESCRIPTION:	Intensive examination of evolution as the conceptual cornerstone of biology.
   
   
   Course Outcomes
   
   
   
   MMBIO 240 : Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   MMBIO 240 : Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	CHEM 105; Bio 130 or MMBio 151 or PDBio 120.
   DESCRIPTION:	Fundamentals of protein and nucleic acid structure and their function in the context of the classical experiments that have informed our current models of biology at the molecular level.
   
   
   Course Outcomes
   
   
   
   MMBIO 241 : Molecular and Cellular Biology Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   MMBIO 241 : Molecular and Cellular Biology Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	MMBio 240 or concurrent enrollment.
   DESCRIPTION:	Molecular and cellular biology techniques laboratory.
   
   
   Course Outcomes
   
   
   
   PDBIO 120 : Science of Biology. (2:2:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 120 : Science of Biology. (2:2:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   OFFERED:	Honors also
   WHEN TAUGHT:	Fall; Winter; Summer
   DESCRIPTION:	General biology course designed for biological science majors, emphasizing the scientific method, cell theory, biochemical unity, the central dogma, bioenergetics, reproduction, and evolutionary theory.
   
   
   Course Outcomes
   
   
   
   PDBIO 360 : Cell Biology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 360 : Cell Biology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	MMBIO 240
   DESCRIPTION:	Fundamentals of cell structure and function with reference to analytical methods used by cell biologists. Practice in designing, executing, and interpreting relative experiments.
   
   
   Course Outcomes
   
   
   
   PWS 340 : Genetics. (2:2:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   PWS 340 : Genetics. (2:2:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	MMBIO 240
   DESCRIPTION:	Genetic mechanisms, their fundamental nature, interactions, and applications to human affairs. Genetics in quantitative terms. Extensive practice in problem solving.
   
   
   Course Outcomes
   
   
   
2. Complete the following chemistry and physics courses:
   CHEM 105 : General College Chemistry. (4:5:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 105 : General College Chemistry. (4:5:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring; Summer
   PREREQUISITE:	Math 110 (or equivalent) or concurrent enrollment.
   DESCRIPTION:	Atomic and molecular structure including bonding and periodic properties of the elements; reaction energetics, electrochemistry, acids and bases, inorganic and organic chemistry.
   NOTE:	Primarily for students in engineering and biological sciences. Three lectures and two recitation sections per week.
   
   
   Course Outcomes
   
   
   
   CHEM 106 : General College Chemistry. (3:4:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 106 : General College Chemistry. (3:4:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Summer
   PREREQUISITE:	CHEM 105; or CHEM 111
   DESCRIPTION:	Continuation of Chem 105 but covering most of the topics in a more quantitative way. Detailed treatment of thermodynamics and equilibria.
   NOTE:	Three lectures and one recitation section per week.
   
   
   Course Outcomes
   
   
   
   CHEM 107 : General College Chemistry Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 107 : General College Chemistry Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring; Summer
   PREREQUISITE:	Chem 106 or Chem 112 or concurrent enrollment.
   DESCRIPTION:	Chemical properties, chemical reactions, collection and interpretation of data, preparation of reports.
   NOTE:	Required for most students needing one year of general chemistry.
   
   
   Course Outcomes
   
   
   
   CHEM 351 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 351 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	CHEM 105; or CHEM 111
   DESCRIPTION:	Chemical bonds and molecular structure, conformation and configuration, functional classes, reactions and mechanisms, syntheses.
   NOTE:	Primarily for majors in chemical engineering and the biological sciences.
   
   
   Course Outcomes
   
   
   
   CHEM 352 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 352 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring; Summer
   PREREQUISITE:	CHEM 351
   DESCRIPTION:	Continuation of Chem 351.
   
   
   Course Outcomes
   
   
   
   CHEM 481 : Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 481 : Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	CHEM 352M & PDBIO 120; or CHEM 352 & PDBIO 120
   DESCRIPTION:	First-semester biochemistry. Molecular components of cells, chemical structure and function, enzymes, metabolic transformations, photosynthesis.
   NOTE:	For chemistry majors and students in biological sciences who contemplate pursuing advanced degrees, including medicine.
   
   
   Course Outcomes
   
   
   
   PHSCS 105 : Introductory Applied Physics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PHSCS 105 : Introductory Applied Physics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	High school algebra and trigonometry.
   RECOMMENDED:	Concurrent enrollment in Phscs 107.
   DESCRIPTION:	Applied physics course not requiring calculus. Topics include mechanics, heat, wave motion, sound.
   
   
   Course Outcomes
   
   
   
   PHSCS 106 : Introductory Applied Physics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PHSCS 106 : Introductory Applied Physics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Summer
   PREREQUISITE:	Phscs 105 or equivalent.
   RECOMMENDED:	Concurrent enrollment in Phscs 108.
   DESCRIPTION:	Continuation of Phscs 105. Topics include electricity and magnetism, atomic and nuclear physics, and optics.
   
   
   Course Outcomes
   
   
   
3. Complete the following major core courses:
   PDBIO 325 : Tissue Biology (with lab). (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 325 : Tissue Biology (with lab). (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   PREREQUISITE:	PDBIO 120 & PDBIO 220
   DESCRIPTION:	Human anatomy and histology; function of cells in tissue; early stages of embryology.
   NOTE:	Course should be taken during a student's second or third year and before courses in physiology and developmental biology.
   
   
   Course Outcomes
   
   
   
   PDBIO 362 : Advanced Physiology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 362 : Advanced Physiology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	MMBIO 240 & PHSCS 106; or MMBIO 240 & PHSCS 220
   DESCRIPTION:	Integrated approach to organ system and cellular physiology. Problem solving/calculations.
   NOTE:	Requires background in chemistry and molecular biology. Students without this background should take PDBio 305.
   
   
   Course Outcomes
   
   
   
   PDBIO 363 : Advanced Physiology Laboratory. (1:.5:1.5)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 363 : Advanced Physiology Laboratory. (1:.5:1.5)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	PDBio 362 or concurrent enrollment; or instructor's consent.
   DESCRIPTION:	Experiments and exercises in advanced physiology emphasizing human physiology. Computer simulations of muscle function, endocrine disease, and human physiology. Emphasizes problem solving and calculations.
   
   
   Course Outcomes
   
   
   
   PDBIO 455R : Physiology and Developmental Biology Seminar. (.5:1:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 455R : Physiology and Developmental Biology Seminar. (.5:1:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   DESCRIPTION:	Seminar (research) presentations for undergraduates in physiology and developmental biology.
   
   
   Course Outcomes
   
   
   
   PDBIO 482 : Developmental Biology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 482 : Developmental Biology. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   PREREQUISITE:	MMBIO 240 & MMBIO 241 & PDBIO 360
   RECOMMENDED:	PDBio 325.
   DESCRIPTION:	Invertebrate and vertebrate developmental biology. Embryonic gastrulation, neurulation, pattering, etc. Modern approaches and research strategies. Emphasizes gene function, cell signaling, signal transduction during embryogenesis.
   
   
   Course Outcomes
   
   
   
4. Complete one course from the following:
   PDBIO 210 : Human Anatomy (with virtual lab). (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 210 : Human Anatomy (with virtual lab). (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   OFFERED:	Independent Study only.
   DESCRIPTION:	Structure and function of the human body. Virtual lab experience included.
   
   
   Course Outcomes
   
   
   
   PDBIO 220 : Human Anatomy (with lab). (3:2:2)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 220 : Human Anatomy (with lab). (3:2:2)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring; Summer
   DESCRIPTION:	Structure and function of the human body. Lab included.
   
   
   Course Outcomes
   
   
   
5. Complete one course from the following:
   PDBIO 365 : Pathophysiology. (4:4:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 365 : Pathophysiology. (4:4:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter; Spring
   PREREQUISITE:	PDBIO 305; or PDBIO 362
   DESCRIPTION:	Variations in physiological mechanisms that account for development of common disturbances in normal control and activities of body's organs and organ systems.
   
   
   Course Outcomes
   
   
   
   PDBIO 484 : Human Embryology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 484 : Human Embryology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	PDBio 360 or equivalent.
   RECOMMENDED:	PDBio 325.
   DESCRIPTION:	Developmental milestones of prenatal life: etiology of congenital malformations, emphasizing molecular and cellular changes and their functional consequences.
   
   
   Course Outcomes
   
   
   
6. Complete one course from the following advanced molecular courses:
   BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   PREREQUISITE:	MMBIO 240 & PWS 340
   DESCRIPTION:	Current analysis of genes and genomes; computational and statistical approaches for analyzing genomic data, including genome sequencing and annotation, gene expression and the transcriptome, proteomics and functional genomics, and genetic variation and SNPs.
   
   
   Course Outcomes
   
   
   
   CHEM 482 : Mechanisms of Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 482 : Mechanisms of Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Winter
   PREREQUISITE:	CHEM 481M; or CHEM 481
   DESCRIPTION:	Second-semester biochemistry. Nucleic acid biochemistry and molecular biology: nucleotide metabolism, chromosome and chromatin structure, DNA structure and replication, RNA transcription and gene expression, protein synthesis and regulation, eukaryotic gene systems, signal transduction.
   
   
   Course Outcomes
   
   
   
   CHEM 489 : Structural Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   CHEM 489 : Structural Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	CHEM 468
   DESCRIPTION:	Molecular structures of proteins, RNA and DNA as determinants of biological function. Topics include thermodynamics of folding and binding, structural determination, spectroscopy, modeling, protein recognition.
   
   
   Course Outcomes
   
   
   
   MMBIO 430 : Advanced Cell Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   MMBIO 430 : Advanced Cell Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	PDBIO 360; Bioscience major status.
   DESCRIPTION:	Molecular genetics, cell biology, and developmental biology.
   
   
   Course Outcomes
   
   
   
   MMBIO 441 : Advanced Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   MMBIO 441 : Advanced Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   PREREQUISITE:	MMBIO 240 & CHEM 352
   DESCRIPTION:	Molecular biology of gene structure and expression in prokaryotic and eukaryotic organisms.
   
   
   Course Outcomes
   
   
   
7. Complete one course from the following capstone courses:
   NEURO 480 : Advanced Neuroscience. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   NEURO 480 : Advanced Neuroscience. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall; Winter
   PREREQUISITE:	NEURO 205 & PDBIO 360; Neuroscience major status.
   DESCRIPTION:	Principles of neural science. Structure-function relationships and integration of the nervous system.
   
   
   Course Outcomes
   
   
   
   PDBIO 498 : Advanced Senior Research Project. (3:Arr.:Arr.)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 498 : Advanced Senior Research Project. (3:Arr.:Arr.)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	On Demand
   PREREQUISITE:	PDBIO 494R & PDBIO 495R; Instructor's consent must be obtained during previous semester.
   DESCRIPTION:	Special project course for advanced PDBio research students. Engaging in scientific research as specified in an approved research proposal. Comprehensive written work of research required.
   
   
   Course Outcomes
   
   
   
   PDBIO 561 : Physiology of Drug Mechanisms. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 561 : Physiology of Drug Mechanisms. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	PDBio 352 or instructor's consent.
   DESCRIPTION:	Overview of physiological and pharmacological mechanisms and principles of human therapeutics as applied to clinically significant pathophysiology.
   
   
   Course Outcomes
   
   
   
   PDBIO 562 : Reproductive Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 562 : Reproductive Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	PDBio 362 or equivalent.
   RECOMMENDED:	Chem 481, PDBio 482; or equivalents.
   DESCRIPTION:	Mammalian reproductive physiology.
   
   
   Course Outcomes
   
   
   
   PDBIO 565 : Endocrinology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 565 : Endocrinology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Winter
   PREREQUISITE:	PDBio 362 or instructor's consent.
   DESCRIPTION:	Mammalian hormones.
   
   
   Course Outcomes
   
   
   
   PDBIO 568 : Cellular Electrophysiology and Biophysics. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 568 : Cellular Electrophysiology and Biophysics. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Fall
   PREREQUISITE:	PDBio 362, Phscs 140, 220; or instructor's consent.
   DESCRIPTION:	Using electrophysiology and biophysics as an approach to study of physiology. Extensive look at ion channels and cell signaling.
   
   
   Course Outcomes
   
   
   
   PDBIO 582 : Developmental Genetics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   PDBIO 582 : Developmental Genetics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
   
   WHEN TAUGHT:	Winter
   PREREQUISITE:	PDBio 482 or equivalent.
   DESCRIPTION:	Gene function and regulation during cell specification and differentiation, pattern formation, and organogenesis in developing embryo.
   
   
   Course Outcomes
   
   
   
8. Complete 6.5 hours from the following courses, including at least 1 hour from the mentored experience list and at least 2 hours from the advanced laboratory requirement list.
   1. Mentored experience:
      PDBIO 349R : Physiology and Developmental Biology Teaching Seminar. (1-3:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 349R : Physiology and Developmental Biology Teaching Seminar. (1-3:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      PREREQUISITE:	B or above in the specific physiology and developmental biology course; instructor's consent.
      DESCRIPTION:	Undergraduate students teaching small help sections for lecture portion of physiology and developomental biology courses or helping to teach departmental student laboratory.
      
      
      Course Outcomes
      
      
      
      PDBIO 494R : Undergraduate Research in Physiology and Developmental Biology. (1-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 494R : Undergraduate Research in Physiology and Developmental Biology. (1-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      DESCRIPTION:	Basic (entry level) research laboratory experience for students interested in physiology and developmental biology.
      
      
      Course Outcomes
      
      
      
      PDBIO 550R : Advanced Topics in Physiology and Developmental Biology. (.5-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 550R : Advanced Topics in Physiology and Developmental Biology. (.5-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	On Demand
      PREREQUISITE:	Instructor's consent.
      DESCRIPTION:	Close interaction between small groups of students and instructor on topics in physiology, developmental biology, or biophysics. Topics vary.
      
      
      Course Outcomes
      
      
      
   2. Advanced laboratory experience (courses used to fill any requirements listed above cannot count for this requirement):
      BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	MMBIO 240 & PWS 340
      DESCRIPTION:	Current analysis of genes and genomes; computational and statistical approaches for analyzing genomic data, including genome sequencing and annotation, gene expression and the transcriptome, proteomics and functional genomics, and genetic variation and SNPs.
      
      
      Course Outcomes
      
      
      
      CHEM 581 : Advanced Biochemical Methodology 1. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 581 : Advanced Biochemical Methodology 1. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	Chem 482 or equivalent.
      DESCRIPTION:	Analytical and structural determination methods used in biochemical research, including mass spectrometry-based proteomics, immunotechniques, atomic force and electron microscopy, NMR and X-ray diffraction.
      NOTE:	One of two required courses for biochemistry graduate students. May be taken before or after Chem 583.
      
      
      Course Outcomes
      
      
      
      CHEM 583 : Advanced Biochemical Methodology 2. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 583 : Advanced Biochemical Methodology 2. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	CHEM 482
      DESCRIPTION:	Maintenance and expression of genetic information, the role of nucleic acids in biology at the chemical and structural level, and methods to study and control nucleic acid function as a means of solving biological problems.
      NOTE:	One of two required courses for biochemistry graduate students. May be taken before or after Chem 581.
      
      
      Course Outcomes
      
      
      
      CHEM 584 : Biochemistry Laboratory/Proteins. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 584 : Biochemistry Laboratory/Proteins. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	CHEM 481M; or CHEM 481; or equivalent.
      DESCRIPTION:	Introduction to current biochemical research procedures including spectrophotometry, chromatography, electrophoresis, and immunological techniques. Protein over-expression; isolation and characterization methods. Enzyme kinetics and protein-ligand interactions. Introduction to bioinformatics.
      NOTE:	May be taken before or after Chem 586.
      
      
      Course Outcomes
      
      
      
      CHEM 586 : Biochemistry Laboratory/Nucleic Acids. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 586 : Biochemistry Laboratory/Nucleic Acids. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	CHEM 482
      DESCRIPTION:	Laboratory course covering major techniques involved in isolation, amplification, and cloning of recombinant DNA as well as isolation, synthesis, translation, and identification of RNA.
      NOTE:	May be taken before or after Chem 584.
      
      
      Course Outcomes
      
      
      
      MMBIO 442 : Advanced Molecular Biology Laboratory. (2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 442 : Advanced Molecular Biology Laboratory. (2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	MMBIO 241; MMBio 441 or concurrent enrollment.
      DESCRIPTION:	Laboratory to accompany MMBio 441.
      
      
      Course Outcomes
      
      
      
      PDBIO 399R : Academic Internship: Physiology and Developmental Biology. (1-9:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 399R : Academic Internship: Physiology and Developmental Biology. (1-9:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      PREREQUISITE:	Consent of internship coordinator.
      DESCRIPTION:	On-the-job experience in off-campus laboratories with a focus related to physiology, biophysics, or developmental biology.
      
      
      Course Outcomes
      
      
      
      PDBIO 495R : Advanced Undergraduate Research in Physiology and Developmental Biology. (1-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 495R : Advanced Undergraduate Research in Physiology and Developmental Biology. (1-4:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      PREREQUISITE:	2 credit hours of PDBio 494R.
      DESCRIPTION:	Senior level research laboratory experience for majors in physiology and developmental biology.
      
      
      Course Outcomes
      
      
      
   3. Elective courses (courses used to fill any requirements listed above cannot count for this requirement):
      BIO 350 : Ecology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 350 : Ecology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring
      PREREQUISITE:	PDBIO 120
      DESCRIPTION:	Distribution and abundance of organisms and their interactions with the physical and biotic components of the earth.
      
      
      Course Outcomes
      
      
      
      BIO 370 : Bioethics. (2:1:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 370 : Bioethics. (2:1:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	Introductory biology course.
      DESCRIPTION:	In-depth lecture and small group discussion of varied bioethical issues. LDS Church positions emphasized when appropriate.
      
      
      Course Outcomes
      
      
      
      BIO 421 : Evolutionary Biology Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 421 : Evolutionary Biology Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring
      PREREQUISITE:	MMBIO 240
      DESCRIPTION:	Hands-on applications and analytical tools of evolutionary biology; emphasizing inference methodology and evidence complementing the theoretical constructs introduced in Bio 520, including comparative anatomy, phylogenetic inference, population genetics, species concepts, and human evolution.
      NOTE:	Concurrent enrollment with Bio 420 is strongly recommended.
      
      
      Course Outcomes
      
      
      
      BIO 463 : Genetics of Human Disease. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 463 : Genetics of Human Disease. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	PWS 340
      DESCRIPTION:	Examining the application of genetics to understanding and treatment of human disease. Functional consequences of mutations; use of model organisms; linkage and association analysis of complex traits; pharmacogenetics; ethical considerations.
      
      
      Course Outcomes
      
      
      
      BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      BIO 468 : (Bio-MMBio-PWS) Genomics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	MMBIO 240 & PWS 340
      DESCRIPTION:	Current analysis of genes and genomes; computational and statistical approaches for analyzing genomic data, including genome sequencing and annotation, gene expression and the transcriptome, proteomics and functional genomics, and genetic variation and SNPs.
      
      
      Course Outcomes
      
      
      
      CHEM 482 : Mechanisms of Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 482 : Mechanisms of Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	CHEM 481M; or CHEM 481
      DESCRIPTION:	Second-semester biochemistry. Nucleic acid biochemistry and molecular biology: nucleotide metabolism, chromosome and chromatin structure, DNA structure and replication, RNA transcription and gene expression, protein synthesis and regulation, eukaryotic gene systems, signal transduction.
      
      
      Course Outcomes
      
      
      
      CHEM 489 : Structural Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 489 : Structural Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	CHEM 468
      DESCRIPTION:	Molecular structures of proteins, RNA and DNA as determinants of biological function. Topics include thermodynamics of folding and binding, structural determination, spectroscopy, modeling, protein recognition.
      
      
      Course Outcomes
      
      
      
      CHEM 581 : Advanced Biochemical Methodology 1. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 581 : Advanced Biochemical Methodology 1. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	Chem 482 or equivalent.
      DESCRIPTION:	Analytical and structural determination methods used in biochemical research, including mass spectrometry-based proteomics, immunotechniques, atomic force and electron microscopy, NMR and X-ray diffraction.
      NOTE:	One of two required courses for biochemistry graduate students. May be taken before or after Chem 583.
      
      
      Course Outcomes
      
      
      
      CHEM 583 : Advanced Biochemical Methodology 2. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 583 : Advanced Biochemical Methodology 2. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	CHEM 482
      DESCRIPTION:	Maintenance and expression of genetic information, the role of nucleic acids in biology at the chemical and structural level, and methods to study and control nucleic acid function as a means of solving biological problems.
      NOTE:	One of two required courses for biochemistry graduate students. May be taken before or after Chem 581.
      
      
      Course Outcomes
      
      
      
      CHEM 584 : Biochemistry Laboratory/Proteins. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 584 : Biochemistry Laboratory/Proteins. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	CHEM 481M; or CHEM 481; or equivalent.
      DESCRIPTION:	Introduction to current biochemical research procedures including spectrophotometry, chromatography, electrophoresis, and immunological techniques. Protein over-expression; isolation and characterization methods. Enzyme kinetics and protein-ligand interactions. Introduction to bioinformatics.
      NOTE:	May be taken before or after Chem 586.
      
      
      Course Outcomes
      
      
      
      CHEM 586 : Biochemistry Laboratory/Nucleic Acids. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      CHEM 586 : Biochemistry Laboratory/Nucleic Acids. (3:1:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	CHEM 482
      DESCRIPTION:	Laboratory course covering major techniques involved in isolation, amplification, and cloning of recombinant DNA as well as isolation, synthesis, translation, and identification of RNA.
      NOTE:	May be taken before or after Chem 584.
      
      
      Course Outcomes
      
      
      
      EXSC 463 : Exercise Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      EXSC 463 : Exercise Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      PREREQUISITE:	PDBIO 305; or PDBIO 362
      RECOMMENDED:	Concurrent enrollment in ExSc 464.
      DESCRIPTION:	The function of the physiological systems and their responses to acute and chronic exercise.
      
      
      Course Outcomes
      
      
      
      EXSC 464 : Exercise Physiology Lab. (.5:0:1)(Credit Hours:Lecture Hours:Lab Hours)
      
      EXSC 464 : Exercise Physiology Lab. (.5:0:1)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring; Summer
      PREREQUISITE:	ExSc 463 or concurrent enrollment.
      DESCRIPTION:	Introduction of laboratory and field methods; applying principles of exercise physiology to assessing physical fitness and physiological responses to exercise.
      
      
      Course Outcomes
      
      
      
      MMBIO 261 : Infection and Immunity. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 261 : Infection and Immunity. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring
      DESCRIPTION:	Principles of infectious organisms (principally bacteria and viruses), the diseases they cause, and the role of host immune responses in health and disease.
      
      
      Course Outcomes
      
      
      
      MMBIO 417 : Medical Parasitology. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 417 : Medical Parasitology. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	Bio 100 or equivalent.
      DESCRIPTION:	Pathogenesis, diagnosis, and epidemiology of human parasitic diseases. Laboratory included.
      
      
      Course Outcomes
      
      
      
      MMBIO 430 : Advanced Cell Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 430 : Advanced Cell Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	PDBIO 360; Bioscience major status.
      DESCRIPTION:	Molecular genetics, cell biology, and developmental biology.
      
      
      Course Outcomes
      
      
      
      MMBIO 441 : Advanced Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 441 : Advanced Molecular Biology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	MMBIO 240 & CHEM 352
      DESCRIPTION:	Molecular biology of gene structure and expression in prokaryotic and eukaryotic organisms.
      
      
      Course Outcomes
      
      
      
      MMBIO 442 : Advanced Molecular Biology Laboratory. (2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      MMBIO 442 : Advanced Molecular Biology Laboratory. (2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	MMBIO 241; MMBio 441 or concurrent enrollment.
      DESCRIPTION:	Laboratory to accompany MMBio 441.
      
      
      Course Outcomes
      
      
      
      NDFS 200 : Nutrient Metabolism. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      NDFS 200 : Nutrient Metabolism. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Spring
      PREREQUISITE:	NDFS 100; Organic chemistry or concurrent enrollment.
      DESCRIPTION:	Chemical structures of nutrients, their food sources, requirements, digestion, absorption, transport, metabolism, functions, storage and excretion; metabolic consequences of nutrient deficiencies, interactions, imbalances, and toxicities.
      
      
      Course Outcomes
      
      
      
      NEURO 480 : Advanced Neuroscience. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      NEURO 480 : Advanced Neuroscience. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      PREREQUISITE:	NEURO 205 & PDBIO 360; Neuroscience major status.
      DESCRIPTION:	Principles of neural science. Structure-function relationships and integration of the nervous system.
      
      
      Course Outcomes
      
      
      
      PDBIO 320 : Dissection Techniques in Human Anatomy. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 320 : Dissection Techniques in Human Anatomy. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	On Demand
      PREREQUISITE:	PDBIO 220
      DESCRIPTION:	Techniques of human cadaver dissection.
      
      
      Course Outcomes
      
      
      
      PDBIO 365 : Pathophysiology. (4:4:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 365 : Pathophysiology. (4:4:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter; Spring
      PREREQUISITE:	PDBIO 305; or PDBIO 362
      DESCRIPTION:	Variations in physiological mechanisms that account for development of common disturbances in normal control and activities of body's organs and organ systems.
      
      
      Course Outcomes
      
      
      
      PDBIO 450R : Topics in Physiology and Developmental Biology. (1-3:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 450R : Topics in Physiology and Developmental Biology. (1-3:ARR:ARR)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	On Demand
      DESCRIPTION:	Close interaction between small groups of students and instructor on topics in physiology, developmental biology, or biophysics. Topics vary.
      
      
      Course Outcomes
      
      
      
      PDBIO 455R : Physiology and Developmental Biology Seminar. (.5:1:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 455R : Physiology and Developmental Biology Seminar. (.5:1:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall; Winter
      DESCRIPTION:	Seminar (research) presentations for undergraduates in physiology and developmental biology.
      
      
      Course Outcomes
      
      
      
      PDBIO 484 : Human Embryology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 484 : Human Embryology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	PDBio 360 or equivalent.
      RECOMMENDED:	PDBio 325.
      DESCRIPTION:	Developmental milestones of prenatal life: etiology of congenital malformations, emphasizing molecular and cellular changes and their functional consequences.
      
      
      Course Outcomes
      
      
      
      PDBIO 498 : Advanced Senior Research Project. (3:Arr.:Arr.)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 498 : Advanced Senior Research Project. (3:Arr.:Arr.)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	On Demand
      PREREQUISITE:	PDBIO 494R & PDBIO 495R; Instructor's consent must be obtained during previous semester.
      DESCRIPTION:	Special project course for advanced PDBio research students. Engaging in scientific research as specified in an approved research proposal. Comprehensive written work of research required.
      
      
      Course Outcomes
      
      
      
      PDBIO 561 : Physiology of Drug Mechanisms. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 561 : Physiology of Drug Mechanisms. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	PDBio 352 or instructor's consent.
      DESCRIPTION:	Overview of physiological and pharmacological mechanisms and principles of human therapeutics as applied to clinically significant pathophysiology.
      
      
      Course Outcomes
      
      
      
      PDBIO 562 : Reproductive Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 562 : Reproductive Physiology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	PDBio 362 or equivalent.
      RECOMMENDED:	Chem 481, PDBio 482; or equivalents.
      DESCRIPTION:	Mammalian reproductive physiology.
      
      
      Course Outcomes
      
      
      
      PDBIO 565 : Endocrinology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 565 : Endocrinology. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	PDBio 362 or instructor's consent.
      DESCRIPTION:	Mammalian hormones.
      
      
      Course Outcomes
      
      
      
      PDBIO 568 : Cellular Electrophysiology and Biophysics. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 568 : Cellular Electrophysiology and Biophysics. (3:2:3)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Fall
      PREREQUISITE:	PDBio 362, Phscs 140, 220; or instructor's consent.
      DESCRIPTION:	Using electrophysiology and biophysics as an approach to study of physiology. Extensive look at ion channels and cell signaling.
      
      
      Course Outcomes
      
      
      
      PDBIO 582 : Developmental Genetics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      PDBIO 582 : Developmental Genetics. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      
      WHEN TAUGHT:	Winter
      PREREQUISITE:	PDBio 482 or equivalent.
      DESCRIPTION:	Gene function and regulation during cell specification and differentiation, pattern formation, and organogenesis in developing embryo.
      
      
      Course Outcomes
      
      
      

Recommended Courses

Professional schools and graduate programs may require additional courses not required for this major, such as Phscs 107, 108, Chem, calculus, or statistics. Contact the programs to which you may apply to determine the specific courses required.

Students considering professional or graduate degrees should take at least two semesters of mathematical courses. The recommended sequences are:

1. Math 112, Stat 121 for students who want exposure to calculus and statistics.
2. Math 112, 113 for students who want a firm foundation in calculus.
3. Math 112, 113, Stat 121 for students who want a firm foundation in both calculus and statistics.

*Hours include courses that may fulfill university core requirements.

Show all Physiology and Developmental Biology (PDBio) Courses