Courses
To see a complete list of courses offered and their descriptions, visit the online course catalog. Please see the right toolbar for individual course websites.
The courses listed below are provided by Student Information Services (SIS). This listing provides a snapshot of immediately available courses within this department and may not be complete. Course registration information can be found at https://sis.jhu.edu/classes.
- AS.250.372 - Biophysical Chemistry
Course covers classical and statistical thermodynamics, spanning from simple to complex systems. Major topics include the first and second law, gases, liquids, chemical mixtures and reactions, conformational transitions in peptides and proteins, ligand binding, and allostery. Methods for thermodynamic analysis will be discussed, including calorimetry and spectroscopy. Students will develop and apply different thermodynamic potentials, learn about different types of ensembles and partition functions. Students will learn to use Mathematica and will use it for data fitting and for statistical and mathematical analysis. Background: Calculus, Organic Chemistry, and Introductory Physics.
Credits: 4.00
Instructor: Barrick, Doug
Term: Fall 2018
Meetings: MWF 10:00AM - 10:50AM, F 12:00PM - 12:50PM
Status: Open - AS.250.313 - Molecular and Cellular System Biology
This course covers the principles of biological networks, with an emphasis on computational analysis. Networks ranging from simple biochemical pathways to genome-scale metabolic, regulatory, and signaling networks will be studied. Topics include dynamic modeling of biochemical pathways, steady-state analysis of cellular metabolic networks, inference of gene regulatory networks using –omics data, and systems biology approaches to studying signal transduction. Recommended Course Background: Calculus (AS.110.106 and AS.110.107), Biochemistry (AS.250.315 or AS.020.305 or equivalent). Computational Biology (AS.250.353) or Introduction to Bioinformatics (AS.250.265) or prior exposure to programming.
Credits: 4.00
Instructor: Roberts, Elijah
Term: Fall 2018
Meetings: TTh 1:30PM - 2:45PM, M 2:00PM - 3:00PM
Status: Open - AS.250.351 - Reproductive Physiology
Focuses on reproductive physiology and biochemical and molecular regulation of the female and male reproductive tracts. Topics include the hypothalamus and pituitary, peptide and steroid hormone action, epididymis and male accessory sex organs, female reproductive tract, menstrual cycle, ovulation and gamete transport, fertilization and fertility enhancement, sexually transmitted diseases, and male and female contraceptive methods. Introductory lectures on each topic followed by research-oriented lectures and readings from current literature.
Credits: 2.00
Instructor: Zirkin, Barry R
Term: Fall 2018
Meetings: W 3:00PM - 4:45PM
Status: Open - AS.250.353 - Computational Biology
This course introduces several computational approaches to the study of biological macromolecules. Students will learn to use computational tools to carry out and analyze molecular simulations and how to work in a UNIX networked environment. A major goal is to understand molecular systems as ensembles. No programming experience is required. A previous biochemistry course is strongly recommended.
Credits: 3.00
Instructor: Fleming, Patrick
Term: Fall 2018
Meetings: TTh 10:30AM - 11:45AM
Status: Open - AS.250.205 - Introduction to Computing
This course is useful for many disciplines not only the life sciences. It will introduce students to basic computing concepts and tools useful in many applications. Students learn to work in the Unix environment, to write shells scripts, and to make use of powerful Unix commands (e.g grep, awk, and sed). They will learn to program using the Python programming language, graphing software, and a package for numerical and statistical computing, such as Mathematica or MATLAB. At the end of the semester students will complete a project coupling all components of the semester together. Brief lectures followed by extensive hands-on computer laboratories with examples from many disciplines. No prerequisites. Course offered every semester.
Credits: 3.00
Instructor:
Term: Fall 2018
Meetings: MWF 10:00AM - 10:50AM
Status: Open - AS.250.205 - Introduction to Computing
This course is useful for many disciplines not only the life sciences. It will introduce students to basic computing concepts and tools useful in many applications. Students learn to work in the Unix environment, to write shells scripts, and to make use of powerful Unix commands (e.g grep, awk, and sed). They will learn to program using the Python programming language, graphing software, and a package for numerical and statistical computing, such as Mathematica or MATLAB. At the end of the semester students will complete a project coupling all components of the semester together. Brief lectures followed by extensive hands-on computer laboratories with examples from many disciplines. No prerequisites. Course offered every semester.
Credits: 3.00
Instructor: Damjanovic, Ana
Term: Fall 2018
Meetings: MWF 11:00AM - 11:50AM
Status: Open - AS.250.253 - Protein Engineering and Biochemistry Lab
This laboratory examines the relationship between genes and proteins in the context of disease and evolution. It is a research project lab in which the structural and functional consequences of mutations are determined for a model protein. Students will learn basic protein science and standard biochemical techniques and methods in protein engineering. They will perform experiments in site-directed mutagenesis, protein purification, and structural, functional and physical characterization of proteins. No prerequisites. Courses offered in Fall and Spring semesters.
Credits: 3.00
Instructor: Fitch, Carolyn A
Term: Fall 2018
Meetings: T 1:30PM - 5:30PM
Status: Open - AS.250.335 - Single Molecule & Cell Biophysics
This (elective) course offers an introduction to the field of single molecule and single cell biophysics to second and third year undergraduate students in biophysics. We will examine technologies such as single molecule fluorescence, force measurements and single cell fluorescence detections that enable high precision molecular visualizations in vitro and in cells. In addition, we will cover topics of genome engineering, cell mechanics and optogenetics toward the end of the semester. Each student is expected to read two articles assigned for each week and submit a written summary. All students will take turns presenting the assigned articles to class.
Credits: 3.00
Instructor: Ha, Taekjip, Myong, Sua
Term: Fall 2018
Meetings: T 3:00PM - 5:30PM
Status: Open - AS.250.253 - Protein Engineering and Biochemistry Lab
This laboratory examines the relationship between genes and proteins in the context of disease and evolution. It is a research project lab in which the structural and functional consequences of mutations are determined for a model protein. Students will learn basic protein science and standard biochemical techniques and methods in protein engineering. They will perform experiments in site-directed mutagenesis, protein purification, and structural, functional and physical characterization of proteins. No prerequisites. Courses offered in Fall and Spring semesters.
Credits: 3.00
Instructor: Fitch, Carolyn A
Term: Fall 2018
Meetings: M 1:30PM - 5:30PM
Status: Open - AS.250.315 - Biochemistry I
Foundation for advanced classes in Biophysics and other quantitative biological disciplines. Lecture and computer laboratory. This class is the first semester of a two semester course in biochemistry. Topics in Biochemistry I include chemical and physical properties of biomolecules and energetic principles of catabolic pathways. Computer labs include extensive use of molecular graphics and modelling of reaction kinetics and pathway flux. Co-listed with AS.030.315
Credits: 4.00
Instructor: Fleming, Patrick
Term: Fall 2018
Meetings: TTh 12:00PM - 12:50PM, MW 12:00PM - 12:50PM
Status: Open - AS.250.372 - Biophysical Chemistry
Course covers classical and statistical thermodynamics, spanning from simple to complex systems. Major topics include the first and second law, gases, liquids, chemical mixtures and reactions, conformational transitions in peptides and proteins, ligand binding, and allostery. Methods for thermodynamic analysis will be discussed, including calorimetry and spectroscopy. Students will develop and apply different thermodynamic potentials, learn about different types of ensembles and partition functions. Students will learn to use Mathematica and will use it for data fitting and for statistical and mathematical analysis. Background: Calculus, Organic Chemistry, and Introductory Physics.
Credits: 4.00
Instructor: Barrick, Doug
Term: Fall 2018
Meetings: MWF 10:00AM - 10:50AM, F 2:00PM - 2:50PM
Status: Open - AS.250.521 - Research Problems
Credits: 3.00
Instructor: Ha, Taekjip
Term: Fall 2018
Meetings:
Status: Open - AS.250.383 - Molecular Biophysics Laboratory
An advanced inquiry based laboratory course covering experimental biophysical techniques to introduce fundamental physical principles governing the structure/function relationship of biological macromolecules. Students will investigate a “model protein”, staphylococcal nuclease, the “hydrogen atom” of biophysics. Using a vast library of variants, the effect of small changes in protein sequence will be explored. A variety of techniques will be used to probe the equilibrium thermodynamics and kinetics of this system; chromatography, spectroscopy (UV-Vis, fluorescence, circular dichroism, nuclear magnetic resonance), calorimetry, analytical centrifugation, X-ray crystallography and computational methods as needed for analysis. These methods coupled with perturbations to the molecular environment (ligands, co-solvents, and temperature) will help to elucidate protein function. Prerequisite: Introduction to Scientific Computing (250.205) or equivalent. Biophysical Chemistry (250.372 or 020.370) or equivalent. Course taught in Fall and Spring.
Credits: 3.00
Instructor: Fitch, Carolyn A
Term: Fall 2018
Meetings: Th 1:30PM - 5:30PM
Status: Open - AS.250.521 - Research Problems
Credits: 3.00
Instructor: Roberts, Elijah
Term: Fall 2018
Meetings:
Status: Open - AS.250.521 - Research Problems
Credits: 3.00
Instructor: Fleming, Karen G
Term: Fall 2018
Meetings:
Status: Open - AS.250.403 - Bioenergetics: Origins, Evolution and Logic of Living Systems
The trait shared by all living systems is the capacity to perform energy transduction. This biophysics/biochemistry course examines the physico-chemical and structural basis of biological energy transduction.Emphasis is on understanding the molecular and cellular logic of the flow of energy in living systems. The course explores the connection between fundamental physical requirements for energy transduction and the organization, evolution and possibly even the origins of biological molecules, cells, and organisms. Implications for planet earth¹s energy balance and for the design of synthetic organisms and of artificial energy transducing machines will be discussed, time permitting. Recommended Course Background: One semester of Biochemistry. Recommended Course Background: One semester of Biochemistry
Credits: 3.00
Instructor: Garcia-Moreno, Bertrand
Term: Fall 2018
Meetings: TTh 9:00AM - 10:15AM
Status: Waitlist Only - AS.250.520 - Introduction to Research in Biophysics
Credits: 3.00
Instructor: Fleming, Karen G
Term: Fall 2018
Meetings:
Status: Approval Required - AS.250.514 - Research in Protein Design and Evolution
Credits: 3.00
Instructor: Garcia-Moreno, Bertrand, Lecomte, Juliette
Term: Fall 2018
Meetings:
Status: Open - AS.250.520 - Introduction to Research in Biophysics
Credits: 3.00
Instructor: Ha, Taekjip
Term: Fall 2018
Meetings:
Status: Approval Required - AS.250.520 - Introduction to Research in Biophysics
Credits: 3.00
Instructor: Roberts, Elijah
Term: Fall 2018
Meetings:
Status: Approval Required