Introduction to Protein Structure: From Disease to Therapy

BIOL CH X 401

In this course, an introduction to protein and nucleic acid structures is delivered through various lectures, as well as exploring the relationship between protein structures and common human pathologies.

READ MORE ABOUT THIS COURSE
Live Online
Starting at $850.00
As few as 11 weeks
4.0

What you will learn.

  • Explore the various therapies used to treat common human diseases
  • Understand the structure of proteins and how mutations lead to diseases
  • Evaluate how proteins can be used in the development of therapeutic diseases

About this course:

Proteins are involved in almost every physiological process that occurs within the body. They are necessary for countless metabolic processes, including converting glucose into energy, carrying oxygen in your blood, and recognizing and destroying foreign pathogens. Knowing the structure of the proteins that perform these essential functions is paramount to understanding how they work normally and why mutations lead to disease. Although proteins are involved in innumerable diseases, they may also be key in the development of therapeutic treatments. By understanding protein structure, scientists can design small molecules and even novel proteins that can treat a variety of diseases. This course provides an introduction to protein and nucleic acid structure as it relates to the essential functions that these macromolecules perform within cells. Lectures focus on how protein structure relates to a variety of common human pathologies and on the therapies that are used to treat these diseases.
Prerequisites

LIFESCI XL 3 or LIFESCI XL 7A 

Winter 2025 Schedule

Date & Time
Details
Format
 
-
Thursday 6:00PM - 9:00PM PT
Available
See Details
Instructor: Rishab Gupta
400871
Fee:
$850.00
Live Onlineformat icon
Location: Remote Classroom
Notes

Enrollment deadline: January 15, 2025. Enrollment limited to 25. Internet access required. Materials required.

Enrollment is typically reserved for adult students 18 years of age and older. Students under 18 years of age may receive consent to enroll based on special academic competence and approval by the instructor. If you are a student under 18 years of age, you must submit a request to enroll in the course 8 weeks before the course start date to mentalhealth@uclaextension.edu for your request to be considered.

Refund Deadline
No refunds after January 22, 2025
Course Requirements
Book: Lehninger Principles of Biochemistry by David L. Nelson
Schedule
Type
Date
Time
Location
Lecture
Thu Jan 9, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Jan 16, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Jan 23, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Jan 30, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Feb 6, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Feb 13, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Feb 20, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Feb 27, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Mar 6, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Mar 13, 2025
6:00PM PT - 9:00PM PT
Remote Classroom
Lecture
Thu Mar 20, 2025
6:00PM PT - 9:00PM PT
Remote Classroom

Contact Us

Speak to a program representative. Hours: Mon-Fri, 8am-5pm
Ready to start
your future?
By signing up, you agree to UCLA Extension’s Privacy Policy.

vector icon of building

Corporate Education

Learn how we can help your organization meet its professional development goals and corporate training needs.

Learn More

vector icon of building

Donate to UCLA Extension

Support our many efforts to reach communities in need.

Innovation Programs

Student Scholarships

Lifelong Learning

See More