BIOL 381 - 001

This course will introduce students to epigenetic mechanisms operating throughout life, which include chromatin regulation, DNA methylation, histone modifications and non-coding RNAs. Students will gain an appreciation of how different cell types can maintain drastically different gene expression patterns yet share the exact same DNA sequences.

Prerequisites: BIOL 251 and BIOL 282; CHEM 222 or CHEM 224 or (CHEM 240 pre-req and CHEM 260 co-req).

Outcomes: Students will understand epigenetic mechanisms, apply insights gained to evaluate the effect of epigenetic changes in development, disease and aging, and learn how to lead a class discussion.

Session

Regular Academic Session

Class Number

4385

Career

Undergraduate

Units

3 units

Grading

Graded Alpha

Description

This course will introduce students to epigenetic mechanisms operating throughout life, which include chromatin regulation, DNA methylation, histone modifications and non-coding RNAs. Students will gain an appreciation of how different cell types can maintain drastically different gene expression patterns yet share the exact same DNA sequences.

Prerequisites: BIOL 251 and BIOL 282; CHEM 222 or CHEM 224 or (CHEM 240 pre-req and CHEM 260 co-req).

Outcomes: Students will understand epigenetic mechanisms, apply insights gained to evaluate the effect of epigenetic changes in development, disease and aging, and learn how to lead a class discussion.

Enrollment Requirements

BIOL 251 and 282; CHEM 222 or CHEM 224 or (CHEM 240 pre-req and CHEM 260 co-req)

Look up course materials

Instructor(s)

Hariklia Dimitropoulos

Meets

MoWeFr 10:25AM - 11:15AM

Dates

08/25/2025 - 12/13/2025

Instruction Mode

In person

Campus

Lake Shore Campus

Location

Lake Shore Campus

Components

Lecture Required

Status

Open

Seats Taken

19

Seats Open

29

Class Capacity

48

Wait List Total

0

Wait List Capacity

0