Real-time imaging of single motor proteins
Project Description
How single motor proteins move along actin or microtubule is a fundamental question but remain elusive. In particular, how single motor proteins move in living cells has not studied extensively because of several technical challenges. Owing to new development of imaging techniques, we will investigate how single motor proteins move in living cells.
Supervisor
PARK, Hyo Keun
Quota
2
Course type
UROP1000
UROP1100
UROP2100
UROP3100
UROP3200
UROP4100
Applicant's Roles
1. Students should learn how to perform experiment of tracking motor proteins.
2. Students should perform experiments.
3. Students should analyze data.
4. Students should draw conclusion from analyzed data.
2. Students should perform experiments.
3. Students should analyze data.
4. Students should draw conclusion from analyzed data.
Applicant's Learning Objectives
1. Learn how to address scientific questions.
2. Draw conclusions from experiments and data analysis.
2. Draw conclusions from experiments and data analysis.
Complexity of the project
Moderate