© 2024 LaurierFlow. All rights reserved.

Course Reviews

No Reviews With Body Yet

BI 374

Phys App of Microbiology

0%Liked

Easy

0%

Useful

0%

0 ratings

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

0%Liked

Easy

0%

Useful

0%

0 ratings

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

BI 374

Phys App of Microbiology

0%Liked

Easy

0%

Useful

0%

0 ratings

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

0%Liked

Easy

0%

Useful

0%

0 ratings

Fundamental concepts of bacterial physiology are both introduced and applied throughout the course. Emphasis is placed on understanding the applications of microbiology at a physiological level. Genetic adaptation and developmental responses to specific nutrients and environmental stressors will be studied in addition to biosynthetic activities. Specific topics include; bacterial fermentations, transport mechanisms, shock responses and quorum sensing. Prerequisites: BI276 and either BI226 or BI236. (CH111 is recommended.) Notes: 3 lecture hours, 3 lab hours

BI 374 Prerequisites

BI 276 (Min. Grade D-) and (BI 226 (Min. Grade D-) or BI 236 (Min. Grade D-) )

BI 374 Leads To

BI 475

BI 374 Restrictions

Must be enrolled in one of the following Levels:

Undergraduate (UG)

Must be enrolled in one of the following Majors:

Biology (BIOL)

Environmental Science (EVSC)

Water Science & Enviro Health (WSEH)

Course Schedule