Enrollment and waitlist data for current and upcoming courses refresh every 10 minutes; all other information as of 6:00 AM.
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
Subject: Actuarial Science (ACSC)
CRN: 41023
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Writing in the Discipline
This course introduces students to the subjects of insurance--theory and practice--and corporate risk management. In addressing these subjects, students will receive exposure to risk theory, insurance pricing, contract analysis, insurance company operations, reinsurance, regulation and the concepts and principles of business risk management. Offered fall semester. Prerequisite: Sophomore standing
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
Subject: Actuarial Science (ACSC)
CRN: 41024
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
A survey of topics in the mathematical analysis of financial transactions which involve payments made over time. Specific areas of concentration will include the time value of money, the analysis of annuities, amortization and sinking funds, and the pricing and rates of return on investments. Both continuous time and discrete time problems will be considered. Offered spring semester. Prerequisite: a grade of C- or above in MATH 114
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
5:30 pm |
Subject: Actuarial Science (ACSC)
CRN: 41025
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Requirements Met:
[Core] Signature Work
This course serves as, partly, a Capstone course for the Actuarial Science major and one of the tracks in the Risk Management & Insurance Certificate, but also presents some flexibility for focusing on timely and relevant topics in the field. As such, there is an expectation that some topics will change over time to reflect current issues of importance. Nevertheless, the general thematic structure of this course is to examine risk management and insurance ‘in action.’ On the risk management side of the course this will mean examining risk management program operations and will entail some case study activity. Such topics could include problems in managing work-related injury; managing risks in global firms; and alternative risk financing. On the insurance side of the course, the intention is to consider insurance industry challenges and problems. Such topics could include the effects of climate change on the insurance contract; insuring driverless vehicles; and an examination of the reinsurance sector. Prerequisites: ACSC 220 or FINC 2XX (crosslisted course equiv. to ACSC 220) and either ACSC 264 and STAT 313 or FINC 301, FINC 302, and FINC 303
2 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
Subject: Actuarial Science (ACSC)
CRN: 41026
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
The course covers the theory and applications of contingency mathematics in the area of life and health insurance, annuities and pensions from both the probabilistic and deterministic approaches. Topics will include: survival distributions, actuarial notation, life insurance and life annuities, net premiums and reserves. Offered fall semester. Prerequisite: a grade of C- or above in ACSC 264 and STAT 313
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biochemistry (BCHM)
CRN: 42310
In Person | Lecture
St Paul: In Person
Instructor: TBD
This sequence of courses is begun the first semester of the junior year and progresses for a total of two semesters. The first (301) course is two credits and is graded on the usual letter grade scale. The second course (302) bears no credit and is graded on a pass-fail basis (S/R). The first course (301) is an in-depth investigation of selected current topics in biochemistry designed to develop critical scientific reading, writing, and presenting skills while exploring biochemical primary literature. The subject matter will vary from year to year and will be announced in the annual Class Schedule. The class will meet for one and a half hours once a week with evaluation based upon in-class discussion and quality of written and oral assignments. The second course (302) is a requirement whereby students must attend Biology and Chemistry departmental seminars. Required of all Biochemistry majors. Required of all Biochemistry majors. Prerequisites: CHEM 202, completion or current enrollment in BIOL 209
2 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
Subject: Biology (BIOL)
CRN: 41069
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41070
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41071
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41072
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
Subject: Biology (BIOL)
CRN: 41073
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41074
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41075
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41076
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
Subject: Biology (BIOL)
CRN: 41077
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41078
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:45 pm |
Subject: Biology (BIOL)
CRN: 41079
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41080
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41081
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41082
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
5:30 pm |
Subject: Biology (BIOL)
CRN: 41083
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41084
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:45 pm |
Subject: Biology (BIOL)
CRN: 41085
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41086
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41087
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Instructor: TBD
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
Subject: Biology (BIOL)
CRN: 41088
Blended Online & In-Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41089
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:45 pm |
Subject: Biology (BIOL)
CRN: 41090
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
Subject: Biology (BIOL)
CRN: 41091
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
Subject: Biology (BIOL)
CRN: 41094
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
Subject: Biology (BIOL)
CRN: 41095
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
Subject: Biology (BIOL)
CRN: 41096
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
Subject: Biology (BIOL)
CRN: 41097
Blended Online & In-Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41098
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
6:00 pm |
Subject: Biology (BIOL)
CRN: 41099
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41100
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41101
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
6:00 pm |
Subject: Biology (BIOL)
CRN: 41102
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41103
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41104
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
6:00 pm |
Subject: Biology (BIOL)
CRN: 41105
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41106
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41107
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
6:00 pm |
Subject: Biology (BIOL)
CRN: 41108
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41109
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
Subject: Biology (BIOL)
CRN: 41110
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41111
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41112
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
Subject: Biology (BIOL)
CRN: 41113
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41114
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Core Requirements Met:
[Core] Natural Science
Instructor: TBD
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41115
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
Subject: Biology (BIOL)
CRN: 41116
Blended Online & In-Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41117
In Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
Subject: Biology (BIOL)
CRN: 41118
Blended Online & In-Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41119
Online: Sync Distributed | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
Subject: Biology (BIOL)
CRN: 41120
Blended Online & In-Person | Lecture
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41121
In Person | Lecture
St Paul: In Person
Requirements Met:
School of Ed Transfer Course
The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule
2 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41122
In Person | Lecture
St Paul: In Person
Principles of Biochemistry examines the chemistry underlying biological phenomena and emphasizes the importance of biochemistry in fields ranging from agriculture to medicine. Major topics include the structure and function of biological molecules; the critical role of enzymes; the generation, storage and regulation of metabolic energy. Prerequisites: CHEM 201, AND a minimum grade of C- in BIOL 209. For all life science majors besides biochemistry, students may not take CHEM440 in addition to this course and receive BIOL credit for CHEM440. For biochemistry majors, this course does not fulfill a BIOL3XX requirement.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
Subject: Biology (BIOL)
CRN: 41123
In Person | Lecture
St Paul: In Person
Principles of Biochemistry examines the chemistry underlying biological phenomena and emphasizes the importance of biochemistry in fields ranging from agriculture to medicine. Major topics include the structure and function of biological molecules; the critical role of enzymes; the generation, storage and regulation of metabolic energy. Prerequisites: CHEM 201, AND a minimum grade of C- in BIOL 209. For all life science majors besides biochemistry, students may not take CHEM440 in addition to this course and receive BIOL credit for CHEM440. For biochemistry majors, this course does not fulfill a BIOL3XX requirement.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41124
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 41125
Online: Asynchronous | Lecture
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:30 pm |
Subject: Biology (BIOL)
CRN: 41126
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
5:35 pm |
Subject: Biology (BIOL)
CRN: 41127
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41128
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:35 pm |
Subject: Biology (BIOL)
CRN: 41129
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41130
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:35 pm |
Subject: Biology (BIOL)
CRN: 41131
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41132
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
3:35 pm |
Subject: Biology (BIOL)
CRN: 41133
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41134
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41135
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41136
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41137
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41138
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41139
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41140
In Person | Lecture
St Paul: In Person
Instructor: TBD
This course provides an introduction to the microscopic anatomy of cells, tissues, and major organs that constitute the mammalian organism. The animal body is composed of a vast diversity of cell types, which are in turn organized into tissues and organs that carry out the complex functions of life. Microscopic anatomy is the study of the cellular architecture of tissues and provides deep insights into the workings of the body. Emphasis is placed on structural-functional correlates at both the light and electron microscopic levels. Students also will explore alterations in normal histology through disease or injury to provide an understanding of the etiology of various disease states. Prerequisite: minimum grade of C- in BIOL208. Credit will not be given for both this course and BIOL 353 Microscopic Anatomy.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
Subject: Biology (BIOL)
CRN: 41141
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41142
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
Subject: Biology (BIOL)
CRN: 41143
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41144
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41145
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
Subject: Biology (BIOL)
CRN: 41146
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course studies the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS, and other topics of interest. Four laboratory hours per week. Prerequisites: BIOL 101 OR 102 OR 105 OR 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 364.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
12:15 pm |
Subject: Biology (BIOL)
CRN: 41147
In Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course studies the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS, and other topics of interest. Four laboratory hours per week. Prerequisites: BIOL 101 OR 102 OR 105 OR 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 364.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
4:30 pm |
Subject: Biology (BIOL)
CRN: 41148
In Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course studies the mammalian immune system emphasizing the genetic and cellular basis of the immune response. Basic immunological concepts will be used to explore the mechanisms of transplantation rejection, autoimmunity, AIDS, and other topics of interest. Four laboratory hours per week. Prerequisites: BIOL 101 OR 102 OR 105 OR 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 364.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
Subject: Biology (BIOL)
CRN: 41149
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41150
In Person | Lab
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41151
In Person | Lab
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41153
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
Our food system is under extreme duress; urbanization, agricultural intensification, and climate change are contributing to an increasingly vulnerable food system. BIOL 4xx - Sustainable Food Systems will help students summarize existing information about our current food system, identify key research gaps, and assess its scalability and sustainability from a biological perspective. The lab (4 hrs per week) will provide students with a variety of independent opportunities to contribute to a more sustainable food system. Prerequisites: At least two BIOL 3xx electives. Alternative prerequisites may be accepted with the permission of the instructor.
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41152
In Person | Lab
St Paul: Owens Science Hall 379
Requirements Met:
Biology Lab Elective
Our food system is under extreme duress; urbanization, agricultural intensification, and climate change are contributing to an increasingly vulnerable food system. BIOL 4xx - Sustainable Food Systems will help students summarize existing information about our current food system, identify key research gaps, and assess its scalability and sustainability from a biological perspective. The lab (4 hrs per week) will provide students with a variety of independent opportunities to contribute to a more sustainable food system. Prerequisites: At least two BIOL 3xx electives. Alternative prerequisites may be accepted with the permission of the instructor.
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
Subject: Biology (BIOL)
CRN: 41155
In Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
Cancer Biology focuses on the molecular and cellular events that contribute to cancer. Topics include oncogenes and tumor suppressors, apoptosis, cancer stem cells, angiogenesis, and tumor metastasis. The laboratory will focus on independent research utilizing cellular and molecular techniques widely used in cancer research. Four laboratory hours per week. Prerequisites: At least one of the following: BIOL 340 (Principles of Biochemistry), BIOL 349 and 350 (Comparative Anatomy and Physiology), BIOL 354 (Neurobiology), BIOL 356 (Microbiology), BIOL 360 (Genetics), BIOL 363 (Immunology), BIOL 371 (Cell Biology); or permission from instructor
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:30 pm |
Subject: Biology (BIOL)
CRN: 41154
In Person | Lab
St Paul: In Person
Requirements Met:
Biology Lab Elective
Cancer Biology focuses on the molecular and cellular events that contribute to cancer. Topics include oncogenes and tumor suppressors, apoptosis, cancer stem cells, angiogenesis, and tumor metastasis. The laboratory will focus on independent research utilizing cellular and molecular techniques widely used in cancer research. Four laboratory hours per week. Prerequisites: At least one of the following: BIOL 340 (Principles of Biochemistry), BIOL 349 and 350 (Comparative Anatomy and Physiology), BIOL 354 (Neurobiology), BIOL 356 (Microbiology), BIOL 360 (Genetics), BIOL 363 (Immunology), BIOL 371 (Cell Biology); or permission from instructor
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
Subject: Biology (BIOL)
CRN: 41157
Blended Online & In-Person | Lecture
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed around case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: Two biology courses at the 300-level or above
4 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41156
Blended Online & In-Person | Lab
St Paul: In Person
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Instructor: TBD
This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed around case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: Two biology courses at the 300-level or above
0 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41158
Online: Some Synchronous | Lecture
Online
Requirements Met:
School of Ed Transfer Course
[Core] Signature Work
Investigation of selected problems in biology at an advanced level, involving student presentations based on the primary literature. The subject will vary and will be announced in the annual Class Schedule. Prerequisite: Upper-class standing and 80 completed credits.
2 Credits
09/03 - 12/19 | ||||||
M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
Subject: Biology (BIOL)
CRN: 41160
In Person | Lecture
St Paul: Schoenecker Center 404
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Investigation of selected problems in biology at an advanced level, involving student presentations based on the primary literature. The subject will vary and will be announced in the annual Class Schedule.. These courses may, with approval of the department chair, be used to fulfill the 400-level requirement for the major. Prerequisite: Upper-class standing
4 Credits