Subject: Neuroscience (NSCI)

CRN: 21381

In Person | Lecture

St Paul: In Person

Core Requirements Met:
     [Core] Natural Science

  Roxanne Prichard

This course is an introduction to the field of neuroscience and explores the biological and psychological foundations of the brain and behavior. The course introduces cell biology and covers the basic principles of nervous system cells and organization, brain function, and how the nervous system contributes to our behaviors and experiences. Two laboratory hours per week.

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21382

In Person | Lab

St Paul: In Person

Core Requirements Met:
     [Core] Natural Science

  Roxanne Prichard

This course is an introduction to the field of neuroscience and explores the biological and psychological foundations of the brain and behavior. The course introduces cell biology and covers the basic principles of nervous system cells and organization, brain function, and how the nervous system contributes to our behaviors and experiences. Two laboratory hours per week.

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21383

In Person | Lecture

St Paul: In Person

  Jenne Westberry

This course is an in-depth introduction to the fundamental biological processes that are key for understanding how the brain controls behavior in humans and animals. Content will range from neuronal communication to higher order brain functions. The course will provide a detailed examination of how environmental influences impact the cellular processes in the brain and behavior. The laboratory component of the course will examine clinical connections between neuroscience foundational knowledge and human disease. Three laboratory hours per week. Prerequisites: NSCI 201 OR BIOL 208 with a C- or better. CHEM 112 OR CHEM 115 recommended. This course will replace the current NSCI 301 Principles of Neuroscience. Students cannot get credit for both NSCI 202 and the current NSCI 301. 

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21384

In Person | Lab

St Paul: John Roach Center LL29

  Jenne Westberry

This course is an in-depth introduction to the fundamental biological processes that are key for understanding how the brain controls behavior in humans and animals. Content will range from neuronal communication to higher order brain functions. The course will provide a detailed examination of how environmental influences impact the cellular processes in the brain and behavior. The laboratory component of the course will examine clinical connections between neuroscience foundational knowledge and human disease. Three laboratory hours per week. Prerequisites: NSCI 201 OR BIOL 208 with a C- or better. CHEM 112 OR CHEM 115 recommended. This course will replace the current NSCI 301 Principles of Neuroscience. Students cannot get credit for both NSCI 202 and the current NSCI 301. 

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21385

In Person | Lab

St Paul: John Roach Center LL29

  Jenne Westberry

This course is an in-depth introduction to the fundamental biological processes that are key for understanding how the brain controls behavior in humans and animals. Content will range from neuronal communication to higher order brain functions. The course will provide a detailed examination of how environmental influences impact the cellular processes in the brain and behavior. The laboratory component of the course will examine clinical connections between neuroscience foundational knowledge and human disease. Three laboratory hours per week. Prerequisites: NSCI 201 OR BIOL 208 with a C- or better. CHEM 112 OR CHEM 115 recommended. This course will replace the current NSCI 301 Principles of Neuroscience. Students cannot get credit for both NSCI 202 and the current NSCI 301. 

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21386

In Person | Lecture

St Paul: In Person

Instructor: TBD

This course emphasizes understanding the scientific method in the context of modern neuroscience research and covers research design and writing in neuroscience. Course content focuses on developing skills in reading primary neuroscience literature, designing neuroscience experiments, analyzing neuroscience data, and presenting neuroscience research. Three laboratory hours per week. Prerequisites: NSCI 202 AND DASC 120 or DASC 112 with a strong recommendation in taking the SPSS, R, or Excel sections. Note: Students cannot get credit for both NSCI 203 and PSYC 212. Note: Students cannot get credit for both NSCI 203 and PSYC 212.

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21387

In Person | Lab

St Paul: In Person

Instructor: TBD

This course emphasizes understanding the scientific method in the context of modern neuroscience research and covers research design and writing in neuroscience. Course content focuses on developing skills in reading primary neuroscience literature, designing neuroscience experiments, analyzing neuroscience data, and presenting neuroscience research. Three laboratory hours per week. Prerequisites: NSCI 202 AND DASC 120 or DASC 112 with a strong recommendation in taking the SPSS, R, or Excel sections. Note: Students cannot get credit for both NSCI 203 and PSYC 212. Note: Students cannot get credit for both NSCI 203 and PSYC 212.

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21388

In Person | Lecture

St Paul: In Person

  Kurt Illig

This course is an in-depth study of the molecular, genetic, and cellular components of the vertebrate nervous system, and how these components interact to allow neurons to communicate. The course will build upon foundational neuroscience knowledge and will provide a detailed examination of the components of neuronal signaling, including the molecular structure of ion channels; proteins responsible for synaptic signaling; extracellular matrix structure and function; glial cell function; mRNA transfer between neurons. Laboratory topics will include training in the techniques and data analysis for modern neurophysiological techniques, including optogenetics, EEG, and multi-electrode neurophysiology. Four laboratory hours per week. Prerequisites: NSCI 202 and CHEM 112 OR CHEM 115.

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21389

In Person | Lab

St Paul: Owens Science Hall 381

  Kurt Illig

This course is an in-depth study of the molecular, genetic, and cellular components of the vertebrate nervous system, and how these components interact to allow neurons to communicate. The course will build upon foundational neuroscience knowledge and will provide a detailed examination of the components of neuronal signaling, including the molecular structure of ion channels; proteins responsible for synaptic signaling; extracellular matrix structure and function; glial cell function; mRNA transfer between neurons. Laboratory topics will include training in the techniques and data analysis for modern neurophysiological techniques, including optogenetics, EEG, and multi-electrode neurophysiology. Four laboratory hours per week. Prerequisites: NSCI 202 and CHEM 112 OR CHEM 115.

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21390

In Person | Lab

St Paul: Owens Science Hall 381

  Kurt Illig

This course is an in-depth study of the molecular, genetic, and cellular components of the vertebrate nervous system, and how these components interact to allow neurons to communicate. The course will build upon foundational neuroscience knowledge and will provide a detailed examination of the components of neuronal signaling, including the molecular structure of ion channels; proteins responsible for synaptic signaling; extracellular matrix structure and function; glial cell function; mRNA transfer between neurons. Laboratory topics will include training in the techniques and data analysis for modern neurophysiological techniques, including optogenetics, EEG, and multi-electrode neurophysiology. Four laboratory hours per week. Prerequisites: NSCI 202 and CHEM 112 OR CHEM 115.

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21391

In Person | Lecture

St Paul: In Person

Core Requirements Met:
     [Core] Diversity/Soc Just

  Mari Gades

Neuropharmacology is the study of how drugs affect the cells of the nervous system and their ability to communicate with other target systems in the body. This course will cover different classes of neurotransmitters and neurohormones and the receptors on target cells that recognize and bind these substances, using a “clinical model” framework that ties these principles to the therapeutic use of drugs. A significant amount of time will be spent covering the transduction mechanisms involved in converting the signals into a biological response, the gaps in a therapeutic approach, and new technologies that are improving the study and application of neurochemistry in modern neuroscience. Prerequisites: a C- in NSCI 203

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21392

In Person | Lab

St Paul: John Roach Center LL21

Core Requirements Met:
     [Core] Diversity/Soc Just

  Mari Gades

Neuropharmacology is the study of how drugs affect the cells of the nervous system and their ability to communicate with other target systems in the body. This course will cover different classes of neurotransmitters and neurohormones and the receptors on target cells that recognize and bind these substances, using a “clinical model” framework that ties these principles to the therapeutic use of drugs. A significant amount of time will be spent covering the transduction mechanisms involved in converting the signals into a biological response, the gaps in a therapeutic approach, and new technologies that are improving the study and application of neurochemistry in modern neuroscience. Prerequisites: a C- in NSCI 203

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21393

In Person | Lab

St Paul: John Roach Center LL21

Core Requirements Met:
     [Core] Diversity/Soc Just

  Mari Gades

Neuropharmacology is the study of how drugs affect the cells of the nervous system and their ability to communicate with other target systems in the body. This course will cover different classes of neurotransmitters and neurohormones and the receptors on target cells that recognize and bind these substances, using a “clinical model” framework that ties these principles to the therapeutic use of drugs. A significant amount of time will be spent covering the transduction mechanisms involved in converting the signals into a biological response, the gaps in a therapeutic approach, and new technologies that are improving the study and application of neurochemistry in modern neuroscience. Prerequisites: a C- in NSCI 203

0 Credits

Subject: Neuroscience (NSCI)

CRN: 21394

In Person | Lecture

St Paul: In Person

Requirements Met:
     [Core] Signature Work

  Roxanne Prichard

This capstone neuroscience course uses the physiological process of sleep as a lens to evaluate neural connectivity, neurochemical modulation, and sensory integration. This course will emphasize sleep as central to neural development, learning, and health. As part of the laboratory work, students will track their own sleep and circadian rhythms through temperature, behavioral, and hormonal assessment. Prerequisites: Two NSCI classes at the 300 level, one of which must be higher than 303

4 Credits

Subject: Neuroscience (NSCI)

CRN: 21395

In Person | Lab

St Paul: John Roach Center LL29

Requirements Met:
     [Core] Signature Work

  Roxanne Prichard

This capstone neuroscience course uses the physiological process of sleep as a lens to evaluate neural connectivity, neurochemical modulation, and sensory integration. This course will emphasize sleep as central to neural development, learning, and health. As part of the laboratory work, students will track their own sleep and circadian rhythms through temperature, behavioral, and hormonal assessment. Prerequisites: Two NSCI classes at the 300 level, one of which must be higher than 303

0 Credits