Courses
Search for courses listed in this bulletin. To find a semester course schedule (including instructors, meeting times and locations), go to mynmu.nmu.edu.
- Prerequisites: "C-" or better in CH 450, or instructor’s permission.
A course designed to follow Biochemistry I, emphasizing metabolic processes and exposing students to current biochemical literature. Topics include the biosynthesis of lipids, amino acids, nucleic acids and the study of gene expression and protein synthesis. Abnormalities in metabolic processes that result in disease will be considered.
- Prerequisites: "C-" or better in CH 450, or instructor’s permission.
A laboratory course applying instrumental techniques to biochemical problems. Experiments include immunological assay, electrophoresis, radioisotope labeling and purification and analysis of DNA.
- Prerequisites: Admission to the master of science degree in criminal justice program or consent of instructor
- Prerequisites: Admission to the master of science degree in criminal justice program or consent of instructor
- Prerequisites: Admission to the master of science degree in criminal justice program or consent of instructor
- Prerequisites: Admission to the master of science degree in criminal justice program or consent of instructor
- Graded: A/F
- Prerequisites: Admission to the master of science degree program in criminal justice.
This course examines the nature of contemporary American law enforcement. A range of topics will be covered including new organizational designs for law enforcement agencies, the use of modern technologies, contemporary law enforcement practices for crime control, case studies in police corruption, and civil liability. The course is designed for the graduate student with a basic knowledge of the nature of American policing and its historical origins. Requirements include participation in weekly discussions, written homework assignments approximately every two to three weeks, a formal research paper, and the completion of a mid-term and final exam.
- Graded: A/F
- Prerequisites: Admission to the master of science degree program in criminal justice.
This course examines the nature of the modern American correctional system which entails probation, parole, community corrections, jails and prisons. The course will involve an in-depth analysis of each component of the correctional system noting successful programs, problems, and future trends. Requirements include participation in weekly discussions, completion of written homework assignments approximately every two to three weeks, a formal research paper and the completion of a mid-term and final exam.
- Graded: A/F
- Prerequisites: Admission to the master of science degree program in criminal justice.
This course examines the nature of and challenges for responding to transnational crimes including wildlife, drug and human trafficking, money laundering, counterfeiting, cyber fraud and the international weapons trade along with national and international efforts to prevent such offenses. Requirements include participation in weekly discussions, completion of written homework assignments approximately every two to three weeks, and the completion of a mid-term and final exam.
- Prerequisites: Admission to the master of science degree in criminal justice program or consent of instructor
- Graded: S/U
- Prerequisites: Admission to the master of science degree program in criminal justice.
Students write a formal research paper on a criminal justice policy of no less than 20 pages and submit it for grading to their three-person graduate faculty committee. The paper is designed to assess the student’s ability to conduct research and write at a master’s level. Furthermore, it will assess the student’s ability to describe the origins, development and implementation of a criminal justice policy and critically analyze its impact including intended and unintended consequences. The student will work with their committee chair to select a topic and prepare their paper.
- Graded: A/F
- Prerequisites: Graduate standing and consent of instructor
- Prerequisites: CJ 504
- Graded: A/F
- Prerequisites: Consent of instructor and department head
- Graded: S/U
- Prerequisites: Admission to the master of science degree in criminal justice program and consent of instructor
Preparation of an extensive, original research and writing assignment under faculty supervision. Involves working with a thesis committee and formal defense of the thesis.
- Offered: Fall
- Graded: A/F
- Prerequisites: Entry into the Clinical Molecular Diagnostics Master’s program or instructor permission
This course provides the fundamental biological theory required to move forward through the Clinical Molecular Diagnostics graduate program. The course focuses on nucleic acid biochemistry, molecular diagnostic applications in a clinical setting, and career opportunities in the clinical sciences.
- Offered: Summer
- Graded: S/U
- Prerequisites: Admission to MS program in Clinical Molecular Genetics
CLS 516 is a one-week on-campus laboratory based course required for individuals who are completing a thesis. Students completing the non-thesis capstone or project option are not required to complete this course. Hands on application of nucleic acid based testing to include PCR, Real Time PCR, High Resolution Melt Analysis, LAMP based techniques, and identity testing.
- Graded: A/F
- Prerequisites: Admission to MS program in Clinical Molecular Genetics
Concepts and principles of current molecular technologies will be examined with applications to clinical diagnostics.
- Graded: A/F
- Prerequisites: CLS 520, CLS 536 and consent of the adviser
The techniques course will provide students with clinical molecular decision making strategies required for diagnosis, prognosis and management of human disease using techniques such as PCR, Real Time PCR, Sequencing, Microarray, and Isothermal Amplification Methods.
- Graded: A/F
- Prerequisites: Admission to MS program in Clinical Molecular Genetics or Doctor of Nursing Practice program.
Principles of human molecular genetics will be studied. The emphasis of the course will be on the molecular mechanisms and diagnostic methods of assessing inherited human disease, de novo genetic disease due to germ line mutations, and imprinting disorders.
- Graded: A/F
- Prerequisites: CLS 520
The course offers in depth molecular analysis for identification of cancer driver gene mutations related to cancer diagnosis and determination of disease state. Coursework includes review of cancer genetics and investigates molecular identification of hematological neoplasms, lymphomas, and solid tumors. Students will demonstrate mastery of subject matter via written and oral presentations.
- Graded: A/F
- Prerequisites: CLS 520
Course will cover technologies used in assessing inherited, somatic, and infectious diseases with an emphasis on massively parallel sequencing and the concepts in bioinformatics required to utilize sequencing data in clinical diagnostics.
- Graded: A/F
- Prerequisites: CLS 520
Course will cover applications of molecular testing in genomic medicine related to genetic identification. This will include paternity testing, identification of DNA in transplantation medicine, and analyzing crime scene evidence.
- Graded: A/F
- Prerequisites: CLS 520
Course will cover molecular techniques utilized in the diagnosis and prognosis of bacterial pathogens. This course examines the clinical evaluation of bacterial pathogens for molecular diagnosis. Students investigate the technologies used to identify bacterial pathogens using nucleic acid based molecular techniques. Students are required to determine the appropriate methodologies for identification of bacterial pathogens while demonstrating mastery of subject matter via written and oral presentations.
- Graded: A/F
- Prerequisites: CLS 520
This course examines the clinical evaluation of viral and fungal pathogens for molecular diagnosis. Students investigate the technologies used to identify viral and fungal pathogens using nucleic acid based molecular techniques. Students are required to determine the appropriate methodologies for identification of viral and fungal pathogens while demonstrating mastery of subject matter via written and oral presentations.