Molecular Genetics

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The Molecular Genetics program at Ohio State University provides a comprehensive understanding of genes and their role in organisms. Through core courses in genetics, biochemistry, and cell biology, students gain a strong scientific foundation. The program also offers upper-level courses and research opportunities, preparing graduates for careers in science, healthcare, and biotechnology.

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Degree Overview:

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Overview:

• The Molecular Genetics program at Ohio State University aims to equip students with a comprehensive understanding of genes and their involvement in the functioning of cells and organisms.
• Through this program, students explore diverse fields such as genetics, biochemistry, evolution, chemistry, and genomics.

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Objectives:

• To provide students with a strong scientific foundation in molecular biology and genetics, preparing them for advanced coursework and research in the field.
• To enable students to comprehend the normal development and function of organisms and the role of genetic changes in疾病.

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Program Description:

• The Molecular Genetics major requires students to complete 30 credit hours of coursework, including five core courses in genetics, biochemistry, cell biology, developmental genetics, and population and evolutionary genetics.
• Students are also required to gain research experience through a molecular genetics lab course or mentored independent research in a faculty laboratory.
• Beyond these core requirements, students can tailor their studies by selecting upper-level courses from the Department of Molecular Genetics or approved offerings from other life sciences departments.
• The program also offers a specialization in plant cellular and molecular biology for students with a strong interest in plant biology.

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Outline:

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Course Schedule and Structure:

• The program's curriculum is designed to provide students with a solid foundation in math and science, including general biology, calculus, general chemistry, organic chemistry, and general physics.
• Core courses in molecular genetics focus on training students in essential concepts of genetics, biochemistry, cell biology, developmental genetics, and population and evolutionary genetics.
• Students can choose from a range of upper-level courses to complement their core coursework and pursue their individual interests within the field.

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Individual Modules:

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Core Courses:

• Genetics
- Fundamentals of inheritance, gene structure and function, genetic variation, and molecular techniques in genetics.
• Biochemistry
- Chemical basis of life, including the structure and function of biomolecules, metabolism, and enzyme catalysis.
• Cell Biology
- Structure, function, and regulation of eukaryotic cells, including membrane transport, cell signaling, and cell division.
• Developmental Genetics
- Genetic mechanisms underlying embryonic development, including gene regulation, morphogenesis, and tissue differentiation.
• Population and Evolutionary Genetics
- Principles of population genetics, including genetic variation, natural selection, and evolution.

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Upper-Level Courses:

• Molecular Genetics of Human Disease
- Genetic basis of human diseases, including cancer, genetic disorders, and infectious diseases.
• Microbial Genetics
- Genetic mechanisms in microorganisms, including bacteria, viruses, and fungi.

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Assessment:

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Assessment Methods:

• Coursework evaluations typically include a combination of exams, quizzes, assignments, and research projects.
• Students' understanding of molecular genetics concepts is assessed through written assignments, oral presentations, and research projects.
• Research projects allow students to demonstrate their ability to design and conduct independent research in a laboratory setting.

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Assessment Criteria:

• Grades are based on students' performance in coursework, research projects, and overall academic achievement.
• Faculty evaluate students' understanding of the subject matter, critical thinking skills, research abilities, and communication skills.

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Teaching:

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Teaching Methods:

• The program utilizes a variety of teaching methods to engage students and foster their understanding of molecular genetics principles.
• Lectures provide foundational knowledge and introduce key concepts.
• Small-group discussions encourage active learning and student participation.
• Laboratory experiences allow students to apply their knowledge and develop practical skills.
• Research projects offer hands-on experience in designing and conducting scientific investigations.

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Faculty:

• The program is staffed by experienced faculty members who are actively engaged in research and teaching in molecular genetics.
• Faculty members are dedicated to providing students with a supportive and intellectually stimulating learning environment.

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Unique Approaches:

• The program offers a summer study abroad program in Norway, where students can gain practical experience in analytical techniques and instrumentation relevant to medical laboratory technology.
• Through this program, students also explore the ethical challenges associated with the application of whole genome sequencing in clinical settings.

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Careers:

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Potential Career Paths:

• Graduates of the Molecular Genetics program are prepared for a wide range of career opportunities in the fields of science, healthcare, and biotechnology.
• Many graduates pursue advanced professional degrees in medicine, dentistry, pharmacy, or veterinary medicine.
• Others seek MS degrees in genetic counseling or PhDs to pursue careers in academia or research.
• Graduates also find employment in biomedical research, pharmaceutical or scientific sales, teaching, marketing, or technical writing.

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Career Outcomes:

• Graduates with a bachelor's degree in biology earn an average starting salary of $46,679.
• The median salary for all biological scientists is $103,410.
• Graduates who earn advanced degrees, such as a PhD or professional degree in medicine, genetic counseling, or pharmacy, have significantly higher earning potential.