Biochemistry: Biomolecules Methods and Mechanisms

Course Overview

7.05x Biochemistry: Biomolecules Methods and Mechanisms is an online course offered by MITx and taught by Professor Yaffe, an MIT professor and practicing surgeon. This course provides learners with an in-depth exploration of biochemistry, focusing on developing scientific thinking skills, using data based on real scientific experiments, visualizing molecular structures, and translating topics to diseases and medicine. Learners will also have the opportunity to practice quantitation with MATLAB and gain an understanding of the booming biotechnology industry. Those who register for the verified-certificate track will also have the chance to take the MITx 7.05x Biochemistry Competency Exam, which is open during the final week of the course and counts towards a certificate.

[Applications]
Upon completion of 7.05x Biochemistry, learners can apply their knowledge to a variety of fields, such as medical school, STEM fields, research science, and biotechnology. Learners can also use their understanding of the chemical reactions that govern life to develop their scientific thinking skills, interpret data, design experiments, and visualize molecular structures. Additionally, learners can use the MITx 7.05x Biochemistry Competency Exam to certify their mastery of the MITx biochemistry content.

[Career Paths]
Job Position Paths:
1. Biochemist: Biochemists study the chemical and physical properties of living organisms and their components. They use their knowledge to develop new medicines, treatments, and technologies. They also work to understand the causes of diseases and how to prevent them. Biochemists are in high demand in the biotechnology and pharmaceutical industries, as well as in research and development.

2. Biomedical Engineer: Biomedical engineers use their knowledge of biology, engineering, and medicine to develop new medical technologies and treatments. They design and build medical devices, develop new drugs, and create computer systems to help diagnose and treat diseases. Biomedical engineers are in high demand in the healthcare industry, as well as in research and development.

3. Research Scientist: Research scientists use their knowledge of biology, chemistry, and physics to conduct experiments and develop new technologies. They work in laboratories to study the properties of living organisms and their components, and use their findings to develop new treatments and technologies. Research scientists are in high demand in the biotechnology and pharmaceutical industries, as well as in research and development.

4. Medical Technologist: Medical technologists use their knowledge of biology, chemistry, and physics to analyze samples and diagnose diseases. They work in laboratories to analyze samples and use their findings to diagnose and treat diseases. Medical technologists are in high demand in the healthcare industry, as well as in research and development.

Developing Trends:
1. Biochemists are increasingly using advanced technologies such as gene editing and artificial intelligence to develop new treatments and technologies.
2. Biomedical engineers are developing new medical devices and treatments that are more efficient and cost-effective.
3. Research scientists are using their knowledge of biology, chemistry, and physics to develop new technologies and treatments for diseases.
4. Medical technologists are using their knowledge of biology, chemistry, and physics to develop new diagnostic tools and treatments.

[Education Paths]
The recommended degree paths for learners of this course are:

1. Bachelor of Science in Biochemistry: This degree program provides students with a comprehensive understanding of the chemical and biological processes that occur in living organisms. Students will learn about the structure and function of biomolecules, the mechanisms of metabolic pathways, and the principles of genetics and molecular biology. This degree is ideal for those interested in pursuing a career in biotechnology, medical research, or pharmaceuticals. Additionally, the degree provides a strong foundation for those interested in pursuing a medical degree.

2. Master of Science in Biochemistry: This degree program provides students with an advanced understanding of the chemical and biological processes that occur in living organisms. Students will learn about the structure and function of biomolecules, the mechanisms of metabolic pathways, and the principles of genetics and molecular biology. This degree is ideal for those interested in pursuing a career in biotechnology, medical research, or pharmaceuticals. Additionally, the degree provides a strong foundation for those interested in pursuing a medical degree.

3. Doctor of Philosophy in Biochemistry: This degree program provides students with an in-depth understanding of the chemical and biological processes that occur in living organisms. Students will learn about the structure and function of biomolecules, the mechanisms of metabolic pathways, and the principles of genetics and molecular biology. This degree is ideal for those interested in pursuing a career in biotechnology, medical research, or pharmaceuticals. Additionally, the degree provides a strong foundation for those interested in pursuing a medical degree.

The development trends for these degree paths include an increased focus on the application of biochemistry to medical and pharmaceutical research, as well as the development of new technologies and techniques for studying biomolecules. Additionally, there is an increased emphasis on the use of computational methods to analyze and interpret data. Finally, there is an increased focus on the ethical implications of biochemistry research and the development of new treatments and therapies.