The major of biological science (also called life science) includes biological science and biotechnology. These main disciplines mainly train students to learn the basic theories and knowledge of biological science and technology. Cultivate students' scientific thinking and scientific experiments in applied basic research and technology development, and then have better scientific literacy and preliminary basic abilities of teaching, research, development and management. Its core courses mainly include animal biology, plant biology, microbiology, biochemistry, genetics, cell biology, molecular biology, general ecology and other disciplines; Compulsory courses include inorganic and analytical chemistry, organic chemistry, college mathematics, college physics, biostatistics, developmental biology, introduction to biotechnology, evolutionary biology, biochemistry, calculus and so on.
2. Biological information
Bioinformatics is a subject that studies the collection, processing, storage, dissemination, analysis and interpretation of biological information. It is also a new discipline formed by the combination of life science and computer science with the rapid development of life science and computer science. It comprehensively uses biology, computer science and information technology to reveal the biological mystery endowed by a large number of complex biological data.
3. Bioinformatics technology
Biotechnology is a comprehensive technology based on life science, which uses the characteristics and functions of organisms (or biological tissues, cells and other components) to design and construct new substances or strains with expected performance, and combines engineering principles to process and produce products or provide services.
4. Major in Biological Science and Biotechnology
Students in this major mainly study the basic theory and knowledge of biotechnology, understand the frontier and development trend of life science, receive training in scientific thinking and scientific experiments in applied basic research and technology development, and have good scientific literacy and basic abilities in production, development, research, management and teaching.
5. Animal and plant quarantine specialty
Animal and plant quarantine majors train senior technical personnel who have basic theoretical knowledge and skills of animal and plant inspection and quarantine, and can be engaged in the technical, management and promotion of animal and plant diseases and insect pests inspection and prevention, agricultural and livestock products health and safety inspection, animal and plant protection and other aspects in national inspection and quarantine departments at all levels, animal and plant products health and safety supervision institutions, agricultural and livestock products production and sales and other enterprises.
6. Major in biochemistry and molecular biology
Biochemistry and molecular biology majors mainly study biological phenomena from the microscopic or molecular perspective, involving the intersection of physics, chemistry, mathematics, biology and other disciplines. Biochemistry and molecular biology have infiltrated other majors in biology and belong to basic research majors.
7. Medical informatics major
The curriculum and teaching content of this major have penetrated into various disciplines and related fields, such as medicine, informatics, biomedicine, computer science and so on. The trained students not only understand the knowledge of medicine and related disciplines, but also master the computer-information processing technology, and can be active in the fields of medical and health institutions, clinical medical research, hospital information systems, biomedicine and medical imaging in the future. It can be predicted that in the near future, medical informatics will play a huge and irreplaceable role in hospital management, teaching and research, disease prevention, diagnosis and treatment, and will drive innovation in the whole medical field.
8. Bioengineering
Bio-engineering is a new comprehensive applied subject that began to rise in the early 1970s. In 1990s, the concept of systematic bioengineering was born based on system theory. The so-called bioengineering is generally considered to be based on the theory and technology of biology (especially molecular biology, microbiology, genetics, biochemistry and cytology), combined with modern engineering technology such as chemical engineering, machinery and computer, making full use of the latest achievements of molecular biology, consciously manipulating genetic material, directionally transforming organisms or their functions, creating new species with ultra-long-distance characteristics in a short time, and then treating such "engineering bacteria" through appropriate bioreactors.
9. Biopharmaceutical major
As a high-tech technology, biopharmaceutical technology was born in the early 1970s, accompanied by the invention and application of DNA recombination technology and lymphocyte hybridoma technology. In the past 30 years, the rapid development of biopharmaceutical technology has opened up broad prospects for the development of medical industry and pharmaceutical industry, and greatly improved people's lives. Therefore, countries all over the world have identified biopharmaceuticals as the key technologies and emerging industries for scientific and technological development in the 2 1 century.
10. Biomedical Engineering Major
Biomedical engineering majors train senior engineering and technical personnel with basic theoretical knowledge related to life science, electronic technology, computer technology and information science, as well as scientific research ability combining medicine and engineering technology, and can engage in research, development, teaching and management in electronic technology, computer technology and information industry departments such as biomedical engineering and medical instruments.
Biology is the best employment major.
I. Biological sciences
Employment direction: Graduates are mainly oriented to national scientific research institutions and universities, engaged in basic research and teaching of natural sciences, and can also adapt to the research and teaching of other majors based on biology, engaged in research and development of high-tech in the field of biology, and the development and promotion of new products and varieties.
Two. biotechnology
Employment direction: The proportion of biotechnology majors going abroad for postgraduate entrance examination is very high. Graduates can also engage in scientific research, technical management, process design, new product development, analytical testing instruments, technical monitoring, etc. in institutions of higher learning, scientific research institutes, management departments and departments of medicine, environment, food, health care products, biotechnology high-tech enterprises, etc.
First, what major is suitable for biology in high school? What major in biology has a good employment prospect?
Second, what is the major in biology? What is the employment direction of biology major?
3. What schools and majors can apply for the combination of physics and biological history?
Fourth, is it good to combine physiology with biological history? Physical and biological history can be applied for.
5. What are the advantages of applying for the major of Physical Biopolitics?
6. What universities and majors can apply for in physics, biology and politics?
7. Wuhan Institute of Bioengineering 202 1 requirements for major change. Is it difficult to change majors?
8. What majors can I apply for in the combination of biology, history and geography?
9. What major can I apply for in biological history and geography?
10. What major can I choose in the history of chemical biology?
Three. bioinformatics
Employment orientation: engaged in teaching, scientific research, management, molecular diagnosis of diseases, drug design, biological software development, environmental microbial detection, etc. In scientific research institutions, universities, medical and pharmaceutical, environmental protection and other related departments. As far as bioinformatics is concerned, the prospect is very broad. This is a subject that studies the nature of life. Its purpose is to solve the basic mysteries of all living things from the gene sequence and obtain the physiological mechanism of life from the structure. Philosophically, it is expected to explain all human behaviors and functions from the molecular level, but it is very difficult. Personally, my country is relatively backward in this respect, and we need people to fill some vacancies. Of course, the research environment may not be as good as that of foreign countries, and we can also work in related fields. Generally speaking, doing scientific research has a good prospect, and if you don't do scientific research, you can only find a more general job.
Fourth, ecology.
Employment direction: some graduate students; You can also engage in scientific research, design and teaching in scientific research, engineering and design departments or universities, and you can also engage in ecological, environmental protection, industrial and urban regional planning, technology development and management in governments and enterprises.