Ph.D. in Biochemistry is a 3 to 5 year-long doctoral course. Minimum eligibility for applying to the course is the successful completion of post-graduation in Biochemistry, from a recognized university.
The average tuition fee charged for the course in India ranges between INR 50,000 and 4 Lacs, for the whole span of the course.
Admission to the course is based on the round of counselling conducted after the candidate’s qualification of a relevant entrance test, such as UGC-NET.
Such postgraduates are hired in capacities such as:
Popular hiring industries for such postgraduates include:
The average annual salary offered to successful postgraduates of the course in India ranges between INR 4 and 20 Lakhs, increasing with the candidate’s experience and skillsets.
Listed below are some of the major highlights of the course.
|Duration||3 to 5 years|
|Examination Type||Semester System|
|Eligibility||Post-graduation in Biochemistry|
|Admission Process||Based on counselling after qualification of a relevant entrance test, like UGC-NET.|
|Course Fee||INR 50,000 to 4 Lakhs for 3 years|
|Average Starting Salary||INR 4 to 20 lacs per annum|
|Top Recruiting Companies||Drug Manufacturing Companies, Public Health Entities, Blood Service, Industrial Laboratories, Cancer research institutes, Research Departments, Educational Institutes, Environmental Pollution Control, Agriculture and fisheries, Forensic Science, Hospitals, Public Health Laboratories, Cosmetic Industries, etc.|
|Job Positions||Analytical Chemist, Biomedical Scientist, Healthcare Scientist, Clinical Biochemist, Clinical Research Associate, Forensic Scientist, Physician Associate, Research Scientist (Life Sciences), Scientific Laboratory Technician, Toxicologist, and such.|
The course involves advanced research in the allied disciplines of:
Such scholars typically possess advanced and specialized training and expertise in the area.
The job of a Biochemist encompasses a wide range of scientific topics, including:
This interdisciplinary course involves an advanced study of biological processes such as:
In the industry, biochemistry is often a collaborative field. Biochemists typically work with professionals from various fields to accomplish their goals. These professionals can range across job positions such as:
Listed below are some of the top institutes in India that offer the course.
|Name of Institute||City||Fees|
|Central Drug Research Institute||Lucknow||INR 90,000 (course)|
|Shiv Nadar University||Greater Noida||INR 2.96 Lacs (course)|
|National Institute of Technology, Surathkal||Mangalore||INR 1.04 Lacs (course)|
|Indian Institute of Technology, Gandhinagar||Ahmedabad||INR 4.55 Lacs (course)|
|Indian Institute of Technology, Hyderabad||Telangana||INR 3.34 Lacs (course)|
|Lovely Professional University||Punjab||INR 39,500 (course)|
|IIT||Delhi||INR 3.50 Lacs (course)|
|NIT||Silchar||INR 17,620 (course)|
|Jaipur National University||Jaipur||INR 57,150 (course)|
|DIT University||Dehradun||INR 75,800 (course)|
|SRI RAMACHANDRA UNIVERSITY||Chennai||INR 75,000 (course)|
|Sardar Vallabhbhai National Institute of Technology||Surat||INR 1,27,000 (course)|
|Periyar Maniammai University||Thanjavur||INR 40,500 (course)|
|Netaji Subhash Chandra Bose Subharti Medical College||Meerut||INR 1.3 Lacs (course)|
|Amity University||Jaipur||INR 40,000 (course)|
|Sri Ramakrishna Mission Vidyalaya College Of Arts & Science||Coimbatore||INR 18,000 (course)|
|Shri Brijlal Biyani Science College||Mumbai||INR 5000 (course)|
|IFTM's School of Science||Dehradun||INR 90,840 (course)|
|Santosh University||Gaziabad||INR 3 Lacs (course)|
|Sharda University||Noida||INR 10 Lacs (course)|
Listed below are the minimum criteria which candidates interested in pursuing the course are required to fulfil, in order to be eligible to apply for the course.
In India universities have rights to set their own procedure and standards for admission to Ph.D. programs. But the set of requirements for the application are similar. These include a compulsary research proposal, detailing the proposed outline of the candidate’s Ph.D. project, and explaining the methodology one plans to employ.
Most institutes offering the course admit students based on their performance in a relevant entrance test followed by a round of Personal Interview. Admission process generally varies across institutes.
Candidates are selected based on performance in the UGC/ CSIR (JRF)/ NET/ GATE, etc. examinations, and subsequent round of Personal Interview.
A paper-wise breakup of the course’s syllabus is tabulated here.
|Bio techniques||Computational sequence analysis|
|Computer Applications and Research Methodology||Drug protein and nucleic acid docking mechanisms|
|Molecular Biology||Protein and protein nucleic acid interactions|
|DNA techniques||Protein array and protein chips|
|Fundamental techniques of Genetics||Central tendency, dispersion and variability|
|PCR & RT PCR||Correlation coefficient|
|Southern, western and northern blot||Probability theory|
|DNA & RNA sequence analysis.||ANOVA: one-way and two-way classification.|
|Protein Biochemistry: Spectroscopic methods||Genomics of prokaryotes & eukaryotes|
|Fluorescence, Circular Dicrosim||Functional genomics|
|PAGE, SDS PAGE||System Biology|
|Electron microscopic techniques||Drug transport models|
|SEM, TEM freeze fracture technique||Immuno-electrophoresis|
|Sedimentation velocity||Sub cellular fractionation|
|Sedimentation coefficient||Protein sequence analysis.|
|Protein & nucleic acid||Bioinformatics & Biostatistics|
|Chosen area of research.||-|
Popular hiring organizations include:
Suh postgraduates are hired incapacities such as:
Some of the popular professional avenues open to successful postgraduates of the course are listed below with the corresponding salaries offered for the respective positions.
|Job Position||Job Description||Average Annual Pay Scale in INR|
Techniques or activities employed by Biotechnologists vary depending on the employer or specialist area, but may include analysing samples from various sources to provide information on compounds or quantities of compounds present.
They also employ analytical techniques and instrumentation, such as gas and High-Performance Liquid Chromatography (HPLC), Ion Chromatography, Electro-Chromatography and Spectroscopy (infrared and ultraviolet, amongst others).
|Research Scientist||Research Scientists work in almost every area of science imaginable. They plan and carry out experiments and investigations in a range of areas, including Geoscience, Medical Research, Meteorology and Pharmacology.||1,473,953|
Energy Managers plan, regulate and monitor energy use in an organisation or facility. They coordinate all aspects of energy management, from reduction of carbon dioxide emissions, to waste management and sustainable development.
They adopt procedures of operation to encourage the use of renewable and sustainable energy resources within an organisation or community. They develop solutions for carbon management, and raise energy conservation initiatives.
Clinical Scientists, often also referred to as Medical Scientists, work in hospitals, laboratories, research centres, institutes, universities, and clinics. Clinical Scientists work to advance knowledge in biomedical research, medicine, and the processes that drive and support living organisms, though they may also work to develop products, treatments, and medications based on such knowledge.
Typical duties of Clinical Scientists include devising and carrying out research and experiments, supervising assistants and lab techs, drafting, implementing and evaluating guidelines, conducting tests, and many other duties, depending on their work environment and specific role.
Another option for Biochemistry majors is a career as a Research Assistant, working in government or private laboratories, pharmaceutical companies, hospitals, or facilities connected to the growing field of Biotechnology.
Though jobs involving a high level of research require an advanced degree, there are still many jobs at the assistant or technician level open to those with graduate degrees.
|Clinical Laboratory Technologist|
Clinical Laboratory Technologists use their backgrounds in Biochemistry to conduct experiments on bacteria, viruses, and microorganisms. Technologists may perform tests on levels of compounds in human blood, monitor growth of bacteria, or examine the effects of drugs on viruses.
Depending on the laboratory environment they are in, these professionals may be involved in a broad range of studies or specialize in a specific field, such as Bacteriology or Virology. Clinical Laboratory Technologists may find employment in government health agencies, drug manufacturing companies, or health care facilities.
|Medical Research Scientist|
Research Scientist positions typically require either a Master's degree or Ph.D. in subjects such as Biochemistry, Chemistry, Molecular Biology and Analytical Chemistry. Independent research positions could require a Ph.D., several years' worth of experience in a postdoctoral position, and a portfolio of published research.
A job involving clinical work where scientists interact with patients in a medical capacity requires professionals to hold a Doctor of Medicine (M.D.) and a State license to practice medicine. Positions bridging the gap between research and clinical medicine may require both an M.D. and a Ph.D.
|Medical Biochemistry Technician|
Technician-level positions are available in both research and clinical laboratories. Technicians in clinical labs perform routine tests and sample analysis, and communicate the results to doctors. In research laboratories, they perform simple experiments and sample preparation.
Lab Technicians also operate and maintain lab equipment, and may manage lab inventory. Medical biochemistry technician positions generally require a bachelor's degree in biology or a related field.
Some employers accept an associate's degree or certificate when accompanied by a number of years of relevant work experience, but advancement past a certain level of responsibility in this field is generally not possible without a 4-year degree.
Lab research and teaching jobs can also be found at universities and medical schools. University Professors must balance their time between designing research, managing their lab, and teaching.
Senior professors often have other administrative duties as well, such as acting as academic deans or department heads, designing department curricula, and sitting on academic committees. Tenure-track faculty positions at 4-year universities usually require a Ph.D. and several years of postdoctoral research experience. Lecturer-level positions at 4-year universities and tenure-track positions at 2-year colleges may only require a master's degree.
Faculty positions at medical schools usually require an M.D.