NIAB SRF Post 2023 – MSc Molecular Biology Apply Online
NIAB SRF Post 2023 – MSc Molecular Biology Apply Online. National Institute of Animal Biotechnology vacancies. MSc Biological, Life Sciences & Molecular Biology project jobs. Interested and eligible applicants can check out all of the details on the same below
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This job expires in
National Institute of Animal Biotechnology, Hyderabad–500032
(An Autonomous Institute of the Department of Biotechnology)
Advt. No. 26/2023
Applications are invited from suitable candidates to fill the following position at the National Institute of Animal Biotechnology (NIAB), Hyderabad.
Name of the Post: Senior Research Fellow
No. of Posts: 1 Position
Name of the Project: DBT funded project entitled “Targeting the Virulence associated SVSP Gene Family of Theileria annulata for Developing Potential Therapeutic Candidates”
Name of the PI: Dr. Paresh Sharma.
Upper Age limit: 35 years, age relaxation will be given as per government rules to deserving candidates.
How to Apply –
Applications are to be filled ONLINE. Online link for submission of application is available from 28-08-2023 and the last date is 11-09-2023 by 5 PM. Candidates must fill online application form
at www.niab.res.in. Candidates are advised to fill the online application form in sufficient time before the last date to avoid last minute technical issues. No need to send hard copy. Interim enquiries will not be entertained. Suitable candidates will be screened, intimated through email and interviewed by duly constituted selection committee through online mode. Original documents in support of date of birth, educational qualifications and experience certificates are required to be submitted at time of joining.Fellowship amount: Candidates with NET or Post Graduate degree in professional course will be paid Rs. 35,000/-PM+24% HRA PM as per the DST guidelines. However, Non NET candidates can also apply who will be paid as per their eligibility as per the DST guidelines.
Essential Qualification:
- Master’s degree in Natural or Agricultural Sciences/MVSc or Bachelor’s degree in Engineering or Technology or Medicine from a recognized university or equivalent. A minimum two years of experience in Research and Development in Academic Institutions or Science and Technology Organizations.
- Candidates having prior experience in molecular biology, gene cloning, protein purification, gene editing and cell culture techniques will be given preference.
Check the notification below
2. Question: How would you approach the process of gene cloning for the SVSP gene family? What challenges might you encounter and how would you overcome them? Answer: Gene cloning involves isolating and amplifying the target gene. Challenges might include PCR optimization, obtaining full-length sequences, and ensuring correct expression. Overcoming these challenges could involve primer design optimization, troubleshooting, and using appropriate vectors for expression.
3. Question: Describe your experience with protein purification techniques. What factors would you consider when choosing a purification strategy for proteins related to the SVSP gene family? Answer: Protein purification involves isolating a target protein from a complex mixture. I have experience with techniques like affinity chromatography and gel filtration. For SVSP-related proteins, factors like molecular weight, stability, and interaction partners would guide the choice of purification method.
4. Question: Could you outline your understanding of gene editing techniques? How might gene editing be employed in the context of this project? Answer: Gene editing involves making specific changes in DNA sequences. Techniques like CRISPR/Cas9 could be used to modify the SVSP genes, potentially reducing their virulence. This could lead to therapeutic candidates with attenuated pathogenicity, which is relevant to the project’s goals.
5. Question: Discuss your familiarity with cell culture techniques. How might cell culture be utilized to study the effects of modifying SVSP genes on Theileria annulata? Answer: Cell culture involves growing cells outside their natural environment. In this project, modified cell lines could be used to study the impact of SVSP gene modifications on pathogenicity. Evaluating changes in growth rates, virulence, and interactions with host cells would be important outcomes of such studies.
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