Experience

Bose Institute

• Research
• 200 - 300 Employee

• Research Associate

  • Jul 2019 - Present

  Genome based approaches of antibiotic biosynthesis for improved production in Actinomycetes of remote area Isolated potent actinobacteria for the synthesis of active biomolecules against microbes. Performed antimicrobial studies against wild type and resistant strains. Purification and identification of novel biomolecule were executed through several biochemical and biophysical process such as HPLC, TLC, LC-MS, MALDI, NMR. Genome based approaches of antibiotic biosynthesis for improved production in Actinomycetes of remote area Isolated potent actinobacteria for the synthesis of active biomolecules against microbes. Performed antimicrobial studies against wild type and resistant strains. Purification and identification of novel biomolecule were executed through several biochemical and biophysical process such as HPLC, TLC, LC-MS, MALDI, NMR.



University of Kalyani, Dept. of Molecular Biology & Biotechnology

• Project Fellow

  • Jun 2018 - Jun 2019

  Project Fellow WBHEST sponsored research project Project Fellow WBHEST sponsored research project



University of Kalyani

• Biotechnology Research
• 100 - 200 Employee

• Graduate Student

  • Jun 2011 - Jun 2018

  Thesis Title: Fabrication, modification and characterization of silver-based nanoparticles and their potential role in arsenic removal from aqueous environment Supervisor: Dr. Tapan Kumar Das| Professor. | University of Kalyani Implemented a biogenic source for the silver nano fabrication. Cell adhered nanoparticles were Synthesized and characterized by using different instruments such as Spectrophotometer, DLS, FTIR, TEM, FESEM, XRD, BET. Evaluated its ameliorative effect against the arsenic toxicity, this adsorbent system was used to pre-remove the arsenic (III) from the bacterial media and the toxicity of arsenic (III) in addition with its amelioration towards our gut microbiota Escherichia coli (E.coli) was valued through several biochemical as well as biophysical studies. Investigated the arsenic induced toxicity and its amelioration (pretreatment) by nano-absorbents in rice plant by studying the morphological and anatomical changes, the degree of oxidative damages and other different biochemical as well as molecular attributes. an attempt was made to evaluate the bioremediation efficacy of the dead biomass of the fungal strain, Aspergillus foetidus MTCC8876 for the removal of lead from the different tissues of a lead treated male Swiss albino mice. Show less



Chittaranjan National Cancer Institute

• Kolkata Area, India

• Summer Research Student

  • 2009 - 2009

  Project : Effect on the subcutaneous growth of enrich ascities carcinoma (EAC) tumor in mice pre-immunized with anti-idiotype antibody to EAC-cell” Supervisor: Dr. Sandip Saha | senior scientific officer and head of the department of metabolic regulation | Chittaranjan National Cancer institute Kolkata, West Bengal, India Project : Effect on the subcutaneous growth of enrich ascities carcinoma (EAC) tumor in mice pre-immunized with anti-idiotype antibody to EAC-cell” Supervisor: Dr. Sandip Saha | senior scientific officer and head of the department of metabolic regulation | Chittaranjan National Cancer institute Kolkata, West Bengal, India