Software
- Proficient in statistical and research software such as Microsoft Office, GraphPad Prism, SPSS, R and RStudio, EndNote, Image J, ChemBioDraw, Biorender, and Adobe Photoshop.
Research Skills
- Extensive in vivo and in vitro experimentation relating to reproductive neuroendocrinology and testicular function in various models (Monkeys, Rats, Mice).
- Competency in various basic and advanced microscopic techniques, e.g., Electron, Confocal and Fluorescence Microscopy, etc.
- Trained in research techniques like ELISA, Immunocytochemistry, Western blotting.
- Experimental surgeries (castration, jugular catheterization, Microtomy, cryostat sectioning, mice decapitation, brain dissection, and slicing).
- Nanoparticle synthesis, characterization, and medical application.
- Proficient in Molecular Toxicology techniques such as Cell culture, Cell counting, Cell treatment, RNA extraction, cDNA synthesis, qRT-PCR, Media making, MTT assay, GSH and protein Assay, and others.
Making the World a Better Place
Molecular Toxicology, Nanotechnology and reproductive neuroendocrinology aims to solve health complications and hence making the world a better place for all
Molecular Toxicology, Nanotechnology and reproductive neuroendocrinology aims to solve health complications and hence making the world a better place for all
Present Research Area, UNCG, United States
Molecular Toxicology, Still a Mystery?
Animals are constantly challenged by the widespread distribution of toxic substances in our water. Physical and biological stressors can amplify the dangers. Such environmental stressors can have short- and long-term negative effects on aquatic organisms' development, physiology, and behavior. Organisms, on the other hand, have evolved mechanisms to respond to such threats and adapt in order to avoid negative consequences and toxicity. Toxicological response pathways and adaptive mechanisms, on the other hand, are frequently unknown.
Animals are constantly challenged by the widespread distribution of toxic substances in our water. Physical and biological stressors can amplify the dangers. Such environmental stressors can have short- and long-term negative effects on aquatic organisms' development, physiology, and behavior. Organisms, on the other hand, have evolved mechanisms to respond to such threats and adapt in order to avoid negative consequences and toxicity. Toxicological response pathways and adaptive mechanisms, on the other hand, are frequently unknown.