Kiruba P

Dynamic Junior Research Associate with experience at ITC, ICML, excelling in internal audits and implementing food safety protocols. Proficient in SAP and adept at consumer complaint handling, I bring a strong foundation in Good Manufacturing Practices and a commitment to continuous improvement. Passionate about enhancing operational efficiency and quality standards.

• Level 3 Award in HACCP for Food Manufacturing, RQF, HAC6536248
• Food microbiology and food safety, SWAYAM MHRD, TN15020196
• Genetic engineering theory and application, NPTEL, NPTEL 23BT35S542700119
• Applied Environmental Microbiology, NPTEL, NPTEL 24 CE 04 S362800133

• English
• Tamil
• Malayalam

• Date of Birth: 12/01/01
• Marital Status: Single

• Green synthesis and characterization of silver nanoparticles from Syzygium cumini and its antimicrobial activity against diabetic foot ulcer bacteria

The leaves of Syzygium cumini was chosen because of their anti-bacterial, antifungal, anticancer, anti-inflammatory,anti-diabetic property.The evidence from this study showed that the silver nanoparticle Plant-mediated nanoparticle synthesis is currently gaining popularity due to its ease of use, speed of synthesis, and environmental friendliness.AgNPs with a well-built report on antibacterial, anti-inflammatory, anti- viral, anti-angiogenesis,and anti-platelet activity are finding medical application in the field of sustained significance. Leaf extract can be used to makenanoparticles at a minimal cost, and it eliminates the requirement for culture preparations and aseptic conditions for microorganisms. Plants have a variety of biomolecules that reduce metallic salt to nanoparticles, such ascarbohydrates, proteins, and co-enzymes. In conclusion the green synthesis of silver nanoparticle using Syzygium cumini helps to reduce the environmentally hazards caused due to the use of chemicals. Also, a considerable antimicrobial activity also observed against diabetic foot ulcers pathogens. So Syzigium cumini may be an effective alternative of antibiotics in the treatment of infectious diseases.

• Production and application of phosphate solubilizing bacteria as biofertilizer

Biofertilizer enhance the growth and yield of the crops. One such biofertilizer is phosphate solubilizing bacteria as biofertilizer. Bye the use of biofertilizer, we can overcome the toxic effects of using chemical fertilizers. Growth of crops can be increased, disease resistance could be attained. More benefits are there when using biofertilizer instead of chemical fertilizer.

• Biological management of Xanthomonas oryzae causing rice blight disease by Pseudomonas fluorescens.

To control the bacterial blight disease on rice by using Pseudomonas fluorescens as a biocontrol agent without anyhazardous chemicals.These chemicals that can cause environmental pollution and may induce pathogen resistance. As an alternate to hazardous chemicals, antogonistic organisms are found effective in controlling the growth of the rice pathogens. It encourages the growth of rice plant and enriches the soil.