International Journal of Engineering, Science and Mathematics
  • Year: 2022
  • Volume: 11
  • Issue: 3

Phytochemical profile and GC-MS analysis of antimicrobial resistantcompounds of medicinal plants

  • Author:
  • Vipin Kumar Singh1, Chandra Prakash Kushwaha2
  • Total Page Count: 10
  • Page Number: 1 to 10

1Ph.D. Scholar, Venkateshwara Open University, Arunachal Pradesh

2Professor, Venkateshwara Open University, Arunachal Pradesh

Online published on 16 September, 2023.

Abstract

It's crucial to comprehend the mechanics of resistance while developing problem-solving solutions. Salmonella microorganisms acquire or build intrinsic immunity to antibiotics by active efflux of medicines, modification of d2 receptors, and enzymatic damage. Since then, multiple drug interference (MDR) pumps have been identified in a variety of gramme positive and gramme negative harmful bacteria, including Staphylococcus aureus, Pseudomonas fluorescens, Enterococcus faecalis, and, more briefly, different blade. These pumps are intelligent enough to recognize and dismissing a multitude of proteinaceous biomolecules from the microorganism and granting rigidity to a range of antibiotics. Since then, it has been noted that some chemical substances, also known as MDR inhibitors or resist modulating molecules, have the capacity to alter the resilience phenotypes in bacterial by collaborating with antibiotics in vitro. A potential solution to the issue of resistant microorganisms is to look for such chemicals that may be used in combination with antibiotics to cure substance illnesses. Because of the great diverse range of plant species found within the biotic, phytochemical constituents of plant extracts stand out as feedback connections of possible resistance changing agents. The global health of people is seriously endangered by drug-resistant microorganisms. Antifungal agents medicines are desperately required since existing antibiotics are rapidly losing their effectiveness. Antimicrobial substances are very useful and may be found in living things. The study's primary goals are to analyse antimicrobialresistant chemicals from herbal medicines using a GC-MS and ergot alkaloids profiles. The most effective approach for assessing antimicrobial effects is polyphenol sequencing and GC-MS profiling. The issue of resistant microbes may be resolved using the solutions of therapeutic plants. Given that they may be made up of hundreds of distinct chemistries with various methods of action, this concept might justify the usage of herb essences and extracts in conventional healers, which has been practised for generations. These compounds' combined effects would prevent bacterial adaptability and increase the clinical shelf life using selected plant that are antibacterial.

Keywords

Antimicrobial resistant Compounds, Medicinal plants, GC-MS, Plant extract