E-ISSN 2063-5346
 

Original Article 


SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS

K. Kavitha, P. Krishnamoorthy.

Abstract
The emergence of multidrug resistance among pathogens has become a global challenge for bacterial infection
treatment. The methicillin-resistant Staphylococcus aureus, multi-drug resistant tuberculosis and antibacterial resistant E. coli
is the leading cause of mortality among infectious diseases worldwide. Finding a novel chemical to combat antibiotic resistance
microorganisms is critical right now in the world. In this study we synthesized five novel primaquine derivatives and evaluated
their efficacy against methicillin-resistant Staphylococcus aureus, multi-drug resistant tuberculosis and antibacterial resistant
E. coli. All the molecules show excellent antibacterial activity against antimicrobial resistance microorganisms compared to
standard drugs.

Key words: Primaquine, Synthesis, Antimicrobial resistance, MRSA, E. coli, MDR-TB


 
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Pubmed Style

K. Kavitha, P. Krishnamoorthy. SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. ECB. 2022; 11(6): 97-100. doi:10.31838/ecb/2022.11.06.014


Web Style

K. Kavitha, P. Krishnamoorthy. SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. https://www.eurchembull.com/?mno=112774 [Access: November 29, 2022]. doi:10.31838/ecb/2022.11.06.014


AMA (American Medical Association) Style

K. Kavitha, P. Krishnamoorthy. SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. ECB. 2022; 11(6): 97-100. doi:10.31838/ecb/2022.11.06.014



Vancouver/ICMJE Style

K. Kavitha, P. Krishnamoorthy. SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. ECB. (2022), [cited November 29, 2022]; 11(6): 97-100. doi:10.31838/ecb/2022.11.06.014



Harvard Style

K. Kavitha, P. Krishnamoorthy (2022) SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. ECB, 11 (6), 97-100. doi:10.31838/ecb/2022.11.06.014



Turabian Style

K. Kavitha, P. Krishnamoorthy. 2022. SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. European Chemical Bulletin, 11 (6), 97-100. doi:10.31838/ecb/2022.11.06.014



Chicago Style

K. Kavitha, P. Krishnamoorthy. "SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS." European Chemical Bulletin 11 (2022), 97-100. doi:10.31838/ecb/2022.11.06.014



MLA (The Modern Language Association) Style

K. Kavitha, P. Krishnamoorthy. "SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS." European Chemical Bulletin 11.6 (2022), 97-100. Print. doi:10.31838/ecb/2022.11.06.014



APA (American Psychological Association) Style

K. Kavitha, P. Krishnamoorthy (2022) SYNTHESIS OF VIRTUALLY SCREENED POTENT NOVEL PRIMAQUINE DERIVATIVES AND EVALUATE THE BIOLOGICAL ACTIVITY AGAINST ANTIBACTERIAL RESISTANCE MICROORGANISMS. European Chemical Bulletin, 11 (6), 97-100. doi:10.31838/ecb/2022.11.06.014