Evaluation of the Antibacterial Activities of Mangrove Honeybee Propolis Extract and the Identification of Transpeptidase and Transglycosylase as Targets for New Antibiotics Using Molecular Docking

Developing new antibiotics is a critical area of research that grows as a result of the increasing problem of antibiotic resistance. Scientists search for new antibiotics by screening natural sources such as soil, plants, and marine environments. One of the iconic plants in the marine environment is...

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Published in:Antibiotics (Basel) 2023-07, Vol.12 (7), p.1197
Main Author: Alshiekheid, Maha A
Format: Article
Language:English
Subjects:
Alginic acid
Amino acids
Analysis
Antibacterial activity
Antibiotic resistance
Antibiotics
Antimicrobial agents
Antioxidants
Apis mellifera
Arabian Gulf
Avicennia marina
Bacteria
Bees
Carrageenan
Carrageenans
Carrageenin
Cell walls
Chemical composition
Chemical compounds
Drug resistance
Enterobacter cloacae
Enzymes
Flavonoids
Fucoxanthin
Gram-negative bacteria
Health care expenditures
Honeybee
Infections
mangrove honeybee propolis
Mangroves
Marine environment
Marine plants
Methicillin
Molecular docking
Pathogens
Penicillin
Propolis
Public health
Saudi Arabia
Staphylococcus aureus
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Summary:Developing new antibiotics is a critical area of research that grows as a result of the increasing problem of antibiotic resistance. Scientists search for new antibiotics by screening natural sources such as soil, plants, and marine environments. One of the iconic plants in the marine environment is the mangrove, which is a source of honeybee propolis. Propolis collected from the grey mangrove on Tarout Island, the Eastern Province of Saudi Arabia, was used to evaluate antibacterial activities against three pathogenic bacteria: gram-negative (RCMB 001(1) ATCC 23355 ), gram-positive methicillin-resistant (clinical isolate), and Clark (RCMB 017(1) ATCC 25175 ). The results indicate the effectiveness of the methanolic extract of such propolis. The chemical composition of this extract was analyzed using LC-MS, and four compounds were identified (alginic acid, carrageenan, fucoxanthin, cycloeudesmol). Their modes of action were evaluated against bacterial cell walls. Bacterial transpeptidase and transglycosylase on the surface are basic for cell divider amalgamation, and numerous antimicrobials have been created to target these compounds. Molecular docking was employed to predict the interactions of four compounds and to predict interaction. Alginic acid was found to be the best interaction with a score of -7.44 Kcal/mol with distance ranges between 2.86 and 3.64 and RMSD refined below 2 Ă…. Carrageenan with -6.64 Kcal/mol and a distance of 3.05 and 2.87 came second. Then, fucoxanthin with -6.57 Kcal/mol and a distance of 1.4. Finally, cycloeudesmol with a score of -4.6 Kcal/mol and a distance of 2.87 showed the least activity. The first three compounds interacted effectively and could form very promising chemicals that could be used one day against pathogenic bacteria in the future.
ISSN:2079-6382
2079-6382
DOI:10.3390/antibiotics12071197