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W4285594037 endingPage "951" @default.
W4285594037 startingPage "951" @default.
W4285594037 abstract "Antibiotics are regarded as a miracle in the medical field as it prevents disease caused by pathogenic bacteria. Since the discovery of penicillin, antibiotics have become the foundation for modern medical discoveries. However, bacteria soon became resistant to antibiotics, which puts a burden on the healthcare system. Methicillin-resistant Staphylococcus aureus (MRSA) has become one of the most prominent antibiotic-resistant bacteria in the world since 1961. MRSA primarily developed resistance to beta-lactamases antibiotics and can be easily spread in the healthcare system. Thus, alternatives to combat MRSA are urgently required. Antimicrobial peptides (AMPs), an innate host immune agent and silver nanoparticles (AgNPs), are gaining interest as alternative treatments against MRSA. Both agents have broad-spectrum properties which are suitable candidates for controlling MRSA. Although both agents can exhibit antimicrobial effects independently, the combination of both can be synergistic and complementary to each other to exhibit stronger antimicrobial activity. The combination of AMPs and AgNPs also reduces their own weaknesses as their own, which can be developed as a potential agent to combat antibiotic resistance especially towards MRSA. Thus, this review aims to discuss the potential of antimicrobial peptides and silver nanoparticles towards controlling MRSA pathogen growth." @default.
W4285594037 created "2022-07-16" @default.
W4285594037 creator A5076687078 @default.
W4285594037 creator A5077570625 @default.
W4285594037 creator A5079756569 @default.
W4285594037 creator A5080227247 @default.
W4285594037 date "2022-07-15" @default.
W4285594037 modified "2023-10-01" @default.
W4285594037 title "Overcoming Methicillin-Resistance Staphylococcus aureus (MRSA) Using Antimicrobial Peptides-Silver Nanoparticles" @default.
W4285594037 cites W1439831580 @default.
W4285594037 cites W1881357636 @default.
W4285594037 cites W1970994148 @default.
W4285594037 cites W1973249315 @default.
W4285594037 cites W1999638387 @default.
W4285594037 cites W2018883772 @default.
W4285594037 cites W2019226937 @default.
W4285594037 cites W2095821825 @default.
W4285594037 cites W2102906662 @default.
W4285594037 cites W2113314250 @default.
W4285594037 cites W2124536696 @default.
W4285594037 cites W2126661658 @default.
W4285594037 cites W2130462828 @default.
W4285594037 cites W2139221049 @default.
W4285594037 cites W2159308620 @default.
W4285594037 cites W2163151727 @default.
W4285594037 cites W2218508358 @default.
W4285594037 cites W2220528754 @default.
W4285594037 cites W2489906103 @default.
W4285594037 cites W2501681685 @default.
W4285594037 cites W2511476802 @default.
W4285594037 cites W2549644565 @default.
W4285594037 cites W2602672783 @default.
W4285594037 cites W2725399813 @default.
W4285594037 cites W2727386932 @default.
W4285594037 cites W2734456297 @default.
W4285594037 cites W2755440815 @default.
W4285594037 cites W2766432315 @default.
W4285594037 cites W2791113304 @default.
W4285594037 cites W2793280558 @default.
W4285594037 cites W2806153516 @default.
W4285594037 cites W2809827657 @default.
W4285594037 cites W2810314671 @default.
W4285594037 cites W2896342733 @default.
W4285594037 cites W2908848894 @default.
W4285594037 cites W2911517174 @default.
W4285594037 cites W2923656972 @default.
W4285594037 cites W2936323978 @default.
W4285594037 cites W2952610169 @default.
W4285594037 cites W2963039258 @default.
W4285594037 cites W2963865909 @default.
W4285594037 cites W2974282732 @default.
W4285594037 cites W2978793169 @default.
W4285594037 cites W2981285269 @default.
W4285594037 cites W2982264792 @default.
W4285594037 cites W2989135569 @default.
W4285594037 cites W2992683972 @default.
W4285594037 cites W2995317030 @default.
W4285594037 cites W2998110188 @default.
W4285594037 cites W3030657233 @default.
W4285594037 cites W3043451718 @default.
W4285594037 cites W3048213708 @default.
W4285594037 cites W3048752454 @default.
W4285594037 cites W3048865162 @default.
W4285594037 cites W3092909579 @default.
W4285594037 cites W3093585346 @default.
W4285594037 cites W3099062033 @default.
W4285594037 cites W3108685698 @default.
W4285594037 cites W3111360459 @default.
W4285594037 cites W3111531342 @default.
W4285594037 cites W3118972426 @default.
W4285594037 cites W3123878815 @default.
W4285594037 cites W3126519621 @default.
W4285594037 cites W3127612811 @default.
W4285594037 cites W3130823877 @default.
W4285594037 cites W3142886264 @default.
W4285594037 cites W3179476014 @default.
W4285594037 cites W3186614336 @default.
W4285594037 cites W3198303770 @default.
W4285594037 cites W3198758353 @default.
W4285594037 cites W3202290316 @default.
W4285594037 cites W3206687690 @default.
W4285594037 cites W3213743547 @default.
W4285594037 cites W4200049692 @default.
W4285594037 cites W4200066067 @default.
W4285594037 cites W4200199535 @default.
W4285594037 cites W4200399042 @default.
W4285594037 cites W4206677002 @default.
W4285594037 cites W4213181868 @default.
W4285594037 cites W4225116928 @default.
W4285594037 doi "https://doi.org/10.3390/antibiotics11070951" @default.
W4285594037 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35884205" @default.
W4285594037 hasPublicationYear "2022" @default.
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