1 |
da Cunha MG, Sardi JdCO, Freires IA, Franchin M, Rosalen PL. Antimicrobial, anti-adherence and antibiofilm activity against Staphylococcus aureus of a 4-phenyl coumarin derivative isolated from Brazilian geopropolis. Microb. Pathogenesis 139: 103855 (2020)
DOI
|
2 |
Jeon DY, Yum SJ, Seo DW, Kim SM, Jeong HG. Leaf-associated microbiota on perilla (Perilla frutescens var. frutescens) cultivated in South Korea to detect the potential risk of food poisoning. Food Res. Int. 126: 108664-108674 (2019)
DOI
|
3 |
Andries K, Verhasselt P, Guillemont J, Gohlmann HW, Neefs JM, Winkler H, Van Gestel J, Timmerman P, Zhu M, Lee E. A diarylquinoline drug active on the ATP synthase of Mycobacterium tuberculosis. Science 307: 223-227 (2005)
DOI
|
4 |
Brem B, Seger C, Pacher T, Hofer O, Vajrodaya S, Greger H. Feeding deterrence and contact toxicity of Stemona alkaloids a source of potent natural insecticides. J. Agric. Food Chem. 50: 6383-6388 (2002)
DOI
|
5 |
Aswathanarayan JB, Vittal RR. Inhibition of biofilm formation and quorum sensing mediated phenotypes by berberine in Pseudomonas aeruginosa and Salmonella typhimurium. RSC Adv. 8: 36133-36141 (2018)
DOI
|
6 |
Aubourg M, Pottier M, Leon A, Bernay B, Dhalluin A, Cacaci M, Torelli R, Ledormand P, Martini C, Sanguinetti M. Inactivation of the response regulator AgrA has a pleiotropic effect on biofilm formation, pathogenesis and stress response in Staphylococcus lugdunensis. Microbiol. Spectr. 10: e01598-01521 (2022)
|
7 |
Bai JR, Wu YP, Elena G, Zhong, Gao KH. Insight into the effect of quinic acid on biofilm formed by Staphylococcus aureus. RSC Adv. 9: 3938-3945 (2019)
DOI
|
8 |
Dewey-Mattia D, Manikonda K, Hall AJ, Wise ME, Crowe SJ. Surveillance for foodborne disease outbreaks-United States, 2009-2015. MMWR Surveill. Summ. 67: 1-11 (2018)
|
9 |
Fetsch A, Johler S. Staphylococcus aureus as a foodborne pathogen. Curr. Clin. Microbiol. Rep. 5: 88-96 (2018)
DOI
|
10 |
Greger H. Structural classification and biological activities of Stemona alkaloids. Phytochem. Rev. 18: 463-493 (2019)
DOI
|
11 |
Jain A, Parihar D. Antibacterial, biofilm dispersal and antibiofilm potential of alkaloids and flavonoids of Curcuma. Biocatal. Agric. Biotechnol. 16: 677-682 (2018)
DOI
|
12 |
Newell DG, Koopmans M, Verhoef L, Duizer E, Aidara-Kane A, Sprong H, Opsteegh M, Langelaar M, Threfall J, Scheutz F. Food-borne diseases-the challenges of 20 years ago still persist while new ones continue to emerge. Int. J. Food Microbiol. 139: 3-15 (2010)
|
13 |
Kim YJ, Yu HH, Park YJ, Lee NK, Paik HD. Anti-biofilm activity of cell-free supernatant of Saccharomyces cerevisiae against Staphylococcus aureus. J. Microbiol. Biotechnol. 30: 1854-1861 (2020)
DOI
|
14 |
Lee JY, Wang HJ, Shin DB, Cho YS. Antibiotic resistance and bacterial biofilm formation by Staphylococcus aureus strains isolated from various foods. Microbiol. Biotechnol. Lett. 41: 96-104 (2013)
DOI
|
15 |
Meng Y, Hou X, Lei J, Chen M, Cong S, Zhang Y, Ding W, Li G, Li X. Multi-functional liposomes enhancing target and antibacterial immunity for antimicrobial and anti-biofilm against methicillin-resistant Staphylococcus aureus. Pharmaceut. Res. 33: 763-775 (2016)
DOI
|
16 |
Rodriguez-Martinez JM, Pascual A. Antimicrobial resistance in bacterial biofilms. Rev. Med. Microbiol. 17: 65-75 (2006)
DOI
|
17 |
Shrestha L, Kayama S, Sasaki M, Kato F, Hisatsune J, Tsuruda K, Koizumi K, Tatsukawa N, Yu L, Takeda K. Inhibitory effects of antibiofilm compound 1 against Staphylococcus aureus biofilms. Med. Microbiol. Immunol. 60: 148-159 (2016)
DOI
|
18 |
Hung DT, Shakhnovich EA, Pierson E, Mekalanos JJ. Small-molecule inhibitor of Vibrio cholerae virulence and intestinal colonization. Science 310: 670-674 (2005)
DOI
|
19 |
Jung KH, Kil YS, Jung J, Park S, Shin D, Lee K, Seo EK, Bae H. Tuberostemonine N, an active compound isolated from Stemona tuberosa, suppresses cigarette smoke-induced sub-acute lung inflammation in mice. Phytomedicine 23: 79-86 (2016)
DOI
|
20 |
Pisoschi AM, Pop A, Georgescu C, Turcus V, Olah NK, Mathe E. An overview of natural antimicrobials role in food. Eur. J. Med. Chem. 143: 922-935 (2018)
DOI
|
21 |
Vu B, Chen M, Crawford RJ, Ivanova EP. Bacterial extracellular polysaccharides involved in biofilm formation. Molecules 14: 2535-2554 (2009)
DOI
|
22 |
Yu D, Zhao L, Xue T, Sun B. Staphylococcus aureus autoinducer-2 quorum sensing decreases biofilm formation in an icaR-dependent manner. BMC Microbiol. 12: 1-12 (2012)
DOI
|
23 |
Gotz F. Staphylococcus and biofilms. Mol. Microbiol. 43: 1367-1378 (2002)
DOI
|
24 |
Di Ciccio P, Vergara A, Festino AR, Paludi D, Zanardi E, Ghidini S, Ianieri A. Biofilm formation by Staphylococcus aureus on food contact surfaces: Relationship with temperature and cell surface hydrophobicity. Food Control 50: 930-936 (2015)
DOI
|
25 |
Dotto C, Lombarte Serrat A, Ledesma M, Vay C, Ehling-Schulz M, Sordelli DO, Grunert T, Buzzola F. Salicylic acid stabilizes Staphylococcus aureus biofilm by impairing the agr quorum-sensing system. Sci. Rep.-UK 11: 1-14 (2021)
DOI
|
26 |
Gad GFM, El-Feky MA, El-Rehewy MS, Hassan MA, Abolella H, Abd El-Baky RM. Detection of icaA, icaD genes and biofilm production by Staphylococcus aureus and Staphylococcus epidermidis isolated from urinary tract catheterized patients. J. Infect. Dev. Ctries. 3: 342-351 (2009)
|
27 |
Gurunathan S, Han JW, Dayem AA, Eppakayala V, Kim JH. Oxidative stress-mediated antibacterial activity of graphene oxide and reduced graphene oxide in Pseudomonas aeruginosa. Int. J. Nanomed. 7: 5901-5914 (2012)
|
28 |
Jang JE, Kil YS, Park RH, Oh S, Kim HK, Jeong MG, Seo EK, Hwang ES. Suppression of IL-2 production and proliferation of CD4+ T cells by tuberostemonine O. Chem. Biodivers. 11: 1954-1962 (2014)
DOI
|
29 |
Jeber ZK, Tawfeek FK. Effect of turmeric oil on reproductive efficiency of adult male rats exposed to potassium dichromate. J. Environ. Sci. Toxicol. Food Technol. 3: 52-58 (2013)
|
30 |
Jiang Q, Jin Z, Sun B. MgrA negatively regulates biofilm formation and detachment by repressing the expression of psm operons in Staphylococcus aureus. Appl. Environ. Microb. 84: e01008-01018 (2018)
|
31 |
Lee JH, Kim YG, Lee K, Kim SC, Lee J. Temperature-dependent control of Staphylococcus aureus biofilms and virulence by thermoresponsive oligo (N-vinylcaprolactam). Biotechnol. Bioeng. 112: 716-724 (2015)
DOI
|
32 |
Lee JH, Kim YG, Ryu SY, Lee J. Calcium-chelating alizarin and other anthraquinones inhibit biofilm formation and the hemolytic activity of Staphylococcus aureus. Sci. Rep. 6: 1-11 (2016)
DOI
|
33 |
Livak KJ, Schmittgen TD. Analysis of relative gene expression data using real-time quantitative PCR and the 2-ΔΔCT method. Methods 25: 402-408 (2001)
DOI
|
34 |
Meireles A, Borges A, Giaouris E, Simoes M. The current knowledge on the application of anti-biofilm enzymes in the food industry. Food Res. Int. 86: 140-146 (2016)
DOI
|
35 |
Tan L, Li SR, Jiang B, Hu XM, Li S. Therapeutic targeting of the Staphylococcus aureus accessory gene regulator (agr) system. Front. Microbiol. 9: 55 (2018)
DOI
|
36 |
Mizar P, Arya R, Kim T, Cha S, Ryu KS, Yeo WS, Lee SS. Total synthesis of Xanthoangelol B and its various fragments: toward inhibition of virulence factor production of Staphylococcus aureus. J. Med. Chem. 61: 10473-10487 (2018)
DOI
|
37 |
Nait Chabane Y, Mlouka MB, Alexandre S, Nicol M, Marti S, Pestel- Caron M, De E. Virstatin inhibits biofilm formation and motility of Acinetobacter baumannii. BMC Microbiol. 14: 1-7 (2014)
DOI
|
38 |
Nguyen PT, Nguyen MT, Bolhuis A. Inhibition of biofilm formation by alpha-mangostin loaded nanoparticles against Staphylococcus aureus. Saudi. J. Biol. Sci. 28: 1615-1621 (2021)
DOI
|
39 |
Ross AS, Saulnier G, Newell J, Isaacson D. Current source design for electrical impedance tomography. Physiol. Meas. 24: 509 (2003)
DOI
|
40 |
Rudrappa T, Bais HP. Curcumin, a known phenolic from Curcuma longa, attenuates the virulence of Pseudomonas aeruginosa PAO1 in whole plant and animal pathogenicity models. J. Agric. Food Chem. 56: 1955-1962 (2008)
DOI
|
41 |
Yum SJ, Kim SM, Yu YC, Jeong HG. Inhibition of growth and biofilm formation of Staphylococcus aureus by corosolic acid. Korean J. Food Sci. Technol. 49: 146-150 (2017)
DOI
|
42 |
Yu YC, Yum SJ, Jeon DY, Jeong HG. Analysis of the microbiota on lettuce (Lactuca sativa L.) cultivated in South Korea to identify foodborne pathogens. J. Microbiol. Biotechn. 28: 1318-1331 (2018)
DOI
|
43 |
Zhang Y, Gao T, Kang S, Sillanpaa M. Importance of atmospheric transport for microplastics deposited in remote areas. Environ. Pollut. 254: 112953-112957 (2019)
DOI
|
44 |
Van Hung P, Morita N. Physicochemical properties and enzymatic digestibility of starch from edible canna (Canna edulis) grown in Vietnam. Carbohyd. Polym. 61: 314-321 (2005)
DOI
|