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Original Article

Antibacterial Activity of Rosin and Resin Acids in Vitro

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Pages 199-205 | Received 16 Mar 1990, Published online: 08 Jul 2009

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Elisa Santovito, José das Neves, Donato Greco, Vito D’Ascanio, Bruno Sarmento, Antonio Francesco Logrieco & Giuseppina Avantaggiato. (2018) Antimicrobial properties of rosin acids-loaded nanoparticles against antibiotic-sensitive and antibiotic-resistant foodborne pathogens. Artificial Cells, Nanomedicine, and Biotechnology 46:sup3, pages 414-422.
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Jian Li, Jie Song, Shi-Bin Shang, Xiao-Ping Rao & Yan-Qing Gao. (2013) Syntheses and antibacterial activity of Schiff bases from 16-isopropyl-5, 9-dimethyltetracyclo [10.2.2.01, 10.04, 9] hexadec-15-ene-5, 14-dicarboxylic acid. Natural Product Research 27:8, pages 702-710.
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Nguyen D. Doanh, Nguyen N. Ham, Nguyen T. Tam, Phan T. Son, Nguyen van Dau, Magnus Grabe, Rolf Johansson, Gerd Lindgren, Nils E. Stjernström & Thor A. Söderberg. (1996) The Use of a Water Extract from the Bark of Choerospondias Axillaris in the Treatment of Second Decree Burns. Scandinavian Journal of Plastic and Reconstructive Surgery and Hand Surgery 30:2, pages 139-144.
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Thor A. Söderberg, Stig Holm, Rolf Gref & Göran Hallmans. (1991) Antibacterial Effects of Zinc Oxide, Rosin, and Resin Acids with Special Reference to Their Interactions. Scandinavian Journal of Plastic and Reconstructive Surgery and Hand Surgery 25:1, pages 19-24.
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Articles from other publishers (36)

Kettunen Elina, Kurkilahti Mika, Belt Tiina, Möttönen Veikko, Harju Anni, Tornberg Anna-Kaisa, Veijalainen Anna-Maria, Kuroda Katsushi, Tsunetsugu Yuko, Tienaho Jenni, Muilu-Mäkelä Riina, Pasanen Pertti & Jyske Tuula. (2023) Touch the wood: Antimicrobial properties of wooden and other solid material surfaces differ between dry and moist contamination in public and laboratory exposure. Environmental Advances 13, pages 100416.
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Xinyi Chen, Yingzhan Li, Yaping Wang, Feng Tang, Mengya Mu & Jinhong Tang. (2023) Green extraction of natural antibacterial cellulose-based nanofibers from pine cone. Cellulose 30:10, pages 6219-6232.
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Naphapol Phuyathorn, Tiraniti Chuenbarn, Takron Chantadee, Thawatchai Phaechamud & Jitnapa Sirirak. (2023) Computational modeling of abietic acid and Eudragit RS as matrix forming agents with antibiotic drugs for in-situ solvent-exchanged inducing phase transition. Materials Today: Proceedings.
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Magd M. Badr, Ahmed Awadallah-F, Ahmed M. Azzam & A. H. Mady. (2023) Influence of gamma irradiation on rosin properties and its antimicrobial activity. Scientific Reports 13:1.
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Tiina Vainio-Kaila, Anni Harju, Anti Rohumaa, Olli Paajanen, Martti Venäläinen, Julia Seppä, Anna-Maria Veijalainen & Pertti Pasanen. (2022) The Effect of Surface Treatment on the Antibacterial Properties of Wood and the Possibility to Detect the Antibacteriality with Fluorescence Method. Forests 14:1, pages 23.
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Zahid Majeed, Muhammad Qudir Javid, Shamyla Nawazish, Basharat Ahmad, Abu ul Hassan Faiz, Ayesha Baig, Sofia Baig, Mater H. Mahnashi, Naif A. Jalal, Abdulaziz Asiri & Amer Al Ali. (2022) Clinical Prevalence, Antibiogram Profiling and Gompertz Growth Kinetics of Resistant Staphylococcus epidermidis Treated with Nanoparticles of Rosin Extracted from Pinus roxburghii. Antibiotics 11:9, pages 1270.
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Tiraniti Chuenbarn, Jitnapa Sirirak, Sarun Tuntarawongsa, Siriporn Okonogi & Thawatchai Phaechamud. (2022) Design and Comparative Evaluation of Vancomycin HCl-Loaded Rosin-Based In Situ Forming Gel and Microparticles. Gels 8:4, pages 231.
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Xin Zhang, Hongpeng Ma, Wenbo Qin, Bin Guo & Panxin Li. (2022) Antimicrobial and improved performance of biodegradable thermoplastic starch by using natural rosin to replace part of glycerol. Industrial Crops and Products 178, pages 114613.
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Stephen H. Bell, Derek J. Fairley, Hannele Kettunen, Juhani Vuorenmaa, Juha Orte, Connor G. G. Bamford & John W. McGrath. (2021) Rosin Soap Exhibits Virucidal Activity. Microbiology Spectrum 9:3.
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Micaela Machado Querido, Ivo Paulo, Sriram Hariharakrishnan, Daniel Rocha, Nuno Barbosa, Rui Galhano dos Santos, João Moura Bordado, João Paulo Teixeira & Cristiana Costa Pereira. (2021) Self-Disinfecting Paints with the Natural Antimicrobial Substances: Colophony and Curcumin. Antibiotics 10:11, pages 1351.
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Xiao Qiang Li, Yong Chen, Guan Cheng Dai, Bei Bei Zhou, Xiao Ning Yan & Ren Xiang Tan. (2021) Abietic acid ameliorates psoriasis-like inflammation and modulates gut microbiota in mice. Journal of Ethnopharmacology 272, pages 113934.
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L.K. Dygico, C.G.M. Gahan, H. Grogan & C.M. Burgess. (2020) Examining the efficacy of mushroom industry biocides on Listeria monocytogenes biofilm . Journal of Applied Microbiology 130:4, pages 1106-1116.
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Mikko Kanerva, Jacob Mensah-Attipoe, Arja Puolakka, Timo M. Takala, Marko Hyttinen, Rama Layek, Sarianna Palola, Vladimir Yudin, Pertti Pasanen & Per Saris. (2021) Weathering of Antibacterial Melt-Spun Polyfilaments Modified by Pine Rosin. Molecules 26:4, pages 876.
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Jana Wiemann, Ahmed Al-Harrasi & René Csuk. (2020) Cytotoxic Dehydroabietylamine Derived Compounds. Anti-Cancer Agents in Medicinal Chemistry 20:15, pages 1756-1767.
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Alexander V. Shpatov, Tatyana S. Frolova, Sergey A. Popov, Olga I. Sinitsyna, Olga I. Salnikova, Guangyao Zheng, Linlin Yan, Nadezhda V. Sinelnikova, Lyudmila M. Pshennikova & Alexey V. Kochetov. (2020) Lipophilic Metabolites from Five‐Needle Pines, Pinus armandii and Pinus kwangtungensis , Exhibiting Antibacterial Activity . Chemistry & Biodiversity 17:8.
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Zahid Majeed, Muhammad Mushtaq, Zainab Ajab, Qingjie Guan, Mater Hussen Mahnashi, Yahya Saeed Alqahtani & Basharat Ahmad. (2020) Rosin maleic anhydride adduct antibacterial activity against methicillin-resistant Staphylococcus aureus. Polímeros 30:2.
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Vagif S. Soultanov & Lyudmila A. Kraeva. (2020) Antibacterial Activity of Conifer Green Needle Complex Against Corynebacteria. Natural Product Communications 15:1, pages 1934578X1990061.
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M. Kanerva, A. Puolakka, T.M. Takala, A.M. Elert, V. Mylläri, I. Jönkkäri, E. Sarlin, J. Seitsonen, J. Ruokolainen, P. Saris & J. Vuorinen. (2019) Antibacterial polymer fibres by rosin compounding and melt-spinning. Materials Today Communications 20, pages 100527.
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Lidia B. Kulyashova, Natalia Roschina, Tamara V. Nikitina & Vagif S. Soultanov. (2019) Anti-protozoal Activity of Conifer Green Needle Complex against Trichomonas vaginalis . Natural Product Communications 14:1, pages 1934578X1901400.
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Apirak Sakunpak & Lukman Sueree. (2018) Thin-layer chromatography–contact bioautography as a tool for bioassay-guided isolation of anti- Streptococcus mutans compounds from Pinus merkusii heartwood . JPC - Journal of Planar Chromatography - Modern TLC 31:5, pages 355-359.
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Xun Niu, Yating Liu, Yang Song, Jinquan Han & Hui Pan. (2018) Rosin modified cellulose nanofiber as a reinforcing and co-antimicrobial agents in polylactic acid /chitosan composite film for food packaging. Carbohydrate Polymers 183, pages 102-109.
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Vagif S. Soultanov, Lidia B. Kulyashova, Tamara V. Nikitina & Viktor I. Roschin. (2019) Antimycotic Activity of Conifer Green Needle Complex against Clinical Strains of Candida Species . Natural Product Communications 13:1, pages 1934578X1801300.
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E. Haapakorva, T. Holmbom & A. von Wright. (2018) Novel aqueous oil-in-water emulsions containing extracts of natural coniferous resins are strongly antimicrobial against enterobacteria, staphylococci and yeasts, as well as on bacterial biofilms. Journal of Applied Microbiology 124:1, pages 136-143.
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Tiina Vainio-Kaila, Tuomas Hänninen, Aino Kyyhkynen, Martin Ohlmeyer, Anja Siitonen & Lauri Rautkari. (2017) Effect of volatile organic compounds from Pinus sylvestris and Picea abies on Staphylococcus aureus, Escherichia coli, Streptococcus pneumoniae and Salmonella enterica serovar Typhimurium. Holzforschung 71:11, pages 905-912.
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Vivien Jagalski, Robert Barker, Daniel Topgaard, Thomas Günther-Pomorski, Björn Hamberger & Marité Cárdenas. (2016) Biophysical study of resin acid effects on phospholipid membrane structure and properties. Biochimica et Biophysica Acta (BBA) - Biomembranes 1858:11, pages 2827-2838.
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Maria Sofia Costa, Adriana Rego, Vitor Ramos, Tiago B. Afonso, Sara Freitas, Marco Preto, Viviana Lopes, Vitor Vasconcelos, Catarina Magalhães & Pedro N. Leão. (2016) The conifer biomarkers dehydroabietic and abietic acids are widespread in Cyanobacteria. Scientific Reports 6:1.
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Wing Ho. 2015. Active Phytochemicals from Chinese Herbal Medicines. Active Phytochemicals from Chinese Herbal Medicines 29 56 .
Simon Janocha & Rita Bernhardt. (2013) Design and characterization of an efficient CYP105A1-based whole-cell biocatalyst for the conversion of resin acid diterpenoids in permeabilized Escherichia coli. Applied Microbiology and Biotechnology 97:17, pages 7639-7649.
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ARNO SIPPONEN & KIRSI LAITINEN. (2011) Antimicrobial properties of natural coniferous rosin in the European Pharmacopoeia challenge test. APMIS 119:10, pages 720-724.
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Florian Emerstorfer, Walter Hein, Reinhard Resch, Erich M Poetsch, Ulrike Zitz & Wolfgang Kneifel. (2011) Application of plant-based antimicrobials for the growth inhibition of clostridia in pressed beet pulp silage. Journal of the Science of Food and Agriculture 91:11, pages 2038-2044.
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M. RAUTIO, A. SIPPONEN, R. PELTOLA, J. LOHI, J. J. JOKINEN, A. PAPP, P. CARLSON & P. SIPPONEN. (2007) Antibacterial effects of home-made resin salve from Norway spruce (Picea abies). APMIS 115:4, pages 335-340.
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A. Sipponen, J.J. Jokinen & J. Lohi. (2007) Resin salve from the Norwegian spruce tree: a ‘novel’ method for the treatment of chronic wounds. Journal of Wound Care 16:2, pages 72-74.
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Eileen Smith, Elizabeth Williamson, Mire Zloh & Simon Gibbons. (2005) Isopimaric acid fromPinus nigra shows activity against multidrug-resistant and EMRSA strains ofStaphylococcus aureus. Phytotherapy Research 19:6, pages 538-542.
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Costas Demetzos & Konstantinos S. Dimas. 2001. Bioactive Natural Products (Part F). Bioactive Natural Products (Part F) 235 292 .
Thor A. Söderberg, Anders Johansson & Rolf Gref. (1996) Toxic effects of some conifer resin acids and tea tree oil on human epithelial and fibroblast cells. Toxicology 107:2, pages 99-109.
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ANDERS Johansson, BO Sunzel, STIG E. Holm, THOR SÖDerberg & ROLF Gref. (2009) Antimicrobial screening of zinc in the absence or presence of oleoresins and various resin acids. APMIS 103:1-6, pages 419-427.
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