Evaluation of the composition and antimicrobial activities of essential oils from four species of Lamiaceae Martinov native to Iran

[1]  Yung-Hun Yang,et al.  Thymol Reduces agr-Mediated Virulence Factor Phenol-Soluble Modulin Production in Staphylococcus aureus , 2022, BioMed research international.

[2]  M. Modesto,et al.  Potential Applications of Essential Oils for Environmental Sanitization and Antimicrobial Treatment of Intensive Livestock Infections , 2022, Microorganisms.

[3]  M. Ghavam In vitro biological potential of the essential oil of some aromatic species used in Iranian traditional medicine , 2022, Inflammopharmacology.

[4]  M. Ghavam Tripleurospermum disciforme (C.A.Mey.) Sch.Bip., Tanacetum parthenium (L.) Sch.Bip, and Achillea biebersteinii Afan.: efficiency, chemical profile, and biological properties of essential oil , 2021, Chemical and Biological Technologies in Agriculture.

[5]  U. Gašić,et al.  Antimicrobial and Immunomodulating Activities of Two Endemic Nepeta Species and Their Major Iridoids Isolated from Natural Sources , 2021, Pharmaceuticals.

[6]  G. Bacchetta,et al.  Variability in chemical composition and antimicrobial activity of essential oil of Rosa × damascena Herrm. from mountainous regions of Iran , 2021 .

[7]  A. Yazdinezhad,et al.  Ecotypic Variations Affected the Biological Effectiveness of Thymus daenensis Celak Essential Oil , 2021, Evidence-based complementary and alternative medicine : eCAM.

[8]  N. Carballeira,et al.  Antibacterial fatty acids: An update of possible mechanisms of action and implications in the development of the next-generation of antibacterial agents , 2021, Progress in lipid research.

[9]  F. Palla,et al.  Essential Oils Extracted from Different Species of the Lamiaceae Plant Family as Prospective Bioagents against Several Detrimental Pests , 2020, Molecules.

[10]  M. Azizi,et al.  Analysis of the essential oil composition of three cultivated Nepeta species from Iran , 2020, Zeitschrift fur Naturforschung. C, Journal of biosciences.

[11]  P. Struik,et al.  Nano silver-encapsulation of Thymus daenensis and Anethum graveolens essential oils enhances antifungal potential against strawberry anthracnose , 2019 .

[12]  R. Mammadov,et al.  Chemical composition and bioactivity of essential oils and Ethanolic extracts of Ocimum basilicum L. and Thymus algeriensis Boiss. & Reut. from the Algerian Saharan Atlas , 2019, BMC Complementary and Alternative Medicine.

[13]  G. Dimitriu,et al.  Coriander essential oil and linalool – interactions with antibiotics against Gram‐positive and Gram‐negative bacteria , 2019, Letters in applied microbiology.

[14]  A. V. Matsyura,et al.  Effect of altitude on essential oil composition and on glandular trichome density in three "Nepeta" species ("N. sessilifolia", "N. heliotropifolia" and "N. fissa") , 2019, Mediterranean Botany.

[15]  N. Joković,et al.  Inhibition of Salmonella Enteritidis growth and storage stability in chicken meat treated with basil and rosemary essential oils alone or in combination , 2018, Food Control.

[16]  M. Ghaedi,et al.  Ultrasound-assisted extraction of antimicrobial compounds from Thymus daenensis and Silybum marianum: Antimicrobial activity with and without the presence of natural silver nanoparticles. , 2018, Ultrasonics sonochemistry.

[17]  A. Mehrafarin,et al.  Changes in the essential oil content and composition of Thymus daenensis Celak. under different drying methods , 2018 .

[18]  G. Stojanović,et al.  Comparative study of the essential oils of four Pinus species: Chemical composition, antimicrobial and insect larvicidal activity , 2018 .

[19]  K. Sharma,et al.  Antimicrobial Activity of Some Essential Oils—Present Status and Future Perspectives , 2017, Medicines.

[20]  A. Arzani,et al.  Essential oil composition, total phenolic, flavonoid contents, and antioxidant activity of Thymus species collected from different regions of Iran. , 2017, Food chemistry.

[21]  A. Hatami,et al.  INVESTIGATION OF COMPONENTS OF SEVEN SPECIES OF THYME ESSENTIAL OILS AND COMPARISON OF THEIR ANTIOXIDANT PROPERTIES , 2016 .

[22]  E. Cartagena,et al.  Mandarin essential oils inhibit quorum sensing and virulence factors of Pseudomonas aeruginosa , 2016 .

[23]  E. Ibáñez,et al.  Extraction of thymol from different varieties of thyme plants using green solvents. , 2015, Journal of the science of food and agriculture.

[24]  M. A. Ali,et al.  Chenopodium ambrosioides var. ambrosioides used in Moroccan traditional medicine can enhance the antimicrobial activity of conventional antibiotics , 2015 .

[25]  S. S. Možina,et al.  Chemical Profile, Antioxidant and Antibacterial Activity of Thyme and Oregano Essential Oils, Thymol and Carvacrol and Their Possible Synergism , 2015 .

[26]  A. Elaissari,et al.  Essential oils: from extraction to encapsulation. , 2015, International journal of pharmaceutics.

[27]  H. Boira,et al.  Geographical and environment-related variations of essential oils in isolated populations of Thymus richardii Pers. in the Mediterranean basin , 2014 .

[28]  T. C. Daboit,et al.  Lipid profile and antimicrobial activity of microbial oils from 16 oleaginous yeasts isolated from artisanal cheese. , 2014 .

[29]  E. Ezzatzadeh,et al.  Antimicrobial Activity and Chemical Constituents of the Essential Oils from Root, Leaf and Aerial Part of Nepeta asterotricha from Iran , 2014 .

[30]  J. Takahashi,et al.  Yarrowia lipolytica and Its Multiple Applications in the Biotechnological Industry , 2014, TheScientificWorldJournal.

[31]  P. Legrand,et al.  Linoleic acid: between doubts and certainties. , 2014, Biochimie.

[32]  M. Hashemi,et al.  Salicylic acid affects growth, essential oil and chemical compositions of thyme (Thymus daenensis Celak.) under reduced irrigation , 2014, Plant Growth Regulation.

[33]  P. Faridi,et al.  Volatile oil composition and antimicrobial activity of two Thymus species , 2013 .

[34]  O. Alizadeh,et al.  Essential Oil Composition, Total Phenolic Content, Antioxidant Activity and Antifungal Properties of Iranian Thymus daenensis subsp. daenensis Celak. as in Influenced by Ontogenetical Variation , 2013 .

[35]  J. S. da Silva,et al.  An overview of the modulatory effects of oleic acid in health and disease. , 2013, Mini reviews in medicinal chemistry.

[36]  M. Teimouri Antimicrobial activity and essential oil composition of Thymus daenensis Celak from Iran , 2012 .

[37]  M. Saeedi,et al.  Chemical Composition and Antimicrobial Activity of the Essential Oil of Hymenocrater calycinus (Boiss.) Benth , 2012 .

[38]  H. Batooli,et al.  STUDIES ON THE ANTIOXIDANT ACTIVITY OF THE VOLATILE OIL AND METHANOL EXTRACTS OF NEPETA LAXIFLORA BENTH. AND NEPETA SESSILIFOLIA BUNGE. FROM IRAN , 2011 .

[39]  I. Rasooli,et al.  Comparison of Ferrous Ion Chelating, Free Radical Scavenging and Anti Tyrosinase Properties of Thymus Daenensis Essential Oil with Commercial Thyme Oil and Thymol , 2011 .

[40]  F. Ahmadi,et al.  Chemical composition, in vitro anti-microbial, antifungal and antioxidant activities of the essential oil and methanolic extract of Hymenocrater longiflorus Benth., of Iran. , 2010, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[41]  Ebrahim Haghir Ebrahimabadi,et al.  Composition and antioxidant and antimicrobial activity of the essential oil and extracts of Stachys inflata Benth from Iran , 2010 .

[42]  M. Saeedi,et al.  Chemical Composition and Antimicrobial Activity of the Essential Oil of Hymenocrater elegans Bunge , 2010 .

[43]  M. Monkenbusch,et al.  Present status and future perspectives , 2010 .

[44]  B. Hamedi,et al.  ANTIMICROBIAL ACTIVITY OF SOME IRANIAN MEDICINAL PLANTS , 2010 .

[45]  V. De Feo,et al.  Chemical Composition and in Vitro Antimicrobial and Mutagenic Activities of Seven Lamiaceae Essential Oils , 2009, Molecules.

[46]  Z. Jamzad,et al.  Composition of the Essential Oils of Nepeta sessilifolia Bunge and Nepeta haussknechtii Bornm. from Iran , 2008 .

[47]  M. Yousefzadi,et al.  Essential oil composition and antibacterial activity of Thymus caramanicus at different phenological stages. , 2008, Food chemistry.

[48]  G. Agoramoorthy,et al.  Antibacterial and antifungal activities of fatty acid methyl esters of the blind-your-eye mangrove from India , 2007 .

[49]  M. Akbarzadeh,et al.  Essential oils composition of Stachys byzantina, S. inflata, S. lavandulifolia and S. laxa from Iran , 2006 .

[50]  M. Isman,et al.  Chapter 2 Pesticides based on plant essential oils: from traditional practice to commercialization , 2006 .

[51]  Clinical,et al.  Performance standards for antimicrobial disk susceptibility tests : approved standard , 2006 .

[52]  S. Ebrahim Sajjadi,et al.  Chemical Composition of the Essential Oil of Stachys inflata Benth. from Iran , 2004, Chemistry of Natural Compounds.

[53]  S. Sajjadi,et al.  Composition of the Essential Oil of Thymus daenensis Celak. ssp. lancifolius (Celak.) Jalas , 2003 .

[54]  F. Sefidkon,et al.  Essential oil composition of Thymus daenensis Celak. from Iran , 2003 .

[55]  B. Bazzaz,et al.  Screening of Iranian Plants for Antimicrobial Activity , 2003 .

[56]  Robert P. Adams,et al.  Identification of essential oil components by gas chromatography/quadrupole mass spectroscopy , 2001 .

[57]  L. Ahmadi,et al.  Volatile constituents of Hymenocrater incanus Bunge, an Iranian endemic species , 2001 .

[58]  E. Smid,et al.  Mechanisms of Action of Carvacrol on the Food-Borne Pathogen Bacillus cereus , 1999, Applied and Environmental Microbiology.