Volatile affairs in microbial interactions
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[1] A. Viljoen,et al. The impact of plant volatiles on bacterial quorum sensing , 2015, Letters in applied microbiology.
[2] L. Hunziker,et al. Pseudomonas Strains Naturally Associated with Potato Plants Produce Volatiles with High Potential for Inhibition of Phytophthora infestans , 2014, Applied and Environmental Microbiology.
[3] J. Peñuelas,et al. Biogenic volatile emissions from the soil. , 2014, Plant, cell & environment.
[4] S. Seyedmousavi,et al. The role of azoles in the management of azole-resistant aspergillosis: from the bench to the bedside. , 2014, Drug resistance updates : reviews and commentaries in antimicrobial and anticancer chemotherapy.
[5] L. Loh,et al. Universal immunity to influenza must outwit immune evasion , 2014, Front. Microbiol..
[6] P. Garbeva,et al. Volatile-mediated interactions between phylogenetically different soil bacteria , 2014, Front. Microbiol..
[7] L. T. Angenent,et al. Metabolite transfer with the fermentation product 2,3-butanediol enhances virulence by Pseudomonas aeruginosa , 2014, The ISME Journal.
[8] Z. Porat,et al. Surface-motility induction, attraction and hitchhiking between bacterial species promote dispersal on solid surfaces , 2013, The ISME Journal.
[9] J. Ramos,et al. Interspecies signalling: Pseudomonas putida efflux pump TtgGHI is activated by indole to increase antibiotic resistance. , 2014, Environmental microbiology.
[10] F. Cvrčková,et al. Ammonia produced by bacterial colonies promotes growth of ampicillin-sensitive Serratia sp. by means of antibiotic inactivation. , 2014, FEMS microbiology letters.
[11] B. Piechulla,et al. The emerging importance of microbial volatile organic compounds. , 2014, Plant, cell & environment.
[12] J. Rohr,et al. Activation and silencing of secondary metabolites in Streptomyces albus and Streptomyces lividans after transformation with cosmids containing the thienamycin gene cluster from Streptomyces cattleya , 2014, Archives of Microbiology.
[13] P. Garbeva,et al. Volatiles produced by the mycophagous soil bacterium Collimonas. , 2014, FEMS microbiology ecology.
[14] M. Delepierre,et al. Aerial Exposure to the Bacterial Volatile Compound Trimethylamine Modifies Antibiotic Resistance of Physically Separated Bacteria by Raising Culture Medium pH , 2014, mBio.
[15] Mathias Dunkel,et al. mVOC: a database of microbial volatiles , 2013, Nucleic Acids Res..
[16] R. Fani,et al. GC–MS volatolomic approach to study the antimicrobial activity of the antarctic bacterium Pseudoalteromonas sp. TB41 , 2013, Metabolomics.
[17] M. Farag,et al. Dynamic Chemical Communication between Plants and Bacteria through Airborne Signals: Induced Resistance by Bacterial Volatiles , 2013, Journal of Chemical Ecology.
[18] D. Tholl,et al. Volatile Organic Compound Mediated Interactions at the Plant-Microbe Interface , 2013, Journal of Chemical Ecology.
[19] J. Bennett,et al. Sniffing on microbes: diverse roles of microbial volatile organic compounds in plant health. , 2013, Molecular plant-microbe interactions : MPMI.
[20] C. Ryu,et al. Interspecific bacterial sensing through airborne signals modulates locomotion and drug resistance , 2013, Nature Communications.
[21] L. Eberl,et al. Production of Bioactive Volatiles by Different Burkholderia ambifaria Strains , 2013, Journal of Chemical Ecology.
[22] B. Piechulla,et al. Volatile Mediated Interactions Between Bacteria and Fungi in the Soil , 2012, Journal of Chemical Ecology.
[23] S. Kelly,et al. Investigating conservation of the albaflavenone biosynthetic pathway and CYP170 bifunctionality in streptomycetes , 2012, The FEBS journal.
[24] R. Zimmermann,et al. Volatile organic compounds produced by the phytopathogenic bacterium Xanthomonas campestris pv. vesicatoria 85-10 , 2012, Beilstein journal of organic chemistry.
[25] A. Vainstein,et al. Quorum-sensing quenching by rhizobacterial volatiles. , 2011, Environmental microbiology reports.
[26] E. Nudler,et al. H2S: A Universal Defense Against Antibiotics in Bacteria , 2011, Science.
[27] D. K. Willis,et al. The 3-Hydroxy-2-Butanone Pathway Is Required for Pectobacterium carotovorum Pathogenesis , 2011, PloS one.
[28] M. Delepierre,et al. Biogenic ammonia modifies antibiotic resistance at a distance in physically separated bacteria , 2011, Molecular microbiology.
[29] C. Sasikala,et al. Microbial metabolism of pyrazines , 2011, Critical reviews in microbiology.
[30] G. Kowalchuk,et al. Fungistasis and general soil biostasis - A new synthesis. , 2011 .
[31] M. Komatsu,et al. Characterization of a silent sesquiterpenoid biosynthetic pathway in Streptomyces avermitilis controlling epi‐isozizaene albaflavenone biosynthesis and isolation of a new oxidized epi‐isozizaene metabolite , 2011, Microbial biotechnology.
[32] A. Vainstein,et al. Broad‐range antagonistic rhizobacteria Pseudomonas fluorescens and Serratia plymuthica suppress Agrobacterium crown gall tumours on tomato plants , 2011, Journal of applied microbiology.
[33] Jeroen S. Dickschat,et al. Biological Activity of Volatiles from Marine and Terrestrial Bacteria , 2010, Marine drugs.
[34] M. Doble,et al. Synergistic interaction of phenylpropanoids with antibiotics against bacteria. , 2010, Journal of medical microbiology.
[35] L. Eberl,et al. Volatile-Mediated Killing of Arabidopsis thaliana by Bacteria Is Mainly Due to Hydrogen Cyanide , 2010, Applied and Environmental Microbiology.
[36] J. Collins,et al. Bacterial charity work leads to population-wide resistance , 2010, Nature.
[37] H. Insam,et al. Volatile organic compounds (VOCs) in soils , 2010, Biology and Fertility of Soils.
[38] R. Robison,et al. Volatile antimicrobials from Muscodor crispans, a novel endophytic fungus. , 2001, Microbiology.
[39] J. Zygadlo,et al. Antimicrobial combined action of terpenes against the food‐borne microorganisms Escherichia coli, Staphylococcus aureus and Bacillus cereus , 2009 .
[40] W. Melchers,et al. Possible Environmental Origin of Resistance of Aspergillus fumigatus to Medical Triazoles , 2009, Applied and Environmental Microbiology.
[41] Maria Lodovica Gullino,et al. Volatile organic compounds: a potential direct long-distance mechanism for antagonistic action of Fusarium oxysporum strain MSA 35. , 2009, Environmental microbiology.
[42] Birgit Piechulla,et al. Bacterial volatiles and their action potential , 2009, Applied Microbiology and Biotechnology.
[43] J. Järnberg,et al. Microbial volatile organic compounds. , 2009, Critical reviews in toxicology.
[44] W. Otten,et al. Microbial distribution in soils: physics and scaling , 2008 .
[45] V. Farkaš,et al. Induction of conidiation by endogenous volatile compounds in Trichoderma spp. , 2008, FEMS microbiology letters.
[46] M. Gullino,et al. Bacterial ectosymbionts and virulence silencing in a Fusarium oxysporum strain. , 2008, Environmental microbiology.
[47] S. Rocha,et al. Morphogenesis Control in Candida albicans and Candida dubliniensis through Signaling Molecules Produced by Planktonic and Biofilm Cells , 2007, Eukaryotic Cell.
[48] Jeroen S. Dickschat,et al. Bacterial volatiles: the smell of small organisms. , 2007, Natural product reports.
[49] B. Piechulla,et al. Rhizobacterial Volatiles Affect the Growth of Fungi and Arabidopsis thaliana , 2007, Applied and Environmental Microbiology.
[50] A. Sunesson,et al. Volatile organic compounds (VOCs) emitted from materials collected from buildings affected by microorganisms. , 2007, Journal of environmental monitoring : JEM.
[51] B. Piechulla,et al. Volatiles of bacterial antagonists inhibit mycelial growth of the plant pathogen Rhizoctonia solani , 2007, Archives of Microbiology.
[52] G. Strobel,et al. Isolation and characterization of Muscodor albus I-41.3s, a volatile antibiotic producing fungus , 2005 .
[53] Francesco Castelli,et al. Mechanisms of Antibacterial Action of Three Monoterpenes , 2005, Antimicrobial Agents and Chemotherapy.
[54] R. Wheatley,et al. The consequences of volatile organic compound mediated bacterial and fungal interactions , 2002, Antonie van Leeuwenhoek.
[55] V. Lushchak. Oxidative Stress and Mechanisms of Protection Against It in Bacteria , 2001, Biochemistry (Moscow).
[56] S. Kelly,et al. Molecular basis of resistance to azole antifungals. , 2002, Trends in molecular medicine.
[57] K. Nickerson,et al. Quorum Sensing in the Dimorphic FungusCandida albicans Is Mediated by Farnesol , 2001, Applied and Environmental Microbiology.
[58] G. Strobel,et al. Volatile antimicrobials from Muscodor albus, a novel endophytic fungus. , 2001, Microbiology.
[59] G. Pessi,et al. Transcriptional Control of the Hydrogen Cyanide Biosynthetic Genes hcnABC by the Anaerobic Regulator ANR and the Quorum-Sensing Regulators LasR and RhlR inPseudomonas aeruginosa , 2000, Journal of bacteriology.
[60] C. Christophersen,et al. Albaflavenone, a sesquiterpene ketone with a zizaene skeleton produced by a streptomycete with a new rope morphology. , 1994, The Journal of antibiotics.
[61] P. Herrington,et al. Methyl vinyl ketone: A volatile fungistatic inhibitor from Streptomyces griseoruber , 1987 .
[62] P. Herrington,et al. Inhibition of spore germination by volatiles from Streptomyces griseoruber , 1985 .