Your search keyword '"Dalibor, Titera"' showing total 17 results

1. Detection and quantification of Melissococcus plutonius in honey bee workers exposed to European foulbrood in Czechia through conventional PCR, qPCR, and barcode sequencing

Author

Tomas Erban, Martin Markovic, Martin Kamler, Jan Hubert, Marta Nesvorna, Justyna Zitek, Dalibor Titera, and Bruno Sopko

Subjects

Worker bee, animal structures, Bacterial disease, Insect Science, fungi, behavior and behavior mechanisms, food and beverages, Honey bee, Microbiome, Biology, Melissococcus plutonius, complex mixtures, Microbiology

Abstract

Melissococcus plutonius is the causative agent of European foulbrood (EFB), an important bacterial disease of honey bee larvae, and various methods have been developed for the detection of this dis...

Published

2019

2. 1H NMR Profiling of Honey Bee Bodies Revealed Metabolic Differences between Summer and Winter Bees

Author

Saetbyeol Lee, Filip Kalcic, Iola Duarte, Dalibor Titera, Martin Kamler, Pavel Mrna, Pavel Hyrsl, Jiri Danihlik, Pavel Dobes, Martin Kunc, Anna Pudlo, and Jaroslav Havlik

Subjects

Apis mellifera, winter bees, nuclear magnetic resonance, metabolome, longevity, Insect Science, fungi, behavior and behavior mechanisms, complex mixtures

Abstract

In temperate climates, honey bee workers of the species Apis mellifera have different lifespans depending on the seasonal phenotype: summer bees (short lifespan) and winter bees (long lifespan). Many studies have revealed the biochemical parameters involved in the lifespan differentiation of summer and winter bees. However, comprehensive information regarding the metabolic changes occurring in their bodies between the two is limited. This study used proton nuclear magnetic resonance (1H NMR) spectroscopy to analyze the metabolic differences between summer and winter bees of the same age. The multivariate analysis showed that summer and winter bees could be distinguished based on their metabolic profiles. Among the 36 metabolites found, 28 metabolites have displayed significant changes from summer to winter bees. Compared to summer bees, trehalose in winter bees showed 1.9 times higher concentration, and all amino acids except for proline and alanine showed decreased patterns. We have also detected an unknown compound, with a CH3 singlet at 2.83 ppm, which is a potential biomarker that is about 13 times higher in summer bees. Our results show that the metabolites in summer and winter bees have distinctive characteristics; this information could provide new insights and support further studies on honey bee longevity and overwintering.

Published

2022

3. Detection of the desiccant and plant growth regulator chlormequat in honeybees and comb pollen

Author

Tomas Erban, Dalibor Titera, Martin Kamler, and L. Trojakova

Subjects

Desiccant, Plant growth, General Veterinary, Regulator, 02 engineering and technology, Biology, 021001 nanoscience & nanotechnology, medicine.disease_cause, chemistry.chemical_compound, chemistry, Pollen, Botany, 0202 electrical engineering, electronic engineering, information engineering, medicine, 020201 artificial intelligence & image processing, Chlormequat, 0210 nano-technology

Published

2017

4. Point mutations in the sodium channel gene conferring tau-fluvalinate resistance in Varroa destructor

Author

Jitka Stará, Jan Tyl, Martin Kamler, Jan Kopecky, Dalibor Titera, Marta Nesvorna, and Jan Hubert

Subjects

Genetics, Mutation, education.field_of_study, biology, Point mutation, Population, General Medicine, biology.organism_classification, medicine.disease_cause, Fluvalinate, chemistry.chemical_compound, chemistry, Insect Science, Complementary DNA, Varroa destructor, GenBank, medicine, education, Agronomy and Crop Science, Gene

Abstract

BACKGROUND Sodium channels (SCs) in mites and insects are target sites for pesticides, including pyrethroids. Point mutations in the SC gene have been reported to change the structural conformation of the protein and its sensitivity to pesticides. To find mutations in the SC gene of the mite Varroa destructor (VmNa), the authors analysed the VmNa gene sequences available in GenBank and prepared specific primers for the amplification of two fragments containing the regions coding for (i) the domain II S4–S6 region (bp 2805–3337) and (ii) the domain III S4-3′ terminus region (bp 4737–6500), as determined according to the VmNa cDNA sequence AY259834. RESULTS Sensitive and resistant mite populations did not differ in the amino acid sequences of the III S4-3′ terminus VmNa region. However, differences were found in the IIS4–IIS6 fragment. In the resistant population, the mutation C(3004) G resulted in the substitution L(1002) V (codon ctg gtg) at the position equivalent to that of the housefly L925 in the domain II S5 helix. Additionally, the mutation F(1052) L (codon ttc ctc) at the position equivalent to that of the housefly F975 in the domain II P-loop connecting segments S5 and S6 was detected in both the resistant and sensitive populations. CONCLUSION All individuals that survived the tau-fluvalinate treatment in the bioassay harboured the L(1002) V mutation combined with the F(1052), while dead individuals from both the sensitive and resistant populations harboured mostly the L(1002) residue and either of the two residues at position 1052. © 2013 Society of Chemical Industry

Published

2013

5. Bacterial community associated with worker honeybees (

Author

Tomas, Erban, Ondrej, Ledvinka, Martin, Kamler, Bronislava, Hortova, Marta, Nesvorna, Jan, Tyl, Dalibor, Titera, Martin, Markovic, and Jan, Hubert

Subjects

Veterinary Medicine, Fructobacillus fructosus, Ecology, Frischella perrara, Bartonella apis, Pathogen detection, Snodgrassella alvi, Microbiology, Gilliamella apicola, Lactobacillus, Enterococcus faecalis, Microbiome, Entomology, Zoology, Melissococcus plutonius

Abstract

Background Melissococcus plutonius is an entomopathogenic bacterium that causes European foulbrood (EFB), a honeybee (Apis mellifera L.) disease that necessitates quarantine in some countries. In Czechia, positive evidence of EFB was absent for almost 40 years, until an outbreak in the Krkonose Mountains National Park in 2015. This occurrence of EFB gave us the opportunity to study the epizootiology of EFB by focusing on the microbiome of honeybee workers, which act as vectors of honeybee diseases within and between colonies. Methods The study included worker bees collected from brood combs of colonies (i) with no signs of EFB (EFB0), (ii) without clinical symptoms but located at an apiary showing clinical signs of EFB (EFB1), and (iii) with clinical symptoms of EFB (EFB2). In total, 49 samples from 27 honeybee colonies were included in the dataset evaluated in this study. Each biological sample consisted of 10 surface-sterilized worker bees processed for DNA extraction. All subjects were analyzed using conventional PCR and by metabarcoding analysis based on the 16S rRNA gene V1–V3 region, as performed through Illumina MiSeq amplicon sequencing. Results The bees from EFB2 colonies with clinical symptoms exhibited a 75-fold-higher incidence of M. plutonius than those from EFB1 asymptomatic colonies. Melissococcus plutonius was identified in all EFB1 colonies as well as in some of the control colonies. The proportions of Fructobacillus fructosus, Lactobacillus kunkeei, Gilliamella apicola, Frischella perrara, and Bifidobacterium coryneforme were higher in EFB2 than in EFB1, whereas Lactobacillus mellis was significantly higher in EFB2 than in EFB0. Snodgrassella alvi and L. melliventris, L. helsingborgensis and, L. kullabergensis exhibited higher proportion in EFB1 than in EFB2 and EFB0. The occurrence of Bartonella apis and Commensalibacter intestini were higher in EFB0 than in EFB2 and EFB1. Enterococcus faecalis incidence was highest in EFB2. Conclusions High-throughput Illumina sequencing permitted a semi-quantitative analysis of the presence of M. plutonius within the honeybee worker microbiome. The results of this study indicate that worker bees from EFB-diseased colonies are capable of transmitting M. plutonius due to the greatly increased incidence of the pathogen. The presence of M. plutonius sequences in control colonies supports the hypothesis that this pathogen exists in an enzootic state. The bacterial groups synergic to both the colonies with clinical signs of EFB and the EFB-asymptomatic colonies could be candidates for probiotics. This study confirms that E. faecalis is a secondary invader to M. plutonius; however, other putative secondary invaders were not identified in this study.

Published

2016

6. The Use of RIDA®COUNT for Monitoring the American Foulbrood Pathogen

Author

Vaclav Kristufek, Dalibor Titera, and Stepan Ryba

Subjects

Bacterial disease, American foulbrood, Inoculation, law, Petri dish, fungi, Virulence, Biology, Pathogen, Microbiology, law.invention, Spore, Paenibacillus larvae

Abstract

American Foulbrood (AFB) is currently one of the most dangerous diseases in honeybees due to its high virulence and worldwide spread. Quick evaluation of the diagnosis of this disease is crucial. Successful eradication in the area indicates a need to test all bee colonies, but this is expensive and time consuming. A new method of detecting Paenibacillus larvae using the RIDA?COUNT test (R-Biopharm AG, Germany) was verified in the present study. The test is based on the principle of the cultivation test with MYPGPn medium, coloration of the bacteria with TTC (2,3,5-triphenyltetra-zoliumchloride) chromophore, and heat treatment of the sample. Using this new method, color-highlighted colonies of P. larvae can be established on the seventh day after inoculating the spores. An identical number of colonies grown with the classic cultivation test on Petri dishes containing MYPGPn medium or RIDA?COUNT-P. larvae (RC-PL) sheets were verified.

Published

2012

7. In vitro growth-inhibitory effect of plant-derived extracts and compounds against Paenibacillus larvae and their acute oral toxicity to adult honey bees

Author

Vojtech Rada, Michal Bednar, J. Flesar, Jaroslav Havlik, Dalibor Titera, Ladislav Kokoska, Pavel Klouček, and Michal Stropnicky

Subjects

Humulus lupulus, American foulbrood, Microbial Sensitivity Tests, Biology, Microbiology, Paenibacillus, Alkaloids, Botany, Benzoquinones, Animals, Masoprocol, Benzophenanthridines, Flavonoids, Aldehydes, Myrtus communis, Dose-Response Relationship, Drug, General Veterinary, Traditional medicine, Plant Extracts, Terpenes, fungi, Broth microdilution, food and beverages, General Medicine, Honey bee, Bees, Isoquinolines, biology.organism_classification, Terpenoid, Anti-Bacterial Agents, Capsaicin, Antibacterial activity

Abstract

In total, 26 natural compounds of various chemical classes (flavonoids, alkaloids, terpenoids) and 19 crude extracts from selected plants were tested in vitro for antibacterial activity against three strains of P. larvae, the causal agent of American Foulbrood Disease of honey bees (AFB) by the broth microdilution method. Among the individual substances, sanguinarine (MIC 4 microg/ml), followed by thymoquinone, capsaicin, trans-2-hexenal and nordihydroguaiaretic acid (MIC 4-32 microg/ml) possessed the strongest antibacterial effect. In case of extracts, common hop (Humulus lupulus L.) and myrtle (Myrtus communis L.) methanolic-dichloromethane extracts exhibited the highest growth-inhibitory effect with MICs ranging from 2 to 8 microg/ml. Acute oral toxicity of the most active natural products was determined on adult honey bees, showing them as non-toxic at concentrations as high as 100 microg peer bee. Our study leads to identification of highly potent natural products effective against AFB in vitro with very low MICs compared to those reported in literature, low toxicity to adult honey bees and commercial availability suggesting them as perspective, low cost and consumer-acceptable agents for control of AFB.

Published

2010

8. Bacteria detected in the honeybee parasitic mite Varroa destructor collected from beehive winter debris

Author

Ludek Zurek, Jan Kopecky, Marta Nesvorna, Tomas Erban, S. Hejdankova, Jan Tyl, Dalibor Titera, Jan Hubert, and Martin Kamler

Subjects

Male, food.ingredient, Varroidae, Molecular Sequence Data, Spiroplasma, Erwinia, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, food, RNA, Ribosomal, 16S, Mite, medicine, Animals, Phylogeny, biology, Bacteria, Pathogenic bacteria, General Medicine, Bees, biology.organism_classification, Varroa destructor, Varroa, Female, Seasons, Arsenophonus, Biotechnology

Abstract

Aims The winter beehive debris containing bodies of honeybee parasitic mite Varroa destructor is used for veterinary diagnostics. The Varroa sucking honeybee haemolymph serves as a reservoir of pathogens including bacteria. Worker bees can pick up pathogens from the debris during cleaning activities and spread the infection to healthy bees within the colony. The aim of this study was to detect entomopathogenic bacteria in the Varroa collected from the winter beehive debris. Methods and Results Culture-independent approach was used to analyse the mite-associated bacterial community. Total DNA was extracted from the samples of 10 Varroa female individuals sampled from 27 different sites in Czechia. The 16S rRNA gene was amplified using universal bacterial primers, cloned and sequenced, resulting in a set of 596 sequences representing 29 operational taxonomic units (OTU97). To confirm the presence of bacteria in Varroa, histological sections of the mites were observed. Undetermined bacteria were observed in the mite gut and fat tissue. Conclusion Morganella sp. was the most frequently detected taxon, followed by Enterococcus sp., Pseudomonas sp., Rahnella sp., Erwinia sp., and Arsenophonus sp. The honeybee putative pathogen Spiroplasma sp. was detected at one site and Bartonella-like bacteria were found at four sites. PCR-based analysis using genus-specific primers enabled detection of the following taxa: Enterococcus, Bartonella-like bacteria, Arsenophonus and Spiroplasma. Significance and Impact of the Study We found potentially pathogenic (Spiroplasma) and parasitic bacteria (Arsenophonus) in mites from winter beehive debris. The mites can be reservoirs of the pathogenic bacteria in the apicultures.

Published

2015

9. Bacterial community associated with worker honeybees (Apis mellifera) affected by European foulbrood

Author

Martin Markovic, Jan Hubert, Marta Nesvorna, Dalibor Titera, Martin Kamler, Ondrej Ledvinka, Tomas Erban, Jan Tyl, and Bronislava Hortova

Subjects

0301 basic medicine, Apiary, Bartonella apis, lcsh:Medicine, Pathogen detection, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Enterococcus faecalis, Microbiology, 03 medical and health sciences, medicine, Melissococcus plutonius, Fructobacillus fructosus, biology, General Neuroscience, lcsh:R, Outbreak, General Medicine, Snodgrassella alvi, biology.organism_classification, Epizootiology, Brood, Worker bee, Lactobacillus, 030104 developmental biology, Enzootic, General Agricultural and Biological Sciences

Abstract

BackgroundMelissococcus plutoniusis an entomopathogenic bacterium that causes European foulbrood (EFB), a honeybee (Apis melliferaL.) disease that necessitates quarantine in some countries. In Czechia, positive evidence of EFB was absent for almost 40 years, until an outbreak in the Krkonose Mountains National Park in 2015. This occurrence of EFB gave us the opportunity to study the epizootiology of EFB by focusing on the microbiome of honeybee workers, which act as vectors of honeybee diseases within and between colonies.MethodsThe study included worker bees collected from brood combs of colonies (i) with no signs of EFB (EFB0), (ii) without clinical symptoms but located at an apiary showing clinical signs of EFB (EFB1), and (iii) with clinical symptoms of EFB (EFB2). In total, 49 samples from 27 honeybee colonies were included in the dataset evaluated in this study. Each biological sample consisted of 10 surface-sterilized worker bees processed for DNA extraction. All subjects were analyzed using conventional PCR and by metabarcoding analysis based on the 16S rRNA gene V1–V3 region, as performed through Illumina MiSeq amplicon sequencing.ResultsThe bees from EFB2 colonies with clinical symptoms exhibited a 75-fold-higher incidence ofM. plutoniusthan those from EFB1 asymptomatic colonies.Melissococcus plutoniuswas identified in all EFB1 colonies as well as in some of the control colonies. The proportions ofFructobacillus fructosus,Lactobacillus kunkeei,Gilliamella apicola,Frischella perrara, andBifidobacterium coryneformewere higher in EFB2 than in EFB1, whereasLactobacillus melliswas significantly higher in EFB2 than in EFB0.Snodgrassella alviandL. melliventris,L. helsingborgensisand,L. kullabergensisexhibited higher proportion in EFB1 than in EFB2 and EFB0. The occurrence ofBartonella apisandCommensalibacter intestiniwere higher in EFB0 than in EFB2 and EFB1.Enterococcus faecalisincidence was highest in EFB2.ConclusionsHigh-throughput Illumina sequencing permitted a semi-quantitative analysis of the presence ofM. plutoniuswithin the honeybee worker microbiome. The results of this study indicate that worker bees from EFB-diseased colonies are capable of transmittingM. plutoniusdue to the greatly increased incidence of the pathogen. The presence ofM. plutoniussequences in control colonies supports the hypothesis that this pathogen exists in an enzootic state. The bacterial groups synergic to both the colonies with clinical signs of EFB and the EFB-asymptomatic colonies could be candidates for probiotics. This study confirms thatE. faecalisis a secondary invader toM. plutonius; however, other putative secondary invaders were not identified in this study.

Published

2017

10. A new low-cost procedure for detecting nucleic acids in low-incidence samples: a case study of detecting spores of Paenibacillus larvae from bee debris

Author

Dalibor Titera, Stepan Ryba, Pavel Stopka, Pavel Kindlmann, and Marcela Haklova

Subjects

Veterinary medicine, American foulbrood, Sample (material), Polymerase Chain Reaction, Sensitivity and Specificity, Decision Support Techniques, Honey Bees, Paenibacillus, Nucleic Acids, Animals, Computer Simulation, Paenibacillus larvae, Spores, Bacterial, Ecology, biology, business.industry, Incidence (epidemiology), General Medicine, Honey bee, Bees, biology.organism_classification, Spore, Biotechnology, Insect Science, business

Abstract

American foulbrood, because of its virulence and worldwide spread, is currently one of the most dangerous diseases of honey bees. Quick diagnosis of this disease is therefore vitally important. For its successful eradication, however, all the hives in the region must be tested. This is time consuming and costly. Therefore, a fast and sensitive method of detecting American foulbrood is needed. Here we present a method that significantly reduces the number of tests needed by combining batches of samples from different hives. The results of this method were verified by testing each sample. A simulation study was used to compare the efficiency of the new method with testing all the samples and to develop a decision tool for determining when best to use the new method. The method is suitable for testing large numbers of samples (over 100) when the incidence of the disease is low (10% or less).

Published

2012

11. Point mutations in the sodium channel gene conferring tau-fluvalinate resistance in Varroa destructor

Author

Jan, Hubert, Marta, Nesvorna, Martin, Kamler, Jan, Kopecky, Jan, Tyl, Dalibor, Titera, and Jitka, Stara

Subjects

Base Sequence, Varroidae, Molecular Sequence Data, Mutation, Nitriles, Pyrethrins, Drug Resistance, Animals, Amino Acid Sequence, Bees, Adaptation, Physiological, Sodium Channels, Czech Republic

Abstract

Sodium channels (SCs) in mites and insects are target sites for pesticides, including pyrethroids. Point mutations in the SC gene have been reported to change the structural conformation of the protein and its sensitivity to pesticides. To find mutations in the SC gene of the mite Varroa destructor (VmNa), the authors analysed the VmNa gene sequences available in GenBank and prepared specific primers for the amplification of two fragments containing the regions coding for (i) the domain II S4-S6 region (bp 2805-3337) and (ii) the domain III S4-3' terminus region (bp 4737-6500), as determined according to the VmNa cDNA sequence AY259834.Sensitive and resistant mite populations did not differ in the amino acid sequences of the III S4-3' terminus VmNa region. However, differences were found in the IIS4-IIS6 fragment. In the resistant population, the mutation C(3004) → G resulted in the substitution L(1002) → V (codon ctg → gtg) at the position equivalent to that of the housefly L925 in the domain II S5 helix. Additionally, the mutation F(1052) → L (codon ttc → ctc) at the position equivalent to that of the housefly F975 in the domain II P-loop connecting segments S5 and S6 was detected in both the resistant and sensitive populations.All individuals that survived the tau-fluvalinate treatment in the bioassay harboured the L(1002) → V mutation combined with the F(1052), while dead individuals from both the sensitive and resistant populations harboured mostly the L(1002) residue and either of the two residues at position 1052.

Published

2012

12. In vitro inhibitory activity of essential oil vapors against Ascosphaera apis

Author

Pavel, Kloucek, Jakub, Smid, Jaroslav, Flesar, Jaroslav, Havlik, Dalibor, Titera, Vojtech, Rada, Ondrej, Drabek, and Ladislav, Kokoska

Subjects

Antifungal Agents, Ascomycota, Oils, Volatile, Animals, Plant Oils, Bees, Volatilization

Abstract

This work evaluates the in vitro inhibitory activity of 70 essential oils (EOs) in the vapor phase for the control of Chalkbrood disease caused by Ascosphaera apis Maassen ex Claussen (Olive et Spiltoir). Two wild strains isolated from infected honey bee colonies together with one standard collection strain were tested by the microatmosphere method. From 70 EOs, 39 exhibited an antifungal effect against A. apis standard and wild strains. The greatest antifungal action was observed for EO vapors from Armoracia rusticana, followed by Thymus vulgaris, Cymbopogon flexosus, Origanum vulgare and Allium sativum. An investigation of chemical composition by GC-MS revealed, that the most active EOs contained allyl isothiocyanate, citral, carvacrol and diallyl sulfides as the main constituents. The chemical composition plays a key role, as activities of different EOs from the same botanical species were different according to their composition.

Published

2012

13. A PCR method of detecting American Foulbrood (Paenibacillus larvae) in winter beehive wax debris

Author

Dalibor Titera, Marcela Haklova, Stepan Ryba, and Pavel Stopka

Subjects

DNA, Bacterial, American foulbrood, Microbiology, Polymerase Chain Reaction, Beeswax, law.invention, Paenibacillus, law, Animals, Food science, Polymerase chain reaction, Beehive, Spores, Bacterial, Wax, Colony Collapse, General Veterinary, biology, fungi, General Medicine, Bees, biology.organism_classification, Isolation (microbiology), Spore, visual_art, Waxes, visual_art.visual_art_medium

Abstract

The objective of this work was to create a fast and sensitive method of detecting Paenibacillus larvae from beehive debris based on PCR that does not require long-lasting cultivation steps. Various methods of extracting spores from beehive debris were compared: the original method of extraction of spores into toluene, and alternative spore extraction methods into Tween 80, into water, into isopropanol and into 95% ethanol. Isolation of DNA from various spore extractions was evaluated too. Best results were provided by isolation of DNA using the QIAamp DNA Mini Kit, without heat treatment. DNA of spores was detected by PCR from 0.25 g of beeswax debris, with the detected titer of 10(5) in 1g according to the cultivation tests.

Published

2008

14. In vitro Inhibitory Activity of Essential Oil Vapors against Ascosphaera apis

Author

Dalibor Titera, Jaroslav Havlik, Jakub Smid, Ondrej Drabek, Vojtech Rada, Pavel Klouček, Ladislav Kokoska, and J. Flesar

Subjects

Pharmacology, biology, Thymus vulgaris, food and beverages, Plant Science, General Medicine, Origanum, Honey bee, biology.organism_classification, Allyl isothiocyanate, Allium sativum, Citral, law.invention, chemistry.chemical_compound, Complementary and alternative medicine, chemistry, law, Drug Discovery, Botany, Carvacrol, Food science, Essential oil

Abstract

This work evaluates the in vitro inhibitory activity of 70 essential oils (EOs) in the vapor phase for the control of Chalkbrood disease caused by Ascosphaera apis Maassen ex Claussen (Olive et Spiltoir). Two wild strains isolated from infected honey bee colonies together with one standard collection strain were tested by the microatmosphere method. From 70 EOs, 39 exhibited an antifungal effect against A. apis standard and wild strains. The greatest antifungal action was observed for EO vapors from Armoracia rusticana, followed by Thymus vulgaris, Cymbopogon flexosus, Origanum vulgare and Allium sativum. An investigation of chemical composition by GC-MS revealed, that the most active EOs contained allyl isothiocyanate, citral, carvacrol and diallyl sulfides as the main constituents. The chemical composition plays a key role, as activities of different EOs from the same botanical species were different according to their composition.

Published

2012

15. Thymoquinone is active in vitro against P. larvae and exhibits low toxicity against adult honey bees

Author

J. Flesar, Ladislav Kokoska, Jaroslav Havlik, Pavel Klouček, Vojtěch Rada, M Stropnicky, and Dalibor Titera

Subjects

Pharmacology, Larva, Traditional medicine, Low toxicity, Organic Chemistry, Pharmaceutical Science, Biology, In vitro, Analytical Chemistry, Toxicology, chemistry.chemical_compound, Honey Bees, Complementary and alternative medicine, chemistry, Drug Discovery, Molecular Medicine, Thymoquinone

16. Natural compounds and extract for the control of American foulbrood

Author

T. Cermak, J. Flesar, L. Kokoska, Jaroslav Havlik, Pavel Klouček, Dalibor Titera, and Vojtěch Rada

Subjects

Pharmacology, American foulbrood, Complementary and alternative medicine, Traditional medicine, Organic Chemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Biology, Analytical Chemistry

17. Activity of essential oils in vapour phase against Paenibacillus larvae

Author

L. Nedorostova, Dalibor Titera, L. Kokoska, J. Flesar, and Pavel Klouček

Subjects

Pharmacology, Complementary and alternative medicine, Chemistry, Phase (matter), Organic Chemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Food science, Analytical Chemistry, Paenibacillus larvae