연구동향 분석

향기농업: 휘발성 물질을 이용한 식물병 진단과 방제

류명주 손진수 오상근 류충민 2022년

논문상세정보
인용/피인용
' 향기농업: 휘발성 물질을 이용한 식물병 진단과 방제' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Volatile compounds
  • biological control
  • determinant
  • inducedresistance
  • pgpr
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
215 0

0.0%

' 향기농업: 휘발성 물질을 이용한 식물병 진단과 방제' 의 참고문헌

  • mVOC 2.0: a database of microbial volatiles
  • Within-plant signalling via volatiles overcomes vascular constraints on systemic signalling and primes responses against herbivores
  • Volatilomes of bacterial infections in humans
  • Volatiles released by endophytic Pseudomonas fluorescens promoting the growth and volatile oil accumulation in Atractylodes lancea
  • Volatiles produced by soil-borne endophytic bacteria increase plant pathogen resistance and affect tritrophic interactions
  • Volatiles emitted by leaf rust infected wheat induce a defence response in exposed uninfected wheat seedlings
  • Volatile-mediated effects predominate in Paraburkholderia phytofirmans growth promotion and salt stress tolerance of Arabidopsis thaliana
    Ledger, T. [2016]
  • Volatile organic compounds produced by the phytopathogenic bacterium Xanthomonas campestris pv. vesicatoria 85-10
    Weise, T. [2012]
  • Volatile organic compounds produced by a soil-isolate, Bacillus subtilis FA26 induce adverse ultra-structural changes to the cells of Clavibacter michiganensis ssp. sepedonicus, the causal agent of bacterial ring rot of potato
  • Volatile organic compounds produced by Pseudomonas fluorescens WR-1 restrict the growth and virulence traits of Ralstonia solanacearum
    Raza, W. [2016]
  • Volatile organic compounds produced by Pseudomonas chlororaphis subsp. aureofaciens SPS-41 as biological fumigants to control Ceratocystis fimbriata in postharvest sweet potatoes
    Zhang, Y. [2019]
  • Volatile organic compounds from rhizobacteria increase biosynthesis of essential oils and growth parameters in peppermint (Mentha piperita)
  • Volatile organic compounds (VOCs) from Bacillus subtilis CF-3 reduce anthracnose and elicit active defense responses in harvested litchi fruits
    Zhao, P. [2019]
  • Volatile compounds of endophytic Bacillus spp. have biocontrol activity against Sclerotinia sclerotiorum
  • Volatile C6-aldehydes and Allo-ocimene activate defense genes and induce resistance against Botrytis cinerea in Arabidopsis thaliana
  • Volatile 1-octen-3-ol induces a defensive response in Arabidopsis thaliana
  • Two volatile organic compounds trigger plant self-defense against a bacterial pathogen and a sucking insect in cucumber under open field conditions
    Song, G. C. [2013]
  • The use of SPME and GC-MS for the chemical characterisation and assessment of PAH pollution in aqueous environmental samples
  • The sol-gel preparation of silica gels
  • The rhizobacterium Arthrobacter agilis produces dimethylhexadecylamine, a compound that inhibits growth of phytopathogenic fungi in vitro
  • The rhizobacterial elicitor acetoin induces systemic resistance in Arabidopsis thaliana
  • The global response regulator ExpA controls virulence gene expression through RsmA-mediated and RsmAindependent pathways in Pectobacterium wasabiae SCC3193
    Broberg, M. [2014]
  • The chemistry of gamete attraction: chemical structures, biosynthesis, and (a)biotic degradation of algal pheromones
    Boland, W. [1995]
  • Systemic resistance induced by volatile organic compounds emitted by plant growth-promoting fungi in Arabidopsis thaliana
  • Sweet scents from good bacteria: case studies on bacterial volatile compounds for plant growth and immunity
  • Stereoisomers of the bacterial volatile compound 2,3-butanediol differently elicit systemic defense responses of pepper against multiple viruses in the field
    Kong, H. G. [2018]
  • Solid-phase microextraction
    Prosen, H. [1999]
  • Soil bacteria elevate essential oil accumulation and emissions in sweet basil
    Banchio, E. [2009]
  • Role of bacterial volatile compounds in bacterial biology
    Audrain, B. [2015]
  • Response of tomato wilt pathogen Ralstonia solanacearum to the volatile organic compounds produced by a biocontrol strain Bacillus amyloliquefaciens SQR-9
    Raza, W. [2016]
  • Pseudomonas syringae elicits emission of the terpenoid (E,E)-4,8,12-trimethyl-1,3,7,11-tridecatetraene in Arabidopsis leaves via jasmonate signaling and expression of the terpene synthase TPS4
    Attaran, E. [2008]
  • Proton-transfer-reaction mass spectrometry (PTR–MS): on-line monitoring of volatile organic compounds at pptv levels
  • Proton-transfer reaction mass spectrometry
  • Potential of the electronic-nose for the diagnosis of bacterial and fungal diseases in fruit trees
  • Plant growth promotion due to rhizobacterial volatiles: an effect of CO2?
    Kai, M. [2009]
  • Non-invasive plant disease diagnostics enabled by smartphone-based fingerprinting of leaf volatiles
    Li, Z. [2019]
  • Modern developments in gas chromatography–mass spectrometry-based environmental analysis
  • Microencapsulation: a review
    Sri, S. [2012]
  • Microencapsulation techniques, factors influencing encapsulation efficiency
  • Microencapsulation of oils: a comprehensive review of benefits, techniques, and applications
  • Microencapsulation of dodecyl acetate by complex coacervation of whey protein with acacia gum and its release behavior
    Yu, Y. T. [2012]
  • Microencapsulation by spray drying: influence of emulsion size on the retention of volatile compounds
  • Microbial volatiles: small molecules with an important role in intra- and inter-kingdom interactions
  • Microbial volatile organic compounds in intra-kingdom and interkingdom interactions
    Weisskopf L [2021]
  • Microbial production of 4-hydroxybenzylidene acetone, the direct precursor of raspberry ketone
    Feron, G. [2007]
  • Microbe-induced plant volatiles
    Sharifi, R. [2018]
  • Lack of RsmA-mediated control results in constant hypervirulence, cell elongation, and hyperflagellation in Pectobacterium wasabiae
    Kõiv, V. [2013]
  • Investigation of volatile biomarkers in lung cancer blood using solid-phase microextraction and capillary gas chromatography-mass spectrometry
    Deng, C. [2004]
  • Interspecific bacterial sensing through airborne signals modulates locomotion and drug resistance
    Kim, K. -S. [2013]
  • Inhibitory effect of volatiles emitted from Alcaligenes faecalis N1-4 on Aspergillus flavus and aflatoxins in storage
  • Induced systemic resistance against three foliar diseases of Agrostis stolonifera by (2R,3R)-butanediol or an isoparaffin mixture
  • Induced resistance by a long-chain bacterial volatile: elicitation of plant systemic defense by a C13 volatile produced by Paenibacillus polymyxa
    Lee, B. [2012]
  • In-field volatile analysis employing a hand-held portable GC-MS: emission profiles differentiate damaged and undamaged yellow starthistle flower heads
    Beck, J. J. [2015]
  • Identification of volatile markers in potato brown rot and ring rot by combined GC-MS and PTR-MS techniques:study on in vitro and in vivo samples
  • Identification of a potential ISR determinant from Pseudomonas aeruginosa PM12 against Fusarium wilt in tomato
    Fatima, S. [2017]
  • Human olfactory receptors : novel cellular functions outside of the nose
    Maßberg D [2018]
  • High efficacy of the volatile organic compounds of Streptomyces yanglinensis 3-10 in suppression of Aspergillus contamination on peanut kernels
    Lyu, A. [2020]
  • Hexanal vapor for postharvest decay control and aroma production in stored pome fruit
  • Herbivore-induced plant volatiles: targets, perception and unanswered questions
    Heil, M. [2014]
  • Healthy scents: microbial volatiles as new frontier in antibiotic research?
    Avalos, M. [2018]
  • Hand-portable gas chromatographtoroidal ion trap mass spectrometer (GC-TMS) for detection of hazardous compounds
  • Green leaf volatiles:biosynthesis, biological functions and their applications in biotechnology
  • Green leaf volatiles: a plant’s multifunctional weapon against herbivores and pathogens
    Scala, A. [2013]
  • Gas chromatography mass spectrometry–based metabolite profiling in plants
    Lisec, J. [2006]
  • GacS-dependent production of 2R, 3R-butanediol by Pseudomonas chlororaphis O6 is a major determinant for eliciting systemic resistance against Erwinia carotovora but not against Pseudomonas syringae pv. tabaci in tobacco
    Han, S. H. [2006]
  • Functional Coatings
  • Fumigation of stored pome fruit with hexanal reduces blue and gray mold decay
  • Field evaluation of the bacterial volatile derivative 3-pentanol in priming for induced resistance in pepper
    Choi, H. K. [2014]
  • Factors affecting retention in spray-drying microencapsulation of volatile materials
  • Evaluation of silica-gel microcapsule for the controlled release of insect repellent, N,N-diethyl-2-methoxybenzaimide, on cotton
    Chan, A. S. [2009]
  • Evaluation of fast volatile analysis for detection of Botrytis cinerea infections in strawberry
  • Enhanced performance of the microalga Chlorella sorokiniana remotely induced by the plant growthpromoting bacteria Azospirillum brasilense and Bacillus pumilus
  • Engineering Bacillus velezensis with high production of acetoin primes strong induced systemic resistance in Arabidopsis thaliana
    Peng, G. [2019]
  • Emission of volatile compounds by Erwinia amylovora: biological activity in vitro and possible exploitation for bacterial identification
  • Effect of volatiles produced by Trichoderma spp. on expression of glutathione transferase genes in Sclerotinia sclerotiorum
  • Dimethyl disulfide is an induced systemic resistance elicitor produced by Bacillus cereus C1L
  • Dimethyl disulfide exerts antifungal activity against Sclerotinia minor by damaging its membrane and induces systemic resistance in host plants
    Tyagi, S. [2020]
  • Differential volatile emissions and salicylic acid levels from tobacco plants in response to different strains of Pseudomonas syringae
    Huang, J. [2003]
  • Diagnostic potential of breath analysis: focus on volatile organic compounds
  • Development of sol-gel formulations for slow release of pheromones
    Zada, A. [2009]
  • Detection of Huanglongbing disease using differential mobility spectrometry
  • Components of C6-aldehyde-induced resistance in Arabidopsis thaliana against a necrotrophic fungal pathogen, Botrytis cinerea
  • Comparison of induced resistance activated by benzothiadiazole, (2R,3R)-butanediol and an isoparaffin mixture against anthracnose of Nicotiana benthamiana
  • Comparative digital gene expression analysis of the Arabidopsis response to volatiles emitted by Bacillus amyloliquefaciens
    Hao, H. -T. [2016]
  • Characterization of volatile organic compounds emitted by kiwifruit plants infected with Pseudomonas syringae pv. actinidiae and their effects on host defences
    Cellini, A. [2016]
  • Caryolan-1-ol, an antifungal volatile produced by Streptomyces spp., inhibits the endomembrane system of fungi
    Cho, G. [2017]
  • Calling from distance: attraction of soil bacteria by plant root volatiles
  • CO2 is a key constituent of the plant growth-promoting volatiles generated by bacteria in a sealed system
    Zhang, C. [2021]
  • Broad-range antagonistic rhizobacteria Pseudomonas fluorescens and Serratia plymuthica suppress Agrobacterium crown gall tumours on tomato plants
  • Biological relevance of volatile organic compounds emitted during the pathogenic interactions between apple plants and Erwinia amylovora
    Cellini, A. [2018]
  • Biological and chemical strategies for exploring inter-and intra-kingdom communication mediated via bacterial volatile signals
  • Biogenic Volatile Compounds for Plant Disease Diagnosis and Health Improvement
  • Biocontrol activity of volatile organic compounds from Streptomyces alboflavus TD-1 against Aspergillus flavus growth and aflatoxin production
  • Beyond the two compartments Petri-dish: optimising growth promotion and induced resistance in cucumber exposed to gaseous bacterial volatiles in a miniature greenhouse system
    Song, G. C. [2019]
  • Beneficial effects of microbial volatile organic compounds (MVOCs) in plants
    Poveda, J. [2021]
  • Beneficial bacterial volatile compounds for the control of root-knot nematode and bacterial leaf blight on rice
    Bui, H. X. [2020]
  • Bacterial volatiles: the smell of small organisms
    Schulz, S. [2007]
  • Bacterial volatiles promote growth in Arabidopsis
    Ryu, C. -M. [2003]
  • Bacterial volatiles induce systemic resistance in Arabidopsis
    Ryu, C. -M. [2004]
  • Bacterial volatile compound-based tools for crop management and quality
    Cellini, A. [2021]
  • Bacillus volatiles adversely affect the physiology and ultra-structure of Ralstonia solanacearum and induce systemic resistance in tobacco against bacterial wilt
  • Are bacterial volatile compounds poisonous odors to a fungal pathogen Botrytis cinerea, alarm signals to Arabidopsis seedlings for eliciting induced resistance, or both?
    Sharifi, R. [2016]
  • Antimicrobial activity of volatile organic compounds and their effect on lipid peroxidation and electrolyte loss in Colletotrichum gloeosporioides and Colletotrichum acutatum mycelia
  • Antibacterial effects of volatiles produced by Bacillus strain D13 against Xanthomonas oryzae pv. oryzae
    Xie, S. [2018]
  • Airborne medicine: bacterial volatiles and their influence on plant health
    Garbeva, P. [2020]
  • Air ambulance: antimicrobial power of bacterial volatiles
    Lammers, A. [2022]
  • A sulfur-containing volatile emitted by potato-associated bacteria confers protection against late blight through direct anti-oomycete activity
  • A semiochemical slow-release formulation in a biological control approach to attract hoverflies
    Heuskin, S. [2012]
  • A review of the preparation and application of flavour and essential oils microcapsules based on complex coacervation technology
    Xiao, Z. [2014]