• The Plant Pathology Journal
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• 제39권5호
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• pp.430-448
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• 2023

Recently, strategies for controlling Fusarium oxysporum f. sp. lycopersici (Fol), the causal agent of Fusarium wilt of tomato, focus on using effective biocontrol agents. In this study, an analysis of the biocontrol and plant growth promoting (PGP) attributes of 11 isolates of loamy soil Bacillus spp. has been conducted. Among them, the isolates B.PNR1 and B.PNR2 inhibited the mycelial growth of Fol by inducing abnormal fungal cell wall structures and cell wall collapse. Moreover, broad-spectrum activity against four other plant pathogenic fungi, F. oxysporum f. sp. cubense race 1 (Foc), Sclerotium rolfsii, Colletotrichum musae, and C. gloeosporioides were noted for these isolates. These two Bacillus isolates produced indole acetic acid, phosphate solubilization enzymes, and amylolytic and cellulolytic enzymes. In the pot experiment, the culture filtrate from B.PNR1 showed greater inhibition of the fungal pathogens and significantly promoted the growth of tomato plants more than those of the other treatments. Isolate B.PNR1, the best biocontrol and PGP, was identified as Bacillus stercoris by its 16S rRNA gene sequence and whole genome sequencing analysis (WGS). The WGS, through genome mining, confirmed that the B.PNR1 genome contained genes/gene cluster of a nonribosomal peptide synthetase/polyketide synthase, such as fengycin, surfactin, bacillaene, subtilosin A, bacilysin, and bacillibactin, which are involved in antagonistic and PGP activities. Therefore, our finding demonstrates the effectiveness of B. stercoris strain B.PNR1 as an antagonist and for plant growth promotion, highlighting the use of this microorganism as a biocontrol agent against the Fusarium wilt pathogen and PGP abilities in tomatoes.

• Journal of Microbiology and Biotechnology
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• 제33권5호
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• pp.607-620
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• 2023

The biocontrol approach using beneficial microorganisms to control crop diseases is becoming an essential alternative to chemical fungicides. Therefore, new and efficient biocontrol agents (BCA) are needed. In this study, a rhizospheric actinomycete isolate showed unique and promising antagonistic activity against three of the most common phytopathogenic fungi, Fusarium oxysporum MH105, Rhizoctonia solani To18, and Alternaria brassicicola CBS107. Identification of the antagonistic strain, which was performed according to spore morphology and cell wall chemotype, suggested that it belongs to the Nocardiopsaceae. Furthermore, cultural, physiological, and biochemical characteristics, together with phylogenetic analysis of the 16S rRNA gene (OP869859.1), indicated the identity of this strain to Nocardiopsis alba. The cell-free filtrate (CFF) of the strain was evaluated for its antifungal potency, and the resultant inhibition zone diameters ranged from 17.0 ± 0.92 to 19.5 ± 0.28 mm for the tested fungal species. Additionally, the CFF was evaluated in vitro to control Fusarium wilt disease in Vicia faba using the spraying method under greenhouse conditions, and the results showed marked differences in virulence between the control and treatment plants, indicating the biocontrol efficacy of this actinomycete. A promising plant-growth promoting (PGP) ability in seed germination and seedling growth of V. faba was also recorded in vitro for the CFF, which displayed PGP traits of phosphate solubilization (48 mg/100 ml) as well as production of indole acetic acid (34 ㎍/ml) and ammonia (20 ㎍/ml). This study provided scientific validation that the new rhizobacterium Nocardiopsis alba strain BH35 could be further utilized in bioformulation and possesses biocontrol and plant growth-promoting capabilities.

• The Plant Pathology Journal
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• 제40권4호
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• pp.346-357
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• 2024

This study was carried out to screen the antifungal activity against Colletotrichum acutatum, Colletotrichum dematium, and Colletotrichum coccodes. Bacterial isolate GP-P8 from pepper soil was found to be effective against the tested pathogens with an average inhibition rate of 70.7% in in vitro dual culture assays. 16S rRNA gene sequencing analysis result showed that the effective bacterial isolate as Bacillus siamensis. Biochemical characterization of GP-P8 was also performed. According to the results, protease and cellulose, siderophore production, phosphate solubilization, starch hydrolysis, and indole-3-acetic acid production were shown by the GP-P8. Using specific primers, genes involved in the production of antibiotics, such as iturin, fengycin, difficidin, bacilysin, bacillibactin, surfactin, macrolactin, and bacillaene were also detected in B. siamensis GP-P8. Identification and analysis of volatile organic compounds through solid phase microextraction/gas chromatography-mass spectrometry (SPME/GC-MS) revealed that acetoin and 2,3-butanediol were produced by isolate GP-P8. In vivo tests showed that GP-P8 significantly reduced the anthracnose disease caused by C. acutatum, and enhanced the growth of pepper plant. Reverse transcription polymerase chain reaction analysis of pepper fruits revealed that GP-P8 treated pepper plants showed increased expression of immune genes such as CaPR1, CaPR4, CaNPR1, CaMAPK4, CaJA2, and CaERF53. These results strongly suggest that GP-P8 could be a promising biocontrol agent against pepper anthracnose disease and possibly a pepper plant growth-promoting agent.

• 생명과학회지
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• 제17권12호
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• pp.1682-1688
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• 2007

다기능성 농업용 미생물 제제를 개발하기 위하여 생물방제 및 생물비료 활성을 가지는 미생물을 탐색하였다. 본 연구실에서 분리 및 동정된 균주가운데 Pantoea agglomerans 및 Bacillus megaterium을 실험군주로 선정하였으며, 경남 밀양에 위치하는 양계장 부근 부엽토로부터 새로운 다목적 세균 MF12를 분리하였다. 형태학적, 배양적, 생화학적 특성 및 16S rDNA 염기서열을 분석한 결과, MF12는 Bacillus pumilis로 동정되었다. 이 균주들의 불용성 인산 가용능, IAA 및 siderophore 생성능, ammonification ability, 식물병원성 진균 세포성분 분해효소 생성능 및 항진균능을 조사하였다. P. agglomerans는 고체배지에서 불용성 인산을 가용화할 수 없었으나 액체배지에서는 가용성 인산을 생성하였다. 상기 모든 균주들은 배양시간에 따라 $3{\sim}639{\mu}g/ml$의 IAA를 생성하였으며, P. agglomerans만이 siderophore를 생성하였다. 이 균주는 pectinase와 lipase를 생성하였다. B. megaterium은 amylase, pretense 및 lipase를 생성한 반면 B. pumilisr는 protease와 lipase를 생성하였다. P. agglomerans는 Fusarium oxysporum과 Colletotrichum gloeosporioides의 생육을 억제하였으며, B. pumilis는 Botrytis cinerea, Sclerotinia sclerotiorum 및 Phythium ultimum의 생육을 억제하였다.

• 한국미생물·생명공학회지
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• 제49권3호
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• pp.391-402
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• 2021

Earthworms play an important role in soil fertilization, interacting continually with microorganisms. This study aims to demonstrate the existence of beneficial microorganisms living in the earthworm's immune system, the coelomic fluid. To achieve this goal, a molecular identification technique was performed, using cytochrome c oxidase I (COI) barcoding to identify abundant endogenic earthworms inhabiting the temperate zone of Rabat, Morocco. Then, 16S rDNA and ITS sequencing techniques were adopted for bacteria and fungi, respectively. Biochemical analysis, showed the ability of bacteria to produce characteristic enzymes and utilize substrates. Qualitative screening of plant growth-promoting traits, including nitrogen fixation, phosphate and potassium solubilization, and indole acetic acid (IAA) production, was also performed. The result of mitochondrial COI barcoding allowed the identification of the earthworm species Aporrectodea molleri. Phenotypic and genotypic studies of the sixteen isolated bacteria and the two isolated fungi showed that they belong to the Pseudomonas, Aeromonas, Bacillus, Buttiauxella, Enterobacter, Pantoea, and Raoultella, and the Penicillium genera, respectively. Most of the isolated bacteria in the coelomic fluid showed the ability to produce β-glucosidase, β-glucosaminidase, Glutamyl-β-naphthylamidase, and aminopeptidase enzymes, utilizing substrates like aliphatic thiol, sorbitol, and fatty acid ester. Furthermore, three bacteria were able to fix nitrogen, solubilize phosphate and potassium, and produce IAA. This initial study demonstrated that despite the immune property of earthworms' coelomic fluid, it harbors beneficial microorganisms. Thus, the presence of resistant microorganisms in the earthworm's immune system highlights a possible selection process at the coelomic fluid level.

• 식물병연구
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• 제29권4호
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• pp.390-398
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• 2023

본 연구에서는 사과 겹무늬썩음병을 유발하는 Botryosphaeria dothidea를 억제하는 길항미생물을 선발하였고, 선발한 길항미생물의 항균 활성과 길항 효소 생성 여부를 확인하였다. 선발된 길항미생물 중 4종은 Bacillus velezensis로 동정되었고, 1종은 B. amyloliquefaciens로 동정되었으며 이 길항미생물은 모두 겹무늬썩음병균에 강한 항균 활성을 가지고 있었다. 또한 선발된 5종의 길항미생물은 탄저병균인 Colletotrichum fructicola, 줄기마름병인 Diaporthe eres도 효과적으로 균사생장을 억제하였다. 선발된 길항미생물을 대상으로 cellulase, protease, phosphate solubilization 효소 활성을 분석한 결과 모두 효소를 분비하여 병원균의 생장을 억제 및 사멸시키고 식물 생장촉진 활성을 가지는 것으로 확인되었다. 사과 과실에서 겹무늬썩음병균과 선발된 길항미생물을 동시 접종하여 발병 억제 효과를 검정한 결과 B. velezensis 23-168 균주가 가장 효과적으로 발병을 억제하였다. 따라서 선발된 5종의 길항미생물은 사과 진균 방제를 위한 기초자료로 사용할 수 있을 것으로 생각된다.

• 한국미생물·생명공학회지
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• 제48권1호
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• pp.38-47
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• 2020

본 연구는 토양으로부터 분리한 균주를 대상으로 식물병 방제활성 및 식물 생장촉진 활성을 확인하고자 하였다. 식물병원성 곰팡이에 대한 길항능을 통해 방제기능을 확인할 수 있었으며, 이는 siderophore 및 항생물질 생성 등에 기인되는 것으로 판단된다. 또한 ANG40의 경우에는 amylase, cellulase, xylanase와 같은 세포외 효소활성을 갖고 있음을 확인하였다. 이 외에도 질소 고정능, 인산 가용화능, siderophore 생성능 등 다양한 실험을 통해 식물 생장에 필수적인 질소, 인, 철 등을 식물이 흡수 가능한 형태로 변화시켜 식물 생장에 도움을 줄 수 있을 것으로 기대된다. 또한 6종의 분리균주는 모두 에틸렌 생성과 연관된 IAA를 생성하였으며, 그 중에서도 ANG51의 경우에는 ACC deaminase 활성도 갖고 있음을 확인하였다. 따라서, 최종 선별된 Pseudomonas geniculata ANG3, Exiguobacterium acetylicum ANG40, Burkholderia stabilis ANG51을 이용하여 식물 생장촉진 활성과 식물 병원성 곰팡이에 항진균 활성을 갖는 새로운 생물학적 제제로써 이용 가능성을 제시하였다.

• 한국미생물·생명공학회지
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• 제40권2호
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• pp.135-143
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• 2012

본 연구는 독도에 자생하는 개밀의 야생군락지의 근권으로부터 분리된 균 중 식물의 생장을 촉진하고, 식물의 병원균을 억제하는 것으로 알려져 있는 Enterobacter 속 세균에 초점을 맞추어 실험을 진행하였다. 개밀 근권으로부터 총124종의 세균을 분리하였으며 16S rDNA sequence를 이용하여 부분 동정한 결과, 13종의 Enterobacter 속 세균을 확인할 수 있었다. 분리된 Enterobacter 속 세균들의 식물생장촉진 근권 세균으로서의 특징을 밝히기 위해 식물의 생장호르몬인 auxin의 생산능력과 난용성인의 가용능, siderophore 생산능을 측정하였다. 식물생장호르몬인 auxin을 형성하는 균주12종, 난용성 인을 분해할 수 있는 균주 12종, siderophore를 형성할 수 있는 균주 11종이 각각 확인되었다. 분리된 균주들은 대표적인 식용작물인 고추에 직접 적용하여 식물의 생장촉진 효과와 병원균에 대한 전신유도저항성을 확인하였다. 그 중 KUDC5002와 KUDC5013의 경우 식물의 생장을 촉진시키는 균주로 확인되었다. 특히 KUDC5007, KUDC5008 및 KUDC5010의 경우, 지금까지 보고된 바 없었던 고추 유묘의 흰별무늬병에 대한 식물의 저항성을 증가시키는 것으로 확인되어 새로운 생물학적 제재로서 매우 가치 있을 것으로 기대된다.

• 한국토양비료학회지
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• 제42권Spc호
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• pp.20-28
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• 2009

생물비료는 아직도 한국에서는 생소한 용어다. 한국에서 생물비료라 함은 식물추출액, 퇴비류-다양한 형태의 미생물 혼합제 등으로 인식되고 있다. 그러나 최근에는 식물영양요소의 흡수나 이용도를 증진시키는 토양미생물 사용으로 언급하기도 한다. 본 개관은 식물성장을 증진시키는 것으로 알려진 PGPR 서로 다른 기작과 실질적 역할에 대하여 검토하였다.

• Journal of Microbiology and Biotechnology
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• 제30권5호
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• pp.668-680
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• 2020

Bacillus velezensis is an important plant growth-promoting rhizobacterium with immense potential in agriculture development. In the present study, Bacillus velezensis Lle-9 was isolated from the bulbs of Lilium leucanthum. The isolated strain showed antifungal activities against plant pathogens like Botryosphaeria dothidea, Fusarium oxysporum, Botrytis cinerea and Fusarium fujikuroi. The highest percentage of growth inhibition i.e., 68.56±2.35% was observed against Fusarium oxysporum followed by 63.12 ± 2.83%, 61.67 ± 3.39% and 55.82 ± 2.76% against Botrytis cinerea, Botryosphaeria dothidea, and Fusarium fujikuroi, respectively. The ethyl acetate fraction revealed a number of bioactive compounds and several were identified as antimicrobial agents such as diketopiperazines, cyclo-peptides, linear peptides, latrunculin A, 5α-hydroxy-6-ketocholesterol, (R)-S-lactoylglutathione, triamterene, rubiadin, moxifloxacin, 9-hydroxy-5Z,7E,11Z,14Z-eicosatetraenoic acid, D-erythro-C18-Sphingosine, citrinin, and 2-arachidonoyllysophosphatidylcholine. The presence of these antimicrobial compounds in the bacterial culture might have contributed to the antifungal activities of the isolated B. velezensis Lle-9. The strain showed plant growth-promoting traits such as production of organic acids, ACC deaminase, indole-3-acetic acid (IAA), siderophores, and nitrogen fixation and phosphate solubilization. IAA production was accelerated with application of exogenous tryptophan concentrations in the medium. Further, the lily plants upon inoculation with Lle-9 exhibited improved vegetative growth, more flowering shoots and longer roots than control plants under greenhouse condition. The isolated B. velezensis strain Lle-9 possessed broad-spectrum antifungal activities and multiple plant growth-promoting traits and thus may play an important role in promoting sustainable agriculture. This strain could be developed and applied in field experiments in order to promote plant growth and control disease pathogens.