• Research in Plant Disease
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• v.19 no.1
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• pp.21-24
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• 2013

White rot caused by Sclerotium cepivorum was reported to be severe soil-born disease on garlic. Disease progress of white rot of garlic (Allium sativum L.) was investigated during the growing season of 2009 to 2011 at Taean and Seosan areas. The white rot disease on bulb began to occur from late April and peaked in late May. The antifungal bacteria, Burkholderia pyrrocinia CAB08106-4 was tested in field bioassay for suppression of white rot disease. As a result of the nucleotide sequence of the gene 16S rRNA, CAB008106-4 strain used in this study has been identified as B. pyrrocinia. B. pyrrocinia CAB080106-4 isolate suppressed the white rot with 69.6% control efficacy in field test. These results suggested that B. pyrrocinia CAB08106-4 isolate could be an effective biological control agent against white rot of garlic.

• Korean Journal of Agricultural Science
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• v.2 no.1
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• pp.49-59
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• 1975

This study was done to find out the effect of seven widely used herbicides on mycelial growth, productivity and germ inability of sclerotium of Corticiurm sasakii growing on artificial media. The results obtained are as follows: (1) 2,4-D amine inhibited at 5 to 1000ppm mycelial growth and at 2.5 to 1000ppm sclerotia production. At normal field rate, though mycelial growth and sclerotia production were inhibited highly. sclerotial germinability were inhibited slightly. (2) MCP inhibited at 10 to 1000ppm mycelial growth and at 500 to 1000ppm sclerotia production. At normal field rate, though mycelial growth and sclerotia production were inhibited highly, sclerotial germinability were inhibited slightly. (3) DCPA and PCP inhibited highly or perfectly at 2.5 to 1000ppm mycelial growth and sclerotia production. Also sclerotial germinability was inhibited highly at normal field rate. (4) MO inhibited at 125 to 1000ppm mycelial growth and at 10 to 1000ppm sclerotia production. At normal field rate, though mycelial growth was not inhibited, sclerotial germinabitity was inhibited moderately. (5) CP-53619 inhibited at 2.5 to 1000ppm mycelial growth and at 10 to 1000ppm sclerotia production. At normal field rate, though mycelial growth and sclerotia production were inhibited moderately, sclerotial germinability was inhibited little. (6) NPE inhibited at 5 to 1000ppm mycelial growth and at 10 to 1000ppm sclerotia production. At normal field rate, mycelial growth, productivity and germinability of sclerotium were inhibited slightly.

• Proceedings of the Korean Society of Plant Pathology Conference
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• 2002.11a
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• pp.101.2-102
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• 2002

• The Korean Journal of Mycology
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• v.10 no.2
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• pp.93-94
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• 1982

Soybean Whetzelinia rot caused by Whetzelinia sclerotiorum was observed in Jinju area. The diseased soybean plants showed withering and sudden collapse under field conditions. Diseased parts exhibited numerous black, irregularly-shaped scleratia embedded in dense white cottonly mycelium on tissue and in the pith of diseased stems. A sclerotium in the moist sand produced several apothecia under laboratary condition. The primary inoculum was supposed to originate from overwintered sclerotia of soil and soybean debris.

• Korean Journal of Organic Agriculture
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• v.23 no.4
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• pp.887-896
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• 2015

To develop environment-friendly agricultural products with anti-microbial activity against Sclerotinia sclerotiorum as a pathogen of sclerotium disease, Usnea longissima was extracted by methanol and its extract was fractionated into several solvent fractions. The chloroform fraction, which showed the highest antimicrobial activity, was separated by silica gel-column chromatography and obtained into nine group subfractions. The nine group fractions were searched the antifungal activities by bioassay. The most active No. 3 subfraction was analyzed by GC-MS. Each mass spectra, corresponding to each peak of chromatogram, was compared to database of Wiley library. As a result, Usnic acid was identified as main compounds. In conclusion, Usnic acid isolated from Usnea longissima was antimicrobial chemical against Sclerotinia sclerotiorum as a pathogen of sclerotium disease.

• Korean Journal of Agricultural Science
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• v.44 no.3
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• pp.339-347
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• 2017

Sclerotium rolfsii causing southern blight on numerous vegetable and fruit crops was isolated from stems of chili peppers showing wilting symptoms. The pathogen was identified by morphological observation and DNA sequencing analysis of ITS region. To select an effective fungicide for control of southern blight, we investigated the inhibition efficacy of thirty fungicides included in nine groups of fungicides with different mechanisms of action. A fungal growth inhibition assay was conducted through an agar dilution method by using mycelial discs and sclerotia of the pathogen as inoculum, respectively. When mycelial discs were used as an inoculum, several fungicides showed good inhibitory activity against the mycelial growth of S. rolfsii 12-6. All DMI fungicides tested had a good inhibition except for prochloraz which had low inhibitory effect. All strobilurin fungicides tested except for kresoxim-methyl and all SDHI fungicides tested except for boscalid and fluopyram, had a good inhibition. Also, fludioxonil, a protective fungicide and fluazinam had a good inhibitory effect. Interestingly, when sclerotia were used as an inoculum, inhibition efficacy was increased for fluopyram, a SDHI fungicide, and for some protective fungicides such as propineb, chlorothalonil, dithianon, and folpet. All the fungicides selected in this study should be tested in the field for their control activities against stem rot for practical use in chili pepper cultivation.

• Food Science and Preservation
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• v.10 no.2
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• pp.224-229
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• 2003

This study was carried out to isolate of antagonistic bacterium to Allium cepa L. pathogens. A total of 250 strains were isolated from A. cepa L. roots. The isolates were screened for antagonism to A. cepa L. pathogens and the isolated strain No. YJ-4 was selected among these bacteria. It was identified as Bacillus ehimensis based on morphological and physiological characteristics according to the Bergey's mannual of systematic bacteriology, Sherlock system of Microbial ID Int and 165 rDNA sequences methods. Bacillus ehimensis YJ-4 showed broad spectrum of antibacterial and antifungal activities against plant pathogens as Alternaria porri, Botrytis cinerea, Erwinia carotovora subsp. carotovora Fusarium of oxysporium, penicillium sp., Pseudomonas sp., Rhizoctonia solani, Sclerotium cepivotum, Septoria sp., Stemphylium botryosum. Speially B. ehimensis YJ-4 showed high antifungal activity on growth against F. oxysporium, the causal agent of onion Fusarium wilt.

• Korean Journal of Organic Agriculture
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• v.26 no.4
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• pp.649-660
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• 2018

To control the pepper anthracnose caused by Colletotrichum acutatum, antifungal bacterium strains which was selected among bacterium from natural soil, was tested the antimicrobial activity against various pathogens and its control efficacy on anthracnose disease in the fields. We confirmed that antagonistic activity of CAB13001 strain to pathogens such as Sclerotinia cepivorum, Sclerotinia sclerotium and Botrytis cinerea including Colletotrichum acutatum was remarkable superior with the dual culture method in the artificial medium. In vitro bioassay using the green pepper fruit, CAB13001 strain suppressed the lesion development of Anthracnose disease, and its control value compared to the untreated one was 82.4% on pepper fruit in field test. These results suggested that CAB13001 strain could be a very useful biological control agents to anthracnose disease caused by air born plant pathogens of pepper. By the way, analysis of nucleotide sequence of the gene 16S rDNA, antagonistic bacterium CAB13001 strain used in this study was identified as Burkholderia lata.

• Mycobiology
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• v.50 no.4
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• pp.254-257
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• 2022

Wolfiporia cocos is a wood-decay brown rot fungus belonging to the family Polyporaceae. While the fungus grows, the sclerotium body of the strain, dubbed Bokryeong in Korean, is formed around the roots of conifer trees. The dried sclerotium has been widely used as a key component of many medicinal recipes in East Asia. Wolfiporia cocos strain KMCC03342 is the reference strain registered and maintained by the Korea Seed and Variety Service for commercial uses. Here, we present the first draft genome sequence of W. cocos KMCC03342 using a hybrid assembly technique combining both short- and long-read sequences. The genome has a total length of 55.5 Mb comprised of 343 contigs with N50 of 332 kb and 95.8% BUSCO completeness. The GC ratio was 52.2%. We predicted 14,296 protein-coding gene models based on ab initio gene prediction and evidence-based annotation procedure using RNAseq data. The annotated genome was predicted to have 19 terpene biosynthesis gene clusters, which was the same number as the previously sequenced W. cocos strain MD-104 genome but higher than Chinese W. cocos strains. The genome sequence and the predicted gene clusters allow us to study biosynthetic pathways for the active ingredients of W. cocos.

• Korean journal of applied entomology
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• v.12 no.2
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• pp.71-78
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• 1973

The study was performed to clear the effects of thiamine, biotin, nicotinic acid, pyridoxine, inositol, deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) on the mycelial growth and the sclerotial production of Sclerotium rolfsii Sacc. isolated from Magnolia kobus. The results are abstracted as follows: 1. Tested fungus was thiamine- deficient and required thiamine 20r/l for maximum growth of mycelia. At higher concentrations than thiamine 20r/l, however, mycelial growth was decreased with increasing the concentrations and was inhibited little less than that of thiamine-free control at 150r/l. 2. The effecfivenesses of the nitrogen sources on the mycelial growth under the thiamine presence were recognized in order of $NH_4NO_3>(NH_4)_2SO_4 >asparagine> KNO_3$, and on the sclerotial production were $KNO_3>NH_4NO_3>asparagine>(NH_4)_2SO_4$. The optimum concentrations of thiamine were about 12r/1 in $KNO_3$, about 16r/1 in asparagine on the growth of mycelia, and were about 8r/l in $KNO_3\;and\; NH_4NO_3,\; 16r/1$ in asparagine on the production of sclerotia. 3. After the organism began to grow, the pH value of cultral filtrate was rapidly dropped down to about 3.5. Hereafter it was slowly fallen down as the growth amount was increased, but was not depreciated below pH 2.2. 4. Nicotinic acid was not effective individually on the mycelial growth and the sclerotial formation of tested fungus without thiamine, but slight effect of it was recognized with thiamine 10r/l, even though maximum growth was shown at 7-10mg/1. Beyond that concentration, however, mycelial growth was rather depressed. 5. When ammonium sulphate or asparagine as the nitrogen sources was used, pyridoxine, biotin and inositol had not any effectivenesses on the mycelial growth and the sclerotial production of examined fungus. 6. In the concentrations of thiamine, biotin, pyridoxine and inositol, as long as thiamine was not added in those, their correlating effects on the growth of the organism were not observed at all. Equivalent or more effects on the mycelial growth were recognized in combinations of thiamin + pyridoxine, thiamine + inositol, thiamine + biotin + pyridoxine, and thiamine + biotin + pyridoxine + inositol compared with thiamino alone, and in combinations of thiamine + biotin and thiamine + biotin + inositol, mycelial growth was inhibited rather than that of thiamine alone. Sclerotial production of those combinations was increased more than that of thiamine alone in dry weight. 7, The little effects of DNA and RNA on the mycelial growth of the organism were recognized compared with the control(DNA-and RNA-free), and RNA was more effective than DNA. Maximum growth of mycelia was observed at RNA 2-6mg/1 and DNA 6mg/l. No effectivenesses on the sclerotial production were recognized in the RNA and DNA. 8. Mycelial growth of the organism was increased with increasing the concentrations of the RNA and the thiamine, that is, the effectiveness of RNA was revealed apparently under presence of thiamine, but was not shown in the sclerotial formation.