• 자연과학논문집
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• 제1권
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• pp.115-198
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• 1987

The present studies were undertaken to elucidate the influence of auxins, auxin-like substance-ethychlozate ("Figaron"),and pH and sort of rooting media on rooted propagation of certainornamental woody plant cuttings, and to see possible changes in internal compositions characterizing after root-promoting treatment as the cutting stage proceeded. The experimental check-up srevealed and summarized as seen in the following;I. Effect of three different auxin treatments on rooting cuttings: 1) Promotive influence of auxin varied according to different concentration levels, hours of dipping treatment of the auxins, and kind of plants. The greatest effect was obtained for Forsythia ksreana with NAA and IBA, for Ligustrurn obtusifolium var. variegatum with NAA and ethychlozate, for Hydrangea macrophylla, Magnolia kobus, and Magnolia liliflora with NAA, lBA and ethychlozate also. The most effective level of the promotive agents was found 200mg/l for NAA, 1000mg/l for IBA, and 200mg/l for ethychlozate. For Weigela florida and Gardenia jasminoides, range of the most effective level was shown relatively wide spread. 2) NAA was more effective at its optimal level of the rooting agent than ethychiozate for Weigela florida, Viburnum awabuki, Forsythia koreana, Acer palmatum 'Nomura', Bouga invillea glabra, Elaeagnus umbellata, Prunus tomentosa, Ligustrum obtusifolium, Pyracantha coccinea, Cestrum noctu rnum, Hydrangea macrophylla, Codiaeum variegatum, Rhododen dron lateritium, and Ilex crenata var. macrophylla, and yet ethychlozate was found either as equally as effective or more so than NAA for Zebrina pendula, Hibiscus syriacus, Fatshedera lizei, Schefflera arboricola, Campsis grandiflo ra, Ixora chinensis, Euonymus japonica, and Magnolia liliflora. On the contrary, no the auxin effect was noted with Lagerstroemia indica, Trachelospermum asiaticum, and Syringa vulgaris. This probably indicates that these species are genetically different for the auxin response.II. Effect of different pH and sorts of cutting media on rooting cuttings: 1) Bougainvillea showed best in rooting for the number and dry weight at pH 6.5, more with ethychlozate than NAA, while Ligustrum did at pH 5.0 more with NAA than ethychlozate. pH 4.0 medium resulted in the best rooting for Rhododendron with NAA, more than ethychlozate. 2) Use of cutting medium with peat: perlite: vermiculite = 1:1:1 showed to give the greatest rooting percent and dry weight, apart from considering the number of roots. This apparently meant the fact that cutting medium has more to do with root growth than root differentiation. Rhododendron yet showed results with cutting media that use of peat: perlite = 2:1 mixed is more effective on rooting than using peat alone.III. Effect of auxinic treatments on rooting cuttings and change in some cutting compositions: 1) Under the climatic conditions of July having temperature $26.3\pm$$2.4^{\circ}C$for cutting bed, new roots of Magnolia started to show up generally 20 days after the cutting was made, whereas Cestrum did much earlier than that, namely 14 days after. 2) Although total carbohydrate content of Magnolia cuttings showed no marked change without auxin treatment, it did so with the treatment, especially 30 days after the start of cutting. Cestrum cuttings demonstrated a gradual in crease in total carbohydrate content as rooting took place, and the content became reduced more with auxin than with out, just about when rooting proceeded to 14 days after the start of cutting. 3) Magnolia generally showed an increase in total nitrogen content as rooting proceeded more, and Cestrum showed a decrease in total nitrogen of cuttings. The auxin treatment exhibited no pertinent relation with change in plant nitro gen when rooting is promoted with auxin treatment. 4) An abrupt drop of total sugar and reducing sugar was noticed as Magnolia rooting started, and this reduction was parti cularly outstanding with auxin treatment. Starch content also was decreased in the later stage of cutting with auxin treatment, and was rather increased without auxin. Although sugar content soon increased as cutting started with auxin treatment in the case of Cestrum, it became reduced after rooting took place. 5) Total phenol content increased with rooting, and this was especially true when rooting started. This increase was reversed somehow regardless of auxin treatment. A decrease in phenol of Magnolia was found more striking with auxin than without in the later stage of the cutting period. 6)Avena coleoptile test for auxin-like substances presented the physiologically active factor is more in easy-to-root Magnolia liliflora than hard-to-root Magnolia kobus, and the activity of auxin-like substances was much increased with auxin treatment. The increase in the growth promoting substances was markedly pronounced when rooting just started. The active growth substances decreased in the later stage of cutting, and certain inhibitory substances started appearing. Cestrum also showed physiologically similar growth promoting substances accompanying auxin-like active substances if auxin is treated, and some strong inhibitory substances seemed to appear in the later stage of cutting. 7) Mung-bean-rooting test indicated biologically that endogenous growth substances in Magnolia all promoted mung-bean rooting, and activity of the growth substances apparently stimulated mung-bean rooting with auxin more than without. Here auxin treatment seemed to give a rise to an increased activity of endogenous growth substances in cuttings. This activity was found much greater with either NAA or IBA than ethychlozate, and showed its peak of the activity when rooting first started taking place. Certain inhibitory substances for Avena coleoptile growth strongly promoted mung-bean rooting, and it was also much like in the case of Cestrum.

• Journal of Ginseng Research
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• 제39권3호
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• pp.213-220
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• 2015

Background: Korean ginseng (Panax ginseng Meyer) is a perennial herb prone to various root diseases, with Phytophthora cactorum being considered one of the most dreaded pathogens. P. cactorum causes foliar blight and root rot. Although chemical pesticides are available for disease control, attention has been shifted to viable, eco-friendly, and cost-effective biological means such as plant growth-promoting rhizobacteria (PGPR) for control of diseases. Methods: Native Bacillus amyloliquefaciens strain HK34 was isolated from wild ginseng and assessed as a biological control agent for ginseng. Leaves from plants treated with HK34 were analyzed for induced systemic resistance (ISR) against P. cactorum in square plate assay. Treated plants were verified for differential expression of defense-related marker genes using quantitative reverse transcription polymerase chain reaction. Results: A total of 78 native rhizosphere bacilli from wild P. ginseng were isolated. One of the root-associated bacteria identified as B. amyloliquefaciens strain HK34 effectively induced resistance against P. cactorum when applied as soil drench once (99.1% disease control) and as a priming treatment two times in the early stages (83.9% disease control). A similar result was observed in the leaf samples of plants under field conditions, where the percentage of disease control was 85.6%. Significant upregulation of the genes PgPR10, PgPR5, and PgCAT in the leaves of plants treated with HK34 was observed against P. cactorum compared with untreated controls and only pathogen-treated plants. Conclusion: The results of this study indicate HK34 as a potential biocontrol agent eliciting ISR in ginseng against P. cactorum.

• 미생물학회지
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• 제49권4호
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• pp.398-402
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• 2013

고추생장 촉진을 위해 병원균에 대한 방제력과 난용성 인산염에 대한 가용화 활성을 보이는 미생물 혼합배양액의 효과를 검증하였다. Saccharomyces sp. L13은 난용성 인산염에 대한 가용화 활성으로 분리되었으며 Bacillus sp. L32는 고추역병과 고추탄저병에 대한 길항력 활성으로 분리되었다. 특히 L32 균주는 대치배양법과 잎을 이용한 실증실험에서 모두 길항능력을 보였으며 시설재배를 이용한 실증실험에서도 병의 발병율을 저감시켰다. 두 균주의 혼합배양은 각 균주들의 생장율에 영향을 주지 않았으며 고추에 대한 혼합배양액 처리는 고추역병과 고추탄저병의 발병율을 저감시키는 동시에 난용성 인산염의 가용화를 통해 고추의 생장율을 증대시키는 효과를 확인할 수 있었다. 본 결과는 두 균주의 혼합배양액이 작물재배를 위한 미생물제제로서 잠재적 효용성이 높다는 것을 제시한다.

• 한국환경농학회지
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• 제40권4호
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• pp.322-329
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• 2021

BACKGROUND: The fungicide of benomyl, a benzimidazole group, has been commonly used for pesticides against fungal diseases in the world. However, benomyl is rapidly hydrolyzed in the environment after using to control plant diseases and has adverse effects by generating carbendazim, which is toxic to plants, humans, and the environment. METHODS AND RESULTS: In this study, the decomposition effect of carbendazim, a degradation product of benomyl was conducted in pot and field after making a prototype of benomyl-degrading microbial agent (BDMA). We found that the carbendazim-degrading microbial agent (CDMA) (10⁵, 10⁶, and 10⁷ cfu/g soil) decomposed carbendazim by 50% or more in all the treatments, compared to the untreated control in the pot tests after four weeks. The effect of 100% decomposition of carbendazim was observed at 7 days after treatment, when the prototype of BDMA was apllied at 10-folds dilution in the field. The decomposition effect at more than 60% and plant growth promoting effect were observed after 7 days of the treatment, compared with the untreated group in the second field experiment,treated with commercially available concentrations of 500-folds and 1,000-folds. CONCLUSION(S): These results might represent that the BDMA would decompose carbendazim effectively, a decomposition product of the fungicide benomyl, remaining in agricultural area, and it could be utilized practically by using a low dilution rate.

• Journal of Microbiology and Biotechnology
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• 제15권5호
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• pp.1001-1010
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• 2005

Bacillus megaterium KL39, an antibiotic-producing plant growth promoting rhizobacterium (PGPR), was selected from soil. The antifungal antibiotic, denoted KL39, was purified from culture filtrate by column chromatography using Dion HP-20, Silica gel, Sephadex LH-20, and prep-HPLC. Thin layer chromatography, employing the solvent system of ethanol:ammonia:water=8:1:1, showed the $R_{f}$. value of 0.32. The antibiotic KL39 showed a negative reaction with ninhydrin solution, positive with iodine vapor, and also positive with Ehrlich reagent. It was soluble in methanol, ethanol, butanol, and acetonitrile, but insoluble in chloroform, toluene, hexane, ethyl ether, or acetone. Its UV spectrum had the maximum absorption at 208 nm. Amino acid composition, FAB-mass, $^{1}H-NMR,\;^{13}C-NMR$, and atomic analyses showed that the antibiotic KL39 (MW=1,071) has a structure very similar to iturin E. The antibiotic KL39 has a broad antifungal spectrum against a variety of plant pathogenic fungi including Rhizoctonia solani, Pyricularia oryzae, Monilinia froeticola, Botrytis cinenea, Altenaria kikuchiana, Fusarium oxysporum, and F. solani. An MIC value of $10\;{\mu}g/ml$ was determined for Phytophthora capsici. Macromolecular incorporation studies with P. capsici using radioactive [$^{3}H-adenine$] as the precursor, indicated that the antibiotic KL39 strongly inhibits the DNA biosynthesis of the fungal cell. Microscopic observation of the antifungal action showed abnormal hyphal swelling of P. capsici. The purified antibiotic KL39 was very effective for the biocontrol of in vivo Phytophthora-blight disease of pepper.

• 한국균학회지
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• 제39권2호
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• pp.91-98
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• 2011

본 연구는 식 의약용버섯으로 알려진 끈적긴뿌리버섯(Oudemansiella mucida) 배양액에서 추출한 물질이 항진균효과를 갖고 있는지 규명하기위한 실험을 수행하였다. 균사체의 배양액에서 항진균 물질을 생산하기 위한 전단계로 끈적긴뿌리버섯의 균사생장에 적합한 온도, pH, 탄소영양원, 질소영양원, 탄소/질소 비율 및 최적의 고체배지 등을 선발하기 위한 실험을 수행하였다. 균사생장에 최적인 온도와 pH는 각각 $25^{\circ}C$와 pH 5이었으며, 최적 탄소영양원과 질소영양원은 각각 maltose와 calcium nitrate였다. 균사생장을 위한 탄소/질소 영양원의 비율이 20 : 1이고 배지의 glucose 농도가 3%일 때, 균사생장이 가장 활발하였으며, 최적의 고체배지에는 Hennerberg 배지가 선정되었다. 균사생장의 실험 결과를 토대로 끈적긴뿌리버섯의 균사체를 배양한 후 그 배양여액을 이용하여 식물병원 곰팡이에 대한 항진균 효과를 규명하였다. 끈적긴뿌리버섯의 균사체 배양액에서 추출한 물질과 시판되고 있는 항진균 농약을 이용하여 Colletotrichum acutatum, Botrytis cinerea 및 Pyricularia oryzae 등 식물병원성 곰팡이를 대상으로 균사생장과 포자발아를 저해하는 효과를 조사한 결과 끈적긴뿌리버섯의 균사체에서 생산된 물질은 식물병원균의 균사생장을 저해하는 효과를 나타내었으나 공시된 항진균 농약에 비해 저해효과는 낮게 나타났다. 공시된 식물병원균 포자의 발아를 억제하는 효과는 folpet을 제외한 모든 공시 농약에 비해 낮게 나타났다. 따라서 끈적긴뿌리버섯의 균사체 배양액에서 추출한 물질에는 항균성을 나타내는 물질을 함유되어 있어서 새로운 항진균 제제로 개발할 수 있는 가능성이 있는 것으로 사료된다.

• 한국미생물·생명공학회지
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• 제36권4호
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• pp.326-335
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• 2008

Bacillus subtilis AH18균주는 auxin, siderophore 그리고 cellulase를 동시에 생산하는 PGPR 균주이자 생물방제균주로 항진균성 siderophore의 특성을 확인한 결과 catechol type의 siderophore로 확인하였다. $Siderophore_{AH18}$ 의 정제는 Amberlite XAD-2, sephadex LH-20 column chromatography 그리고 HPLC를 통해 정제 및 정제여부를 확인하였으며, GC-MS, $^1H$-NMR, 그리고 $^{13}C$-NMR을 통해 구조 및 분자량을 확인하였다. 그 결과 B. subtilis AH18이 생산하는 siderophore은 분자량 883의 bacillibactin임을 확인하였으며, 포자발아억제활성을 나타냄을 확인하였다. B. subtilis AH18은 P. capsici에 의한 고추역병을 효과적으로 방제하였으며(방제력 55%), 이는 bacillibactin에 의한 효과가 포함되리라 추측된다.

• 한국미생물·생명공학회지
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• 제40권3호
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• pp.190-196
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• 2012

식물생장 촉진 홀몬 auxin을 생산하는 균주를 선발하기 위해 경북 경산시 소재 고추경작지 근권토양으로 부터 739종의 일반호기성 균주와 urease 생산 균주 80종 및 광합성 균주 303종과 같이 총 1000여종 이상의 균주를 분리하였다. 이 균주들을 대상으로 Salkowski test를 실시한 결과, auxin을 생산하는 158종의 일반호기성 균주와 70종의 urease 생산 균주 및 228종의 광합성 균주를 선발할 수 있었으며, Holbrook test를 통해 또 다른 식물생장 촉진 호르몬인 gibberellin도 대부분의 균주에서 생산되는 것을 확인할 수 있었다. 선발된 균주 중 항진균 물질인 ${\beta}$-Glucanase와 siderophore를 생산하고 다양한 병원성 진균에 대해 길항 범위를 가지는 6가지 균주 BCB14, BCB17, C10, HA46, HA143, HJ5를 toothpicking 및 대치배양을 통해 최종 선발할 수 있었으며, 분류학적으로 동정한 결과 6종 모두 B. subtilis BCB14, B. methylotrophicus BCB17, B. methylotrophicus C10, B. sonorensis HA46, B. subtilis HA143, B. safensis HJ5로 확인되었다.

• 한국미생물·생명공학회지
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• 제31권3호
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• pp.235-241
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• 2003

항진균성 항생물질에 의한 고추역병의 생물방제에 관한 연구를 위하여 지역 경작지에서 고추역병균 P. capsici 생육을 저해는 다기능의 강력한 길항세균을 선발하였다 선발된 균주는 배양학적, 생리학적, 생화학적 실험과 AEI(CHB50) 및 Biolog(Microlog 4.01C) 시스템을 이용하여 동정한 결과 B. megaterium와 97%이상 일치하여 최종적으로 선발된 길항세균을 B. megaterium KL 39로 명명하였다. B.megaterium KL 39의 P. capsic에 대한 길항은 열에 안정하고 n-BuOH에 추출이 되는 저분자성 항생물질과 용매에 추출되지 않은 열에 약한 고분자성의 식물병원균 세포벽 가수분해효소인 cellulase에 의한 것으로 확인되었다. 길항균주 B.megaterium KL 39가 생산하는 항진균성 항생물질은 P.capsici의 포자발아와 균사성장에 큰 영향을 미쳤으며 0.4% fructose, 0.3% yeast extract, 5 mM KCI (pH 8.0)을 포함한 배지에서 3$0^{\circ}C$, 40시간 배양하였을 때 그 생산성이 최대치를 나타내었다. Diaion HP-20 column, silica gel column, Sephadex LH-20 column과 HPLC에 의해 항생물질을 정제하였으며 정제된 항생물질은 TLC plate상에서 Ethanol:Ammonia:Wate.(8:1:1)로 전개한 결과 RF value가 0.32를 나타내었으며, 단일물질로 정제된 항생물질을 KL39로 명명하였다. 선발된 길항미생물 E. megaterium KL 39와 정제된 항생물질 KL39를 가지고 고추를 기주식물로 하여 in vivo pot시험 결과 고추역병균 P.capsic게 의해 유발되는 고추역병에 대한 길항력으로 두 가지 모두 고추역병 방제력이 있음을 식물실험에서 확인할 수 있었다.

• 한국미생물·생명공학회지
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• 제37권1호
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• pp.1-9
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• 2009

식물성장촉진물질인 auxin을 비롯한 식물병원성진균을 방제하는 siderophore 그리고 식물병원성 진균의 세포벽을 분해하는 cellulase를 동시에 생산하는 생물방제균주 B. subtilis AH18의 토양내 monitoring을 위하여 각 생산물질에 관여하는 유전자를 기초로 primer(sid, aec, cel)를 제작하였다. Single PCR 및 multiplex PCR을 수행하여 800-bp(sid), 1000-bp(air), 1600-bp(cel)의 DNA fragment를 확인하였으며, 각각의 fragment는 siderophore의 생합성 key enzyme인 2,3-dihydro-2,3-dihydroxy benzoate dehydrogenase[EC : 1. 3. 1, 28]gene (sid-794bp)이며, auxin efflux carrier gene (aec - 1052 bp), 그리고 cellulase gene(cel - 1582 bp)임을 확인하고, NCBI Genbank에 등록하였다(Genbank accession sid: No. EF408238, aec: No. EF408239, cel: No. EF070194). 또한 B. subtilis AH18을 처리한 일반 경작지 토양에서 multiplex PCR을 통하여 3종의 유전자에서 증폭된 triple band를 확인하였으며, 고추를 실제 토양을 이용해 Pot에 이식 후 고추의 rhizosphere와 non-rhizosphere에서 B. subtilis AH18의 존재를 확인할 수 있다. 뿐만아니라 본 균주를 고추가 이식된 Pot의 토양에 처리 후 monitoring시 민감도는 $1.8\times10^5$ cfu/g이었고, monitoring 가능한 기간은 3주이상 확인 할 수 있었다.