• 한국균학회지
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• 제35권1호
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• pp.1-10
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• 2007

세포벽은 진균류의 생존과 삼투안전성 유지에 필수적인 구조체로, 세포부착성 단백질이나 가수분해효소 등과 같은 생물학적 활성을 갖는 다양한 단백질이 결합하거나 그 속에 자리잡고 작용할 수 있게 한다. 최근 효모류인 Saccharomyces cerevisiae와 사상균인 Aspergillus nidulans에서 세포 내 단백질 분비 소낭의 하나인 COPI 소낭을 구성하는 ${\alpha}-COP$ 단백질에 돌연변이가 일어날 경우, 온도의존적 삼투감수성이 나타나는 것으로 밝혀졌다. 이러한 사실은 ${\alpha}-COP$이 베타-1,3-글루칸 합성효소 복합체를 구성하는 단백질과 세포벽 단백질의 이송과정에 중요한 역할을 함으로써 세포벽 안정성 유지에 기여함을 시사하는 것이다. 본 총설에서는 세포 내 단백질 이송기구 중에서도 COPI 소낭을 구성하는 ${\alpha}-COP$과 균류의 세포벽 형성과정과의 관계에 대하여 기술하는 한편, 단백질 분비기구에 결손이 생긴 돌연변 이주를 이용한 세포벽 합성기작에 대한 기초 및 응용연구의 가능성에 대하여 검토하여 보았다.

• Journal of Microbiology and Biotechnology
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• 제25권3호
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• pp.307-316
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• 2015

Beginning from the recognition of FtsZ as a bacterial tubulin homolog in the early 1990s, many bacterial cytoskeletal elements have been identified, including homologs to the major eukaryotic cytoskeletal elements (tubulin, actin, and intermediate filament) and the elements unique in prokaryotes (ParA/MinD family and bactofilins). The discovery and functional characterization of the bacterial cytoskeleton have revolutionized our understanding of bacterial cells, revealing their elaborate and dynamic subcellular organization. As in eukaryotic systems, the bacterial cytoskeleton participates in cell division, cell morphogenesis, DNA segregation, and other important cellular processes. However, in accordance with the vast difference between bacterial and eukaryotic cells, many bacterial cytoskeletal proteins play distinct roles from their eukaryotic counterparts; for example, control of cell wall synthesis for cell division and morphogenesis. This review is aimed at providing an overview of the bacterial cytoskeleton, and discussing the roles and assembly dynamics of bacterial cytoskeletal proteins in more detail in relation to their most widely conserved functions, DNA segregation and coordination of cell wall synthesis.

• Mycobiology
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• 제38권2호
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• pp.108-112
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• 2010

To investigate the possible roles of LAMMER kinase homologue, Lkh1, in Schizosaccharomyces pombe, whole proteins were extracted from wild type and lkh1-deletion mutant cells and subjected to polyacrylamide gel electrophoresis. Differentially expressed proteins were identified by tandem mass spectrometry (MS/MS) and were compared with a protein database. In whole-cell extracts, 10 proteins were up-regulated and 9 proteins were down-regulated in the mutant. In extracellular preparations, 6 proteins were up-regulated in the lkh1+ null mutant and 4 proteins successfully identified: glycolipid anchored surface precursor, $\beta$-glucosidase (Psu1), cell surface protein, glucan 1,3-$\beta$-glucosidase (Bgl2), and exo-1,3 $\beta$-glucanase (Exg1). These results suggest that Lkh1 is involved in regulating cell wall assembly.

• 한국식품영양과학회지
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• 제26권2호
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• pp.175-179
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• 1997

과실의 성숙 연화동안에 단백질의 변화에 대해 연구하고자 완숙 연화된 감과 대추에서 용해성에 따라 추출한 수용성 단백질, 염가용성 단백질 및 세포벽 단백질의 함량 변화와 각 단백질의 gel filtration chromatogram의 pattern 변화를 조사하였다. 두 과실의 수용성 단백질은 완숙감과 대추에서 각각 98.2, 117.1mg/100g-fr.wt.이었으며, 연화된 감과 대추에서는 각각 112.6, 183.4mg/100g-fr.wt.로 과실의 연화에 따라 증가하였다. 염가용성 단백질도 감의 경우 완숙감에서 51.7mg, 연시에서 133.2mg/100g-fr.wt.로 증가하였고, 대추의 경우에도 완숙·연화 대추 각각 101.8, 139.5mg/100g-fr.wt.로 현저한 증가를 보였다. 이 에 반해 세포벽 단백질 함량은 두 과실 모두 감소하였다. Gel filtration에서 연시의 수용성 단백질 chromatogram은 완숙감에 나타난 1개의 peak 이외에 다소 분자량이 작은 2개의 peak가 함께 존재 했으며 , 대추의 수용성 단백질은 완숙 대추와 연화 대추 모두 3개의 peak로 존재했다 염가용성 단백질 및 세포벽 단백질의 get filtration에서는 완숙 연화 과실에서 거의 유사한 경향의 chromatogram을 나타내었다. 또한 연좌된 감과 대추의 세포벽 단백질에서 단백질 함량이 감소하는 fraction은 수용성 및 염가웅성 단백질 분획에서 단백질 함량이 증가하는 fraction과 거의 일치하였다.

• 한국미생물생명공학회:학술대회논문집
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• 한국미생물생명공학회 2000년도 추계 학술대회
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• pp.176-177
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• 2000

• Journal of Applied Biological Chemistry
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• 제56권3호
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• pp.171-177
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• 2013

Efficient extraction of total proteins from soil microorganisms is tedious because of small quantity. In this regard, an improved method for extraction of whole cell proteins is developed from soil microorganisms, Saccharomyces cerevisiae and Pichia pastoris. of which the cell wall are very strong. Pretreatment with NH4OH prior to the final extraction using NaOH/SDS was tried under the basis that ammonium ion was possible to enhance the permeability and/or to weaken the yeast cell walls. The pre-treatment of yeast cells with NH4OH drastically enhanced the protein extraction when it was compared with control (without NH4OH pre-treatment). At the pre-treatment of 0.04 N NH4OH at pH 9.0, about 3 fold of proteins was obtained from p. pastoris. Ammonium hydroxide appears to penetrate into the yeast cell walls more readily at basic pH. The effect of NH4OH pretreatment was pH dependent. The methods developed in this experiment might be applicable for an effective extraction of yeast proteins for the purpose of biochemical studies, especially proteomic analysis.

• Parasites, Hosts and Diseases
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• 제39권1호
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• pp.13-21
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• 2001

Pneumocystis carinii causes serious pulmonary infection in immuno-suppressed patients. This study was undertaken to observe the cytoskeletal proteins of P. carinii by immune-electron microscopy. P. carinii infection was experimentally induced by immunosuppression of Sprague-Dawley rats for seven weeks, and their lungs were used for the observations of this study. The gold particles localized actin, tropomyosin, and tubulin. The actin was irregularly scattered in the cytoplasm of the trophic forms but was much more concentrated in the inner space of the cell wall of the cystic forms called the inner electron-lucent layer No significant amount of tropomyosin was observed in either trophic forms or cystic forms. The tubulin was distributed along the peripheral cytoplasm and filopodia of both the trophic and cystic forms rather than in the inner side of the cytoplasm. Particularly, in the cystic forms, the amount of tubulin was increased and located mainly in the inner electron-lucent layer of the cell wall where the actin was concentrated as well. The results of this study showed that the cell wall of P carinii cystic forms is a structure whose inner side is rich in actin and tubulin. The location of the actin and tubulin in P. carinii suggests that the main role of these proteins is an involvement in the protection of cystic forms from the outside environment by maintaining rigidity of the cystic forms.

• Asian-Australasian Journal of Animal Sciences
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• 제20권5호
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• pp.802-810
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• 2007

Fibrobacter succinogenes, a Gram-negative, anaerobic ruminal bacterium is a major fibre digesting species in the rumen. It intensively degrades plant cell walls by an erosion type of mechanism, burrowing its way through the complex matrix of cellulose and hemicellulose with the release of digestible and undigested cell wall fragments. The enzymes involved in this process include a combination of glucanases, xylanases, arabinofuranosidase(s) and esterases. The genome of the bacterium has been sequenced and this has revealed in excess of 100 putative glycosyl hydrolase, pectate lyase and carbohydrate esterase genes, which is greater than the numbers reported present in other major cellulolytic organisms for which genomes have been sequenced. Modelling of the amino acid sequences of two glycanases, CedA and EGB, by reference to crystallized homologs has enabled prediction of the major features of their tertiary structures. Two dimensional gel electrophoresis in conjunction with mass spectroscopy has permitted the documentation of proteins over expressed in F. succinogenes grown on cellulose, and analysis of the cell surfaces of mutant strains unable to bind to cellulose has enabled the identification of candidate proteins with roles in adhesion to the plant cell wall substrate, the precursor to cellulose biodegradation.

• 한국균학회소식:학술대회논문집
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• 한국균학회 2015년도 추계학술대회 및 정기총회
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• pp.23-23
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• 2015

Rice blast disease caused by M. oryzae is the most devastating fungal disease in rice. During the infection process, M. oryzae secretes a large number of glycosyl hydrolase (GH) proteins into the apoplast to digest host cell wall and assist fungal ingress into host tissues. In this study, we identified a novel M. oryze arabinofuranosidase B (MoAbfB) which is secreted during fungal infection. Live-cell imaging exhibited that fluorescent labeled MoAbfB was highly accumulated in fungal invasive structures such as appressorium, tips of penetration peg, biotrophic interfacial complex (BIC), as well as invasive hyphal tip. Deletion of MoAbfB mutants extended biotrophic phase followed by enhanced disease severity, whereas, over-expression of OsMoAbfB mutant induced rapid defense responses and enhanced rice resistance to M. oryzae infection. Furthermore, exogenous treatment of MoAbfB protein showed inhibition of fungal infection via priming of defense gene expression. We later found that the extract of MoAbfB degraded rice cell wall fragments could also induce host defense activation, suggesting that not MoAbfB itself but oligosaccharides (OGs) derived from MoAbfB dissolved rice cell wall elicited rice innate immunity.

• Journal of Microbiology
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• 제33권3호
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• pp.228-233
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• 1995

As S. epidermidis cell was fractionated into cell wall, cell membrane, and cytoplasm, the cell membrane proved to be the most efficient absorbent for lead ion. Utrasonication was effective, when the cells were treated during their exponential growth. The amount of the lead ion adsorbed in cell membrane decreased as hydrogen ion concentration of solution increased. Protein purified from the cell membrane showed higher adsorption capacity for the lead ion than peptidoglycan, teichoic acid from cell wall, or cell membrane lipid. Modification of carboxyl groups in the membrane protein with ethylenediamine and 1-ethyl-3-carbodiimide hydrochloride resulted in a considerable decrease of lead ion adsorption capability, suggesting that the main binding site for lead ion was the carboxyl groups of protein in cell membrane.