• Title/Summary/Keyword: glycosyl hydrolase

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Enhancing the Enzymatic Activity of the Multifunctional β-Glycosyl Hydrolase (Cel44C-Man26AP558) from Paenibacillus polymyxa GS01 Using DNA Shuffling (DNA Shuffling을 이용한 Paenibacillus polymyxa GS01의 다기능 β-Glycosyl Hydrolase (Cel44C-Man26AP558) 효소 활성 증가)

  • Kang, Young-Min;Kang, Tae-Ho;Yun, Han-Dae;Cho, Kye-Man
    • Korean Journal of Microbiology
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    • v.48 no.2
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    • pp.73-78
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    • 2012
  • We previously reported that the truncated Cel44C-$Man26A_{P558}$ ${\beta}$-glycosyl hydrolase protein exhibits multifunctional activities, including cellulase, xylanase, and lichenase. DNA shuffling of the truncated Cel44C-$Man26A_{P558}$ enzyme was performed to enhance the enzymatic activity of the multifunctional ${\beta}$-glycosyl hydrolase. Two mutant enzymes, M2Cel44C-$Man26A_{P558}$ that carries one mutation (P438A) and M21Cel44C-$Man26A_{P558}$ that carries two mutations (A273T and P438A) were obtained. The enzymatic activity of the M21Cel44C-$Man26A_{P558}$ double mutant was lower than enzymatic activity of the single mutant (M2Cel44C-$Man26A_{P558}$). However, both mutants displayed the enhancements in their enzyme activities that were ${\approx}1.3$- to 2.2-fold higher than the original enzymatic activity in Cel44C-$Man26A_{P558}$. In particular, the mutant M2Cel44C-$Man26A_{P558}$ exhibited an approximate 1.5- to 2.2-fold increase in the cellulase, xylanase, and lichenase activities in comparison with the control (Cel44C-$Man26A_{P558}$). The optimum cellulase, linchenase, and xylanase activities of ${\beta}$-glycosyl hydrolase were observed at pH 7.0, pH 7.0 and pH 6.0, respectively. These results, therefore, suggest that the amino acid residue Ala438 plays important roles in the enhancement of the activity of multifunctional ${\beta}$-glycosyl hydrolase.

Classification and Characteristics of Chitin/Chitosan Hydrolases (키틴/키토산 가수분해효소의 분류 및 특성)

  • Lee, Han-Seung
    • Journal of Life Science
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    • v.18 no.11
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    • pp.1617-1624
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    • 2008
  • Chitin and chitosan, which is deacetylated form of chitin, are one of the most abundant biomass on the earth. They showed various biological activities including antimicrobial activity, heavy metal chelating, immune system activation, and have very diverse applications in food, pharmaceutical, medicinal, and environmental industry. There have been reported many chitin/chitosan-hydrolyzing enzymes, their structures and genes from three domains, archaea, bacteria, and eukarya. Carbohydrate hydrolyzing enzymes are classified in CAZy (Carbohydrate Active Enzymes) database according to their amino acid sequence similarity. Interestingly, chitinases and chitosanases are classified in various glycosyl hydrolase(GH) families, GH2, GH5, GH7, GH8, GH18, GH19, GH20, GH46, GH48, GH73, GH75, GH80, GH84, and GH85. Here, we review characteristics and structures of chitin/chitosan hydrolyzing enzymes according to glycosyl hydrolase families in order to provide information about gene mining.

Identification and Characterization of Glycosyl hydrolase family genes from the Earthworm (지렁이의 Gycosyl hydrolasse family 유전자들의 동정과 특성에 관한 연구)

  • Lee, Myung Sik;Tak, Eun Sik;Ahn, Chi Hyun;Park, Soon Cheol
    • Journal of the Korea Organic Resources Recycling Association
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    • v.17 no.4
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    • pp.48-58
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    • 2009
  • Glycosyl hydrolases (GH, EC 3.2.1.-) are key enzymes which can hydrolyze the glycosidic bonds between two or more carbohydrates, or between a carbohydrate and a non-carbohydrate moiety. The new enzyme nomenclature of glycoside hydrolases is based on their amino acid sequence similarity and structural features. Here, we examined the glycosyl hydrolase family(GHF) genes reported from earthworm species. Among overall 115 GHFs, 12 GHFs could be identified from earthworm species through CAZy database. Of 12 GHF group genes, five genes including GHF2, 5, 17, 18, 20 are thought to be potent for industrial applications. The alignment of these genes with same genes from other animal species exhibited high sequence homology and some important amino acid residues necessary for enzyme activity appeared to be conserved. These genes can be utilized as a pest control agent or applicable to the food industry, clinical therapeutics and organic wastes disposition.

Screening and Characterization of an Enzyme with ${\beta}-Glucosidase$ Activity from Environmental DNA

  • Kim, Soo-Jin;Lee, Chang-Muk;Kim, Min-Young;Yeo, Yun-Soo;Yoon, Sang-Hong;Kang, Han-Cheol;Koo, Bon-Sung
    • Journal of Microbiology and Biotechnology
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    • v.17 no.6
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    • pp.905-912
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    • 2007
  • A novel ${\beta}-glucosidase$ gene, bglA, was isolated from uncultured soil bacteria and characterized. Using genomic libraries constructed from soil DNA, a gene encoding a protein that hydrolyzes a fluorogenic analog of cellulose, 4-methylumbelliferyl ${\beta}-D-cellobioside$ (MUC), was isolated using a microtiter plate assay. The gene, bglA, was sequenced using a shotgun approach, and expressed in E. coli. The deduced 55-kDa amino acid sequence for bglA showed a 56% identity with the family 1 glycosyl hydrolase Chloroflexus aurantiacus. BglA included two conserved family 1 glycosyl hydrolase regions. When using $p-nitrophenyl-{\beta}-D-glucoside$ (pNPG) as the substrate, the maximum activity of the purified ${\beta}-glucosidase$ exhibited at pH 6.5 and $55^{\circ}C$, and was enhanced in the presence of $Mn^{2+}$. The $K_m\;and\;V_{max}$ values for the purified enzyme with pNPG were 0.16 mM and $19.10{\mu}mol/min$, respectively. The purified BglA enzyme hydrolyzed both pNPG and $p-nitrophenyl-{\beta}-D-fucoside$. The enzyme also exhibited substantial glycosyl hydrolase activities with natural glycosyl substrates, such as sophorose, cellobiose, cellotriose, cellotetraose, and cellopentaose, yet low hydrolytic activities with gentiobiose, salicin, and arbutin. Moreover, BglA was able to convert the major ginsenoside $Rb_1$ into the pharmaceutically active minor ginsenoside Rd within 24 h.

Isolation and Characterization of Endo-$\beta$-1,4-glucanase from the Midgut of the Earthworm, Eisenia andrei (지렁이 중장에서 발현되는 Endo-$\beta$-1,4-glucanase의 동정 및 특성에 관한 연구)

  • Lee Myung Sik;Cho Sung Jin;Tak Eun Sik;Hur So Young;Lee Jong Ae;Park Bum Joon;Cho Hyun Ju;Shin Chuog;Park Soon Cheol
    • The Korean Journal of Soil Zoology
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    • v.8 no.1_2
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    • pp.7-12
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    • 2003
  • Endogeneous endoglucanase (EC 3.2.1.4) cDNA was cloned from a representative species (Eisenia anderi) of the earthworm family Lumbricidae. Endoglucanase from the midgut of the earthworm is composed of 456 amino acids and belongs to glycosyl hydrolase family 9 (GHF9), sharing high homologies (50-51 %) with those of selected termite and crayfish. This endoglucanase consists of three consensus catalytic domains found in most microbial cellulases. A phylogenetic tree was constructed using the amino acid squence data matched through the BLASTX program and showed that GHF9 families could be divided into four groups of arthropoda, bacteria, plant and annelida.

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Cloning and Expression of A Bacillus licheniformis Cellulase Gene (Bacillus licheniformis WL-12의 cellulase 유전자 클로닝과 발현)

  • Yoon, Ki-Hong
    • Korean Journal of Microbiology
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    • v.42 no.4
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    • pp.313-318
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    • 2006
  • A thermophilic bacterium producing the extracellular cellulase was isolated from soybean paste, and the isolate WL-12 has been identified as Bacillus licheniformis on the basis on its 16S rRNA sequence, morphology and biochemical properties. A gene encoding the cellulase of B. licheniformis WL-12 was cloned and its nucleotide sequence was determined. This cellulase gene, designated celA, consisted of 1,551 nucleotides, encoding a polypeptide of 517 amino acid residues. The gene product contained catalytic domain and cellulose binding domain. The deduced amino acid sequence was highly homologous to those of cellulases of B. licheniformis, B. subtilis and B. amytoliquefaciens belonging to the glycosyl hydrolase family 5. When the celA gene was highly expressed using a strong B. subtilis promoter, the extracellular cellulase was produced up to 7.0 units/ml in B. subtilis WB700.

Characterization of cell wall hydrolases induced by sugar starvation

  • Lee, Eun-Jeong;Koizumi, Nozomu
    • Proceedings of the Korean Society of Plant Biotechnology Conference
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    • 2005.11a
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    • pp.371-374
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    • 2005
  • In our previous work in transcriptional regulation of sugar, expression of genes encoding putative glycosyl hydrolases in Arabidopsis was induced by sugar starvation. They were annotated as b-galactosidase (At5g56870), ${\beta}-xylosidase$ (At5g49360) and ${\beta}-glucosidase$ (At3g60140), which belong to glycosyl hydrolase family that has a catalytic domain of polysaccharides. From the primary structure of deduced amino acid sequence, they were predicted to localize to cell wall. Further investigation of these cell wall hydrolases implicated that cell wall polysaccharides provide metabolizable sugars to nutrient allocation under sugar starvation.

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Cloning and Characterization of endo-β-1,4-glucanase genes from the Midgut of the Earthworm, Eisenia andrei (지렁이 중장에서 발현되는 endo-β-1,4-glucanase 유전자들의 클로닝과 특성에 관한 연구)

  • Lee, Myung-Sik;Park, Sang-Kil;Tak, Eun-Sik;Ahn, Chi-Hyun;Kim, Hye-Ryung;Park, Soon-Cheol
    • Journal of the Korea Organic Resources Recycling Association
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    • v.15 no.3
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    • pp.80-89
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    • 2007
  • Two endogenous endo-${\beta}$-1,4-D-glucanase (EGase, EC 3.2.1.4) cDNAs were cloned from the midgut of the earthworm Eisenia anderi, and named EaEG2 and EaEG3, respectively. A sequence of 1,368 bp was determined and the coding region is composed of 456 amino acid residues including the initiation methionine. The N-terminal region of 20 residues in the deduced sequence was regarded as the signal peptide. These EGases belong to glycosyl hydrolase family 9 (GHF9) and showed high levels of identity(51-55%) with selected termite, cockroache, crayfish and mollusc EGases. The EGases of earthworm consist of three consensus catalytic domains found in most microbial cellulases. A phylogenetic tree was constructed using the deduced amino acid sequence data matched through the BLASTX program and showed that GHF9 families could be divided into five groups of arthropoda, bacteria, plant, annelida and mollusc.

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Functional Analysis of a Gene Encoding Endoglucanase that Belongs to Glycosyl Hydrolase Family 12 from the Brown-Rot Basidiomycete Fomitopsis palustris

  • Song, Byeong-Cheol;Kim, Ki-Yeon;Yoon, Jeong-Jun;Sim, Se-Hoon;Lee, Kang-Seok;Kim, Yeong-Suk;Kim, Young-Kyoon;Cha, Chang-Jun
    • Journal of Microbiology and Biotechnology
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    • v.18 no.3
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    • pp.404-409
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    • 2008
  • The brown-rot basidiomycete Fomitopsis palustris is known to degrade crystalline cellulose (Avicel) and produce three major cellulases, exoglucanases, endoglucanases, and ${\beta}$-glucosidases. A gene encoding endoglucanase, designated as cel12, was cloned from total RNA prepared from F. palustris grown at the expense of Avicel. The gene encoding Cel12 has an open reading frame of 732 bp, encoding a putative protein of 244 amino acid residues with a putative signal peptide residing at the first 18 amino acid residues of the N-terminus of the protein. Sequence analysis of Cel12 identified three consensus regions, which are highly conserved among fungal cellulases belonging to GH family 12. However, a cellulose-binding domain was not found in Cel12, like other GH family 12 fungal cellulases. Northern blot analysis showed a dramatic increase of cel12 mRNA levels in F. palustris cells cultivated on Avicel from the early to late stages of growth and the maintenance of a high level of expression in the late stage, suggesting that Cel12 takes a significant part in endoglucanase activity throughout the growth of F. palustris. Adventitious expression of cel12 in the yeast Pichia pastoris successfully produced the recombinant protein that exhibited endoglucanase activity with carboxymethyl cellulose, but not with crystalline cellulose, suggesting that the enzyme is not a processive endoglucanase unlike two other endoglucanases previously identified in F. palustris.