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Functional characterization of cellulases identified from the cow rumen fungus Neocallimastix patriciarum W5 by transcriptomic and secretomic analyses

Wang, Tzi-Yuan ; Chen, Hsin-Liang ; Lu, Mei-Yeh J ; [et al.]

Springer Science and Business Media LLC ; 2011

In: Biotechnology for Biofuels Vol. 4, No. 1 ( 2011-12)

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In: Biotechnology for Biofuels, Springer Science and Business Media LLC, Vol. 4, No. 1 ( 2011-12)

Abstract: Neocallimastix patriciarum is one of the common anaerobic fungi in the digestive tracts of ruminants that can actively digest cellulosic materials, and its cellulases have great potential for hydrolyzing cellulosic feedstocks. Due to the difficulty in culture and lack of a genome database, it is not easy to gain a global understanding of the glycosyl hydrolases ( GHs ) produced by this anaerobic fungus. Results We have developed an efficient platform that uses a combination of transcriptomic and proteomic approaches to N. patriciarum to accelerate gene identification, enzyme classification and application in rice straw degradation. By conducting complementary studies of transcriptome (Roche 454 GS and Illumina GA IIx) and secretome (ESI-Trap LC-MS/MS), we identified 219 putative GH contigs and classified them into 25 GH families. The secretome analysis identified four major enzymes involved in rice straw degradation: β-glucosidase, endo-1,4-β-xylanase, xylanase B and Cel48A exoglucanase. From the sequences of assembled contigs, we cloned 19 putative cellulase genes, including the GH1 , GH3 , GH5 , GH6 , GH9 , GH18 , GH43 and GH48 gene families, which were highly expressed in N. patriciarum cultures grown on different feedstocks. Conclusions These GH genes were expressed in Pichia pastoris and/or Saccharomyces cerevisiae for functional characterization. At least five novel cellulases displayed cellulytic activity for glucose production. One β-glucosidase (W5-16143) and one exocellulase (W5-CAT26) showed strong activities and could potentially be developed into commercial enzymes.

Type of Medium: Online Resource

ISSN: 1754-6834

URL: Article

DOI: 10.1186/1754-6834-4-24

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2011

detail.hit.zdb_id: 3107320-7

detail.hit.zdb_id: 2421351-2

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Systematic screening of glycosylation- and trafficking-associated gene knockouts in Saccharomyces cerevisiaeidentifies mutants with improved heterologous exocellulase activity and host secretion

Wang, Tzi-Yuan ; Huang, Chih-Jen ; Chen, Hsin-Liang ; [et al.]

Springer Science and Business Media LLC ; 2013

In: BMC Biotechnology Vol. 13, No. 1 ( 2013-12)

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In: BMC Biotechnology, Springer Science and Business Media LLC, Vol. 13, No. 1 ( 2013-12)

Abstract: As a strong fermentator, Saccharomyces cerevisiae has the potential to be an excellent host for ethanol production by consolidated bioprocessing. For this purpose, it is necessary to transform cellulose genes into the yeast genome because it contains no cellulose genes. However, heterologous protein expression in S. cerevisiae often suffers from hyper-glycosylation and/or poor secretion. Thus, there is a need to genetically engineer the yeast to reduce its glycosylation strength and to increase its secretion ability. Results Saccharomyces cerevisiae gene-knockout strains were screened for improved extracellular activity of a recombinant exocellulase (PCX) from the cellulose digesting fungus Phanerochaete chrysosporium . Knockout mutants of 47 glycosylation-related genes and 10 protein-trafficking-related genes were transformed with a PCX expression construct and screened for extracellular cellulase activity. Twelve of the screened mutants were found to have a more than 2-fold increase in extracellular PCX activity in comparison with the wild type. The extracellular PCX activities in the glycosylation-related mnn10 and pmt5 null mutants were, respectively, 6 and 4 times higher than that of the wild type; and the extracellular PCX activities in 9 protein-trafficking-related mutants, especially in the chc1 , clc1 and vps21 null mutants, were at least 1.5 times higher than the parental strains. Site-directed mutagenesis studies further revealed that the degree of N -glycosylation also plays an important role in heterologous cellulase activity in S. cerevisiae . Conclusions Systematic screening of knockout mutants of glycosylation- and protein trafficking-associated genes in S. cerevisiae revealed that: (1) blocking Golgi-to-endosome transport may force S. cerevisiae to export cellulases; and (2) both over- and under-glycosylation may alter the enzyme activity of cellulases. This systematic gene-knockout screening approach may serve as a convenient means for increasing the extracellular activities of recombinant proteins expressed in S. cerevisiae .

Type of Medium: Online Resource

ISSN: 1472-6750

URL: Article

DOI: 10.1186/1472-6750-13-71

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2013

detail.hit.zdb_id: 2052746-9

SSG: 12

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A highly efficient β-glucosidase from the buffalo rumen fungus Neocallimastix patriciarum W5

Chen, Hsin-Liang ; Chen, Yo-Chia ; Lu, Mei-Yeh Jade ; [et al.]

Springer Science and Business Media LLC ; 2012

In: Biotechnology for Biofuels Vol. 5, No. 1 ( 2012-12)

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In: Biotechnology for Biofuels, Springer Science and Business Media LLC, Vol. 5, No. 1 ( 2012-12)

Abstract: Cellulose, which is the most abundant renewable biomass on earth, is a potential bio-resource of alternative energy. The hydrolysis of plant polysaccharides is catalyzed by microbial cellulases, including endo-β-1,4-glucanases, cellobiohydrolases, cellodextrinases, and β-glucosidases. Converting cellobiose by β-glucosidases is the key factor for reducing cellobiose inhibition and enhancing the efficiency of cellulolytic enzymes for cellulosic ethanol production. Results In this study, a cDNA encoding β-glucosidase was isolated from the buffalo rumen fungus Neocallimastix patriciarum W5 and is named NpaBGS . It has a length of 2,331 bp with an open reading frame coding for a protein of 776 amino acid residues, corresponding to a theoretical molecular mass of 85.1 kDa and isoelectric point of 4.4. Two GH3 catalytic domains were found at the N and C terminals of NpaBGS by sequence analysis. The cDNA was expressed in Pichia pastoris and after protein purification, the enzyme displayed a specific activity of 34.5 U/mg against cellobiose as the substrate. Enzymatic assays showed that NpaBGS was active on short cello-oligosaccharides from various substrates. A weak activity in carboxymethyl cellulose (CMC) digestion indicated that the enzyme might also have the function of an endoglucanase. The optimal activity was detected at 40°C and pH 5 ~ 6, showing that the enzyme prefers a weak acid condition. Moreover, its activity could be enhanced at 50°C by adding Mg 2+ or Mn 2+ ions. Interestingly, in simultaneous saccharification and fermentation (SSF) experiments using Saccharomyces cerevisiae BY4741 or Kluyveromyces marxianus KY3 as the fermentation yeast, NpaBGS showed advantages in cell growth, glucose production, and ethanol production over the commercial enzyme Novo 188. Moreover, we showed that the KY3 strain engineered with the NpaNGS gene can utilize 2 % dry napiergrass as the sole carbon source to produce 3.32 mg/ml ethanol when Celluclast 1.5 L was added to the SSF system. Conclusion Our characterizations of the novel β-glucosidase NpaBGS revealed that it has a preference of weak acidity for optimal yeast fermentation and an optimal temperature of ~40°C. Since NpaBGS performs better than Novo 188 under the living conditions of fermentation yeasts, it has the potential to be a suitable enzyme for SSF.

Type of Medium: Online Resource

ISSN: 1754-6834

URL: Article

DOI: 10.1186/1754-6834-5-24

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2012

detail.hit.zdb_id: 3107320-7

detail.hit.zdb_id: 2421351-2

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