Cellulase and beta-glucosidase production by mexied culture of trichoderma reesei rut C30 and aspergillus phoenicis

Duff, Sheldon J.B.; Cooper, David G.; Fuller, O. M.

doi:10.1007/bf01027817

Cited by 49 publications

(21 citation statements)

References 10 publications

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“…A lot of efforts have been given to reduce the level of cellobiose during the cellulose degradation by adding bG [6][7][8][9] or in the SSF process [3,[10][11][12]. It has been demonstrated that the addition of free bG solution improves the production rate of glucose or ethanol in the lab-scale experiment by effectively reducing the level of inhibitory cellobiose [13].…”

Section: Introductionmentioning

confidence: 99%

β-Glucosidase coating on polymer nanofibers for improved cellulosic ethanol production

Lee

Jin

Kim

et al. 2009

Bioprocess Biosyst Eng

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Beta-glucosidase (betaG) can relieve the product inhibition of cellobiose in the cellulosic ethanol production by converting cellobiose into glucose. For the potential recycled uses, betaG was immobilized and stabilized in the form of enzyme coating on polymer nanofibers. The betaG coating (EC-betaG) was fabricated by crosslinking additional betaG molecules onto covalently attached betaG molecules (CA-betaG) via glutaraldehyde treatment. The initial activity of EC-betaG was 36 times higher than that of CA-betaG. After 20 days of incubation under shaking, CA-betaG and EC-betaG retained 33 and 91% of each initial activity, respectively. Magnetic nanofibers were also used for easy recovery and recycled uses of betaG coating. It is anticipated that the recycled uses of highly active and stable betaG coating can improve the economics of cellulosic ethanol production so long as economical materials are employed as a host of enzyme immobilization.

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Section: Introductionmentioning

confidence: 99%

β-Glucosidase coating on polymer nanofibers for improved cellulosic ethanol production

Lee

Jin

Kim

et al. 2009

Bioprocess Biosyst Eng

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“…Amygdalin was reported to be an inducer of P-glucosidase production by fungi of the Aspergillus genus (Stemberg et al, 1977) and was integrated with the medium for j3-glucosidase production by A. phoenicis (Duff et al, 1985). It was expected that amygdalin might have similar enhancement effect on cellobiase production by T. reesei.…”

Section: Resultsmentioning

confidence: 92%

“…(Table 1). Sorb", sorbose 1giL added during cellulase production; sorb"", filtrate of sorb* diluted with water 1:l. Duff et al (1985) showed that cellulase produced through a mixed culture of T. rewei and A. phoenicis, a /3-glucosidase producer, had increased P-glucosidase activity and improved hydrolysis potential. The two strains of A. niger used in this study, especially the one from Sheffield City Polytechnic (Davis, 1990), were expected to be good cellobiase producers.…”

Section: Resultsmentioning

confidence: 99%

Use of sorbose to enhance cellobiase activity in a Trichoderma reesei cellulase system produced on wheat hydrolysate

Chen

Wayman

1993

Biotechnol Tech

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Several methods were investigated for increasing cellobiase activity of T. reesei cellulases produced using an acid-hydrolyzed wheat flour. The use of sorbose in cellulase production is preferred to mixed cultures with Aspergillus niger. Using 13.5 g/L wheat hydrolysate and 1.0 g/L sorbose, the culture of T. reesei produced 3.72 IU/mL of filter paper activity (FPA) and 0.53 IUimL of cellobiase activity. The addition of sorbose resulted in 89% increase in cellobiase activity and 47% increase in FPA.

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“…Sternberg et al 8 ) supplemented the cellulolytic system of T. reesei with the J1-glucosidase of Aspergillus, which increased the rate of saccharification of cellulose to glucose. Duff 9 ) increased J1-glucosidase activity by the mixed culture of T. reesei and Aspergillus. Sternberg et al 8 ) and Tangnu et al lO ) increased the J1-glucosidase of T. reesei by studies on cultural conditions, but there have been only a few reports on the genetic improvement of J1-glucosidase in T. reesei, such as the report of Cuskey et al ll ) who studied end-product inhibition resistant mutants for J1-glucosidase.…”

mentioning

confidence: 99%

Preparation and Application ofTrichoderma reeseiMutants with Enhancedβ-Glucosidase

Kawamori

Ado

Takasawa

1986

Agricultural and Biological Chemistry

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Cellulase and beta-glucosidase production by mexied culture of trichoderma reesei rut C30 and aspergillus phoenicis

Cited by 49 publications

References 10 publications

β-Glucosidase coating on polymer nanofibers for improved cellulosic ethanol production

β-Glucosidase coating on polymer nanofibers for improved cellulosic ethanol production

Use of sorbose to enhance cellobiase activity in a Trichoderma reesei cellulase system produced on wheat hydrolysate

Preparation and Application ofTrichoderma reeseiMutants with Enhancedβ-Glucosidase

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