Cellulase Production from Spent Lignocellulose Hydrolysates by Recombinant
            <i>Aspergillus niger</i>

Alriksson, Björn; Rose, Shaunita H.; Zyl, Willem H. van; Sjöde, Anders; Nilvebrant, Nils‐Olof; Jönsson, Leif J.

doi:10.1128/aem.02479-08

Cited by 45 publications

(42 citation statements)

References 38 publications

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“…In general, the pretreatment liquor is more enriched in pentose sugars (and the remaining cell wall material enriched in hexoses) when NaOH is used as compared to H 2 SO 4 . This might be favourable as these sugars could be used in fermentation with yeasts optimised to use pentose sugars [42] or pentose-fermenting organisms such as Geobacillus [43] or by filamentous fungi for enzyme production [44] or used in anaerobic digesters to produce methane for bioenergy applications. In addition to sugars, other potentially useful chemical building blocks present in the alkaline pretreatment liquors were characterised.…”

Section: Discussionmentioning

confidence: 99%

Side by Side Comparison of Chemical Compounds Generated by Aqueous Pretreatments of Maize Stover, Miscanthus and Sugarcane Bagasse

et al. 2014

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In order to examine the potential for coproduct generation, we have characterised chemical compounds released by a range of alkaline and acidic aqueous pretreatments as well as the effect of these pretreatments on the saccharification ability of the lignocellulosic material. Comparative experiments were performed using three biomass types chosen for their potential as second-generation biofuel feedstocks: maize stover, miscanthus and sugarcane bagasse. The release of lignin from the feedstock correlated with the residual biomass saccharification potential, which was consistently higher after alkaline pretreament for all three feedstock types.Alkaline pretreatment released more complex mixtures of pentose and hexose sugars into the pretreatment liquor than did acid pretreatment. In addition, complex mixtures of aromatic and aliphatic compounds were released into pretreatment liquors under alkaline conditions, in a temperaturedependent manner, but far less so under acidic conditions. We show that the three feedstocks characterised interact with the pretreatment conditions in a specific manner to generate different ranges of products, highlighting the need to tailor pretreatments to both the starting feedstock and desired outcomes.

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Section: Discussionmentioning

confidence: 99%

Side by Side Comparison of Chemical Compounds Generated by Aqueous Pretreatments of Maize Stover, Miscanthus and Sugarcane Bagasse

et al. 2014

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“…Microorganisms including fungi and bacteria convert these waste products into useful products (biofuel) by producing various enzymes (Anwar et al 2012;Imran et al 2016). Filamentous fungi produce a variety of cellulases by consuming cheaper carbon sources such as cellulosic waste biomass or lignocellulosic biomass, which will minimize the cost of the industrial fermentation process (Alriksson et al 2009). Fungal species such as Aspergillus, Penicillium, Humicola, Trichoderma, and other microbial strains have been reported with enzyme secretion potentialities including cellulases, hemicellulases, and many other cell wall-degrading enzymes.…”

Section: Introductionmentioning

confidence: 99%

Hyper-Productivity, Characterization, and Exploitation of a Cellulase Complex from a Novel Isolate of Aspergillus tubingenesis S2 using Lignocellulose-based Material

Imran¹,

Anwar²,

Zafar³

et al. 2017

BioResources

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The hyper-production potential of a cellulase complex from a local strain of Aspergillus tubingensis S2, indigenously isolated from rotten tomato, was investigated. A total of nine fungal species of Aspergillus and Trichoderma were isolated and confirmed through triple-phase screening via 18S ribosomal DNA sequencing and construction of a phylogenetic tree. Congo red testing and the zone of clearance method were used to confirm the cellulase production from A. tubingenesis S2 isolate. A. tubingenesis S2 revealed maximum cellulase production (78 µg/mL/min) and was selected for further study. The optimum fermentative conditions, including the incubation period, pH, and temperature values, were determined to be 96 h, pH 4.8, and 40 °C, respectively, for obtaining the cellulase activity of 86.4±2.1 µg/mL/min. The cellulase was 5.14-fold purified by ammonium sulfate fractionation and gel permeation chromatography. Characterization revealed that maximum activity (130.5 µg/mL/min and 133.5 µg/mL/min) was achieved at 4.5 pH and 40 °C, respectively. A monomeric protein with an apparent molecular weight of 76 kDa was evident after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Cellulase revealed maximal activity with 40-mesh size corn stover as compared with 20-mesh size corn stover and 80-mesh size corn stover after 36 h of incubation at 40 °C.

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“…93 Furthermore, studies showed the production of cellulase and xylanase by A. niger strains cultured on the waste lignocellulosic streams remaining after fermentation of sugarcane bagasse and northern spruce. 94,95 In principle, it should be possible to grow A. niger strains on spent fruit waste streams after ethanolic fermentation, and on olive mill waste streams, with the simultaneous production of high-valued enzymes.…”

Section: Enzyme Production Through Aspergillus Strains On Fruit Wastesmentioning

confidence: 99%

Fruit waste streams in South Africa and their potential role in developing a bio-economy

Khan¹,

Roes‐Hill²,

Welz³

et al. 2015

S. Afr. J. Sci.

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Current and previous studies on bio-based (fruit) wastes and wastewaters, with a particular emphasis on research in South Africa, were reviewed. Previous studies have focused predominantly on the beneficiation and application of fruit waste as a feedstock for renewable energy. A definite gap in knowledge and application of fruit waste streams with regard to enzyme production as a value-added product is identified. The characteristics and composition of each type of fruit waste are highlighted and their potential as feedstocks in the production of value-added products is identified. The conversion of agri-industrial wastewaters to bioenergy and value-added products is discussed, with special mention of the newly published South African Bio-Economy Strategy, and the potential production of biofuels and enzymes from waste streams using recombinant Aspergillus strains. Finally, to maximise utilisation of waste streams in South Africa and abroad, a conceptual model for an integrated system using different technologies is proposed.

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Cellulase Production from Spent Lignocellulose Hydrolysates by Recombinant Aspergillus niger

Cited by 45 publications

References 38 publications

Side by Side Comparison of Chemical Compounds Generated by Aqueous Pretreatments of Maize Stover, Miscanthus and Sugarcane Bagasse

Side by Side Comparison of Chemical Compounds Generated by Aqueous Pretreatments of Maize Stover, Miscanthus and Sugarcane Bagasse

Hyper-Productivity, Characterization, and Exploitation of a Cellulase Complex from a Novel Isolate of Aspergillus tubingenesis S2 using Lignocellulose-based Material

Fruit waste streams in South Africa and their potential role in developing a bio-economy

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