Bioprospecting thermostable cellulosomes for efficient biofuel production from lignocellulosic biomass

Arora, Ramesh; Behera, Shuvashish; Sharma, Nilesh Kumar; Kumar, Sachin

doi:10.1186/s40643-015-0066-4

Cited by 31 publications

(15 citation statements)

References 122 publications

(144 reference statements)

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“…Moreover, the cellulase was also displayed in another strain, Zymobacter palmae (Kojima et al 2012). Cellulase-mediated biodegradation of cellulose is one promising approach in global carbon recycling (Ng et al 2010, 2011), and this biodegradation is also a potential consolidated bioprocessing (CBP) platform for effective production of biocommodities (Arora et al 2015;Liao et al 2011;Obeng et al 2017). Therefore, BsCel5 surface display by Ag43 may be a new approach for whole-cell catalysis and CBP in the future.…”

Section: The Cellulase Activity Of Bscel5 Fused To Ag43mentioning

confidence: 99%

Antigen-43-mediated surface display revealed in Escherichia coli by different fusion sites and proteins

Jing

Guo

2019

Bioresour. Bioprocess.

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Background: Cell surface display system allows for endowing functional proteins expressed on bacterial surface by fusing different anchor proteins. Among PgsA, Blc, and Omp anchor, the antigen 43 (Ag43)-mediated surface display is a novel system in Escherichia coli. Here, we have demonstrated the red fluorescent protein (RFP) and cellulase (EC 3.2.1.4) on the cell surfaces at two different fusion sites in Ag43. Results: We introduced two fusion sites which are unstructured domain (52-138 aa) and autochaperone domain (600-700 aa) at N-terminal for passenger proteins. As a result, the surface-displayed RFP expressed in plasmid pET28a, but the intracellular RFP expressed more than the surface-displayed RFP. Improved display efficiency of Ag43 was present when fusing at the site of the 138th amino acid (aa) compared to fusing at the site of the 700th aa. For endoglucanase, whole-cell surface-displayed Ag43-138-BsCel5 showed the highest specific activity which was 4.65-fold of BsCel5. Cell-displayed cellulase preserved residual activity ranging from 78% to 38% at temperatures from 55 °C to 80 °C, respectively. Conclusions: This study is to demonstrate the novel surface display system of Ag43 in E. coli by targeting two different proteins RFP and BsCel5 that were successfully displayed on the cell surfaces at two different fusion sites. The Ag43 system displays surface heterologous proteins and is a potential whole-cell catalyst in the bioconversion of cellulose.

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Section: The Cellulase Activity Of Bscel5 Fused To Ag43mentioning

confidence: 99%

Antigen-43-mediated surface display revealed in Escherichia coli by different fusion sites and proteins

Jing

Guo

2019

Bioresour. Bioprocess.

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“…These thermotolerant strains are expected to provide a benefit for the industries because they are more robust and resistant to many stressors [14]. In addition, some of these thermotolerant microorganisms can produce distinctive enzymes that function under relatively high temperature conditions [16][17][18]. Thermotolerant yeasts have been found and isolated from a number of countries [19][20][21][22][23][24][25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

Potential of Thermotolerant Ethanologenic Yeasts Isolated from ASEAN Countries and Their Application in High- Temperature Fermentation

Kosaka¹,

Lertwattanasakul²,

NadchanokRodrussamee³

et al. 2019

Fuel Ethanol Production From Sugarcane

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Thermotolerant ethanologenic yeasts receive attention as alternative bio-ethanol producers to traditionally used yeast, Saccharomyces cerevisiae. Their utilization is expected to provide several benefits for bio-ethanol production due to their characteristics and robustness. They have been isolated from a wide variety of environments in a number of ASEAN countries: Thailand, Vietnam, Laos, and Indonesia. One of these yeasts, Kluyveromyces marxianus has been investigated regarding characteristics. Some strains efficiently utilize xylose, which is a main component of the 2nd generation biomass. In addition, the genetic basis of K. marxianus has been revealed by genomic sequencing and is exploited for further improvement of the strains by thermal adaptation or gene engineering techniques. Moreover, the glucose repression of K. marxianus and its mechanisms has been investigated. Results suggest that K. marxianus is an alternative to S. cerevisiae in next-generation bio-ethanol production industry. Indeed, we have succeeded to apply K. marxianus for bio-ethanol production in a newly developed process, which combines high-temperature fermentation with simultaneous fermentation and distillation under low pressure. This chapter aims to provide valuable information on thermotolerant ethanologenic yeasts and their application, which may direct the economic bioproduction of ethanol and other useful materials in the future.Recently, thermotolerant microorganisms were found among mesophiles with optimum growth temperatures that are 5-10°C higher than those of the typical mesophilic strains Fuel Ethanol Production from Sugarcane 122 Potential of Thermotolerant Ethanologenic Yeasts Isolated from ASEAN Countries… http://dx.doi.org/10.5772/intechopen.79144 123Recently, there have been several reports on ethanol production at high temperatures using P. kudriavzevii (formerly known as I. orientalis). Several P. kudriavzevii strains were reported to grow and produce high levels of ethanol at high temperatures. The strain DMKU 3-ET15 was isolated from traditional fermented pork sausage in Thailand by an enrichment technique in a medium supplemented with 4% ethanol at 40°C. The strain produced 78.6 g/L ethanol from 180 g/L glucose at 40°C [20]. The strain KVMP10 that was isolated from soil located beneath apple trees for ethanol production from orange peel achieved 54 g/L ethanol at 42°C [48]. Strain RZ8-1 that was recently isolated from various samples collected from plant orchards in Thailand produced 33.8 g/L ethanol from 160 g/L glucose at 40°C [49].

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“…However, the problem could be alleviated by using thermotolerant strains of yeast, which could capable to grow and produced ethanol at elevated temperatures. Other than thermotolerance, broad substrate utilization ability, higher saccharification rate, ethanol yieldand low energy requirement are the desirable traits for the successful exploitation of yeast for ethanol production (Dung et al, 2012;Kumar et al, 2013;Arora et al, 2015;Scully & Orlygsson, 2015). Therefore, the selection of the yeast strain is very crucial for bioconversion of different feedstock into ethanol.…”

Section: Introductionmentioning

confidence: 99%

SELECTION AND IDENTIFICATION OF A NOVEL THERMOTOLERANT Kluyveromyces marxianus STRAIN FOR VALORIZATION OF LACTOSE WASTE INTO ETHANOL

Joshi¹,

Dhingani²,

Prasad³

2018

JEBAS

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Sustainable production of ethanol as alternative renewable fuels, there is a need for a yeast strain which can convert the non-food substrate into ethanol economically. Extensive screening program for such yeast for bioethanol production was attempted from the diverge ecosystem. That resulted into isolation of a yeast strain, designated strain ETDLT1, which was capable of ethanol fermentation using lactose as carbon source even at elevated temperatures. Beside this the strain is ethanol tolerant up to 12 %. The lactose fermentation performance of selected ETDLT1 strain was evaluated. It was found to produce 28 g/l of ethanol with yield of 0.36 %. (p/s, g/g). In laboratory fermentation ETDLT1 strain found significant potential for its ability for bioconversion of dairy processing wastes rich in lactose into ethanol in single step fermentation. Therefore, it was further selected for thorough characterization. Results of characteristics confirm the ETDLT1 isolate as the strain of Kluyveromyces marxianus.

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Bioprospecting thermostable cellulosomes for efficient biofuel production from lignocellulosic biomass

Cited by 31 publications

References 122 publications

Antigen-43-mediated surface display revealed in Escherichia coli by different fusion sites and proteins

Antigen-43-mediated surface display revealed in Escherichia coli by different fusion sites and proteins

Potential of Thermotolerant Ethanologenic Yeasts Isolated from ASEAN Countries and Their Application in High- Temperature Fermentation

SELECTION AND IDENTIFICATION OF A NOVEL THERMOTOLERANT Kluyveromyces marxianus STRAIN FOR VALORIZATION OF LACTOSE WASTE INTO ETHANOL

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