Brewer’s spent grain biotransformation to produce lignocellulolytic enzymes and polyhydroxyalkanoates in a two-stage valorization scheme

Llimós-Turet, Jordi; Martínez-Avila, Oscar; Marti, Elisabet; Corchado-Lopo, Carlos; Llenas, Laia; Salas, Sergio; Gea, Teresa

doi:10.1007/s13399-020-00918-4

Cited by 16 publications

(10 citation statements)

References 59 publications

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“…The fermentation of agro-industrial residue hydrolysates in batch shake flask production can result in PHA titers between 0.1 and 15 g/L [12,40,[56][57][58][59][60]. In this work, the production titers of PHB and PHB-co-MCL by E. coli LSBJ from BSG hydrolysate are observed to be higher here than what has been previously reported with native producers B. cepacia (1.01 g/L) and C. necator (1.19 g/L) using the same substrate [30]. This can be explained by the different nutrients and PHA metabolism of E. coli LSBJ as compared to the native producers.…”

Section: Pha Productionmentioning

confidence: 44%

“…A recent paper by Llimós et al showed the conversion of BSG without pretreatment into PHB using native PHBproducing organisms Burkholderia cepacia and Cupriavidus necator, with corresponding PHB titers from 1.0 to 1.2 g/L, respectively [30]. The objective of the present study is to establish a comprehensive process for conversion of BSG into PHB with higher final polymer titers that are commonly observed and would be feasible for further optimizations, as well as to demonstrate for the first-time production of PHB-co-MCL copolymers using BSG substrate.…”

Section: Introductionmentioning

confidence: 99%

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Production of polyhydroxybutyrate and polyhydroxybutyrate-co-MCL copolymers from brewer’s spent grains by recombinant Escherichia coli LSBJ

Thomas

Scheel

Nomura

et al. 2021

Biomass Conv. Bioref.

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This study investigates the use of brewer's spent grains (BSG), a major waste stream from the brewing process, for its potential as a carbon source for the fermentative production of polyhydroxyalkanoates (PHAs), biodegradable polyesters. The sugars obtained from hydrolysis of raw and hot water-pretreated BSG were fermented using a recombinant Escherichia coli LSBJ harboring genes for biosynthesis of either homopolymer polyhydroxybutyrate (PHB) or PHB-co-medium chain length copolymer (PHB-co-MCL). The highest biopolymer titers obtained from the BSG hydrolysate were 3.53 g/L and 3.32 g/L for PHB and PHB-co-MCL, respectively, which corresponded to process yields of 0.353 g PHB/g sugar and 0.32 g PHB-co-MCL/g sugar. Titers obtained from the BSG hydrolysate were higher compared to titers from native PHA producers observed in previous works, which was likely due to the metabolic advantages inherent to using a recombinant organism. These results demonstrate both the viability of BSG as a feedstock for production of PHB-co-MCL copolymer and the feasibility of reducing the manufacturing cost of biodegradable biopolymers by using upgraded (valorized) waste resources.

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Section: Pha Productionmentioning

confidence: 44%

Section: Introductionmentioning

confidence: 99%

Production of polyhydroxybutyrate and polyhydroxybutyrate-co-MCL copolymers from brewer’s spent grains by recombinant Escherichia coli LSBJ

Thomas

Scheel

Nomura

et al. 2021

Biomass Conv. Bioref.

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“…Self-produced enzymatic extracts used in the hydrolysis experiments were obtained starting from BSG, as suggested by Llimós et al (2020). Briefly, the BSG was fermented in solid-state using A. niger as inoculum (10% w/w).…”

Section: Self-produced Enzymes From a Nigermentioning

confidence: 99%

“…Nevertheless, one of the most interesting traits of SSF is its versatility to process a wide variety of solid wastes to obtain different value-added products through an extensive range of microorganisms (Soccol et al, 2017;Yazid et al, 2017). Accordingly, SSF has been successfully used in combination with several wastes for producing marketable bioproducts such as enzymes (Llimós et al, 2020;Melikoglu et al, 2015), base chemicals (Martínez-Avila et al, 2020), phenolic compounds (Santos da Silveira et al, 2019, among others. Oliveira et al, (2004) first tested the PHA production via SSF using soy cake supplemented with molasses.…”

Section: Introductionmentioning

confidence: 99%

Integrated solid-state enzymatic hydrolysis and solid-state fermentation for producing sustainable polyhydroxyalkanoates from low-cost agro-industrial residues

Martínez-Avila¹,

Llimós²,

Ponsá³

2021

Food and Bioproducts Processing

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“…Previously, many studies failed to address the efficiency of enzyme extracts in SSF [12][13][14]. For instance, a recent study by Llimós, et al [16] investigated biotransformation of brewer's spent grain to produce lignocellulolytic enzymes and polyhydroxyalkanoates in a two-stage valorization. Moreover, most of these studies in this area are limited to the production with only a few studies focusing on application of the produced enzymes.…”

Section: Introductionmentioning

confidence: 99%

Sustainable Production of Lignocellulolytic Enzymes in Solid-State Fermentation of Agro-Industrial Waste: Application in Pumpkin (Cucurbita maxima) Juice Clarification

et al. 2021

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Valorization of agro-industrial waste through greener and biotechnological processes are promising approaches to minimize the generation of agro-industrial waste. Therefore, the study aimed to produce lignocellulolytic enzymes from agro-industrial waste under solid-state fermentation (SSF) conditions and study their application in the clarification of pumpkin juice. The SSF was performed with three different combinations of wheat bran + rice bran (WBRB), wheat bran + wheat straw (WBWS), and rice bran + wheat straw (RBWS) as dry solid substrates (1:1) using Fusarium oxysporum (MTCC 7229). The protein, carboxymethyl cellulase (CMCase), and xylanase contents ranged from 0.98–3.90 mg/g, 5.89–6.84 U/g substrate, and 10.08–13.77 U/g substrate, respectively in different agro-industrial waste as substrates (WBRB, WBWS, RBWS, and control). The increase in enzyme concentration (0.50–2.40%) added to pumpkin juice exhibited an increased juice yield (16.30–55.60%), reduced browning index (1.03–0.70), and an increase in clarity (5.31–13.77 %T), which was further confirmed by a total variance of 84.83% by principal component analysis. Thus, the low-cost lignocellulolytic enzymes can be produced from agro-industrial waste that might have applications in food and beverage industries. Hence, this approach could be used as a long-term sustainable and circular source to valorize agro-industrial waste towards the greener future and the preservation of ecosystems.

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Brewer’s spent grain biotransformation to produce lignocellulolytic enzymes and polyhydroxyalkanoates in a two-stage valorization scheme

Cited by 16 publications

References 59 publications

Production of polyhydroxybutyrate and polyhydroxybutyrate-co-MCL copolymers from brewer’s spent grains by recombinant Escherichia coli LSBJ

Production of polyhydroxybutyrate and polyhydroxybutyrate-co-MCL copolymers from brewer’s spent grains by recombinant Escherichia coli LSBJ

Integrated solid-state enzymatic hydrolysis and solid-state fermentation for producing sustainable polyhydroxyalkanoates from low-cost agro-industrial residues

Sustainable Production of Lignocellulolytic Enzymes in Solid-State Fermentation of Agro-Industrial Waste: Application in Pumpkin (Cucurbita maxima) Juice Clarification

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