Testing scientific models using Qualitative Reasoning: Application to cellulose hydrolysis

Kansou, Kamal; Rémond, Caroline; Paës, Gabriel; Bonnin, Estelle; Tayeb, Jean; Bredeweg, Bert

doi:10.1038/s41598-017-14281-4

Cited by 3 publications

(2 citation statements)

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“…The two-step hydrolysis performed in this study by fungal secretomes led to a higher glucose yield than a one-step hydrolysis. This well-known phenomenon is mainly due to enzyme inactivation and inhibition during the course of hydrolysis [57], showing that enzyme non-specific interactions with hydrophobic features of the substrate are an essential behaviour to consider. Providing more diverse enzymatic activities (both hydrolytic and oxidative enzymes) does not necessarily help increasing glucose yield on highly recalcitrant substrates in comparison to a pure-hydrolytic secretome like that of T. reesei .…”

Section: Discussionmentioning

confidence: 99%

Tracking of enzymatic biomass deconstruction by fungal secretomes highlights markers of lignocellulose recalcitrance

Paës

Navarro

Benoit

et al. 2019

Biotechnol Biofuels

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Background Lignocellulose biomass is known as a recalcitrant material towards enzymatic hydrolysis, increasing the process cost in biorefinery. In nature, filamentous fungi naturally degrade lignocellulose, using an arsenal of hydrolytic and oxidative enzymes. Assessment of enzyme hydrolysis efficiency generally relies on the yield of glucose for a given biomass. To better understand the markers governing recalcitrance to enzymatic degradation, there is a need to enlarge the set of parameters followed during deconstruction. Results Industrially-pretreated biomass feedstocks from wheat straw, miscanthus and poplar were sequentially hydrolysed following two steps. First, standard secretome from Trichoderma reesei was used to maximize cellulose hydrolysis, producing three recalcitrant lignin-enriched solid substrates. Then fungal secretomes from three basidiomycete saprotrophs ( Laetisaria arvalis, Artolenzites elegans and Trametes ljubarskyi ) displaying various hydrolytic and oxidative enzymatic profiles were applied to these recalcitrant substrates, and compared to the T. reesei secretome. As a result, most of the glucose was released after the first hydrolysis step. After the second hydrolysis step, half of the remaining glucose amount was released. Overall, glucose yield after the two sequential hydrolyses was more dependent on the biomass source than on the fungal secretomes enzymatic profile. Solid residues obtained after the two hydrolysis steps were characterized using complementary methodologies. Correlation analysis of several physico-chemical parameters showed that released glucose yield was negatively correlated with lignin content and cellulose crystallinity while positively correlated with xylose content and water sorption. Water sorption appears as a pivotal marker of the recalcitrance as it reflects chemical and structural properties of lignocellulosic biomass. Conclusions Fungal secretomes applied to highly recalcitrant biomass samples can further extend the release of the remaining glucose. The glucose yield can be correlated to chemical and physical markers, which appear to be independent from the biomass type and secretome. Overall, correlations between these markers reveal how nano-scale properties (polymer content and organization) influence macro-scale properties (particle size and water sorption). Further systematic assessment of these markers during enzymatic degradation will foster the development of novel cocktails to unlock the degradation of lignocellulose biomass. Electronic supplementary material The online version of this article (10.1186/s13068-019-1417-8) contains supplementary material, which is available to authorized users.

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Section: Discussionmentioning

confidence: 99%

Tracking of enzymatic biomass deconstruction by fungal secretomes highlights markers of lignocellulose recalcitrance

Paës

Navarro

Benoit

et al. 2019

Biotechnol Biofuels

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“…Em uma animação do comportamento dinâmico de sistemas, a marcação da PN é modificada a cada ação realizada, onde uma transição consome uma marca de um estado e produz uma marca no estado subsequente [14].…”

Section: Figura 2 : Elementos De Uma Rede De Petriunclassified

Modelagem de sistema de partida e parada de uma turbina hidrelétrica usando redes Petri

Silva

Machado

Coelho

et al. 2020

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RESUMO Um dos sistemas primordiais para a produção de energia em uma usina hidrelétrica consiste em controlar as unidades geradoras elétricas. O sistema de partida e parada dos geradores é o cerne principal nesse quesito, o qual necessita checar inúmeras pré-condições para seu correto funcionamento. Neste artigo é proposto um modelo qualitativo usando redes Petri para o sequenciamento do módulo de partida e parada de uma turbina hidrelétrica. O modelo proposto descreve a operação do sistema passo a passo e suas relações lógicas com cada estágio do processo de partida e parada. O modelo (e possíveis extensões quantitativas) podem se tornar uma ferramenta importante para analisar o sistema de controle de uma usina hidrelétrica, auxiliando na tomada de decisão de seus operadores.

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Food modelling strategies and approaches for knowledge transfer

Kansou¹,

Laurier²,

Charalambides³

et al. 2022

Trends in Food Science & Technology

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Testing scientific models using Qualitative Reasoning: Application to cellulose hydrolysis

Cited by 3 publications

References 37 publications

Tracking of enzymatic biomass deconstruction by fungal secretomes highlights markers of lignocellulose recalcitrance

Tracking of enzymatic biomass deconstruction by fungal secretomes highlights markers of lignocellulose recalcitrance

Modelagem de sistema de partida e parada de uma turbina hidrelétrica usando redes Petri

Food modelling strategies and approaches for knowledge transfer

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