Production of recombinant lytic polysaccharide monooxygenases and evaluation effect of its addition into Aspergillus fumigatus var. niveus cocktail for sugarcane bagasse saccharification

Production of recombinant lytic polysaccharide monooxygenases and evaluation effect of its addition into Aspergillus fumigatus var. niveus cocktail for sugarcane bagasse saccharification

Lignocellulosic biomass is a promising alternative for producing biofuels, despite its recalcitrant nature. There are microorganisms in nature capable of efficiently degrade biomass, such as the filamentous fungi. Among them, Aspergillus fumigatus var. niveus (AFUMN) has a wide variety of carbohydra...

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Veröffentlicht in:Biochimica et biophysica acta. Proteins and proteomics 2023-07, Vol.1871 (4), p.140919-140919, Article 140919
Hauptverfasser: Gonçalves, Aline Larissa, Cunha, Paula Macedo, da Silva Lima, Awana, dos Santos, Júlio César, Segato, Fernando
Format: Artikel
Sprache:eng
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Aspergillus fumigatus - metabolism
Cellulose
Enzymes
Filamentous fungi
Fungal Proteins - genetics
Fungal Proteins - metabolism
LPMO
Mixed Function Oxygenases
Polysaccharides
Saccharification
Saccharum - metabolism
Saccharum - microbiology
Secretome
Sugarcane bagasse
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container_end_page 140919
container_issue 4
container_start_page 140919
container_title Biochimica et biophysica acta. Proteins and proteomics
container_volume 1871
creator Gonçalves, Aline Larissa
Cunha, Paula Macedo
da Silva Lima, Awana
dos Santos, Júlio César
Segato, Fernando
description Lignocellulosic biomass is a promising alternative for producing biofuels, despite its recalcitrant nature. There are microorganisms in nature capable of efficiently degrade biomass, such as the filamentous fungi. Among them, Aspergillus fumigatus var. niveus (AFUMN) has a wide variety of carbohydrate-active enzymes (CAZymes), especially hydrolases, but a low number of oxidative enzymes in its genome. To confirm the enzymatic profile of this fungus, this study analyzed the secretome of AFUMN cultured in sugarcane bagasse as the sole carbon source. As expected, the secretome showed a predominance of hydrolytic enzymes compared to oxidative activity. However, it is known that hydrolytic enzymes act in synergy with oxidative proteins to efficiently degrade cellulose polymer, such as the Lytic Polysaccharide Monooxygenases (LPMOs). Thus, three LPMOs from the fungus Thermothelomyces thermophilus (TtLPMO9D, TtLPMO9H, and TtLPMO9O) were selected, heterologous expressed in Aspergillus nidulans, purified, and used to supplement the AFUMN secretome to evaluate their effect on the saccharification of sugarcane bagasse. The saccharification assay was carried out using different concentrations of AFUMN secretome supplemented with recombinant T. thermophilus LPMOs, as well as ascorbic acid as reducing agent for oxidative enzymes. Through a statistic design created by Design-Expert software, we were able to analyze a possible cooperative effect between these components. The results indicated that, in general, the addition of TtLPMO9D and ascorbic acid did not favor the conversion process in this study, while TtLPMO9O had a highly significant cooperative effect in bagasse saccharification compared to the control using only AFUMN secretome. [Display omitted] •Improved efficiency of fungal secretome by recombinant AA9 LPMOs.•Boosting sugarcane bagasse saccharification by fungal oxidoreductases.•Combining secretomes increase the celulases activity.•Enzymatic combination affect LPMO activity.
doi_str_mv 10.1016/j.bbapap.2023.140919
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Thus, three LPMOs from the fungus Thermothelomyces thermophilus (TtLPMO9D, TtLPMO9H, and TtLPMO9O) were selected, heterologous expressed in Aspergillus nidulans, purified, and used to supplement the AFUMN secretome to evaluate their effect on the saccharification of sugarcane bagasse. The saccharification assay was carried out using different concentrations of AFUMN secretome supplemented with recombinant T. thermophilus LPMOs, as well as ascorbic acid as reducing agent for oxidative enzymes. Through a statistic design created by Design-Expert software, we were able to analyze a possible cooperative effect between these components. The results indicated that, in general, the addition of TtLPMO9D and ascorbic acid did not favor the conversion process in this study, while TtLPMO9O had a highly significant cooperative effect in bagasse saccharification compared to the control using only AFUMN secretome. 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Proteins and proteomics</jtitle><addtitle>Biochim Biophys Acta Proteins Proteom</addtitle><date>2023-07-01</date><risdate>2023</risdate><volume>1871</volume><issue>4</issue><spage>140919</spage><epage>140919</epage><pages>140919-140919</pages><artnum>140919</artnum><issn>1570-9639</issn><eissn>1878-1454</eissn><abstract>Lignocellulosic biomass is a promising alternative for producing biofuels, despite its recalcitrant nature. There are microorganisms in nature capable of efficiently degrade biomass, such as the filamentous fungi. Among them, Aspergillus fumigatus var. niveus (AFUMN) has a wide variety of carbohydrate-active enzymes (CAZymes), especially hydrolases, but a low number of oxidative enzymes in its genome. To confirm the enzymatic profile of this fungus, this study analyzed the secretome of AFUMN cultured in sugarcane bagasse as the sole carbon source. As expected, the secretome showed a predominance of hydrolytic enzymes compared to oxidative activity. 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source MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects Aspergillus fumigatus - metabolism
Cellulose
Enzymes
Filamentous fungi
Fungal Proteins - genetics
Fungal Proteins - metabolism
LPMO
Mixed Function Oxygenases
Polysaccharides
Saccharification
Saccharum - metabolism
Saccharum - microbiology
Secretome
Sugarcane bagasse
title Production of recombinant lytic polysaccharide monooxygenases and evaluation effect of its addition into Aspergillus fumigatus var. niveus cocktail for sugarcane bagasse saccharification
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