Loosenin, a novel protein with cellulose-disrupting activity from Bjerkandera adusta

Quiroz-Castañeda, Rosa Estela; Martínez‐Anaya, Claudia; Cuervo-Soto, Laura I.; Segovia, Lorenzo; Folch-Mallol, Jorge Luis

doi:10.1186/1475-2859-10-8

Cited by 91 publications

(103 citation statements)

References 34 publications

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“…Cotton fibres were firstly mercerized and the effect of CP was observed after sonication, in accordance to other similar works carried out with expansin-like proteins (Quiroz-Castañeda et al 2011;Saloheimo et al 2002).…”

Section: Effect On Avicel Cotton Fibres and Chitinsupporting

confidence: 73%

“…to increase the efficiency of bioconversion of lignocellulose to ethanol (Arantes and Saddler 2010;Jäger et al 2011). These objectives are supported by a number of experimental data concerning the synergism with cellulases (Chen et al 2010;Kim et al 2009;Lee et al 2010;Quiroz-Castañeda et al 2011;Wang et al 2010Wang et al , 2011Zhou et al 2011). However, the biological role of expansin-type protein domains from microbes seems that of facilitating the interaction with plants, as colonization or symbiosis establishment (Brotman et al 2008;Dermatsev et al 2010;Kerff et al 2008).…”

Section: Introductionmentioning

confidence: 65%

“…The effect was quantified in about 95 broken/defibrated fibres per 100 fibres analysed after incubation with CP, and about 1 or 10 damaged fibres per 100 fibres analysed after incubation with buffer or BSA, respectively. No swollen areas or enlarged "bubbles", as described by Saloheimo et al (2002) and Quiroz-Castañeda et al (2011), were observed on CP-treated fibres.…”

Section: Effect On Avicel Cotton Fibres and Chitinmentioning

confidence: 93%

“…However, expansin-like proteins have also been found in fungi and bacteria (often called swollenins or loosenins) (Bouzarelou et al 2008;Brotman et al 2008;Chen et al 2010;Dermatsev et al 2010;Kerff et al 2008;Lee et al 2010;Quiroz-Castañeda et al 2011;Saloheimo et al 2002;Yao et al 2008).…”

Section: Introductionmentioning

confidence: 99%

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Cerato-platanin shows expansin-like activity on cellulosic materials

Baccelli

Luti

Bernardi

et al. 2013

Appl Microbiol Biotechnol

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Cerato-platanin (CP) is a non-catalytic protein with a double =β-barrel fold located in the cell wall of the phytopathogenic fungus Ceratocystis platani. CP is released during growth and induces defence-related responses in plants. CP is also the first member of the "cerato-platanin family" (CPF) (Pfam PF07249). In the CPF, the molecular mechanism of action on plants and above all the biological role in fungal life are little-known aspects. However, an expansin-like function has recently been suggested concerning CP. Expansin-like proteins have the ability to act non-hydrolytically on cellulose. In the present work, the expansin-like activity of CP and Pop1, a CP family member, was investigated. Like expansins, CP and Pop1 were able to weaken filter paper in a concentration-dependent manner and without the production of reducing sugars. A metal-dependent polysaccharide monooxygenase-like activity was excluded. The optimum of activity was pH5.0, 38°C. CP was also able to cause fragmentation of the crystalline cellulose Avicel and the breakage and defibration of cotton fibres. However, the interaction did not involve a stable bond with the substrates and CP did not significantly enhance the hydrolytic activity of cellulase. On the other hand, CP and Pop1 bound quickly to chitin. We consider CP as a novel one-domain expansin-like protein. We propose a structural role for CP in the fungal cell wall due to the ability to bind chitin, and hypothesize a functional role in the interaction of the fungus with the plant for the weakening activity shown on cellulose.

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Section: Effect On Avicel Cotton Fibres and Chitinsupporting

confidence: 73%

Section: Introductionmentioning

confidence: 65%

Section: Effect On Avicel Cotton Fibres and Chitinmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Cerato-platanin shows expansin-like activity on cellulosic materials

Baccelli

Luti

Bernardi

et al. 2013

Appl Microbiol Biotechnol

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“…These disruptive proteins include examples from plants (Expansins) (13), bacteria (Expansin-like proteins (14,15) and some carbohydrate binding modules (CBMs) 2 (16)), and fungi * This work was supported by the Natural Sciences and Engineering Council (Swollenin (8,9,12), Loosenin (17), and CBMs (18)). These proteins have also been shown to promote a variety of disruptive effects on cellulosic biomass, including filter paper dispersion, crystallinity reduction, particle size reduction, swelling of cotton fibers, and roughening of cotton fiber surface (7).…”

mentioning

confidence: 99%

The Use of Carbohydrate Binding Modules (CBMs) to Monitor Changes in Fragmentation and Cellulose Fiber Surface Morphology during Cellulase- and Swollenin-induced Deconstruction of Lignocellulosic Substrates

Gourlay

Arantes

et al. 2015

Journal of Biological Chemistry

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Background: Fiber fragmentation is thought to occur at dislocations, which are potential targets for the non-hydrolytic protein, Swollenin. Results: Changes in cellulose morphology within dislocations were assessed using fluorescent CBMs; Swollenin appeared to promote fragmentation at these sites. Conclusion: Swollenin targets and disrupts cellulose at fiber dislocations. Significance: Fragmentation is a key step in cellulose deconstruction and is enhanced by the actions of Swollenin.

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Novozymes: How Novozymes Thinks About Biomass

Emme

Berlin

2016

Industrial Biorenewables

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Loosenin, a novel protein with cellulose-disrupting activity from Bjerkandera adusta

Cited by 91 publications

References 34 publications

Cerato-platanin shows expansin-like activity on cellulosic materials

Cerato-platanin shows expansin-like activity on cellulosic materials

The Use of Carbohydrate Binding Modules (CBMs) to Monitor Changes in Fragmentation and Cellulose Fiber Surface Morphology during Cellulase- and Swollenin-induced Deconstruction of Lignocellulosic Substrates

Novozymes: How Novozymes Thinks About Biomass

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