Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus

Edita Jurak; Aleksandrina Patyshakuliyeva; Dimitris Kapsokalyvas; Lia Xing; Marc A M J Van Zandvoort; Ronald P. De Vries; Harry Gruppen; Mirjam A. Kabel

doi:10.1016/j.carbpol.2015.06.065

Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus

Edita Jurak^*, Aleksandrina Patyshakuliyeva, Dimitris Kapsokalyvas, Lia Xing, Marc A M J Van Zandvoort, Ronald P. De Vries, Harry Gruppen, Mirjam A. Kabel

^*Corresponding author for this work

Not published at Aalto University

Research output: Contribution to journal › Article › Scientific › peer-review

4 Citations (Scopus)

Abstract

The ability of Agaricus bisporus to degrade xylan in wheat straw based compost during mushroom formation is unclear. In this paper, xylan was extracted from the compost with water, 1 M and 4 M alkali. Over the phases analyzed, the remaining xylan was increasingly substituted with (4-O-methyl-)glucuronic acid and arabinosyl residues, both one and two arabinosyl residues per xylosyl residue remained. In the 1 M and 4 M KOH soluble solids of spent compost, 33 and 49 out of 100 xylosyl residues, respectively, were substituted. The accumulation of glucuronic acid substituents matched with the analysis that the two A. bisporus genes encoding for α-glucuronidase activity (both GH115) were not expressed in the A. bisporus mycelium in the compost during fruiting. Also, in a maximum likelihood tree it was shown that it is not likely that A. bisporus possesses genes encoding for the activity to remove arabinose from xylosyl residues having two arabinosyl residues.

Original language	English
Article number	10056
Pages (from-to)	359-368
Number of pages	10
Journal	Carbohydrate Polymers
Volume	132
DOIs	https://doi.org/10.1016/j.carbpol.2015.06.065
Publication status	Published - 6 Jul 2015
MoE publication type	A1 Journal article-refereed

Keywords

Agaricus bisporus
Compost
Expression
Lignin
Substitution
Xylan

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Jurak, E., Patyshakuliyeva, A., Kapsokalyvas, D., Xing, L., Van Zandvoort, M. A. M. J., De Vries, R. P., Gruppen, H., & Kabel, M. A. (2015). Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus. Carbohydrate Polymers, 132, 359-368. [10056]. https://doi.org/10.1016/j.carbpol.2015.06.065

@article{facb9394769e4c34b24fceb9b2faf6f2,

title = "Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus",

abstract = "The ability of Agaricus bisporus to degrade xylan in wheat straw based compost during mushroom formation is unclear. In this paper, xylan was extracted from the compost with water, 1 M and 4 M alkali. Over the phases analyzed, the remaining xylan was increasingly substituted with (4-O-methyl-)glucuronic acid and arabinosyl residues, both one and two arabinosyl residues per xylosyl residue remained. In the 1 M and 4 M KOH soluble solids of spent compost, 33 and 49 out of 100 xylosyl residues, respectively, were substituted. The accumulation of glucuronic acid substituents matched with the analysis that the two A. bisporus genes encoding for α-glucuronidase activity (both GH115) were not expressed in the A. bisporus mycelium in the compost during fruiting. Also, in a maximum likelihood tree it was shown that it is not likely that A. bisporus possesses genes encoding for the activity to remove arabinose from xylosyl residues having two arabinosyl residues.",

keywords = "Agaricus bisporus, Compost, Expression, Lignin, Substitution, Xylan",

author = "Edita Jurak and Aleksandrina Patyshakuliyeva and Dimitris Kapsokalyvas and Lia Xing and {Van Zandvoort}, {Marc A M J} and {De Vries}, {Ronald P.} and Harry Gruppen and Kabel, {Mirjam A.}",

year = "2015",

month = jul,

day = "6",

doi = "10.1016/j.carbpol.2015.06.065",

language = "English",

volume = "132",

pages = "359--368",

journal = "Carbohydrate Polymers",

issn = "0144-8617",

}

Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus. / Jurak, Edita; Patyshakuliyeva, Aleksandrina; Kapsokalyvas, Dimitris; Xing, Lia; Van Zandvoort, Marc A M J; De Vries, Ronald P.; Gruppen, Harry; Kabel, Mirjam A.

In: Carbohydrate Polymers, Vol. 132, 10056, 06.07.2015, p. 359-368.

Research output: Contribution to journal › Article › Scientific › peer-review

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AU - Kapsokalyvas, Dimitris

AU - Xing, Lia

AU - Van Zandvoort, Marc A M J

AU - De Vries, Ronald P.

AU - Gruppen, Harry

AU - Kabel, Mirjam A.

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N2 - The ability of Agaricus bisporus to degrade xylan in wheat straw based compost during mushroom formation is unclear. In this paper, xylan was extracted from the compost with water, 1 M and 4 M alkali. Over the phases analyzed, the remaining xylan was increasingly substituted with (4-O-methyl-)glucuronic acid and arabinosyl residues, both one and two arabinosyl residues per xylosyl residue remained. In the 1 M and 4 M KOH soluble solids of spent compost, 33 and 49 out of 100 xylosyl residues, respectively, were substituted. The accumulation of glucuronic acid substituents matched with the analysis that the two A. bisporus genes encoding for α-glucuronidase activity (both GH115) were not expressed in the A. bisporus mycelium in the compost during fruiting. Also, in a maximum likelihood tree it was shown that it is not likely that A. bisporus possesses genes encoding for the activity to remove arabinose from xylosyl residues having two arabinosyl residues.

AB - The ability of Agaricus bisporus to degrade xylan in wheat straw based compost during mushroom formation is unclear. In this paper, xylan was extracted from the compost with water, 1 M and 4 M alkali. Over the phases analyzed, the remaining xylan was increasingly substituted with (4-O-methyl-)glucuronic acid and arabinosyl residues, both one and two arabinosyl residues per xylosyl residue remained. In the 1 M and 4 M KOH soluble solids of spent compost, 33 and 49 out of 100 xylosyl residues, respectively, were substituted. The accumulation of glucuronic acid substituents matched with the analysis that the two A. bisporus genes encoding for α-glucuronidase activity (both GH115) were not expressed in the A. bisporus mycelium in the compost during fruiting. Also, in a maximum likelihood tree it was shown that it is not likely that A. bisporus possesses genes encoding for the activity to remove arabinose from xylosyl residues having two arabinosyl residues.

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