Addition of enzymes to improve sensory quality of composite wheat–cassava bread

Luca Serventi; Sidsel Jensen; Leif Horsfelt Skibsted; Ulla Kidmose

doi:10.1007/s00217-015-2628-2

Addition of enzymes to improve sensory quality of composite wheat–cassava bread

Luca Serventi, Sidsel Jensen, Leif Horsfelt Skibsted, Ulla Kidmose^*

^*Corresponding author for this work

10 Citations (Scopus)

Abstract

Composite wheat–cassava (WC) bread was recently proposed as a sustainable alternative to wheat bread. Nonetheless, using >20 % cassava flour on flour basis in bread baking has consistently been proven to impair the sensory quality. Selected enzymes: fungal alpha-amylase Fungamyl^® 2500 SG (Fungamyl), maltogenic alpha-amylase Novamyl^® 10000 BG (Novamyl), xylanase Panzea^® BG (Panzea), lipase Lipopan^® Xtra BG (Lipopan) and glucose oxidase Gluzyme^® Mono 10000 BG (GOX) were tested for sensory improvement of the WC bread, investigating textural and structural changes. Wheat flour replacement with fermented cassava flour (Polvilho Azedo) at 30 % level resulted in bread of lower volume with chewier texture and smaller crumb pores. Fungamyl, Novamyl and Panzea enhanced loaf volume of wheat bread; however, they decreased volume and conferred stickiness when added to the WC bread. Lipopan increased loaf volume of the amylases- and xylanase-treated WC bread, but to a lower extent than that of its enzyme-free counterpart. No significant effects were observed when GOX was added to the WC bread. Sensory analysis showed softer texture and larger pore size, which were correlated to higher volume, for the two Lipopan-containing WC bread samples as compared to their enzyme-free counterpart.

Original language	English
Journal	European Food Research and Technology
Volume	242
Issue number	8
Pages (from-to)	1245-1252
Number of pages	8
ISSN	1438-2377
DOIs	https://doi.org/10.1007/s00217-015-2628-2
Publication status	Published - 1 Aug 2016

Keywords

Cassava
Composite bread
Enzymes
Sensory
Wheat

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10.1007/s00217-015-2628-2

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title = "Addition of enzymes to improve sensory quality of composite wheat–cassava bread",

abstract = "Composite wheat–cassava (WC) bread was recently proposed as a sustainable alternative to wheat bread. Nonetheless, using >20 % cassava flour on flour basis in bread baking has consistently been proven to impair the sensory quality. Selected enzymes: fungal alpha-amylase Fungamyl{\textregistered} 2500 SG (Fungamyl), maltogenic alpha-amylase Novamyl{\textregistered} 10000 BG (Novamyl), xylanase Panzea{\textregistered} BG (Panzea), lipase Lipopan{\textregistered} Xtra BG (Lipopan) and glucose oxidase Gluzyme{\textregistered} Mono 10000 BG (GOX) were tested for sensory improvement of the WC bread, investigating textural and structural changes. Wheat flour replacement with fermented cassava flour (Polvilho Azedo) at 30 % level resulted in bread of lower volume with chewier texture and smaller crumb pores. Fungamyl, Novamyl and Panzea enhanced loaf volume of wheat bread; however, they decreased volume and conferred stickiness when added to the WC bread. Lipopan increased loaf volume of the amylases- and xylanase-treated WC bread, but to a lower extent than that of its enzyme-free counterpart. No significant effects were observed when GOX was added to the WC bread. Sensory analysis showed softer texture and larger pore size, which were correlated to higher volume, for the two Lipopan-containing WC bread samples as compared to their enzyme-free counterpart.",

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author = "Luca Serventi and Sidsel Jensen and Skibsted, {Leif Horsfelt} and Ulla Kidmose",

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AU - Serventi, Luca

AU - Jensen, Sidsel

AU - Skibsted, Leif Horsfelt

AU - Kidmose, Ulla

PY - 2016/8/1

Y1 - 2016/8/1

N2 - Composite wheat–cassava (WC) bread was recently proposed as a sustainable alternative to wheat bread. Nonetheless, using >20 % cassava flour on flour basis in bread baking has consistently been proven to impair the sensory quality. Selected enzymes: fungal alpha-amylase Fungamyl® 2500 SG (Fungamyl), maltogenic alpha-amylase Novamyl® 10000 BG (Novamyl), xylanase Panzea® BG (Panzea), lipase Lipopan® Xtra BG (Lipopan) and glucose oxidase Gluzyme® Mono 10000 BG (GOX) were tested for sensory improvement of the WC bread, investigating textural and structural changes. Wheat flour replacement with fermented cassava flour (Polvilho Azedo) at 30 % level resulted in bread of lower volume with chewier texture and smaller crumb pores. Fungamyl, Novamyl and Panzea enhanced loaf volume of wheat bread; however, they decreased volume and conferred stickiness when added to the WC bread. Lipopan increased loaf volume of the amylases- and xylanase-treated WC bread, but to a lower extent than that of its enzyme-free counterpart. No significant effects were observed when GOX was added to the WC bread. Sensory analysis showed softer texture and larger pore size, which were correlated to higher volume, for the two Lipopan-containing WC bread samples as compared to their enzyme-free counterpart.

AB - Composite wheat–cassava (WC) bread was recently proposed as a sustainable alternative to wheat bread. Nonetheless, using >20 % cassava flour on flour basis in bread baking has consistently been proven to impair the sensory quality. Selected enzymes: fungal alpha-amylase Fungamyl® 2500 SG (Fungamyl), maltogenic alpha-amylase Novamyl® 10000 BG (Novamyl), xylanase Panzea® BG (Panzea), lipase Lipopan® Xtra BG (Lipopan) and glucose oxidase Gluzyme® Mono 10000 BG (GOX) were tested for sensory improvement of the WC bread, investigating textural and structural changes. Wheat flour replacement with fermented cassava flour (Polvilho Azedo) at 30 % level resulted in bread of lower volume with chewier texture and smaller crumb pores. Fungamyl, Novamyl and Panzea enhanced loaf volume of wheat bread; however, they decreased volume and conferred stickiness when added to the WC bread. Lipopan increased loaf volume of the amylases- and xylanase-treated WC bread, but to a lower extent than that of its enzyme-free counterpart. No significant effects were observed when GOX was added to the WC bread. Sensory analysis showed softer texture and larger pore size, which were correlated to higher volume, for the two Lipopan-containing WC bread samples as compared to their enzyme-free counterpart.

KW - Cassava

KW - Composite bread

KW - Enzymes

KW - Sensory

KW - Wheat

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DO - 10.1007/s00217-015-2628-2

M3 - Journal article

AN - SCOPUS:84954431741

SN - 1438-2377

VL - 242

SP - 1245

EP - 1252

JO - European Food Research and Technology

JF - European Food Research and Technology

IS - 8

ER -

Addition of enzymes to improve sensory quality of composite wheat–cassava bread

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