Daisuke Goshima scite author profile

Daisuke Goshima

5Publications

15Citation Statements Received

93Citation Statements Given

How they've been cited

How they cite others

103

Affiliations

Obihiro University of Agriculture and Veterinary Medicine

Publications

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Optimization of enzymes addition to improve whole wheat bread making quality by response surface methodology and optimization technique

et al. 2019

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The functional ingredients in whole wheat flour, such as dietary fiber, vitamins, and minerals, have beneficial health effects. However, the excessive amount of dietary fiber in whole wheat flour inhibits gluten network formation and diminishes bread making qualities (BMQ). Adding appropriate amounts of enzymes, a-amylase (AM) and hemicellulase (HC), could be a solution to these problems. In this study, response surface methodology (RSM) created a response surface model and Solver (Excel add-in software) calculated the optimal amounts of the enzymes. Adding optimum concentrations of AM and HC drastically improved BMQ (gas retention of dough, specific loaf volume, and bread staling) of whole wheat flour dough and bread compared to whole wheat flour dough and bread without the enzymes. These results showed that combining RSM and Solver was an effective and reasonably easy method that determines optimal concentrations of enzymes to obtain the highest quality bread using whole wheat flour.

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Analysis of the Relationship between Various Soft Wheat Flour Characteristics and Cookie Quality

Nishio

Ito

Takata

et al. 2020

FSTR

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Effect of combining additional bakery enzymes and high pressure treatment on bread making qualities

et al. 2019

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Various enzymes are added to dough to improve the quality. Two enzymes are a-amylase and hemicellulase (bakery enzymes), whose substrates are damaged starch and insoluble dietary fiber, respectively. They improve the formation of gluten networks in the dough, resulting in a higher specific loaf volume (SLV). The use of high-pressure treatment has also increased as a substitute for heat treatment and various products are being processed utilizing high-pressure treatment. This study investigated the effect of combing bakery enzyme and high-pressure treatment on dough qualities. The optimal concentration of bakery enzymes and high-pressure level were determined using response surface methodology and optimization technique. Bread dough was prepared by the optimal condition, 0.20% of bakery enzyme and 43 MPa of highpressure treatment, and the bread dough was then baked. Optimal combining bakery enzyme and high-pressure treatment drastically improved bread making qualities such as increased SLV, higher concentrations of reducing sugar, and lower concentrations of damaged starch and insoluble dietary fiber compared to the control and to those that were only treated with bakery enzymes or high-pressure treatment, respectively. In addition, the bread with both bakery enzymes and high-pressure treatment showed improved micro structure in the crumb and maintained freshness longer.

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Improvement of Bread Dough Supplemented with Crust Gel and the Addition of Optimal Amounts of Bakery Enzymes

Goshima

Matsushita

Iwata

et al. 2019

FSTR

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Influence of Water Absorption on Impact Fracture Behavior and Residual Strength after Impact of CFRP/Aramid Honeycomb Core Sandwich Panels

Tanaka

Minoshima

Goshima³

et al. 2004

Trans.JSME, Ser.A

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Daisuke Goshima

Optimization of enzymes addition to improve whole wheat bread making quality by response surface methodology and optimization technique

Analysis of the Relationship between Various Soft Wheat Flour Characteristics and Cookie Quality

Effect of combining additional bakery enzymes and high pressure treatment on bread making qualities

Improvement of Bread Dough Supplemented with Crust Gel and the Addition of Optimal Amounts of Bakery Enzymes

Influence of Water Absorption on Impact Fracture Behavior and Residual Strength after Impact of CFRP/Aramid Honeycomb Core Sandwich Panels

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