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Statistical Optimization of Culture Variables for Enhancing Agarase Production by Dendryphiella arenaria Utilizing Palisada perforata (Rhodophyta) and Enzymatic Saccharification of the Macroalgal Biomass

by Gomaa, Mohamed , Hifney, Awatief F. , Abdel-Gawad, Khayria M. , Fawzy, Mustafa A.

in Agarase / Aggregation / Algae / biocatalysts / Biomass / Biomedical and Life Sciences / Deactivation / Dendryphiella arenaria / Design optimization / Engineering / enzyme activity / experimental design / Fermentation / Freshwater & Marine Ecology / Fungi / glucose / half life / heat inactivation / Inactivation / Industrial applications / Life Sciences / liquids / macroalgae / marine fungi / Microbiology / Optimization / Original Article / particle size / Protein interaction / Proteins / Rhodophyta / Saccharification / Seaweeds / Semisolids / Solid state fermentation / Substrates / Sucrose / Sugar / Thermal stability / Zoology

2017

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by Gomaa, Mohamed , Hifney, Awatief F. , Abdel-Gawad, Khayria M. , Fawzy, Mustafa A.

2017

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by Gomaa, Mohamed , Hifney, Awatief F. , Abdel-Gawad, Khayria M. , Fawzy, Mustafa A.

2017

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Journal Article

Statistical Optimization of Culture Variables for Enhancing Agarase Production by Dendryphiella arenaria Utilizing Palisada perforata (Rhodophyta) and Enzymatic Saccharification of the Macroalgal Biomass

Gomaa, Mohamed,

Hifney, Awatief F.,

Abdel-Gawad, Khayria M.,

Fawzy, Mustafa A.

2017

Overview

Agarase is a promising biocatalyst for several industrial applications. Agarase production was evaluated by the marine fungus Dendryphiella arenaria utilizing Palisada perforata as a basal substrate in semi-solid state fermentation. Seaweed biomass, glucose, and sucrose were the most significant parameters affecting agarase production, and their levels were further optimized using Box-Behnken design. The maximum agarase activity was 7.69 U/mL. Agarase showed a degree of thermostability with half-life of 99 min at 40 °C, and declining to 44.72 min at 80 °C. Thermodynamics suggested an important process of protein aggregation during thermal inactivation. Additionally, the enzymatic saccharification of the seaweed biomass using crude agarase was optimized with respect to biomass particle size, solid/liquid ratio, and enzyme loadings. The amount of biosugars obtained after optimization was 26.15 ± 1.43 mg/g. To the best of our knowledge, this is the first report on optimization of agarase in D. arenaria .

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Publisher

Springer US,Springer Nature B.V

Subject

Agarase

/ Aggregation

/ Algae

/ biocatalysts

/ Biomass

/ Biomedical and Life Sciences

/ Deactivation