Amany L. Kansoh scite author profile

Enzymatic pretreatment of softwood kraft pulp was investigated using xylanase and mannanase, singly or in combination, either sequentially or simultaneously. Enzymes were obtained from Streptomyces galbus NR that had been cultivated in a medium, containing either xylan of sugar cane bagasse or galactomannan of palm-seeds, when they were used as sole carbon sources from local wastes in fermentation media. No cellulase activity was detected. Incubation period, temperature, initial pH values and nature of nutritive constituents were investigated. Optimum production of both enzymes was achieved after 5 days incubation on a rotary shaker (200 rpm) at 35 degrees C and initial pH 7.0. Partial purification of xylanase and mannanase in the cultures supernatant were achieved by salting out at 40-60 and 60-80% ammonium sulphate saturation with a purification of 9.63- and 8.71-fold and 68.80 and 62.79% recovery, respectively. The xylanase and mannanase from S. galbus NR have optimal activity at 50 and 40 degrees C, respectively. Both enzymes were stable at a temperature up to 50 degrees C. Xylanase and mannanase showed highest activity at pH 6.5 and were stable from 5.0 to 8.0 and from 5.5 to 7.5, respectively. The partial purified enzymes preparations of xylanase and mannanase enzymes showed high bleaching activity, which is an important consideration for industry. Xylanase was found to be more effective for paper-bleaching than mannanase. When xylanase and mannanase were dosed together (simultaneously), both enzymes were able to enhance the liberation of reducing sugars and improve pulp bleachability, possibly as a result of nearly additive interactions. The simultaneous addition of both enzymes was more effective in pulp treatment than their sequential addition.

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Biodegradation of disposable polyethylene by fungi and Streptomyces species

El-Shafei

El-Nasser

Kansoh

et al. 1998

Polymer Degradation and Stability

128

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Synthesis and Anti‐Candida Potential of Certain Novel 1‐[(3‐Substituted‐3‐phenyl)propyl]‐1H‐imidazoles

Aboul‐Enein

El‐Azzouny

Attia

et al. 2011

Archiv der Pharmazie

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The synthesis and anti-Candida activity of 1-[(3-aroyloxy-3-phenyl)propyl]-1H-imidazoles 5a-f and 1-[(3-alkyl/aralkyl/phenyl-3-phenyl)propan-3-ol]-1H-imidazoles 5g-j are reported. The influence of the ester formation and different substitutions on the anti-Candida activity of the alcohol 4 was investigated. Among the newly developed bioactive chemical entities, compounds 5b and 5c displayed minimum inhibitory concentrations (MICs) against Candida albicans and Candida pseudotropicales comparable to that of tioconazole and more potent than miconazole.

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Biodegradation and utilization of bagasse with Trichoderma reesie

Kansoh

Essam

Zeinat

1999

Polymer Degradation and Stability

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Production, immobilization and thermodynamic studies of free and immobilized Aspergillus awamori amylase

Karam

Wahab

Saleh

et al. 2017

International Journal of Biological Macromolecules

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Amany L. Kansoh

Xylanase and Mannanase enzymes from Streptomyces galbus NR and their use in biobleaching of softwood kraft pulp

Biodegradation of disposable polyethylene by fungi and Streptomyces species

Synthesis and Anti‐Candida Potential of Certain Novel 1‐[(3‐Substituted‐3‐phenyl)propyl]‐1H‐imidazoles

Biodegradation and utilization of bagasse with Trichoderma reesie

Production, immobilization and thermodynamic studies of free and immobilized Aspergillus awamori amylase

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