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  1. Yusof Nurhayati, Abdul Manaf Ali
    MyJurnal
    Many researchers have focused chitosan as a source of potential bioactive material during the past few decades. However, chitosan has several drawbacks to be utilised in biological applications, including poor solubility under physiological conditions. Therefore, a new interest has recently emerged on partially hydrolysed chitosan, chitosan oligosaccharides (COS). In this study, degradation of chitosan was performed by Cellulase from Trichoderma reesei® 1.5L and Response Surface Methodology (RSM) were employed to optimize the hydrolysis temperature, pH, enzyme concentration and substrate concentration. Optimization of cellulase T. reesei® using central composite design (CCD) was to obtain optimum parameters and all the factors showed significant effects (p˂0.05). The maximum response, Celluclast® activity (1.268 U) was obtained by assaying the process at 49.79oC, pH 4.5, 3% (v/w) of enzyme concentration and 25% (w/v) concentration of chitosan for 24 hours.
  2. Yusof Nurhayati, Ali Abdul Manaf, Abu Bakar Che Abdullah, Tang, John Yew Huat, Hassan Osman
    MyJurnal
    The aim of this study was to determine the effect of chitosan and chitosan oligosaccharides (COS),
    prepared by enzymatic hydrolysis with cellulase from Trichoderma reesei, Celluclast® on the growth of
    Bifidobacterium sp. The growth of the two bacteria strains were determined every 12 h for 48 h under
    anaerobic incubation at 37 °C in four MRS media containing lactose, COS, chitosan and inulin. The
    bacteria cell growth in substrate-added medium increased significantly after 48 h of incubation, except
    for the chitosan medium. COS was found to have a similar growth effect on B. bifidum ATCC 11863
    and B. breve ATCC 15700 when compared with inulin and lactose. The pH of medium containing
    COS, inulin and lactose fermented with B. bifidum ATCC 11863 and B. breve ATCC 15700 decreased
    rapidly after 12 h. B. bifidum ATCC 11863 showed the highest specific growth rate at 12 h. The results
    revealed that COS support the growth of probiotic bacteria, thus indicating that COS has the potential
    as new prebiotic source in the functional food industry.
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