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  1. Benbelgacem, Farah Fadwa, Bellag, Oualid Abdelkader, Soroodi, Fatemeh, Abdul Aziz Ahmad, Hamzah Mohd Salleh, Noorbatcha, Ibrahim Ali
    MyJurnal
    Biocatalyst should have sufficient and efficient activity for the intended
    biotechnological application. In the quest for novel biocatalyst, there is a need to have a
    genetic diversity either by finding it within the astronomically large number of possible
    candidates or to obtain it by bioengineering an existing gene supported by various
    bioinformatic and molecular engineering tools. Nowadays, it is well-known that a huge
    number of microorganisms is unculturable and poses great challenges to access biocatalysts
    from these microbes. Metagenomics is one of the methods widely applied to reach out
    maximum possible variants to “bioprospect” biocatalysts. On the other hand, other approaches
    are available to bioengineer enzymes by modifying the DNA sequence precisely based on the
    structure and the function information of the protein in the case of rational design, or by a
    brave creation of anarchic mutations of the DNA sequence with directed evolution method. In
    this regard, both approaches, whether to bioprospect or to bioengineer biocatalysts have
    advantages and disadvantages which will be discussed in this paper.KEY WORDS: Sugar
    industry wastewater; aluminium sulphate; primary treatment, ferric chloride; polyaluminium
    chloride
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