Browsing by Author "Hu, Xiao Ping"

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    Identification and characterisation of novel cellulolytic genes using metagenomics
    (University of the Western Cape, 2010) Hu, Xiao Ping; Cowan, Don A.; Dept. of Biotechnology; Faculty of Science
    Metagenomics has been successfully used to discover novel enzymes from uncultured microorganisms in the environment. In this study, metagenomic DNA from a Malawian hot spring soil sample was used to construct a fosmid library. This metagenomic library comprised of more than 10000 clones with an average insert size of 30 kb, representing more than 3.0 x 108 bp of metagenomic DNA (equivalent to approximately 100 bacterial genomes). The library was screened for cellulase activity using a Congo red plate assay to detect zones of carboxymethylcellulose hydrolysis. This yielded 15 positive fosmid clones, of which five were further characterised for activity and thermostability using the 3, 5-dinitrosalicylic assay. Two of the five fosmids (XP008C2 and XP026G5) were selected for DNA pyrosequencing. The full sequence of the XP008C2 (29800bp) fosmid insert is presented in this study and genes thereon were chosen for further study.
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    Identification of a novel alkaliphilic esterase active at low temperatures by screening a metagenomic library from Antarctic desert soil
    (American Society for Microbiology, 2009) Heath, Caroline; Hu, Xiao Ping; Cary, Craig
    The cold deserts of the McMurdo Dry Valleys, South Victoria Land, Eastern Antarctica, are widely acknowledged as having the harshest soil environments on Earth (6, 8, 26). Despite the apparent hostility of the environment, we and others have reported both unexpectedly high biomass (9) and phylogenetic diversity (1, 19, 24, 29) in Antarctic soils. The presence of numerous novel taxa suggests that these soils might prove to be valuable sources of genetic material for mining novel industrial enzymes active at low temperatures (9, 23). Esterases (EC 3.1.1.1) and lipases (EC 3.1.1.3) catalyze the hydrolysis and synthesis of ester compounds. Their applications in industry cover a broad spectrum, including as detergent additives, in food processing, in environmental bioremediation, and in biomass and plant waste degradation for the production of useful organocompounds (3, 16).