Ka Fai Kong scite author profile

Ka Fai Kong

4Publications

31Citation Statements Received

95Citation Statements Given

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Affiliations

University of Hong Kong, Hong Kong University of Science and Technology

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Sequence data for two large-subunit rRNA genes from an Asian strain of Alexandrium catenella

Yeung

Kong

Wong

et al. 1996

Appl Environ Microbiol

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PCR generated two distinct products from a toxic isolate of Alexandrium catenella, which had been taken from Dai Ya Bay (southern China), by using primers for large-subunit rRNA. This pattern is distinct from published data for North American Alexandrium species. Sequences of the two products suggest that the smaller was generated by a deletion event. Single-cell PCR generated the same pattern, confirming that the two products were not the results from different individuals.

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Enhanced degradation of haloacid by heterologous expression in related Burkholderia species

Deng

Kong

et al. 2013

Biotech & Bioengineering

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Haloacids are environmental pollutant and can be transformed to non-toxic alkanoic acids by microbial dehalogenase. Bacterium Burkholderia species MBA4 was enriched from soil for its ability to bioremediate haloacids such as mono-chloroacetate (MCA), mono-bromoacetate (MBA), 2-mono-chloropropionate, and 2-mono-bromopropionate. MBA4 produces an inducible dehalogenase Deh4a that catalyzes the dehalogenation process. The growth of MBA4 on haloacid also relies on the presence of a haloacid-uptake system. Similar dehalogenase genes can be found in the genome of many related species. However, wildtype Burkholderia caribensis MWAP64, Burkholderia phymatum STM815, and Burkholderia xenovorans LB400 were not able to grow on MCA. When a plasmid containing the regulatory and structural gene of Deh4a was transformed to these species, they were able to grow on haloacid. The specific enzyme activities in these recombinants ranges from 2- to 30-fold that of MBA4 in similar condition. Reverse transcription-quantitative real-time PCR showed that the relative transcript levels in these recombinant strains ranges from 9 to over 1,600 times that of MBA4 in similar condition. A recombinant has produced nearly five times of dehalogenase that MBA4 could ever achieve. While the expressions of Deh4a were more relaxed in these phylogenetically related species, an MCA-uptake activity was found to be inducible. These metabolically engineered strains are better degraders than the haloacid-enriched MBA4.

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Complete Genome Sequence of the Exopolysaccharide-Producing Burkholderia caribensis Type Strain MWAP64

2016

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Draft Genome Sequence of the Haloacid-Degrading Burkholderia caribensis Strain MBA4

2014

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Ka Fai Kong

Sequence data for two large-subunit rRNA genes from an Asian strain of Alexandrium catenella

Enhanced degradation of haloacid by heterologous expression in related Burkholderia species

Complete Genome Sequence of the Exopolysaccharide-Producing Burkholderia caribensis Type Strain MWAP64

Draft Genome Sequence of the Haloacid-Degrading Burkholderia caribensis Strain MBA4

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