Wai-To Fung scite author profile

Wai-To Fung

3Publications

79Citation Statements Received

42Citation Statements Given

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Nanyang Technological University, Chinese University of Hong Kong

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Microfluidic platform for controlling the differentiation of embryoid bodies

et al. 2009

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Embryonic stem (ES) cells are pluripotent cells, which can differentiate into any cell type. This cell type has often been implicated as an eminent source of renewable cells for tissue regeneration and cellular replacement therapies. Studies on manipulation of the various differentiation pathways have been at the forefront of research. There are many ways in which ES cells can be differentiated. One of the most common techniques is to initiate the development of embryoid bodies (EBs) by in vitro aggregation of ES cells. Thereafter, EBs can be induced to undergo differentiation into various cell lineages. In this article, we present a microfluidic platform using biocompatible materials, which is suitable for culturing EBs. The platform is based on a Y-channel device with two inlets for two different culturing media. An EB is located across both streams. Using the laminar characteristics at low Reynolds number and high Peclet numbers, we have induced cell differentiation on half of the EB while maintaining the other half in un-induced stages. The results prove the potential of using microfluidic technology for manipulation of EBs and ES cells in tissue engineering.

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Functional studies of the small subunit of EcoHK31I DNA methyltransferase

Fung

Sze²,

Lee³

et al. 2006

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EcoHK31I DNA methyltransferase recognizes the sequence 5'-YGGCCR-3' and adds a methyl group to the fifth position of the internal cytosine to protect the DNA from cleavage by its cognate endonuclease. M.EcoHK31I is composed of polypeptides alpha and beta. Polypeptide beta only contains the conserved IX motif of the C5-MTase family, and provides a unique example to show that this motif alone may be dislocated to another polypeptide. By electromobility shift assay, we found that the alpha/beta complex recognizes specific oligonucleotide substrates. Polypeptide alpha formed aggregates with DNA, while polypeptide beta alone did not bind DNA. Therefore, polypeptide beta assists in the proper binding of polypeptide alpha to DNA substrate. The complex of polypeptide alpha and a polypeptide beta variant with an N-terminal deletion of 41 amino acids showed a 16-fold reduction in methylation activity. Further deletion resulted in an inactive methyltransferase. The dissociation equilibrium constant (Kd) of the alpha/beta complex was 56.4 nM, while the Kd value for the alpha/deltaN46-polypeptide beta complex was increased approximately 95-fold, caused by a drastic decrease in dissociate rate constant (kd) and an increase in the association rate constant (ka). This indicates that the N-terminal region of polypeptide beta takes part in subunit interaction, while the C-terminal region is involved in DNA binding.

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Characterization of the large subunit of EcoHK31I methyltransferase by structural modeling and mutagenesis

Mak

Fung

Kong

et al. 2007

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M.EcoHK31I is a naturally occurring mC5-methyltransferase with a large alpha polypeptide and a small beta polypeptide. Polypeptide alpha contains conserved motifs I-VIII and X, and polypeptide beta contains motif IX. To understand how polypeptide alpha carries out its function, a molecular model of the large domain of polypeptide alpha was generated using M.HhaI and M.HaeIII as templates. The large domain is a mixed alpha/beta structure. Residues 15-19 in motif I (Phe-Naa-Gly-Naa) are conserved for cofactor binding. The key catalytic residue Cys-79 in motif IV is also conserved in comparison with other C-5 MTases. Comparing polypeptide alpha with M.HhaI and M.HaeIII revealed a unique region upstream of motif X. To understand the role of this region, 14 charged residues between R224 and E271 in the putative small domain were mutated. Activity assays indicated that most of these charges can be eliminated or changed conservatively. Among these charged residues, R224, E240, D245 and D251 may take part in proper interaction with DNA in the presence of polypeptide beta.

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Wai-To Fung

Microfluidic platform for controlling the differentiation of embryoid bodies

Functional studies of the small subunit of EcoHK31I DNA methyltransferase

Characterization of the large subunit of EcoHK31I methyltransferase by structural modeling and mutagenesis

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