Professional Education

  • Doctor of Philosophy, Yeshiva University (2014)
  • Master of Science, Yeshiva University (2010)
  • Master of Science, University Of Malaya (2006)
  • Bachelor of Science, University Of Malaya (2003)

Stanford Advisors

Journal Articles

  • Genome-Wide RNAi Screen Identifies Novel Host Proteins Required for Alphavirus Entry PLOS PATHOGENS Ooi, Y. S., Stiles, K. M., Liu, C. Y., Taylor, G. M., Kielian, M. 2013; 9 (12)


    The enveloped alphaviruses include important and emerging human pathogens such as Chikungunya virus and Eastern equine encephalitis virus. Alphaviruses enter cells by clathrin-mediated endocytosis, and exit by budding from the plasma membrane. While there has been considerable progress in defining the structure and function of the viral proteins, relatively little is known about the host factors involved in alphavirus infection. We used a genome-wide siRNA screen to identify host factors that promote or inhibit alphavirus infection in human cells. Fuzzy homologue (FUZ), a protein with reported roles in planar cell polarity and cilia biogenesis, was required for the clathrin-dependent internalization of both alphaviruses and the classical endocytic ligand transferrin. The tetraspanin membrane protein TSPAN9 was critical for the efficient fusion of low pH-triggered virus with the endosome membrane. FUZ and TSPAN9 were broadly required for infection by the alphaviruses Sindbis virus, Semliki Forest virus, and Chikungunya virus, but were not required by the structurally-related flavivirus Dengue virus. Our results highlight the unanticipated functions of FUZ and TSPAN9 in distinct steps of alphavirus entry and suggest novel host proteins that may serve as targets for antiviral therapy.

    View details for DOI 10.1371/journal.ppat.1003835

    View details for Web of Science ID 000330535400057

    View details for PubMedID 24367265

  • Recombineering linear DNA that replicate stably in E-coli PLASMID Ooi, Y., Warburton, P. E., Ravin, N. V., Narayanah, K. 2008; 59 (1): 63-71


    The advent of recombineering technology in Escherichia coli has revolutionized the way recombinant DNA molecules are constructed. We present a novel application of recombineering to linearize DNA by capping their ends with individual telomeres derived from bacteriophage N15, which exists as a linear prophage in E. coli. The N15 telomerase occupancy site was recombined into circular DNA and resolved into individual telomeres by the phage N15 protelomerase enzyme. We demonstrate this technique by assembling linear BACs that replicate stably in their host strain E. coli DH10B. Correct linearization of the BACs was confirmed by restriction mapping using pulsed field gel electrophoresis. The linear BAC DNA can be easily purified using standard plasmid isolation methods and resist degradation from RecBCD nuclease in vitro and in vivo owing to the presence of telomeres. Transfection of a linear 100 kb BAC containing the human beta-globin gene cluster into HT1080 cells produced accurately spliced transcripts, demonstrating that the linear DNA will be useful for subsequent functional studies. This novel recombineering technique may be particularly useful for building large linear constructs for assembling artificial chromosomes with telomeres, and may provide a unique means to clone and study large linear viral genomes that contain hairpin ends.

    View details for DOI 10.1016/j.plasmid.2007.09.002

    View details for Web of Science ID 000253074300007

    View details for PubMedID 17988739

  • STR data for the AmpFlSTR identifiler loci in three ethnic groups (Malay, Chinese, Indian) of the Malaysian population FORENSIC SCIENCE INTERNATIONAL Seah, L. H., Jeevan, N. H., Othman, M. I., Jaya, P., Ooi, Y. S., Wong, P. C., Lee, S. S. 2003; 138 (1-3): 134-?


    Allele frequencies for the 15 STR loci in the AmpFlSTR Identifiler kit were determined and compared for the three main ethnic groups of the Malaysian population comprising 210 Malays, 219 Chinese and 209 Indians. Blood was placed on FTA paper and DNA was purified in-situ.

    View details for DOI 10.1016/j.forsciint.2003.09.005

    View details for Web of Science ID 000187029400021

    View details for PubMedID 14642733