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  1. Sarahani Harun, Nurulisa Zulkifle
    Sains Malaysiana, 2018;47:2933-2940.
    Laryngeal cancer is the most common head and neck cancer in the world and its incidence is on the rise. However, the
    molecular mechanism underlying laryngeal cancer pathogenesis is poorly understood. The goal of this study was to
    develop a protein-protein interaction (PPI) network for laryngeal cancer to predict the biological pathways that underlie
    the molecular complexes in the network. Genes involved in laryngeal cancer were extracted from the OMIM database
    and their interaction partners were identified via text and data mining using Agilent Literature Search, STRING and
    GeneMANIA. PPI network was then integrated and visualised using Cytoscape ver3.6.0. Molecular complexes in the
    network were predicted by MCODE plugin and functional enrichment analyses of the molecular complexes were performed
    using BiNGO. 28 laryngeal cancer-related genes were present in the OMIM database. The PPI network associated with
    laryngeal cancer contained 161 nodes, 661 edges and five molecular complexes. Some of the complexes were related to
    the biological behaviour of cancer, providing the foundation for further understanding of the mechanism of laryngeal
    cancer development and progression.
  2. Nur Wahida Zulkifli, Nurulisa Zulkifle
    MyJurnal
    Introduction: OTULIN, OTUB1 and OTUB2 are deubiquitinases, the enzymes responsible for reversing ubiquitina- tion process that occupies key roles in numerous cellular processes. The ubiquitination protein-protein interaction (PPI) network has been extensively explored in order to unravel the complexity of ubiquitin pathway. However, many significant challenges remain to develop a network-based understanding of the ubiquitination complexity including incompleteness of human interactome. Therefore, we aim to construct a pair of yeast two-hybrid (Y2H) vectors using pDEST32/pDEST22 vector system as a preparation for screening OTULIN-, OTUB1- and OTUB2-inter- acting proteins from human cDNA library, with ultimate aim of expanding the PPI network in human ubiquitome. Methods: OTULIN, OTUB1 and OTUB2 were cloned into entry vector using pCR™8/GW/TOPO® TA Cloning® system and shuttled into pDEST™32 bait vector by LR recombination reaction. To generate Y2H prey library clones, cDNA library was synthesized from HEK293 cells and cloned into donor vector pDONR™222 before transferred into destination vector pDEST™22. Results: DNA sequencing analysis confirmed the correct sequence of OTULIN, OTUB1 and OTUB2 inserts in pDEST32. Meanwhile, generation of cDNA library in pDEST22 produced 5.2 x 106 clones. Randomly picked pDEST22-cDNA clones showed that the recombination rate was 83% and gel electro- phoresis indicated that the inserts length ranged from 0.45 to 3.4 kb. Conclusion: OTULIN, OTUB1, OTUB2 and cDNA library were successfully cloned into Y2H bait and prey vectors. The clones have been transfected into com- petent yeast Saccharomyces cerevisiae strain MaV203 and Y2H experiment to screen novel OTULIN-, OTUB1- and OTUB2-interacting protein from human cDNA library is underway.
  3. Nur Ainina Abdollah, Nurulisa Zulkifle, Siti Razila Abdul Razak
    MyJurnal
    Introduction: Cancer is one of the main causes of mortality globally and the incidence has been rising over the years. Studies have shown that miRNAs have the potential as cancer biomarkers. The miR-130a has been reported to be upregulated in several types of cancer, which indicate the important roles of miR-130a in cancer development and metastasis. The aim of this study is to identify potential target genes and to predict the regulatory function of miR- 130a-3p and 5p in cancer. Methods: Three bioinformatics platforms namely miRWalk, the Database for annotations, visualization and integrated discovery (DAVID) Gene Functional Classification Tool and miRanda-miRSVR analysis tools were used to identify possible interaction between miR-130a and its target. Protein-protein interaction (PPI) network for the predicted target genes was then constructed. Results: The analyses have identified nine predicted target genes for miR-130a-3p (RAPGEF4, SOS2, NRP1, RPS6KB1, MET, IL15, ACVR1, RYR2 and ITPR1), and ten for miR-130a-5p (BCL11A, SPOPL, NLK, PPARGC1A, POU4F2, CPEB4, ST18, RSBN1L, ELF5 and ARID4B), that might
    play an important role in the development of cancer. Findings from this report suggest that miR-130a may involves in controlling cancer related genes; MET, ACVR1 and BCL11A. miR-130a-3p may regulates MET which involves in apoptosis and metastasis, and ACVR1 which involves in metastasis and angiogenesis. miR-130a-5p may regulates BCL11A which involves in apoptosis, proliferation and tumorigenesis. Conclusion: This study has highlighted the molecular interaction of miR-130a with associated genes and pathways, suggesting therapeutic potential of miR- 130a as personalised targeted therapy for cancer.
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