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Lozupone, F., Perdicchio, M., Brambilla, D., Borghi, M., Meschini, S., Barca, S., Marino, M.L., Logozzi, M., Federici, C., Iessi, E., de Milito, A. and Fais, S. (2009) The human homologue of Dictyostelium discoideum phg1A is expressed by human metastatic melanoma cells. EMBO Reports, 10, 1348-1354.
http://dx.doi.org/10.1038/embor.2009.236

has been cited by the following article:

  • TITLE: Molecular cloning and characterization of an ECTO-NOX3 (ENOX3) of Saccharomyces cerevisiae

    AUTHORS: Sara Dick, Connie Phung, Dorothy M. Morré, D. James Morré

    KEYWORDS: Age-Related NADH Oxidase (arNOX) ECTO-NOX3; TM9 Superfamily of Transmembrane Proteins; Molecular Cloning; Saccharomyces cerevisiae

    JOURNAL NAME: Advances in Biological Chemistry, Vol.3 No.5, October 30, 2013

    ABSTRACT: Exfoliated ECTO-NOX3 (ENOX3) proteins, are members of the human TM9 superfamily of transmembrane proteins that generate superoxide, are present in blood and other body fluids, and increase activity with age beginning about age 30, hence age-related NOX (arNOX or ENOX3). A yeast deletion library was screened based on NADH fluorescence using a 384 well plate assay to identify a yeast isolate lacking a previously identified cell surface oxidase exhibiting an oscillatory pattern with a period length of 26 min and capable of generating superoxide. The cDNA was cloned from a yeast over expression library using NADH as an impermeant substrate with analysis by Fast Fourier Transform and decomposition fits. The objective was to identify and sequence an ENOX homologue in Saccharomyces cerevisiae with a 26 min rather than a 24 or 25 min period length. The finding identified YER113C as the yeast ENOX3 protein with a 26 min period and capable of generating superoxide. The encoded protein was expressed in bacteria and characterized. Gel slices of expressed proteins revealed a protein of ca. 81,545 kDa with properties paralleling those of human ar-NOX (periodic NADH oxidation, protein disulfide thiol interchange, inhibited by mammalian arNOX inhibitors and superoxide production inhibited by superoxide dismutase). The YER113C sequence exhibited a 44% similarity and a 26% identity with the mammalian ENOX3 SF4 (arNOX SF4) of the TM9 superfamily of transmembrane proteins1. The YER113C deletion mutant lacked arNOX activity.

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