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      Improvement of reporter activity by IRES-mediated polycistronic reporter system

      research-article
      1 , * , 2 , 1
      Nucleic Acids Research
      Oxford University Press

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          Abstract

          Many in vitro and in vivo applications for transgenesis require co-expression of heterologous genes. The use of internal ribosome entry sites (IRESs) in dicistronic expression vectors enables the expression of two genes controlled by one promoter in target cells or whole organisms. Here we describe the expansion of IRES exploitation to generate multicistronic vectors capable of expressing multiple reporter genes, especially to improve the fluorescence yield of autofluorescent reporter gene products such as green fluorescent protein (GFP). We found that the increase in fluorescence output of GFP is proportional to the number of IRES-GFP repeats in the multicistronic vector. At least four genes can be expressed from a multicistonic vector by using tandem IRES elements, with no significant alteration of the expression level of the cap-dependent translated gene. Moreover, gene expression under the control of multiple IRES element has no effect on the posttranscriptional regulation through 3′-untranslated regions (3′UTR). Thus, endogenous gene expression and regulation, especially those controlled by weak promoters, can be analyzed with our IRES-dependent polycistronic reporter gene expression system.

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          Most cited references43

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          The green fluorescent protein.

          R Tsien (1998)
          In just three years, the green fluorescent protein (GFP) from the jellyfish Aequorea victoria has vaulted from obscurity to become one of the most widely studied and exploited proteins in biochemistry and cell biology. Its amazing ability to generate a highly visible, efficiently emitting internal fluorophore is both intrinsically fascinating and tremendously valuable. High-resolution crystal structures of GFP offer unprecedented opportunities to understand and manipulate the relation between protein structure and spectroscopic function. GFP has become well established as a marker of gene expression and protein targeting in intact cells and organisms. Mutagenesis and engineering of GFP into chimeric proteins are opening new vistas in physiological indicators, biosensors, and photochemical memories.
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            From birth to death: the complex lives of eukaryotic mRNAs.

            Recent work indicates that the posttranscriptional control of eukaryotic gene expression is much more elaborate and extensive than previously thought, with essentially every step of messenger RNA (mRNA) metabolism being subject to regulation in an mRNA-specific manner. Thus, a comprehensive understanding of eukaryotic gene expression requires an appreciation for how the lives of mRNAs are influenced by a wide array of diverse regulatory mechanisms.
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              HuR and mRNA stability.

              An important mechanism of posttranscriptional gene regulation in mammalian cells is the rapid degradation of messenger RNAs (mRNAs) signaled by AU-rich elements (AREs) in their 3' untranslated regions. HuR, a ubiquitously expressed member of the Hu family of RNA-binding proteins related to Drosophila ELAV, selectively binds AREs and stabilizes ARE-containing mRNAs when overexpressed in cultured cells. This review discusses mRNA decay as a general form of gene regulation, decay signaled by AREs, and the role of HuR and its Hu-family relatives in antagonizing this mRNA degradation pathway. The influence of newly identified protein ligands to HuR on HuR function in both normal and stressed cells may explain how ARE-mediated mRNA decay is regulated in response to environmental change.
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                Author and article information

                Journal
                Nucleic Acids Res
                Nucleic Acids Res
                nar
                nar
                Nucleic Acids Research
                Oxford University Press
                0305-1048
                1362-4962
                March 2008
                11 February 2008
                11 February 2008
                : 36
                : 5
                : e28
                Affiliations
                1Max von Pettenkofer-Institut für Hygiene und Medizinische Mikrobiologie, Ludwig-Maximilians-Universität, 80336 Munich and 2Max Planck Institute of Biochemistry, Department of Molecular Medicine, 82152, Martinsried, Germany
                Author notes
                *To whom correspondence should be addressed. +49 89 51605437+49 89 51605223 bouabe@ 123456mvp.uni-muenchen.de
                Article
                gkm1119
                10.1093/nar/gkm1119
                2275123
                18267975
                df326a32-4731-4818-9efa-39530ecf75b0
                © 2008 The Author(s)

                This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License ( http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 14 July 2007
                : 27 November 2007
                : 30 November 2007
                Categories
                Methods Online

                Genetics
                Genetics

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