Molecular characterization of nucleus-localized RNA-binding proteins from higher plants

Plant Molecular Biology
Martin LandsbergerR Oelmüller

Abstract

We report the isolation and characterization of genes from the higher plants Arabidopsis, spinach and tobacco which code for nucleus-localized RNA-binding proteins. Common features of these polypeptides are glycine/arginine-rich regions with several RGG repeats at their N- and C-termini, which are sufficient for RNA binding in northwestern assays. All polypeptides analysed contain two basic bipartite nuclear localization signals and translational fusions harbouring these regions with the beta-glucuronidase gene direct the fusion proteins into the nucleus. Nuclear localization was confirmed by cellular fractionation with a polyclonal antiserum raised against the over-expressed tobacco protein NtRGG1p. Two or three copies of related RGG genes appear to be present in the analysed organisms and the expression of some of them is regulated: a tobacco gene is light-regulated and a spinach gene is preferentially expressed in roots. Possible biological functions of this class of RNA-binding proteins as well as structure/function relationships related to the modular structure are discussed.

Citations

Aug 30, 2011·Plant Cell Reports·Selvam AyarpadikannanJai-Heon Lee
Jul 14, 2016·Scientific Reports·Claudius MarondedzeChris Gehring

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