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Sajad Sofi Julia C. Fitzgerald Désirée Jähn Bernhard Dumoulin Sabine Stehling Hartmut Kuhn Christoph Ufer 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(4):866-876
The guanine-rich RNA sequence binding factor 1 (GRSF1) constitutes an ubiquitously occurring RNA-binding protein (RBP), which belongs to the family of heterogeneous nuclear ribonucleoprotein F/H (hnRNP F/H). It has been implicated in nuclear, cytosolic and mitochondrial RNA metabolism. Although the crystal structures of GRSF1 orthologs have not been solved, amino acid alignments with similar RNA-binding proteins suggested the existence of three RNA-binding domains designated quasi-RNA recognition motifs (qRRMs). Here we established 3D–models for the three qRRMs of human GRSF1 on the basis of the NMR structure of hnRNP F and identified the putative RNA interacting amino acids. Next, we explored the genetic variability of the three qRRMs of human GRSF1 by searching genomic databases and tested the functional consequences of naturally occurring mutants. For this purpose the RNA-binding capacity of wild-type and mutant recombinant GRSF1 protein species was assessed by quantitative RNA electrophoretic mobility shift assays. We found that some of the naturally occurring GRSF1 mutants exhibited a strongly reduced RNA-binding activity although the general protein structure was hardly affected. These data suggested that homozygous allele carriers of these particular mutants express dysfunctional GRSF1 and thus may show defective GRSF1 signaling. 相似文献
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Max Ufer 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1929,1(8):225-230
Ohne Zusammenfassung 相似文献
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Molecular Genetics and Genomics - 相似文献
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Sajad Sofi Sabine Stehling Agathe Niewienda Katharina Janek Hartmut Kuhn Christoph Ufer 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(4):946-957
The Guanine-rich RNA sequence binding factor 1 (GRSF1) is a member of the heterogeneous nuclear ribonucleoprotein F/H family and has been implicated in RNA processing, RNA transport and translational regulation. Amino acid alignments and homology modeling suggested the existence of three distinct RNA-binding domains and two auxiliary domains. Unfortunately, little is known about the molecular details of GRSF1/RNA interactions. To explore the RNA-binding mechanisms we first expressed full-length human GRSF1 and several truncation mutants, which include the three separated qRRM domains in E. coli, purified the recombinant proteins and quantified their RNA-binding affinity by RNA electrophoretic mobility shift assays. The expression levels varied between 1 and 10 mg purified protein per L bacterial liquid culture and for full-length human GRSF1 a binding constant (KD-value) of 0.5 μM was determined. In addition, our mechanistic experiments with different truncation mutants allowed the following conclusions: i) Deletion of either of the three RNA-binding domains impaired the RNA-binding affinity suggesting that the simultaneous presence of the three domains is essential for high-affinity RNA-binding. ii) Deletion of the Ala-rich auxiliary domain did hardly affect RNA-binding. Thus, this structural subunit may not be involved in RNA interaction. iii) Deletion of the acidic auxiliary domain improved the RNA-binding suggesting a regulatory role for this structural motif. iv) The isolated RNA-binding domains did not exhibit sizeable RNA-binding affinities. Taken together these data suggest that a cooperative interaction of the three qRRMs is required for high affinity RNA-binding. 相似文献
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Max Ufer 《Molecular & general genetics : MGG》1937,73(1):390-393
Ohne ZusammenfassungMit 1 Textfigur 相似文献
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