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Structural basis of nucleic-acid recognition and double-strand unwinding by the essential neuronal protein Pur-alpha.


ABSTRACT: The neuronal DNA-/RNA-binding protein Pur-alpha is a transcription regulator and core factor for mRNA localization. Pur-alpha-deficient mice die after birth with pleiotropic neuronal defects. Here, we report the crystal structure of the DNA-/RNA-binding domain of Pur-alpha in complex with ssDNA. It reveals base-specific recognition and offers a molecular explanation for the effect of point mutations in the 5q31.3 microdeletion syndrome. Consistent with the crystal structure, biochemical and NMR data indicate that Pur-alpha binds DNA and RNA in the same way, suggesting binding modes for tri- and hexanucleotide-repeat RNAs in two neurodegenerative RNAopathies. Additionally, structure-based in vitro experiments resolved the molecular mechanism of Pur-alpha's unwindase activity. Complementing in vivo analyses in Drosophila demonstrated the importance of a highly conserved phenylalanine for Pur-alpha's unwinding and neuroprotective function. By uncovering the molecular mechanisms of nucleic-acid binding, this study contributes to understanding the cellular role of Pur-alpha and its implications in neurodegenerative diseases.

SUBMITTER: Weber J 

PROVIDER: S-EPMC4764581 | biostudies-literature | 2016 Jan

REPOSITORIES: biostudies-literature

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Structural basis of nucleic-acid recognition and double-strand unwinding by the essential neuronal protein Pur-alpha.

Weber Janine J   Bao Han H   Hartlmüller Christoph C   Wang Zhiqin Z   Windhager Almut A   Janowski Robert R   Madl Tobias T   Jin Peng P   Niessing Dierk D  

eLife 20160108


The neuronal DNA-/RNA-binding protein Pur-alpha is a transcription regulator and core factor for mRNA localization. Pur-alpha-deficient mice die after birth with pleiotropic neuronal defects. Here, we report the crystal structure of the DNA-/RNA-binding domain of Pur-alpha in complex with ssDNA. It reveals base-specific recognition and offers a molecular explanation for the effect of point mutations in the 5q31.3 microdeletion syndrome. Consistent with the crystal structure, biochemical and NMR  ...[more]

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