Molecular architecture and dynamics of ASH1 mRNA recognition by its mRNA-transport complex

Franziska Theresia Edelmann; Andreas Schlundt; Roland Gerhard Heym; Andreas Jenner; Annika Niedner-Boblenz; Muhammad Ibrahim Syed; Jean Christophe Paillart; Ralf Stehle; Robert Janowski; Michael Sattler; Ralf Peter Jansen; Dierk Niessing

doi:10.1038/nsmb.3351

Molecular architecture and dynamics of ASH1 mRNA recognition by its mRNA-transport complex

Franziska Theresia Edelmann, Andreas Schlundt, Roland Gerhard Heym, Andreas Jenner, Annika Niedner-Boblenz, Muhammad Ibrahim Syed, Jean Christophe Paillart, Ralf Stehle, Robert Janowski, Michael Sattler, Ralf Peter Jansen, Dierk Niessing

Chair of Biomolecular NMR-Spectroscopy

Research output: Contribution to journal › Article › peer-review

37 Scopus citations

Abstract

mRNA localization is an essential mechanism of gene regulation and is required for processes such as stem-cell division, embryogenesis and neuronal plasticity. It is not known which features in the cis-acting mRNA localization elements (LEs) are specifically recognized by motor-containing transport complexes. To the best of our knowledge, no high-resolution structure is available for any LE in complex with its cognate protein complex. Using X-ray crystallography and complementary techniques, we carried out a detailed assessment of an LE of the ASH1 mRNA from yeast, its complex with its shuttling RNA-binding protein She2p, and its highly specific, cytoplasmic complex with She3p. Although the RNA alone formed a flexible stem loop, She2p binding induced marked conformational changes. However, only joining by the unstructured She3p resulted in specific RNA recognition. The notable RNA rearrangements and joint action of a globular and an unfolded RNA-binding protein offer unprecedented insights into the step-wise maturation of an mRNA-transport complex.

Original language	English
Pages (from-to)	152-161
Number of pages	10
Journal	Nature Structural and Molecular Biology
Volume	24
Issue number	2
DOIs	https://doi.org/10.1038/nsmb.3351
State	Published - 1 Feb 2017

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title = "Molecular architecture and dynamics of ASH1 mRNA recognition by its mRNA-transport complex",

abstract = "mRNA localization is an essential mechanism of gene regulation and is required for processes such as stem-cell division, embryogenesis and neuronal plasticity. It is not known which features in the cis-acting mRNA localization elements (LEs) are specifically recognized by motor-containing transport complexes. To the best of our knowledge, no high-resolution structure is available for any LE in complex with its cognate protein complex. Using X-ray crystallography and complementary techniques, we carried out a detailed assessment of an LE of the ASH1 mRNA from yeast, its complex with its shuttling RNA-binding protein She2p, and its highly specific, cytoplasmic complex with She3p. Although the RNA alone formed a flexible stem loop, She2p binding induced marked conformational changes. However, only joining by the unstructured She3p resulted in specific RNA recognition. The notable RNA rearrangements and joint action of a globular and an unfolded RNA-binding protein offer unprecedented insights into the step-wise maturation of an mRNA-transport complex.",

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AU - Edelmann, Franziska Theresia

AU - Schlundt, Andreas

AU - Heym, Roland Gerhard

AU - Jenner, Andreas

AU - Niedner-Boblenz, Annika

AU - Syed, Muhammad Ibrahim

AU - Paillart, Jean Christophe

AU - Stehle, Ralf

AU - Janowski, Robert

AU - Sattler, Michael

AU - Jansen, Ralf Peter

AU - Niessing, Dierk

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N2 - mRNA localization is an essential mechanism of gene regulation and is required for processes such as stem-cell division, embryogenesis and neuronal plasticity. It is not known which features in the cis-acting mRNA localization elements (LEs) are specifically recognized by motor-containing transport complexes. To the best of our knowledge, no high-resolution structure is available for any LE in complex with its cognate protein complex. Using X-ray crystallography and complementary techniques, we carried out a detailed assessment of an LE of the ASH1 mRNA from yeast, its complex with its shuttling RNA-binding protein She2p, and its highly specific, cytoplasmic complex with She3p. Although the RNA alone formed a flexible stem loop, She2p binding induced marked conformational changes. However, only joining by the unstructured She3p resulted in specific RNA recognition. The notable RNA rearrangements and joint action of a globular and an unfolded RNA-binding protein offer unprecedented insights into the step-wise maturation of an mRNA-transport complex.

AB - mRNA localization is an essential mechanism of gene regulation and is required for processes such as stem-cell division, embryogenesis and neuronal plasticity. It is not known which features in the cis-acting mRNA localization elements (LEs) are specifically recognized by motor-containing transport complexes. To the best of our knowledge, no high-resolution structure is available for any LE in complex with its cognate protein complex. Using X-ray crystallography and complementary techniques, we carried out a detailed assessment of an LE of the ASH1 mRNA from yeast, its complex with its shuttling RNA-binding protein She2p, and its highly specific, cytoplasmic complex with She3p. Although the RNA alone formed a flexible stem loop, She2p binding induced marked conformational changes. However, only joining by the unstructured She3p resulted in specific RNA recognition. The notable RNA rearrangements and joint action of a globular and an unfolded RNA-binding protein offer unprecedented insights into the step-wise maturation of an mRNA-transport complex.

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Molecular architecture and dynamics of ASH1 mRNA recognition by its mRNA-transport complex

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