Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation

Annika Niedner-Boblenz; Thomas Monecke; Janosch Hennig; Melina Klostermann; Mario Hofweber; Elena Davydova; André P. Gerber; Irina Anosova; Wieland Mayer; Marisa Müller; Roland Gerhard Heym; Robert Janowski; Jean Christophe Paillart; Dorothee Dormann; Kathi Zarnack; Michael Sattler; Dierk Niessing

doi:10.1093/nar/gkae1107

Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation

Annika Niedner-Boblenz, Thomas Monecke, Janosch Hennig, Melina Klostermann, Mario Hofweber, Elena Davydova, André P. Gerber, Irina Anosova, Wieland Mayer, Marisa Müller, Roland Gerhard Heym, Robert Janowski, Jean Christophe Paillart, Dorothee Dormann, Kathi Zarnack, Michael Sattler, Dierk Niessing

Chair of Biomolecular NMR-Spectroscopy

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

Abstract

RNA-binding proteins are essential for gene regulation and the spatial organization of cells. Here, we report that the yeast ribosome biogenesis factor Loc1p is an intrinsically disordered RNA-binding protein with eight repeating positively charged, unstructured nucleic acid binding (PUN) motifs. While a single of these previously undefined motifs stabilizes folded RNAs, multiple copies strongly cooperate to catalyze RNA folding. In the presence of RNA, these multivalent PUN motifs drive phase separation. Proteome-wide searches in pro- and eukaryotes for proteins with similar arrays of PUN motifs reveal a strong enrichment in RNA-mediated processes and DNA remodeling. Thus, PUN motifs are potentially involved in a large variety of RNA- and DNA-related processes by concentrating them in membraneless organelles. The general function and wide distribution of PUN motifs across species suggest that in an ancient ‘RNA world’ PUN-like motifs may have supported the correct folding of early ribozymes.

Original language	English
Pages (from-to)	14205-14228
Number of pages	24
Journal	Nucleic Acids Research
Volume	52
Issue number	22
DOIs	https://doi.org/10.1093/nar/gkae1107
State	Published - 11 Dec 2024

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Niedner-Boblenz, A., Monecke, T., Hennig, J., Klostermann, M., Hofweber, M., Davydova, E., Gerber, A. P., Anosova, I., Mayer, W., Müller, M., Heym, R. G., Janowski, R., Paillart, J. C., Dormann, D., Zarnack, K., Sattler, M., & Niessing, D. (2024). Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation. Nucleic Acids Research, 52(22), 14205-14228. https://doi.org/10.1093/nar/gkae1107

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title = "Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation",

abstract = "RNA-binding proteins are essential for gene regulation and the spatial organization of cells. Here, we report that the yeast ribosome biogenesis factor Loc1p is an intrinsically disordered RNA-binding protein with eight repeating positively charged, unstructured nucleic acid binding (PUN) motifs. While a single of these previously undefined motifs stabilizes folded RNAs, multiple copies strongly cooperate to catalyze RNA folding. In the presence of RNA, these multivalent PUN motifs drive phase separation. Proteome-wide searches in pro- and eukaryotes for proteins with similar arrays of PUN motifs reveal a strong enrichment in RNA-mediated processes and DNA remodeling. Thus, PUN motifs are potentially involved in a large variety of RNA- and DNA-related processes by concentrating them in membraneless organelles. The general function and wide distribution of PUN motifs across species suggest that in an ancient {\textquoteleft}RNA world{\textquoteright} PUN-like motifs may have supported the correct folding of early ribozymes.",

author = "Annika Niedner-Boblenz and Thomas Monecke and Janosch Hennig and Melina Klostermann and Mario Hofweber and Elena Davydova and Gerber, {Andr{\'e} P.} and Irina Anosova and Wieland Mayer and Marisa M{\"u}ller and Heym, {Roland Gerhard} and Robert Janowski and Paillart, {Jean Christophe} and Dorothee Dormann and Kathi Zarnack and Michael Sattler and Dierk Niessing",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024. Published by Oxford University Press on behalf of Nucleic Acids Research.",

year = "2024",

month = dec,

day = "11",

doi = "10.1093/nar/gkae1107",

language = "English",

volume = "52",

pages = "14205--14228",

journal = "Nucleic Acids Research",

issn = "0305-1048",

publisher = "Oxford University Press",

number = "22",

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Niedner-Boblenz, A, Monecke, T, Hennig, J, Klostermann, M, Hofweber, M, Davydova, E, Gerber, AP, Anosova, I, Mayer, W, Müller, M, Heym, RG, Janowski, R, Paillart, JC, Dormann, D, Zarnack, K, Sattler, M & Niessing, D 2024, 'Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation', Nucleic Acids Research, vol. 52, no. 22, pp. 14205-14228. https://doi.org/10.1093/nar/gkae1107

TY - JOUR

T1 - Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation

AU - Niedner-Boblenz, Annika

AU - Monecke, Thomas

AU - Hennig, Janosch

AU - Klostermann, Melina

AU - Hofweber, Mario

AU - Davydova, Elena

AU - Gerber, André P.

AU - Anosova, Irina

AU - Mayer, Wieland

AU - Müller, Marisa

AU - Heym, Roland Gerhard

AU - Janowski, Robert

AU - Paillart, Jean Christophe

AU - Dormann, Dorothee

AU - Zarnack, Kathi

AU - Sattler, Michael

AU - Niessing, Dierk

PY - 2024/12/11

Y1 - 2024/12/11

N2 - RNA-binding proteins are essential for gene regulation and the spatial organization of cells. Here, we report that the yeast ribosome biogenesis factor Loc1p is an intrinsically disordered RNA-binding protein with eight repeating positively charged, unstructured nucleic acid binding (PUN) motifs. While a single of these previously undefined motifs stabilizes folded RNAs, multiple copies strongly cooperate to catalyze RNA folding. In the presence of RNA, these multivalent PUN motifs drive phase separation. Proteome-wide searches in pro- and eukaryotes for proteins with similar arrays of PUN motifs reveal a strong enrichment in RNA-mediated processes and DNA remodeling. Thus, PUN motifs are potentially involved in a large variety of RNA- and DNA-related processes by concentrating them in membraneless organelles. The general function and wide distribution of PUN motifs across species suggest that in an ancient ‘RNA world’ PUN-like motifs may have supported the correct folding of early ribozymes.

AB - RNA-binding proteins are essential for gene regulation and the spatial organization of cells. Here, we report that the yeast ribosome biogenesis factor Loc1p is an intrinsically disordered RNA-binding protein with eight repeating positively charged, unstructured nucleic acid binding (PUN) motifs. While a single of these previously undefined motifs stabilizes folded RNAs, multiple copies strongly cooperate to catalyze RNA folding. In the presence of RNA, these multivalent PUN motifs drive phase separation. Proteome-wide searches in pro- and eukaryotes for proteins with similar arrays of PUN motifs reveal a strong enrichment in RNA-mediated processes and DNA remodeling. Thus, PUN motifs are potentially involved in a large variety of RNA- and DNA-related processes by concentrating them in membraneless organelles. The general function and wide distribution of PUN motifs across species suggest that in an ancient ‘RNA world’ PUN-like motifs may have supported the correct folding of early ribozymes.

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DO - 10.1093/nar/gkae1107

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SN - 0305-1048

VL - 52

SP - 14205

EP - 14228

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - 22

ER -

Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation

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