A pseudouridine residue in the spliceosome core is part of the filamentous growth program in yeast

Anindita Basak; Charles C. Query

doi:10.1016/j.celrep.2014.07.004

A pseudouridine residue in the spliceosome core is part of the filamentous growth program in yeast

Anindita Basak, Charles C. Query

Cell Biology

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

63 Scopus citations

Abstract

Although pseudouridine nucleobases are abundant in tRNAs, rRNAs, and small nuclear RNAs (snRNAs), they are not known to have physiologic roles in cell differentiation. We have identified a pseudouridine residue (Ψ28) on spliceosomal U6 snRNA that is induced during filamentous growth of Saccharomyces cerevisiae. Pus1p catalyzes this modification and is upregulated during filamentation. Several U6 snRNA mutants are strongly pseudouridylated at Ψ28. Remarkably, these U6 mutants activate pseudohyphal growth, dependent upon Pus1p, arguing that U6-Ψ28 per se can initiate at least part of thefilamentous growth program. We confirmed this by using a designer small nucleolar RNA (snoRNA) targeting U6-U28 pseudouridylation. Conversely, mutants that block U6-U28 pseudouridylation inhibit pseudohyphal growth. U6-U28 pseudouridylation changes the splicing efficiency of suboptimal introns; thus, Pus1p-dependent pseudouridylation of U6 snRNA contributes to the filamentation growth program.

Original language	English (US)
Pages (from-to)	966-973
Number of pages	8
Journal	Cell Reports
Volume	8
Issue number	4
DOIs	https://doi.org/10.1016/j.celrep.2014.07.004
State	Published - Aug 21 2014

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2014.07.004

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title = "A pseudouridine residue in the spliceosome core is part of the filamentous growth program in yeast",

abstract = "Although pseudouridine nucleobases are abundant in tRNAs, rRNAs, and small nuclear RNAs (snRNAs), they are not known to have physiologic roles in cell differentiation. We have identified a pseudouridine residue (Ψ28) on spliceosomal U6 snRNA that is induced during filamentous growth of Saccharomyces cerevisiae. Pus1p catalyzes this modification and is upregulated during filamentation. Several U6 snRNA mutants are strongly pseudouridylated at Ψ28. Remarkably, these U6 mutants activate pseudohyphal growth, dependent upon Pus1p, arguing that U6-Ψ28 per se can initiate at least part of thefilamentous growth program. We confirmed this by using a designer small nucleolar RNA (snoRNA) targeting U6-U28 pseudouridylation. Conversely, mutants that block U6-U28 pseudouridylation inhibit pseudohyphal growth. U6-U28 pseudouridylation changes the splicing efficiency of suboptimal introns; thus, Pus1p-dependent pseudouridylation of U6 snRNA contributes to the filamentation growth program.",

author = "Anindita Basak and Query, {Charles C.}",

note = "Funding Information: We are grateful to Jon Warner, Ian Willis, Tom Meier, and members of C.C.Q.{\textquoteright}s lab for helpful discussions and critical readings of the manuscript. We thank Ian Willis for providing overexpression plasmids, Anuj Kumar for providing yeast Σ1278b strains, and Yi-Tao Yu and Audrey Gasch for helpful suggestions. This work was supported by NIH grant GM57829 to C.C.Q. and by a Cancer Center Support (core) grant from the NCI to the Albert Einstein College of Medicine. C.C.Q. is a scholar of the Irma T. Hirschl Trust. ",

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AU - Basak, Anindita

AU - Query, Charles C.

N1 - Funding Information: We are grateful to Jon Warner, Ian Willis, Tom Meier, and members of C.C.Q.’s lab for helpful discussions and critical readings of the manuscript. We thank Ian Willis for providing overexpression plasmids, Anuj Kumar for providing yeast Σ1278b strains, and Yi-Tao Yu and Audrey Gasch for helpful suggestions. This work was supported by NIH grant GM57829 to C.C.Q. and by a Cancer Center Support (core) grant from the NCI to the Albert Einstein College of Medicine. C.C.Q. is a scholar of the Irma T. Hirschl Trust.

PY - 2014/8/21

Y1 - 2014/8/21

N2 - Although pseudouridine nucleobases are abundant in tRNAs, rRNAs, and small nuclear RNAs (snRNAs), they are not known to have physiologic roles in cell differentiation. We have identified a pseudouridine residue (Ψ28) on spliceosomal U6 snRNA that is induced during filamentous growth of Saccharomyces cerevisiae. Pus1p catalyzes this modification and is upregulated during filamentation. Several U6 snRNA mutants are strongly pseudouridylated at Ψ28. Remarkably, these U6 mutants activate pseudohyphal growth, dependent upon Pus1p, arguing that U6-Ψ28 per se can initiate at least part of thefilamentous growth program. We confirmed this by using a designer small nucleolar RNA (snoRNA) targeting U6-U28 pseudouridylation. Conversely, mutants that block U6-U28 pseudouridylation inhibit pseudohyphal growth. U6-U28 pseudouridylation changes the splicing efficiency of suboptimal introns; thus, Pus1p-dependent pseudouridylation of U6 snRNA contributes to the filamentation growth program.

AB - Although pseudouridine nucleobases are abundant in tRNAs, rRNAs, and small nuclear RNAs (snRNAs), they are not known to have physiologic roles in cell differentiation. We have identified a pseudouridine residue (Ψ28) on spliceosomal U6 snRNA that is induced during filamentous growth of Saccharomyces cerevisiae. Pus1p catalyzes this modification and is upregulated during filamentation. Several U6 snRNA mutants are strongly pseudouridylated at Ψ28. Remarkably, these U6 mutants activate pseudohyphal growth, dependent upon Pus1p, arguing that U6-Ψ28 per se can initiate at least part of thefilamentous growth program. We confirmed this by using a designer small nucleolar RNA (snoRNA) targeting U6-U28 pseudouridylation. Conversely, mutants that block U6-U28 pseudouridylation inhibit pseudohyphal growth. U6-U28 pseudouridylation changes the splicing efficiency of suboptimal introns; thus, Pus1p-dependent pseudouridylation of U6 snRNA contributes to the filamentation growth program.

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A pseudouridine residue in the spliceosome core is part of the filamentous growth program in yeast

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