(PDF) The Yeast PRP19 Protein Is Not Tightly Associated

The Yeast PRP19 Protein Is Not Tightly Associated With Small Nuclear RNAs, but Appears to Associate With the Spliceosome After Binding of U2 to the Pre-mRNA and Prior to Formation of the Functional Spliceosome.

Molecular and Cellular Biology - United States

doi 10.1128/mcb.13.3.1883

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Abstract

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Date

March 1, 1993

Authors

W Y Tarn

K R Lee

S C Cheng

Publisher

American Society for Microbiology

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The Yeast PRP19 Protein Is Not Tightly Associated With Small Nuclear RNAs, but Appears to Associate With the Spliceosome After Binding of U2 to the Pre-mRNA and Prior to Formation of the Functional Spliceosome.

Molecular and Cellular Biology - United States

doi 10.1128/mcb.13.3.1883

Full Text

Abstract

Categories

Date

Authors

Publisher

Related search

Differential Binding of Heterogeneous Nuclear Ribonucleoproteins to mRNA Precursors Prior to Spliceosome Assembly in Vitro.

Herpes Simplex Virus IE63 (ICP27) Protein Interacts With Spliceosome-Associated Protein 145 and Inhibits Splicing Prior to the First Catalytic Step

Identification of a Functional Mammalian Spliceosome Containing Unspliced Pre-mRNA.

ATPase/Helicase Activities of P68 RNA Helicase Are Required for Pre-mRNA Splicing but Not for Assembly of the Spliceosome

Lights, Camera, Action! Capturing the Spliceosome and Pre-mRNA Splicing With Single-Molecule Fluorescence Microscopy

A Base-Pairing Interaction Between U2 and U6 Small Nuclear RNAs Occurs in > 150S Complexes in HeLa Cell Extracts: Implications for the Spliceosome Assembly Pathway.

Four Yeast Spliceosomal Proteins (PRP5, PRP9, PRP11, and PRP21) Interact to Promote U2 snRNP Binding to Pre-mRNA.

Nuclear RanGTP Is Not Required for Targeting Small Nucleolar RNAs to the Nucleolus

The Pre-mRNA Splicing and Transcription Factor Tat-Sf1 Is a Functional Partner of the Spliceosome SF3b1 Subunit via a U2AF Homology Motif Interface