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Prp8
Mechanism of Regulation of Spliceosome Activation by Brr2 And
Distinct Domains of Splicing Factor Prp8 Mediate Different Aspects of Spliceosome Activation
The RNA Splicing Response to DNA Damage
Group II Intron Rnps and Reverse Transcriptases: from Retroelements to Research Tools
Structural Studies of the Spliceosome: Zooming Into the Heart Of
The Chloroplast Trans-Splicing RNA–Protein Supercomplex from the Green Alga Chlamydomonas Reinhardtii
Allele-Specific Genetic Interactions Between Prp8 and RNA Active Site Residues Suggest a Function for Prp8 at the Catalytic Core of the Spliceosome
Review Pre-Mrna Splicing and Retinitis Pigmentosa
Viewed In: Nielsen and Johansen, 2009)
The Prp8 Rnase H-Like Domain Inhibits Brr2-Mediated U4/U6 Snrna Unwinding by Blocking Brr2 Loading Onto the U4 Snrna
The Mammalian Analogue of the Yeast PRP8 Splicing Protein Is Present In
Structural Toggle in the Rnaseh Domain of Prp8 Helps Balance Splicing Fidelity and Catalytic Efficiency
Prp8 Protein: at the Heart of the Spliceosome
Recruitment of the Nineteen Complex to the Activated Spliceosome Requires Atprmt5
Prp8, the Pivotal Protein of the Spliceosomal Catalytic Center, Evolved from a Retroelement-Encoded Reverse Transcriptase
The Role of PRP8 Protein in Nuclear Pre-Mrna Splicing in Yeast
A Genetic Screen Identifies Prp18a, a Putative Second Step Splicing
The Mammalian Analogue of the Yeast PRP8 Splicing Protein Is Present In
Top View
The Spliceosome: Disorder and Dynamics Defined
Molecular Genetic Studies of the Prp8 Splicing Factor Andrew James
Post-Transcriptional Modifications Modulate Conformational Dynamics in Human U2–U6 Snrna Complex
PRPF8 Defects Cause Missplicing in Myeloid Malignancies
Prp8 Positioning of U5 Snrna Is Linked to 5О Splice Site Recognition
Spliceosomal Prp8 Intein at the Crossroads of Protein and RNA Splicing
Prp8 Positioning of U5 Snrna Is Linked to 5ʹ Splice Site Recognition”
Prp8 in a Reduced Spliceosome Lacks a Conserved Toggle That Correlates with Splicing Complexity Across Diverse Taxa