The nuclear poly(A) binding protein, PABP2, forms an oligomeric particle covering the length of the poly(A) tail

The nuclear poly(A) binding protein, PABP2, forms an oligomeric particle covering the length of the poly(A) tail

The mammalian nuclear poly(A) binding protein, PABP2, controls the length of the newly synthesized poly(A) tail on messenger RNAs. To gain a better understanding of the mechanism of length control, we have investigated the structure of the PABP2·poly(A) complex. Electron microscopy and scanning forc...

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Bibliographic Details
Published in:Journal of molecular biology Vol. 297; no. 3; pp. 569 - 583
Main Authors: Keller, Rebecca W., Kühn, Uwe, Aragón, Mateo, Bornikova, Larissa, Wahle, Elmar, Bear, David G.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 31-03-2000
Subjects:
Allosteric Regulation
Animals
Binding, Competitive
Biopolymers - chemistry
Biopolymers - metabolism
Cattle
DNA-Binding Proteins - chemistry
DNA-Binding Proteins - metabolism
DNA-Binding Proteins - ultrastructure
Hydrogen-Ion Concentration
Microscopy, Atomic Force
Microscopy, Electron
Molecular Weight
mRNA processing
Osmolar Concentration
PABP2 protein
Poly A - chemical synthesis
Poly A - chemistry
Poly A - genetics
Poly A - metabolism
poly(A)-binding protein
Poly(A)-Binding Protein II
Poly(A)-Binding Proteins
polyadenylation
Protein Binding
ribonucleoproteins
RNA - chemistry
RNA - genetics
RNA - metabolism
RNA - ultrastructure
RNA-Binding Proteins - chemistry
RNA-Binding Proteins - metabolism
RNA-Binding Proteins - ultrastructure
Thermodynamics
polyadenylation
CstF
CF
mRNA processing
mRNP
EM
ribonucleoproteins
SFM
PAP
CPSF
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Summary:The mammalian nuclear poly(A) binding protein, PABP2, controls the length of the newly synthesized poly(A) tail on messenger RNAs. To gain a better understanding of the mechanism of length control, we have investigated the structure of the PABP2·poly(A) complex. Electron microscopy and scanning force microscopy studies reveal that PABP2, when bound to poly(A), forms both linear filaments and discrete-sized, compact, oligomeric particles. The maximum diameter of the filament is 7 nm; the maximum diameter of the particle is 21(±2) nm. Maximum particle size is realized when the PABP2·poly(A) complex is formed with poly(A) molecules 200–300 nt long, which corresponds to the average length of the newly synthesized poly(A) tail in vitro and in vivo. The equilibrium between filaments and particles is highly sensitive to ionic strength; filaments are favored at low ionic strength, while particles predominate at moderate to high ionic strength. Nitrocellulose filter binding and gel mobility shift assays indicate that the PABP2·poly(A) particle formed on A 300 is not significantly more stable than complexes formed with smaller species of poly(A). These results are discussed in the context of the proposed functions for PABP2.
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ISSN:0022-2836
1089-8638
DOI:10.1006/jmbi.2000.3572