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Mol Cell Biol, July 1998, p. 3991-4003, Vol. 18, No. 7
Department of Biochemistry, University of
Illinois, Urbana, Illinois 61801
Received 10 February 1998/Accepted 7 April 1998
The function(s) and RNA binding properties of vigilin, a ubiquitous
protein with 14 KH domains, remain largely obscure. We recently showed
that vigilin is the estrogen-inducible protein in polysome extracts
which binds specifically to a segment of the 3' untranslated region
(UTR) of estrogen-stabilized vitellogenin mRNA. In order to identify
consensus mRNA sequences and structures important in binding of vigilin
to RNA, before vigilin was purified, we developed a modified in vitro
genetic selection protocol. We subsequently validated our selection
procedure, which employed crude polysome extracts, by testing natural
and in vitro-selected RNAs with purified recombinant vigilin. Most of
the selected up-binding mutants exhibited hypermutation of G
residues leading to a largely unstructured, single-stranded
region containing multiple conserved (A)nCU and
UC(A)n motifs. All eight of the selected down-binding mutants contained a mutation in the sequence
(A)nCU. Deletion analysis indicated that
approximately 75 nucleotides are required for maximal binding. Using
this information, we predicted and subsequently identified a strong
vigilin binding site near the 3' end of human dystrophin mRNA. RNA
sequences from the 3' UTRs of transferrin receptor and estrogen
receptor, which lack strong homology to the selected sequences,
did not bind vigilin. These studies describe an aproach to
identifying long RNA binding sites and describe sequence and structural
requirements for interaction of vigilin with RNAs.
0270-7306/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
In Vitro Genetic Analysis of the RNA Binding Site
of Vigilin, a Multi-KH-Domain Protein
*
Corresponding author. Mailing address: Department of
Biochemistry B-4 RAL, 600 S. Mathews Ave., University of Illinois,
Urbana, IL 61801. Phone: (217) 333-1788. Fax: (217) 244-5858. E-mail: djshapir{at}uiuc.edu.
Mol Cell Biol, July 1998, p. 3991-4003, Vol. 18, No. 7
0270-7306/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
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