mRNA polyadenylate-binding protein: gene isolation and sequencing and identification of a ribonucleoprotein consensus sequence.

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Mol Cell Biol. 1986 August; 6(8): 2932-2943

mRNA polyadenylate-binding protein: gene isolation and sequencing and identification of a ribonucleoprotein consensus sequence.

S A Adam, T Nakagawa, M S Swanson, T K Woodruff and G Dreyfuss

ABSTRACT

We identified and produced antibodies to the major proteinsthat interact with poly(A)+ RNAs in the yeast Saccharomycescerevisiae. The major proteins which were cross-linked by UVlight to poly(A)+ RNA in intact yeast cells had apparent molecularweights of 72,000, 60,000, and 50,000. The poly(A) segment ofthe RNA was selectively cross-linked to the 72,000-molecular-weightprotein (72K protein). Mice immunized with purified UV-cross-linkedRNA-protein (RNP) complexes produced antibodies to the threemajor RNP proteins. A yeast genomic DNA library constructedin the lambda gt11 expression vector was screened with the anti-RNPserum, and recombinant bacteriophage clones were isolated. Onerecombinant phage, lambda YPA72.1, bearing a 2.5-kilobase insert,produced a large beta-galactosidase-RNP fusion protein. Affinity-selectedantibodies from the anti-RNP serum on this fusion protein recognizeda single 72K protein which was cross-linked to the poly(A) segmentof RNA in the intact cell. Furthermore, the fusion protein oflambda YPA72.1 had specific poly(A)-binding activity. Therefore,lambda YPA72.1 encodes the 72K poly(A)-binding protein. Immunofluorescencemicroscopy showed that this protein was localized in the cytoplasm.Hybrid-selected mRNA translated in vitro produced the 72K poly(A)-bindingprotein, and mRNA blot analysis detected a single 2.1-kilobasemRNA. DNA blot analysis suggested a single gene for the poly(A)-bindingprotein. DNA sequence analysis of genomic clones spanning theentire gene revealed a long open reading frame encoding a 64,272-molecular-weightprotein with several distinct domains and repeating structuralelements. A sequence of 11 to 13 amino acids is repeated threetimes in this protein. Strikingly, this repeated sequence (RNPconsensus sequence) is highly homologous to a sequence thatis repeated twice in a major mammalian heterogeneous nuclearRNP protein, A1. The conservation of the repetitive RNP consensussequence suggests an important function and a common evolutionaryorigin for messenger RNP and heterogeneous nuclear RNP proteins.

Mol Cell Biol. 1986 August; 6(8): 2932-2943

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