Identification of SNAPc Subunit Domains That Interact with Specific Nucleotide Positions in the U1 and U6 Gene Promoters

Author:

Kim Mun Kyoung12,Kang Yoon Soon3,Lai Hsien-Tsung12,Barakat Nermeen H.3,Magante Deodato3,Stumph William E.13

Affiliation:

1. Molecular Biology Institute

2. Department of Biology

3. Department of Chemistry and Biochemistry, San Diego State University, San Diego, California 92182-1030

Abstract

ABSTRACT The small nuclear RNA (snRNA)-activating protein complex (SNAPc) is essential for transcription of genes coding for the snRNAs (U1, U2, etc.). In Drosophila melanogaster , the heterotrimeric DmSNAPc recognizes a 21-bp DNA sequence, the proximal sequence element A (PSEA), located approximately 40 to 60 bp upstream of the transcription start site. Upon binding the PSEA, DmSNAPc establishes RNA polymerase II preinitiation complexes on U1 to U5 promoters but RNA polymerase III preinitiation complexes on U6 promoters. Minor differences in nucleotide sequence of the U1 and U6 PSEAs determine RNA polymerase specificity; moreover, DmSNAPc adopts different conformations on these different PSEAs. We have proposed that such conformational differences in DmSNAPc play a key role in determining the different polymerase specificities of the U1 and U6 promoters. To better understand the structure of DmSNAPc-PSEA complexes, we have developed a novel protocol that combines site-specific protein-DNA photo-cross-linking with site-specific chemical cleavage of the protein. This protocol has allowed us to map regions within each of the three DmSNAPc subunits that contact specific nucleotide positions within the U1 and U6 PSEAs. These data help to establish the orientation of each DmSNAPc subunit on the DNA and have revealed cases in which different domains of the subunits differentially contact the U1 versus U6 PSEAs.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

Reference35 articles.

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2. Barakat, N. H., and W. E. Stumph. 2008. TBP recruitment to the U1 snRNA gene promoter is disrupted by substituting a U6 proximal sequence element A (PSEA) for the U1 PSEA. FEBS Lett.582:2413-2416.

3. Crimmins, D. L., and S. M. Mische. 1996. Chemical cleavage of proteins in solution, p. 11.4.1-11.4.8. In V. B. Chanda, vol. 2, suppl. 4. (ed.), Current protocols in protein science. John Wiley & Sons, Inc., New York, NY.

4. Dahlberg, J. E., and E. Lund. 1991. How does III x II make U6? Science254:1462-1463.

5. Dahlberg, J. E., and E. Lund. 1988. The genes and transcription of the major small nuclear RNAs, p. 38-70. In M. L. Birnstiel (ed.), Structure and function of major and minor small nuclear ribonucleoprotein particles. Springer Verlag KG, Heidelberg, Federal Republic of Germany.

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