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Molecular and Cellular Biology Volume 11, 1991 - Issue 6
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Transcriptional Regulation

In Vivo Stimulation of a Chimeric Promoter by Binding Sites for Nuclear Factor I

Jennifer J. Knox1 The Ontario Cancer Institute and Department of Medical Biophysics, University of Toronto, Toronto, OntarioM4X 1K9, Canada
,
Patrick J. Rebstein1 The Ontario Cancer Institute and Department of Medical Biophysics, University of Toronto, Toronto, OntarioM4X 1K9, Canada
,
Armen Manoukian1 The Ontario Cancer Institute and Department of Medical Biophysics, University of Toronto, Toronto, OntarioM4X 1K9, Canada
&
Richard M. Gronostajski1 The Ontario Cancer Institute and Department of Medical Biophysics, University of Toronto, Toronto, OntarioM4X 1K9, Canada
Pages 2946-2951 | Received 23 Oct 1990, Accepted 25 Feb 1991, Published online: 01 Apr 2023

References

  • Banerji, J., S. Rusconi, and W. Schaffer. 1981. Expression of a beta-globin gene is enhanced by remote SV40 DNA sequences. Cell 27:299-308.
  • Barrera-Saldana, H., K. Takahashi, M. Vigneron, A. Wildeman, I. Davidson, and P. Chambon. 1985. All six GC-motifs of the SV40 early upstream element contribute to promoter activity in vivo and in vitro. EMBO J. 4:3839-3849.
  • Borras, T., C. A. Peterson, and J. Piatigorsky. 1988. Evidence for positive and negative regulation in the promoter of the chicken ô 1-crystalline gene. Dev. Biol. 127:209-219.
  • Buratowski, S., S. Hahn, L. Guarente, and P. A. Sharp. 1989. Five intermediate complexes in transcription initiation by RNA polymerase II. Cell 56:549-561.
  • Cato, A. C. B., P. Skroch, J. Weinmann, P. Butkeraitis, and H. Ponta. 1988. DNA sequences outside the receptor-binding sites differentially modulate the responsiveness of the mouse mammary tumor virus promoter to various steroid hormones. EMBO J. 7:1403-1410.
  • Cheng, L., and T. J. Kelly. 1989. Transcriptional activator nuclear factor 1 stimulates the replication of SV40 minichromosomes in vivo and in vitro. Cell 59:541-551.
  • Chodosh, L. A., R. W. Carthew, J. G. Morgan, G. R. Crabtree, and P. A. Sharp. 1987. The adenovirus major late transcription factor activates the rat gamma-fibrinogen promoter. Science 238:684-688.
  • Courtois, S. J., D. A. Lafontaine, F. P. Lemaigre, S. M. Durviaux, and G. G. Rousseau. 1990. Nuclear factor-I and activator protein-2 bind in a mutually exclusive way to overlapping promoter sequences and trans-activate the human growth hormone gene. Nucleic Acids Res. 18:57-63.
  • de Vries, E., W. van Driel, M. Tromp, J. van Boom, and P. C. van der Vliet. 1985. Adenovirus DNA replication in vitro: site-directed mutagenesis of the nuclear factor I binding site of the Ad2 origin. Nucleic Acids Res. 13:4935-4952.
  • de Vries, E., W. van Driel, S. J. L. van den Heuvel, and P. C. van der Vliet. 1987. Contactpoint analysis of the HeLa nuclear factor I recognition site reveals symmetrical binding at one side of the DNA helix. EMBO J. 6:161-168.
  • Fiers, W., R. Contreras, G. Haegeman, R. Rogiers, A. Van de Voorde, H. Van Heuverswyn, G. Volckaert, and M. Ysebaert. 1978. Complete nucleotide sequence of SV40 DNA. Nature (London) 273:113-120.
  • Frederickson, R. M., M. R. Micheau, A. Iwamoto, and N. G. Miyamoto. 1989. 5′ flanking and first intron sequences of the human β-actin gene required for efficient promoter activity. Nucleic Acids Res. 17:253-270.
  • Gil, G., J. R. Smith, J. L. Goldstein, C. A. Slaughter, K. Orth, M. S. Brown, and T. F. Osborne. 1988. Multiple genes encode nuclear factor 1-like proteins that bind to the promoter for 3-hydroxy-3-methylglutaryl-coenzyme A reductase. Proc. Natl. Acad. Sci. USA 85:8963-8967.
  • Gorman, C. 1985. DNA cloning: a practical approach, vol. II, p. 150-153. IRL Press, Washington, D.C.
  • Goyal, N., J. Knox, and R. M. Gronostajski. 1990. Analysis of multiple forms of nuclear factor I in human and murine cell lines. Mol. Cell. Biol. 10:1041-1048.
  • Gronostajski, R. M. 1986. Analysis of nuclear factor I binding to DNA using degenerate oligonucleotides. Nucleic Acids Res. 14:9117-9132.
  • Gronostajski, R. M. 1987. Site-specific DNA binding of nuclear factor I: effect of the spacer region. Nucleic Acids Res. 15:5545-5559.
  • Gronostajski, R. M., S. Adhya, K. Nagata, R. A. Guggenheimer, and J. Hurwitz. 1985. Site-specific DNA binding of nuclear factor I: analyses of cellular binding sites. Mol. Cell. Biol. 5:964-971.
  • Gronostajski, R. M., J. Knox, D. Berry, and N. G. Miyamoto. 1988. Stimulation of transcription in vitro by binding sites for nuclear factor I. Nucleic Acids Res. 16:2087-2098.
  • Gronostajski, R. M., K. Nagata, and J. Hurwitz. 1984. Isolation of human DNA sequences that bind to nuclear factor I, a host protein involved in adenovirus DNA replication. Proc. Natl. Acad. Sci. USA 81:4013-4017.
  • Helmighausen, L., and B. Fleckstein. 1986. Nuclear factor 1 interacts with five DNA elements in the promoter region of the human cytomegalovirus major immediate early gene. EMBO J. 5:1367-1371.
  • Herbomel, P., B. Bourachot, and M. Yaniv. 1984. Two distinct enhancers with different cell specificities coexist in the regulatory region of polyoma. Cell 39:653-662.
  • Jackson, S. P., and R. Tjian. 1988. O-glycosylation of eukaryotic transcription factors: implications for mechanisms of transcriptional regulation. Cell 55:125-133.
  • Jones, N. C., P. W. Rigby, and E. B. Ziff. 1988. Trans-acting protein factors and the regulation of eukaryotic transcription: lessons from studies on DNA tumor viruses. Genes Dev. 2:267-281.
  • Kageyama, R., G. T. Merlino, and I. Pastan. 1989. Nuclear factor ETF specifically stimulates transcription from promoters without a TATA box. J. Biol. Chem. 264:15508-15514.
  • Koikeda, S., R. Ibuki, Y. Sawada, K. Nagata, H. Shibata, Y. Masamune, and Y. Nakanishi. 1990. Nuclear factor I stimulates transcription of the adenovirus 12 EIA gene in a cell-free system. Biochim. Biophys. Acta 1048:85-92.
  • Lennard, A. C., and J. M. Egly. 1987. The bidirectional upstream element of the adenovirus-2 major late promoter binds a single monomelic molecule of the upstream factor. EMBO J. 6:3027-3034.
  • Lennard, A. C., H. W. D. Matthes, J. M. Egly, and P. Chambon. 1989. Stereospecific relationships between elements in an SV40/adenovirus-2 heterologous promoter. Nucleic Acids Res. 17:6903-6914.
  • Lewin, B. 1990. Commitment and activation of Pol II promoters: a tail of protein-protein interactions. Cell 61:1161-1164.
  • Lichsteiner, S., J. Wuarin, and U. Schibler. 1987. The interplay of DNA-binding proteins on the promoter of the mouse albumin gene. Cell 51:963-973.
  • Luckow, B., and G. Schutz. 1987. CAT constructions with multiple unique restriction sites for the functional analysis of eukaryotic promoters and regulatory elements. Nucleic Acids Res. 15:5490.
  • Maniatis, T., E. F. Fritsch, and J. Sambrook. 1982. Molecular cloning: a laboratory manual, p. 89-94. Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.
  • Meisterernst, M., L. Rogge, R. Foeckler, M. Karaghiosoff, and E. L. Winnacker. 1989. Structural and functional organization of a porcine gene coding for nuclear factor I. Biochemistry 28:8191-8200.
  • Mermod, N., E. A. O’Neill, T. J. Kelly, and R. Tjian. 1989. The proline-rich transcriptional activator of CTF/NF-1 is distinct from the replication and DNA binding domain. Cell 58:741-753.
  • Miksicek, R., U. Borgmeyer, and J. Nowock. 1987. Interaction of the TGGCA-binding protein with upstream sequences is required for efficient transcription of mouse mammary tumor virus. EMBO J. 5:1355-1360.
  • Miller, J. H. 1972. Experiments in molecular genetics, p. 352-355. Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.
  • Miyamoto, N. G., V. Moncollin, M. Wintzerith, R. Hen, J. M. Egly, and P. Chambon. 1984. Stimulation of in vitro transcription by the upstream element of the adenovirus-2 major late promoter involves a specific factor. Nucleic Acids Res. 12:8779-8798.
  • Nagata, K., R. A. Guggenheimer, T. Enomoto, J. H. Liehy, and J. Hurwitz. 1982. Adenovirus DNA replication in vitro: identification of a host factor that stimulates synthesis of the preterminal protein-dCMP complex. Proc. Natl. Acad. Sci. USA 79:6438-6442.
  • Nagata, K., R. A. Guggenheimer, and J. Hurwitz. 1983. Specific binding of a cellular DNA replication protein to the origin of replication of adenovirus DNA. Proc. Natl. Acad. Sci. USA 80:6177-6181.
  • Paonessa, G., F. Gounari, R. Frank, and R. Cortese. 1988. Purification of a NFI-like DNA-binding protein from rat liver and cloning of the corresponding cDNA. EMBO J. 7:3115-3123.
  • Pina, B., U. Bruggemeier, and M. Beato. 1990. Nucleosome positioning modulates accessibility of regulatory proteins to the mouse mammary tumor virus promoter. Cell 60:719-731.
  • Ptashne, M., and A. A. F. Gann. 1990. Activators and targets. Nature (London) 346:329-331.
  • Pugh, B. F., and R. Tjian. 1990. Mechanism of transcriptional activation by Spi: evidence for coactivators. Cell 61:1187-1197.
  • Rawlins, D. R., P. J. Rosenfeld, R. J. Wides, M. D. Challberg, and T. J. Kelly, Jr. 1984. Structure and function of the adenovirus origin of replication. Cell 37:309-319.
  • Rossi, P., G. Karsenty, A. B. Roberts, N. S. Roche, M. Sporn, and B. de Crombrugghe. 1988. A nuclear factor I binding site mediates the transcriptional activation of a type I collagen promoter by transforming growth factor-β. Cell 52:405-414.
  • Ruden, D. M., J. Ma, and M. Ptashne. 1988. No strict alignment is required between a transcriptional activator binding site and the “TATA box” of a yeast gene. Proc. Natl. Acad. Sci. USA 85:4262-4266.
  • Rupp, R. A. W., U. Kruse, G. Multhaup, U. Gobel, K. Beyreuther, and A. E. Sippel. 1990. Chicken NFI/TGGCA proteins are encoded by at least three independent genes: NFI-A, NFI-B and NFI-C with homologues in mammalian genomes. Nucleic Acids Res. 18:2607-2616.
  • Santoro, C., N. Mermod, P. C. Andrews, and R. Tjian. 1988. A family of human CCAAT-box-binding proteins active in transcription and DNA replication: cloning and expression of multiple cDNAs. Nature (London) 334:218-224.
  • Shaul, Y., R. Ben-Levy, and T. De-Medina. 1986. High affinity site for nuclear factor I next to the hepatitis B virus S gene promoter. EMBO J. 5:1967-1971.
  • Sleigh, M. J. 1986. A nonchromatographic assay for expression of the chloramphenicol acetyltransferase gene in eukaryotic cells. Anal. Biochem. 156:251-256.
  • Takahashi, K., M. Vigneron, H. Matthes, A. Wilderman, M. Zenke, and P. Chambon. 1986. Requirement of stereospecific alignments for initiation from the simian virus 40 early promoter. Nature (London) 319:121-126.
  • Wides, R. J., M. D. Challberg, D. R. Rawlins, and T. J. Kelly. 1987. Adenovirus origin of DNA replication: sequence requirements for replication in vitro. Mol. Cell. Biol. 7:864-874.
  • Wirth, T., L. Staudt, and D. Baltimore. 1987. An octamer oligonucleotide upstream of a TATA motif is sufficient for lymphoid-specific promoter activity. Nature (London) 329:174-178.

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