Advanced search
Publication Cover
Molecular and Cellular Biology Volume 19, 1999 - Issue 5
Submit an article Journal homepage
12
Views
42
CrossRef citations to date
0
Altmetric
Cell Growth and Development

TAFII40 Protein Is Encoded by the e(y)1 Gene: Biological Consequences of Mutations

Aleksei Soldatov1 Department of the Control of Genetic Processes;2 Centre for Medical Research of Oslo University, Institute of Gene Biology;3 International Centre of Genetic Engineering and Biotechnology, Trieste, Italy
,
Elena Nabirochkina1 Department of the Control of Genetic Processes;3 International Centre of Genetic Engineering and Biotechnology, Trieste, Italy
,
Sofia Georgieva1 Department of the Control of Genetic Processes;2 Centre for Medical Research of Oslo University, Institute of Gene Biology;4 Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, Russia
,
Tatiana Belenkaja1 Department of the Control of Genetic Processes;2 Centre for Medical Research of Oslo University, Institute of Gene Biology
&
Pavel Georgiev1 Department of the Control of Genetic Processes;3 International Centre of Genetic Engineering and Biotechnology, Trieste, ItalyCorrespondence[email protected]
Pages 3769-3778 | Received 01 Dec 1997, Accepted 13 Jan 1999, Published online: 28 Mar 2023

REFERENCES

  • Altschul, S. F., W. Gish, W. Miller, E. W. Myers, and J. Lipman 1990. Basic local alignment search tool. J. Mol. Biol. 215:403–410.
  • Apone, L. M., C.-M. A. Virbasius, J. C. Reese, and J. Green 1996. Yeast TAFII90 is required for cell-cycle progression through G2/M but not for general transcription activation. Genes Dev. 10:2368–2380.
  • Ashburner, M. 1989. Drosophila: a laboratory manual. Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.
  • Belenkaya, T., K. Barseguyan, H. Hovhannisayn, I. Biryukova, E. Z. Kochieva, and J. Georgiev 1998. P element sequences can compensate a deletion of the yellow regulatory region in Drosophila melanogaster. Mol. Gen. Genet. 259:79–87.
  • Belenkaya, T., A. Soldatov, E. Nabirochkina, I. Birjukova, S. Georgieva, and J. Georgiev 1998. The allele of the polyhomeotic gene induced by P element insertion encodes a new chimeric protein, that negatively regulates the expression of P-induced alleles in the yellow locus of Drosophila melanogaster. Genetics 150:687–697.
  • Bickel, S., and J. Pirrotta 1990. Self-association of the Drosophila zeste protein is responsible for the transvection effects. EMBO J. 9:2959–2967.
  • Brou, C., S. Chaudhary, I. Davidson, Y. Lutz, J. Wu, J. M. Egly, L. Tora, and J. Chambon 1993. Distinct TFIID complexes mediate the effect of different transcriptional activators. EMBO J. 12:489–499.
  • Brou, C., J. Wu, S. Ali, E. Scheer, C. Lang, I. Davidson, P. Chambon, and J. Tora 1993. Different TBP-associated factors are required for mediating the stimulation of transcription in vitro by the acidic transactivator GAL-VP16 and the two nonacidic activation functions of the estrogen receptor. Nucleic Acids Res. 21:5–12.
  • Burke, T. W., and J. Kadonaga 1996. Drosophila TFIID binds to a conserved downstream basal promoter element that is present in many TATA-box-deficient promoters. Genes Dev. 10:711–724.
  • Burke, T. W., and J. Kadonaga 1997. The downstream core promoter element, DPE, is conserved from Drosophila to humans and is recognized by TAFII60 of Drosophila. Genes Dev. 11:3020–3031.
  • Burley, S. K., and J. Roeder 1996. Biochemistry and structural biology of transcription factor IID (TFIID). Annu. Rev. Biochem. 65:769–799.
  • Bustin, M., D. A. Lehn, and J. Lendsman 1990. Structural features of the HMG chromosomal proteins and their genes. Biochim. Biophys. Acta 1094:231–243.
  • Cai, H., and J. Levine 1995. Modulation of enhancer-promoter interactions by insulators in the Drosophila embryo. Nature 376:533–536.
  • Chen, J.-L., L. D. Attardi, C. P. Verrijzer, K. Yokomori, and J. Tjian 1994. Assembly of recombinant TFIID reveals differential coactivator requirements for distinct transcriptional activators. Cell 79:93–105.
  • Dubrovskaya, V., A.-C. Lavigne, I. Davidson, J. Acker, A. Staub, and J. Tora 1996. Distinct domains of hTAFII100 are required for functional interaction with transcription factor TFIIFb (RAP30) and incorporation into the TFIID complex. EMBO J. 15:3702–3712.
  • Fauvarque, M.-O., and J. Dura 1993. polyhomeotic regulatory sequences induce developmental regulator-dependent variegation and targeted P-element insertions in Drosophila. Genes Dev. 7:1508–1520.
  • Gause, M., S. Georgieva, and J. Georgiev 1996. Phenotypic reversion of the gypsy-induced mutation scD1 of Drosophila melanogaster by replicative transposition of a sc enhancer to the yellow gene and by mutations in the enhancer of yellow and zeste loci. Mol. Gen. Genet. 253:370–376.
  • Georgiev, P., and T. Kahn. Unpublished data.
  • Georgiev, P., and J. Kozycina 1996. Interaction between mutations in the suppressor of Hairy wing and modifier of mdg4 genes of Drosophila melanogaster affecting the phenotype of gypsy-induced mutations. Genetics 142:425–436.
  • Georgiev, P. G., and J. Gerasimova 1989. Novel genes influencing the expression of the yellow locus and mdg4 (gypsy) in Drosophila melanogaster. Mol. Gen. Genet. 220:121–126.
  • Georgiev, P. G., S. L. Kiselev, O. B. Simonova, and J. Gerasimova 1990. A novel transposition system in Drosophila melanogaster depending on the Stalker mobile genetic element. EMBO J. 9:2037–2044.
  • Georgiev, P. G. 1994. Identification of mutations in three genes that interact with zeste in the control of white gene expression in Drosophila melanogaster. Genetics 138:733–739.
  • Geyer, P. K., and J. Corces 1987. Separate regulatory elements are responsible for the complex pattern of tissue-specific and developmental transcription of the yellow locus in Drosophila melanogaster. Genes Dev. 1:996–1004.
  • Geyer, P. K., and J. Corces 1992. DNA position-specific repression of transcription by a Drosophila zinc finger protein. Genes Dev. 6:1865–1873.
  • Geyer, P. K., M. M. Green, and J. Corces 1988. Mutant gene phenotypes mediated by a Drosophila melanogaster tetrotransposon require sequences homologous to mammalian enhancers. Proc. Natl. Acad. Sci. USA 85:8593–8597.
  • Geyer, P. K., M. M. Green, and J. Corces 1998. Reversion of a gypsy-induced mutation at the yellow (y) locus of Drosophila melanogaster is associated with the insertion of a newly defined transposable element. Proc. Natl. Acad. Sci. USA 85:3938–3942.
  • Geyer, P. K., K. L. Richardson, V. G. Corces, and J. Green 1988. Genetic instability in Drosophila melanogaster: P -element mutagenesis by gene conversion. Proc. Natl. Acad. Sci. USA 85:6455–6459.
  • Geyer, P. K., C. Spana, and J. Corces 1986. On the molecular mechanism of gypsy-induced mutations at the yellow locus of Drosophila melanogaster. EMBO J. 5:2657–2662.
  • Goodrich, J. A., T. Hoey, C. J. Thut, A. Admon, and J. Tjian 1993. Drosophila TAFII40 interacts with both VP16 activation domain and the basal transcription factor TFIIB. Cell 75:519–530.
  • Harrison, D. A., D. A. Gdula, R. S. Coyne, and J. Corces 1993. A leucine zipper domain of the suppressor of Hairy-wing protein mediates its repressive effect on enhancer function. Genes Dev. 7:1966–1978.
  • Hoffman, A., C.-M. Chiang, T. Oelgeschlager, X. Xie, S. K. Burley, Y. Nakatani, and J. Roeder 1996. A histone octamer-like structure within TFIID. Nature 380:356–359.
  • Holdridge, C., and J. Dorsett 1991. Repression of hsp70 heat shock gene transcription by the suppressor of Hairy-wing protein of Drosophila melanogaster. Mol. Cell. Biol. 11:1894–1990.
  • Jack, J., D. Dorsett, Y. DeLotto, and J. Liu 1991. Expression of the cut locus in the Drosophila wing margin is required for cell type specification and is regulated by a distant enhancer. Development 113:735–747.
  • Jacq, X., C. Brou, Y. Lutz, I. Davidson, P. Chambon, and J. Tora 1994. Human TAFII30 is present in a distinct TFIID complex and is required for transcriptional activation by the estrogen receptor. Cell 79:107–117.
  • Kares, R. E., and J. Rubin 1984. Analysis of P transposable element functions in Drosophila. Cell 38:135–146.
  • Klemm, R. D., J. A. Goodrich, S. Zhou, and J. Tjian 1995. Molecular cloning and expression of the 32-kDa subunit of human TFIID reveals interactions with Vp16 and TFIIB that mediate transcriptional activation. Proc. Natl. Acad. Sci. USA 92:5788–5792.
  • Levis, R., T. Hazelrigg, and J. Rubin 1985. Separable cis-acting control elements for expression of the white gene of Drosophila. EMBO J. 4:3489–3499.
  • Lindsley, D. L., G. G. Zimm 1992. The genome of Drosophila melanogaster. Academic Press, New York, N.Y.
  • Lu, H., and J. Levine 1995. Human TAFII31 protein is a transcriptional coactivator of the p53 protein. Proc. Natl. Acad. Sci. USA 92:5154–5158.
  • Maes, M., and J. Messens 1992. Phenol as grinding material in RNA preparations. Nucleic Acids Res. 20:4374.
  • Moqtaderi, Z., Y. Bai, D. Poon, P. A. Weil, and J. Struhl 1996. TBP-associated factors are not generally required for transcriptional activation. Nature 382:188–191.
  • Parkhurst, S. M., D. A. Harrison, M. P. Remington, C. Spane, R. L. Kelley, R. S. Coyne, and J. Corces 1988. The Drosophila su(Hw) gene, which controls the phenotypic effect of the gypsy transposable element, encodes a putative DNA-binding protein. Genes Dev. 2:1205–1215.
  • Pirrotta, V. 1988. Vectors for P -mediated transformation in Drosophila, p. 437–445. In R. L. Rodriguez, D. T. Denhardt (ed.), Vector: a survey of molecular cloning vectors and their uses. Butterworths, Boston, Mass.
  • Pirrotta, V., E. Manet, E. Harbon, S. E. Bickel, and J. Benson 1987. Structure and sequence of the Drosophila zeste gene. EMBO J. 6:791–799.
  • Pirrotta, V., H. Steller, and J. Bozzetti 1985. Multiple upstream regulatory elements control the expression of the Drosophila white gene. EMBO J. 4:3501–3508.
  • Platero, J. S., E. J. Sharp, P. N. Adler, and J. Eissenberg 1996. In vivo assay for protein-protein interactions using Drosophila chromosomes. Chromosoma 104:393–404.
  • Reese, J. C., L. Apone, S. S. Walker, L. A. Griffin, and J. Green 1994. Yeast TAFIIs in a multisubunit complex required for activated transcription. Nature 371:523–527.
  • Roeder, R. 1996. The role of general initiation factors in transcription by RNA polymerase II. Trends Biochem. Sci. 21:327–335.
  • Roseman, R. R., E. A. Johnson, C. K. Rodesch, M. Bjerke, R. N. Nagoshi, and J. Geyer 1995. A P element containing suppressor of Hairy-wing binding regions has novel properties for mutagenesis in Drosophila melanogaster. Genetics 141:1061–1074.
  • Roseman, R. R., V. Pirrotta, and J. Geyer 1993. The su(Hw) protein insulates expression of the Drosophila melanogaster white gene from chromosomal position-effects. EMBO J. 12:435–442.
  • Rubin, G. M., and J. Spradling 1982. Genetic transformation of Drosophila with transposable element vectors. Science 218:348–353.
  • Sambrook, J., E. F. Fritsch, T. Maniatis 1989. Molecular cloning: a laboratory manual. Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.
  • Sauer, F., D. A. Wassarman, J. M. Rubin, and J. Tijan 1996. TAFIIs mediate activation of transcription in the Drosophila embryo. Cell 87:1271–1284.
  • Scott, K. S., and J. Geyer 1995. Effects of the su(Hw) insulator protein on the expression of the divergently transcribed Drosophila yolk protein genes. EMBO J. 14:6258–6279.
  • Soldatov, A. V., and J. Nabirochkina 1996. A new method for cloning Drosophila melanogaster genes marked with highly copied mobile genetic element. Russ. J. Genet. 32:1497–1500.
  • Spradling, A. C., and J. Rubin 1982. Transposition of cloned P elements into germlike chromosomes. Science 218:341–347.
  • Tansey, W. P., and J. Herr 1997. TAFs: guilt by association. Cell 88:729–732.
  • Thut, C. J., J. L. Chen, R. Klemm, and J. Tjian 1995. p53 transcriptional activation mediated by coactivators TAFII40 and TAFII60. Science 267:100–104.
  • Tjian, R., and J. Maniatis 1994. Transcriptional activation: a complex puzzle with few easy pieces. Cell 77:5–8.
  • Verrijzer, C. P., and J. Tjian 1996. TAFs mediate transcriptional activation and promoter selectivity. Trends Biochem. Sci. 21:338–342.
  • Qian, S., B. Varjavand, and J. Pirrotta 1992. Molecular analysis of the zeste-white interaction reveals a promoter-proximal element essential for distant enhancer-promoter communication. Genetics 131:79–90.
  • Walker, S. S., J. C. Reese, L. M. Apone, and J. Green 1996. Transcription activation in cells lacking TAFIIs. Nature 382:185–188.
  • Walker, S. S, W.-C. Shen, J. C. Reese, L. M. Apone, and J. Green 1997. Yeast TAFII145 required for transcription of G1/S cyclin genes and regulated by the cellular growth state. Cell 90:607–614.
  • Wang, E. H., and J. Tjian 1994. Promoter-selective transcriptional defect in cell cycle mutant ts13 rescued by hTAFII250. Science 263:811–814.
  • Xie, X., T. Kokubo, S. L. Cohen, U. A. Mirza, A. Hoffmann, B. T. Chait, R. G. Roeder, Y. Nakatani, and J. Burley 1996. Structural similarity between TAFs and the heterotetrameric core of the histone octamer. Nature 380:316–322.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.