spacer gif spacer gif spacer gif spacer gif spacer gif
QUICK SEARCH:   [advanced]


spacer gif
     Home     Help     Feedback     Subscriptions     Archive     Search     Table of Contents    

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Lu, B. Y.
Right arrow Articles by Eissenberg, J. C.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Lu, B. Y.
Right arrow Articles by Eissenberg, J. C.
Social Bookmarking
Add to CiteULike   Add to Complore   Add to Connotea   Add to Del.icio.us   Add to Digg   Add to Reddit   Add to Technorati   Add to Twitter  
What's this?
Allshire, R. C., Javarzat, J.-P., Redhead, N. J. and Cranston, G (1994). Position effect variegation at fission yeast centromeres. Cell 76, 157-169.[Medline]

Aparicio, O. M. and Gottschling, D. E (1994). Overcoming telomeric silencing: a trans -activator competes to establish gene expression in a cell cycle-dependent way. Genes Dev 8, 1133-1146.[Abstract/Free Full Text]

Baker, W. K (1967). A clonal system of differential gene activity in Drosophila. Dev. Biol 16, 1-17.[Medline]

Bishop, C. P (1992). Evidence for intrinsic differences in the formation of chromatin domains in Drosophila melanogaster. Genetics 132, 1063-1069.[Abstract]

Brown, K. E., Guest, S. S., Smale, S. T., Hahm, K., Merkenschlager, M. and Fisher, A. G (1997). Association of transcriptionally silent genes with Ikaros complexes at centromeric heterochromatin. Cell 91, 845-854.[Medline]

Csink, A. K. and Henikoff, S (1996). Genetic modification of heterochromatic association and nuclear organization in Drosophila. Nature 381, 529-531.[Medline]

de Nooij, J. C. and Hariharan, I. K (1995). Uncoupling cell fate determination from patterned cell division in the Drosophila eye. Science 270, 983-985.[Abstract/Free Full Text]

Dura, J (1981). Stage dependent synthesis of heat shock induced proteins in early embryos of Drosophila melanogaster. Mol. Gen. Genet 184, 381-385.[Medline]

Edgar, B. A. and O'Farrell, P. H (1989). Genetic control of cell division patterns in the Drosophila embryo. Cell 57, 177-187.[Medline]

Edgar, B. A. and O'Farrell, P. H (1990). The three postblastoderm cell cycles of Drosophila embryogenesis are regulated in G2by string. Cell 6, 469-480.

Edgar, B. A. and Schubiger, G (1986). Parameters controlling transcriptional activation during early Drosophila development. Cell 44, 871-877.[Medline]

Eissenberg, J. C., Ge, Y.-W. and Hartnett, T (1994). Increased phosphorylation of HP1, a heterochromatin-associated protein of Drosophila, is correlated with heterochromatin assembly. J. Biol. Chem 269, 21315-21321.[Abstract/Free Full Text]

Fjose, A., Polito, L. C., Weber, U. and Gehring, W. J (1984). Developmental expression of the white locus of Drosophila melanogaster. EMBO J 3, 2087-2094.[Medline]

Foe, V. E. and Alberts, B. M (1985). Reversible chromosome condensation induced in Drosophila embryos by anoxia: visualization of interphase nuclear organization. J. Cell Biol 100, 1623-1636.[Abstract/Free Full Text]

Fristrom, J. W., Logan, W. R. and Murphy, C (1973). The synthetic and minimal culture requirements for evagination of imaginal discs of Drosophila melanogaster in vitro. Dev. Biol 33, 441-456.[Medline]

Glaser, R.L. and Spradling, A.C (1994). Unusual properties of genomic DNA molecules spanning the euchromatic-heterochromatic junction of a Drosophila minichromosome. Nucl. Acids Res 22, 5068-5075.[Abstract/Free Full Text]

Gottschling, D. E (1992). Telomere-proximal DNA in Saccharomyces cerevisiae is refractory to methyltransferase activity in vivo. Proc. Nat. Acad. Sci. USA 89, 4062-4065.[Abstract/Free Full Text]

Grigliatti, T. A (1991). Position-effect variegation \320 an assay for nonhistone chromosomal proteins and chromatin assembly and modifying factors. Meth. Cell Biol 35, 588-625.

Hadorn, E., Gsell, R. and Schultz, J (1970). Stability of a position-effect variegation in normal and transdetermined larval blastemas from Drosophila melanogaster. Proc. Nat. Acad. Sci. USA 65, 633-637.[Abstract/Free Full Text]

Hayashi, S., Hirose, S., Metcalfe, T. and Shirras, A. D (1993). Control of imaginal cell development by the escargot gene of Drosophila. Development 118, 105-115.[Abstract]

Henderson, D. S., Banga, S. S., Grigliatti, T. A. and Boyd, J. B (1994). Mutagen sensitivity and suppression of position-effect variegation result from mutations in mus209 , the Drosophila gene encoding PCNA. EMBO J 13, 1450-1459.[Medline]

Henikoff, S (1981). Position-effect variegation and chromosome structure of a heat shock puff in Drosophila. Chromosoma 83, 381-393.[Medline]

Henikoff, S (1996). Dosage-dependent modification of position-effect variegation in Drosophila. BioEssays 18, 401-409.[Medline]

Hiraoka, Y., Dernburg, A. F., Parmelee, S. J., Rykowski, M. C., Agard, D. A. and Sedat, J. W (1993). The onset of homologous chromosome pairing during Drosophila melanogaster embryogenesis. J. Cell Biol 120, 591-600.[Abstract/Free Full Text]

Howard, K. R. and Struhl, G (1990). Decoding positional information: regulation of the pair-rule gene hairy. Development 110, 1223-1231.[Abstract/Free Full Text]

Hunt, S. M. N., Wilkins, M. R., Stokes, H. W., Daggard, G. E. and Frankham, R (1992). Induced expression of a Drosophila hsp70 promoter-fusion transgene is reduced after repeated heat shocks. Genet. Res 59, 183-188.[Medline]

Karpen, G. H. and Spradling, A. C (1990). Reduced DNA polytenization of a minichromosome region undergoing position-effect variegation in Drosophila. Cell 63, 97-107.[Medline]

Kellum, R. and Schedl, P (1991). A position-effect assay for boundaries of higher order chromatin conformation. Cell 64, 941-950.[Medline]

Lee, S. and Gross, D. S (1993). Conditional silencing: The HMRE mating-type silencer exerts a rapidly reversible positon effect on the yeast HSP82 heat shock gene. Mol. Cell. Biol 13, 727-738.[Abstract/Free Full Text]

Locke, J., Kotarski, M. A. and Tartof, K. D (1988). Dosage-dependent modifiers of position effect variegation in Drosophila and a mass action model that explains their effects. Genetics 120, 181-198.[Abstract/Free Full Text]

Lu, B. Y., Bishop, C. P. and Eissenberg, J. C (1996). Developmental timing and tissue specificity of heterochromatin-mediated silencing. EMBO J 15, 1323-1332.[Medline]

Lyon, M. F (1961). Gene action in the X-chromosome of the mouse ( mus musculus L.). Nature 190, 372-373.[Medline]

Mahowald, A. P. and Hardy, P. A (1985). Genetics of Drosophila embryogenesis. Ann. Rev. Genet 19, 149-177.[Medline]

Miller, A. M. and Nasmyth, K. A (1984). Role of DNA replication in the repression of silent mating type loci in yeast. Nature 312, 247-251.[Medline]

Nasmyth, K (1982). The regulation of yeast mating-type chromatin structure by SIR: an action at a distance affecting both transcription and transposition. Cell 30, 567-578.[Medline]

Pak, D. T. S., Pflumm, M., Chesnokov, I., Huang, D. W., Kellum, R., Marr, J., Romanowski, P. and Botchan M. R (1997). Association of the origin recognition complex with heterochromatin and HP1 in higher eukaryotes. Cell 91, 311-323.[Medline]

Pankratz, M. J., Seifert, E., Gerwin, N., Billi, B., Nauber, U. and J\212ckle, H (1990). Gradients of Kruppel and knirps gene products direct pair-rule gene stripe patterning in the posterior region of the Drosophila embryo. Cell 61, 309-317.[Medline]

Pillus, L. and Rine, J (1989). Epigenetic inheritance of transcriptional states in S. cerevisiae. Cell 59, 637-647.[Medline]

Renauld, H. R., Aparicio, O. M., Zierath, P. D., Billington, B. L., Chhablani, S. K. and Gottschling, D. E (1993). Silent domains are assembled continuously from the telomere and are defined by promoter distance and strength, and by SIR3 dosage. Genes Dev 7, 1133-1145.[Abstract/Free Full Text]

Richardson, H. E., O'Keefe, L. V., Marty, T. and Saint, R (1995). Ectopic cyclin E expression induces premature entry into S phase and disrupts pattern formation in the Drosophila eye imaginal disc. Development 121, 3371-3379.[Abstract]

Seum, C., Spierer, A., Pauli, D., Szidonya, J., Reuter, G. and Spierer, P (1996). Position-effect variegation in Drosophila depends on the dose of the gene encoding the E2F transcriptional activator and cell cycle regulator. Development 122, 1949-1956.[Abstract]

Simon, J. A., Sutton, C. A., Lobell, R. B., Glaser, R. L. and Lis, J. T (1985). Determinants of heat shock-induced chromosome puffing. Cell 40, 805-817.[Medline]

Sinclair, D. A. R., Mottus, R. C. and Grigliatti, T. A (1983). Genes which suppress position-effect variegation in Drosophila melanogaster are clustered. Mol. Gen. Genet 191, 326-333.

Spofford, J. B (1969). Single-locus modification of position-effect variegation in Drosophila melanogaster. II. Region 3C loci. Genetics 62, 555-571.[Free Full Text]

Steller, H. and Pirrotta, V (1985). Expression of the Drosophila white gene under the control of the hsp70 heat shock promoter. EMBO J 4, 3765-3722.[Medline]

Svensson, K., Mattsson, R., James, T. C., Wentzel, P., Pilartz, M., MacLaughlin, J., Miller, S. J., Olsson, T., Eriksson, U. J. and Ohlsson, R (1998). The paternal allele of the H19 gene is progressively silenced during early mouse development: the acetylation status of histones may be involved in the generation of variegated expression patterns. Development 125, 61-69.[Abstract]

Tam, P. P. L., Zhou, S. X. and Tan, S.-S (1994). X-chromosome activity of the mouse primordial germ cells revealed by the expression of an X-linked lacZ transgene. Development 120, 2925-2932.[Abstract]

Tan, S.-S., Williams, E. A. and Tam, P. P. L (1993). X-chromosome inactivation occurs at different times in different tissues of the postimplantation mouse embryos. Nature Genetics 3, 170-174.[Medline]

Tomlinson, A (1990). The molecular basis of pattern formation in the developing compound eye of Drosophila. Sem. Cell Biol 1, 229-239.[Medline]

Topol, J., Ruden, D. M. and Parker, C. S (1985). Sequences required for in vitro transcriptional activation of a Drosophila hsp 70 gene. Cell 42, 527-537.[Medline]

Velazquez, J. M., Sonoda, S., Bugaisky, G. and Lindquist, S (1983). Is the major Drosophila heat shock protein present in cells that have not been heat shocked?. J. Cell Biol 96, 286-290.[Abstract/Free Full Text]

Vlassova, I. E., Graphodatsky, A. S., Belyaeva, E. S. and Zhimulev, I. F (1991). Constitutive heterochromatin in early embryogenesis of Drosophila melanogaster. Mol. Gen. Genet 229, 316-318.[Medline]

Weiler, K. S. and Wakimoto, B. T (1995). Heterochromatin and gene expression in Drosophila. Ann. Rev. Genet 29, 577-605.[Medline]

Wallrath, L. L. and Elgin, S. C. R (1995). Position effect variegation in Drosophila is associated with an altered chromatin structure. Genes Dev 9, 1263-1277.[Abstract/Free Full Text]

Walters, M. C., Magis, W., Fiering, S., Eidemiller, J., Scalzo, D., Groudine, M. and Martin, D. I. K (1996). Transcriptional enhancers act in cis to suppress position-effect variegation. Genes Dev 10, 185-195.[Abstract/Free Full Text]
Add to CiteULike CiteULike   Add to Complore Complore   Add to Connotea Connotea   Add to Del.icio.us Del.icio.us   Add to Digg Digg   Add to Reddit Reddit   Add to Technorati Technorati   Add to Twitter Twitter    What's this?


This article has been cited by other articles:


Home page
 BioinformaticsHome page
A. Marco, C. Konikoff, T. L. Karr, and S. Kumar
Relationship between gene co-expression and sharing of transcription factor binding sites in Drosophila melanogaster
Bioinformatics, October 1, 2009; 25(19): 2473 - 2477.
[Abstract] [Full Text] [PDF]

Home page
 GeneticsHome page
X. Deng, S. K. Koya, Y. Kong, and V. H. Meller
Coordinated Regulation of Heterochromatic Genes in Drosophila melanogaster Males
Genetics, June 1, 2009; 182(2): 481 - 491.
[Abstract] [Full Text] [PDF]

Home page
 GeneticsHome page
B. Brower-Toland, N. C. Riddle, H. Jiang, K. L. Huisinga, and S. C. R. Elgin
Multiple SET Methyltransferases Are Required to Maintain Normal Heterochromatin Domains in the Genome of Drosophila melanogaster
Genetics, April 1, 2009; 181(4): 1303 - 1319.
[Abstract] [Full Text] [PDF]

Home page
 Genes Dev.Home page
M. S. Longworth, A. Herr, J.-Y. Ji, and N. J. Dyson
RBF1 promotes chromatin condensation through a conserved interaction with the Condensin II protein dCAP-D3
Genes & Dev., April 15, 2008; 22(8): 1011 - 1024.
[Abstract] [Full Text] [PDF]

Home page
 Genes Dev.Home page
B. Brower-Toland, S. D. Findley, L. Jiang, L. Liu, H. Yin, M. Dus, P. Zhou, S. C.R. Elgin, and H. Lin
Drosophila PIWI associates with chromatin and interacts directly with HP1a
Genes & Dev., September 15, 2007; 21(18): 2300 - 2311.
[Abstract] [Full Text] [PDF]

Home page
 Hum Mol GenetHome page
S. Bottardi, V. Bourgoin, N. Pierre-Charles, and E. Milot
Onset and inheritance of abnormal epigenetic regulation in hematopoietic cells
Hum. Mol. Genet., February 15, 2005; 14(4): 493 - 502.
[Abstract] [Full Text] [PDF]

Home page
 Genes Dev.Home page
A. Ebert, G. Schotta, S. Lein, S. Kubicek, V. Krauss, T. Jenuwein, and G. Reuter
Su(var) genes regulate the balance between euchromatin and heterochromatin in Drosophila
Genes & Dev., December 1, 2004; 18(23): 2973 - 2983.
[Abstract] [Full Text] [PDF]

Home page
 Mol. Cell. Biol.Home page
F.-L. Sun, K. Haynes, C. L. Simpson, S. D. Lee, L. Collins, J. Wuller, J. C. Eissenberg, and S. C. R. Elgin
cis-Acting Determinants of Heterochromatin Formation on Drosophila melanogaster Chromosome Four
Mol. Cell. Biol., September 15, 2004; 24(18): 8210 - 8220.
[Abstract] [Full Text] [PDF]

Home page
 Genes Dev.Home page
F. Greil, I. van der Kraan, J. Delrow, J. F. Smothers, E. de Wit, H. J. Bussemaker, R. van Driel, S. Henikoff, and B. van Steensel
Distinct HP1 and Su(var)3-9 complexes bind to sets of developmentally coexpressed genes depending on chromosomal location
Genes & Dev., November 15, 2003; 17(22): 2825 - 2838.
[Abstract] [Full Text] [PDF]

Home page
 GeneticsHome page
E. S. Belyaeva, L. V. Boldyreva, E. I. Volkova, R. A. Nanayev, A. A. Alekseyenko, and I. F. Zhimulev
Effect of the Suppressor of Underreplication (SuUR) Gene on Position-Effect Variegation Silencing in Drosophila melanogaster
Genetics, November 1, 2003; 165(3): 1209 - 1220.
[Abstract] [Full Text] [PDF]

Home page
 Genes Dev.Home page
K. Ayyanathan, M. S. Lechner, P. Bell, G. G. Maul, D. C. Schultz, Y. Yamada, K. Tanaka, K. Torigoe, and F. J. Rauscher III
Regulated recruitment of HP1 to a euchromatic gene induces mitotically heritable, epigenetic gene silencing: a mammalian cell culture model of gene variegation
Genes & Dev., August 1, 2003; 17(15): 1855 - 1869.
[Abstract] [Full Text] [PDF]

Home page
 Mol Biol EvolHome page
D. A. Petrov, Y. T. Aminetzach, J. C. Davis, D. Bensasson, and A. E. Hirsh
Size Matters: Non-LTR Retrotransposable Elements and Ectopic Recombination in Drosophila
Mol. Biol. Evol., June 1, 2003; 20(6): 880 - 892.
[Abstract] [Full Text] [PDF]

Home page
 GeneticsHome page
J. A. George and M.-L. Pardue
The Promoter of the Heterochromatic Drosophila Telomeric Retrotransposon, HeT-A, Is Active When Moved Into Euchromatic Locations
Genetics, February 1, 2003; 163(2): 625 - 635.
[Abstract] [Full Text] [PDF]

Home page
 GeneticsHome page
A. K. Csink, A. Bounoutas, M. L. Griffith, J. F. Sabl, and B. T. Sage
Differential Gene Silencing by trans-heterochromatin in Drosophila melanogaster
Genetics, January 1, 2002; 160(1): 257 - 269.
[Abstract] [Full Text] [PDF]

Home page
 Mol. Cell. Biol.Home page
F.-L. Sun, M. H. Cuaycong, and S. C. R. Elgin
Long-Range Nucleosome Ordering Is Associated with Gene Silencing in Drosophila melanogaster Pericentric Heterochromatin
Mol. Cell. Biol., April 15, 2001; 21(8): 2867 - 2879.
[Abstract] [Full Text]

Home page
 DevelopmentHome page
C. Brennan, T. Li, M Bender, F Hsiung, and K Moses
Broad-complex, but not ecdysone receptor, is required for progression of the morphogenetic furrow in the Drosophila eye
Development, January 1, 2001; 128(1): 1 - 11.
[Abstract] [PDF]

Home page
 GeneticsHome page
B. Y. Lu, P. C. R. Emtage, B. J. Duyf, A. J. Hilliker, and J. C. Eissenberg
Heterochromatin Protein 1 Is Required for the Normal Expression of Two Heterochromatin Genes in Drosophila
Genetics, June 1, 2000; 155(2): 699 - 708.
[Abstract] [Full Text]

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Lu, B. Y.
Right arrow Articles by Eissenberg, J. C.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Lu, B. Y.
Right arrow Articles by Eissenberg, J. C.
Social Bookmarking
Add to CiteULike   Add to Complore   Add to Connotea   Add to Del.icio.us   Add to Digg   Add to Reddit   Add to Technorati   Add to Twitter  
What's this?