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Items: 1 to 50 of 51

1.

Polycomb and Trithorax Group Genes in Drosophila.

Kassis JA, Kennison JA, Tamkun JW.

Genetics. 2017 Aug;206(4):1699-1725. doi: 10.1534/genetics.115.185116. Review.

2.

A novel approach for studying histone H1 function in vivo.

Siriaco G, Deuring R, Mawla GD, Tamkun JW.

Genetics. 2015 May;200(1):29-33. doi: 10.1534/genetics.114.170514. Epub 2015 Mar 23.

3.

Transcriptional regulation by trithorax-group proteins.

Kingston RE, Tamkun JW.

Cold Spring Harb Perspect Biol. 2014 Oct 1;6(10):a019349. doi: 10.1101/cshperspect.a019349. Review.

4.

A histone timer for zygotic genome activation.

Siriaco G, Tamkun JW.

Dev Cell. 2013 Sep 30;26(6):558-9. doi: 10.1016/j.devcel.2013.09.015.

5.

The trithorax group proteins Kismet and ASH1 promote H3K36 dimethylation to counteract Polycomb group repression in Drosophila.

Dorighi KM, Tamkun JW.

Development. 2013 Oct;140(20):4182-92. doi: 10.1242/dev.095786. Epub 2013 Sep 4.

6.

The Drosophila MI-2 chromatin-remodeling factor regulates higher-order chromatin structure and cohesin dynamics in vivo.

Fasulo B, Deuring R, Murawska M, Gause M, Dorighi KM, Schaaf CA, Dorsett D, Brehm A, Tamkun JW.

PLoS Genet. 2012;8(8):e1002878. doi: 10.1371/journal.pgen.1002878. Epub 2012 Aug 9.

7.

Drosophila ISWI regulates the association of histone H1 with interphase chromosomes in vivo.

Siriaco G, Deuring R, Chioda M, Becker PB, Tamkun JW.

Genetics. 2009 Jul;182(3):661-9. doi: 10.1534/genetics.109.102053. Epub 2009 Apr 20.

8.

Drosophila Kismet regulates histone H3 lysine 27 methylation and early elongation by RNA polymerase II.

Srinivasan S, Dorighi KM, Tamkun JW.

PLoS Genet. 2008 Oct;4(10):e1000217. doi: 10.1371/journal.pgen.1000217. Epub 2008 Oct 10.

9.

Genetic identification of a network of factors that functionally interact with the nucleosome remodeling ATPase ISWI.

Burgio G, La Rocca G, Sala A, Arancio W, Di Gesù D, Collesano M, Sperling AS, Armstrong JA, van Heeringen SJ, Logie C, Tamkun JW, Corona DF.

PLoS Genet. 2008 Jun 6;4(6):e1000089. doi: 10.1371/journal.pgen.1000089.

10.

A new role for histone tail modifications in transcription elongation.

Hartzog GA, Tamkun JW.

Genes Dev. 2007 Dec 15;21(24):3209-13. No abstract available.

11.

Stalled polymerases and transcriptional regulation.

Tamkun JW.

Nat Genet. 2007 Dec;39(12):1421-2. No abstract available.

PMID:
18046324
12.

ISWI regulates higher-order chromatin structure and histone H1 assembly in vivo.

Corona DF, Siriaco G, Armstrong JA, Snarskaya N, McClymont SA, Scott MP, Tamkun JW.

PLoS Biol. 2007 Sep;5(9):e232.

13.

Transcription saga tells developmental stories.

Graves BJ, Tamkun JW.

Development. 2006 Nov;133(22):4393-7. Review. No abstract available.

14.

Genetic screens for enhancers of brahma reveal functional interactions between the BRM chromatin-remodeling complex and the delta-notch signal transduction pathway in Drosophila.

Armstrong JA, Sperling AS, Deuring R, Manning L, Moseley SL, Papoulas O, Piatek CI, Doe CQ, Tamkun JW.

Genetics. 2005 Aug;170(4):1761-74. Epub 2005 Jun 8.

15.

The Drosophila trithorax group protein Kismet facilitates an early step in transcriptional elongation by RNA Polymerase II.

Srinivasan S, Armstrong JA, Deuring R, Dahlsveen IK, McNeill H, Tamkun JW.

Development. 2005 Apr;132(7):1623-35. Epub 2005 Feb 23.

16.

Multiple roles for ISWI in transcription, chromosome organization and DNA replication.

Corona DF, Tamkun JW.

Biochim Biophys Acta. 2004 Mar 15;1677(1-3):113-9. Review.

PMID:
15020052
17.

Genetic and cytological analysis of Drosophila chromatin-remodeling factors.

Corona DF, Armstrong JA, Tamkun JW.

Methods Enzymol. 2004;377:70-85. No abstract available.

PMID:
14979019
18.

Histone chaperone ASF1 cooperates with the Brahma chromatin-remodelling machinery.

Moshkin YM, Armstrong JA, Maeda RK, Tamkun JW, Verrijzer P, Kennison JA, Karch F.

Genes Dev. 2002 Oct 15;16(20):2621-6.

19.

The Drosophila BRM complex facilitates global transcription by RNA polymerase II.

Armstrong JA, Papoulas O, Daubresse G, Sperling AS, Lis JT, Scott MP, Tamkun JW.

EMBO J. 2002 Oct 1;21(19):5245-54.

20.

Programming off and on states in chromatin: mechanisms of Polycomb and trithorax group complexes.

Simon JA, Tamkun JW.

Curr Opin Genet Dev. 2002 Apr;12(2):210-8. Review.

PMID:
11893495
21.

Modulation of ISWI function by site-specific histone acetylation.

Corona DF, Clapier CR, Becker PB, Tamkun JW.

EMBO Rep. 2002 Mar;3(3):242-7.

22.

The HMG-domain protein BAP111 is important for the function of the BRM chromatin-remodeling complex in vivo.

Papoulas O, Daubresse G, Armstrong JA, Jin J, Scott MP, Tamkun JW.

Proc Natl Acad Sci U S A. 2001 May 8;98(10):5728-33. Epub 2001 May 1.

23.

Mutations in Drosophila heat shock cognate 4 are enhancers of Polycomb.

Mollaaghababa R, Sipos L, Tiong SY, Papoulas O, Armstrong JA, Tamkun JW, Bender W.

Proc Natl Acad Sci U S A. 2001 Mar 27;98(7):3958-63.

24.
25.

The ISWI chromatin-remodeling protein is required for gene expression and the maintenance of higher order chromatin structure in vivo.

Deuring R, Fanti L, Armstrong JA, Sarte M, Papoulas O, Prestel M, Daubresse G, Verardo M, Moseley SL, Berloco M, Tsukiyama T, Wu C, Pimpinelli S, Tamkun JW.

Mol Cell. 2000 Feb;5(2):355-65.

26.

ISWI is an ATP-dependent nucleosome remodeling factor.

Corona DF, Längst G, Clapier CR, Bonte EJ, Ferrari S, Tamkun JW, Becker PB.

Mol Cell. 1999 Feb;3(2):239-45.

27.

The Drosophila kismet gene is related to chromatin-remodeling factors and is required for both segmentation and segment identity.

Daubresse G, Deuring R, Moore L, Papoulas O, Zakrajsek I, Waldrip WR, Scott MP, Kennison JA, Tamkun JW.

Development. 1999 Mar;126(6):1175-87.

28.

The Drosophila trithorax group proteins BRM, ASH1 and ASH2 are subunits of distinct protein complexes.

Papoulas O, Beek SJ, Moseley SL, McCallum CM, Sarte M, Shearn A, Tamkun JW.

Development. 1998 Oct;125(20):3955-66.

29.

Genetic analysis of brahma: the Drosophila homolog of the yeast chromatin remodeling factor SWI2/SNF2.

Elfring LK, Daniel C, Papoulas O, Deuring R, Sarte M, Moseley S, Beek SJ, Waldrip WR, Daubresse G, DePace A, Kennison JA, Tamkun JW.

Genetics. 1998 Jan;148(1):251-65.

30.

The role of brahma and related proteins in transcription and development.

Tamkun JW.

Curr Opin Genet Dev. 1995 Aug;5(4):473-7. Review.

PMID:
7580139
31.

The Drosophila snr1 and brm proteins are related to yeast SWI/SNF proteins and are components of a large protein complex.

Dingwall AK, Beek SJ, McCallum CM, Tamkun JW, Kalpana GV, Goff SP, Scott MP.

Mol Biol Cell. 1995 Jul;6(7):777-91.

32.

Developmental genetical analysis and molecular cloning of the abnormal oocyte gene of Drosophila melanogaster.

Tomkiel J, Fanti L, Berloco M, Spinelli L, Tamkun JW, Wakimoto BT, Pimpinelli S.

Genetics. 1995 Jun;140(2):615-27.

33.

The SWI-SNF complex: a chromatin remodeling machine?

Peterson CL, Tamkun JW.

Trends Biochem Sci. 1995 Apr;20(4):143-6. Review.

PMID:
7770913
34.

Genetic analysis of the brahma gene of Drosophila melanogaster and polytene chromosome subdivisions 72AB.

Brizuela BJ, Elfring L, Ballard J, Tamkun JW, Kennison JA.

Genetics. 1994 Jul;137(3):803-13.

35.

Identification and characterization of Drosophila relatives of the yeast transcriptional activator SNF2/SWI2.

Elfring LK, Deuring R, McCallum CM, Peterson CL, Tamkun JW.

Mol Cell Biol. 1994 Apr;14(4):2225-34.

36.

BRG1 contains a conserved domain of the SWI2/SNF2 family necessary for normal mitotic growth and transcription.

Khavari PA, Peterson CL, Tamkun JW, Mendel DB, Crabtree GR.

Nature. 1993 Nov 11;366(6451):170-4.

PMID:
8232556
37.

brahma: a regulator of Drosophila homeotic genes structurally related to the yeast transcriptional activator SNF2/SWI2.

Tamkun JW, Deuring R, Scott MP, Kissinger M, Pattatucci AM, Kaufman TC, Kennison JA.

Cell. 1992 Feb 7;68(3):561-72.

PMID:
1346755
38.

Trans-regulation of homeotic genes in Drosophila.

Kennison JA, Tamkun JW.

New Biol. 1992 Feb;4(2):91-6. Review.

PMID:
1348185
39.

The arflike gene encodes an essential GTP-binding protein in Drosophila.

Tamkun JW, Kahn RA, Kissinger M, Brizuela BJ, Rulka C, Scott MP, Kennison JA.

Proc Natl Acad Sci U S A. 1991 Apr 15;88(8):3120-4.

40.

Early Drosophila development.

Kennison JA, Tamkun JW.

Curr Opin Cell Biol. 1990 Dec;2(6):991-5. Review. No abstract available.

PMID:
2099814
41.

The structure and function of the homeodomain.

Scott MP, Tamkun JW, Hartzell GW 3rd.

Biochim Biophys Acta. 1989 Jul 28;989(1):25-48. Review. No abstract available.

PMID:
2568852
42.

Dosage-dependent modifiers of polycomb and antennapedia mutations in Drosophila.

Kennison JA, Tamkun JW.

Proc Natl Acad Sci U S A. 1988 Nov;85(21):8136-40.

43.

Isolation and analysis of cDNA and genomic clones of fibronectin and its receptor.

Hynes RO, Schwarzbauer JE, Tamkun JW.

Methods Enzymol. 1987;144:447-63. No abstract available.

PMID:
2957568
44.

Cell-type-specific fibronectin subunits generated by alternative splicing.

Paul JI, Schwarzbauer JE, Tamkun JW, Hynes RO.

J Biol Chem. 1986 Sep 15;261(26):12258-65.

45.

Structure of integrin, a glycoprotein involved in the transmembrane linkage between fibronectin and actin.

Tamkun JW, DeSimone DW, Fonda D, Patel RS, Buck C, Horwitz AF, Hynes RO.

Cell. 1986 Jul 18;46(2):271-82.

PMID:
3487386
46.

Repeating modular structure of the fibronectin gene: relationship to protein structure and subunit variation.

Odermatt E, Tamkun JW, Hynes RO.

Proc Natl Acad Sci U S A. 1985 Oct;82(19):6571-5.

47.

A single rat fibronectin gene generates three different mRNAs by alternative splicing of a complex exon.

Tamkun JW, Schwarzbauer JE, Hynes RO.

Proc Natl Acad Sci U S A. 1984 Aug;81(16):5140-4.

48.

Fibronectin: a versatile gene for a versatile protein.

Hynes RO, Schwarzbauer JE, Tamkun JW.

Ciba Found Symp. 1984;108:75-92.

PMID:
6569832
49.

Three different fibronectin mRNAs arise by alternative splicing within the coding region.

Schwarzbauer JE, Tamkun JW, Lemischka IR, Hynes RO.

Cell. 1983 Dec;35(2 Pt 1):421-31.

PMID:
6317187
50.

Plasma fibronectin is synthesized and secreted by hepatocytes.

Tamkun JW, Hynes RO.

J Biol Chem. 1983 Apr 10;258(7):4641-7.

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