Etudes sur le mécanisme de remodelage des nucléosomes par ...

tel-00413908, version 1 - 7 Sep 2009
van,H.K. and Zlatanova,J. (1996). What determines the folding of the chromatin fiber? Proc. Natl. Acad. Sci. U.
S. A 93, 10548-10555.
van,H.K. and Yager,T. (2003). Models for chromatin remodeling: a critical comparison. Biochem. Cell Biol. 81,
169-172.
van,H.K. and Zlatanova,J. (2007). Chromatin fiber structure: Where is the problem now? Semin. Cell Dev. Biol.
18, 651-658.
Vaquero,A., Loyola,A., and Reinberg,D. (2003). The constantly changing face of chromatin. Sci. Aging
Knowledge. Environ. 2003, RE4.
Varga-Weisz,P.D., Blank,T.A., and Becker,P.B. (1995). Energy-dependent chromatin accessibility and
nucleosome mobility in a cell-free system. EMBO J. 14, 2209-2216.
Varga-Weisz,P.D., Wilm,M., Bonte,E., Dumas,K., Mann,M., and Becker,P.B. (1997). Chromatin-remodelling
factor CHRAC contains the ATPases ISWI and topoisomerase II. Nature 388, 598-602.
Varga-Weisz,P.D. and Becker,P.B. (2006). Regulation of higher-order chromatin structures by nucleosomeremodelling
factors. Curr. Opin. Genet. Dev. 16, 151-156.
Vary,J.C., Jr., Gangaraju,V.K., Qin,J., Landel,C.C., Kooperberg,C., Bartholomew,B., and Tsukiyama,T. (2003).
Yeast Isw1p forms two separable complexes in vivo. Mol. Cell Biol. 23, 80-91.
Vary,J.C., Jr., Gangaraju,V.K., Qin,J., Landel,C.C., Kooperberg,C., Bartholomew,B., and Tsukiyama,T. (2003).
Yeast Isw1p forms two separable complexes in vivo. Mol. Cell Biol. 23, 80-91.
Vermaak,D., Ahmad,K., and Henikoff,S. (2003). Maintenance of chromatin states: an open-and-shut case. Curr.
Opin. Cell Biol. 15, 266-274.
Versteege,I., Sevenet,N., Lange,J., Rousseau-Merck,M.F., Ambros,P., Handgretinger,R., Aurias,A., and
Delattre,O. (1998). Truncating mutations of hSNF5/INI1 in aggressive paediatric cancer. Nature 394, 203-206.
Villar-Garea,A. and Imhof,A. (2008). Fine mapping of posttranslational modifications of the linker histone H1
from Drosophila melanogaster. PLoS. ONE. 3, e1553.
von,Z.T., Palladino,F., Brunschwig,K., Tobler,H., Hajnal,A., and Muller,F. (2000). The C. elegans Mi-2
chromatin-remodelling proteins function in vulval cell fate determination. Development 127, 5277-5284.
Vradii,D., Wagner,S., Doan,D.N., Nickerson,J.A., Montecino,M., Lian,J.B., Stein,J.L., van Wijnen,A.J.,
Imbalzano,A.N., and Stein,G.S. (2006). Brg1, the ATPase subunit of the SWI/SNF chromatin remodeling
complex, is required for myeloid differentiation to granulocytes. J. Cell Physiol 206, 112-118.
Wade,P.A., Jones,P.L., Vermaak,D., and Wolffe,A.P. (1998). A multiple subunit Mi-2 histone deacetylase from
Xenopus laevis cofractionates with an associated Snf2 superfamily ATPase. Curr. Biol. 8, 843-846.
Wade,P.A., Gegonne,A., Jones,P.L., Ballestar,E., Aubry,F., and Wolffe,A.P. (1999). Mi-2 complex couples
DNA methylation to chromatin remodelling and histone deacetylation. Nat. Genet. 23, 62-66.
Wang,W., Xue,Y., Zhou,S., Kuo,A., Cairns,B.R., and Crabtree,G.R. (1996). Diversity and specialization of
mammalian SWI/SNF complexes. Genes Dev. 10, 2117-2130.
Wang,W. (2003). The SWI/SNF family of ATP-dependent chromatin remodelers: similar mechanisms for
diverse functions. Curr. Top. Microbiol. Immunol. 274, 143-169.
Wang,X.Q., Alfaro,M.L., Evans,G.F., and Zuckerman,S.H. (2002). Histone deacetylase inhibition results in
decreased macrophage CD9 expression. Biochem. Biophys. Res. Commun. 294, 660-666.
Wang,Z., Zhai,W., Richardson,J.A., Olson,E.N., Meneses,J.J., Firpo,M.T., Kang,C., Skarnes,W.C., and Tjian,R.
(2004). Polybromo protein BAF180 functions in mammalian cardiac chamber maturation. Genes Dev. 18, 3106-
3116.
WATSON,J.D. and CRICK,F.H. (1953). Molecular structure of nucleic acids; a structure for deoxyribose
nucleic acid. Nature 171, 737-738.
West,M.H. and Bonner,W.M. (1983). Structural comparisons of mouse histones 2A.X and 2A.Z with 2A.1 and
2A.2. Comp Biochem. Physiol B 76, 455-464.
Whitehouse,I., Flaus,A., Cairns,B.R., White,M.F., Workman,J.L., and Owen-Hughes,T. (1999). Nucleosome
mobilization catalysed by the yeast SWI/SNF complex. Nature 400, 784-787.
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