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High-mobility group protein

Fig. 5. The NMR-refmed structure of the A-domain of high-mobility group protein 1 (PDBID 1AAB). Adapted from (78). Fig. 5. The NMR-refmed structure of the A-domain of high-mobility group protein 1 (PDBID 1AAB). Adapted from (78).
Szabo C (1998) Role of poly(ADP-ribose)synthetase in inflammation. Eur J Pharmacol 350 1-19 Tanuma S, Johnson GS (1983) ADP-ribosylation of nonhistone high mobility group proteins in intact cells. J Biol Chem 258 4067-4070... [Pg.68]

Rogalla P, Drechsler K, Kazmierczak B, Rippe V, Bonk U, Bullerdiek J (1997) Expression of HMGl-C, a member of the high mobility group protein family, in a subset of breast cancers relationship to histologic grade. Mol Carcinog 19(3) 153-156... [Pg.228]

Henderson A, Bunce M, Siddon N, Reeves R, Tremethick DJ (2000) High-mobility-group protein 1 can modulate binding of transcription factors to the U5 region of the human immunodeficiency virus type 1 proviral promoter. J Virol 74 10523-10534... [Pg.392]

The high-mobility group proteins were initially characterised as prominent components of chromatin [1,17] each mammalian nucleus contains, on average, approximately 10 -10 HMGBl molecules [16,63]. This abundance implies a major chromatin-related function but the precise biological role of the proteins has proved elusive. [Pg.112]

Sheflin, L.G. and Spaulding, S.W. (1989) High mobility group protein 1 preferentially conserves torsion in negatively supercoiled DNA. Biochemistry 28, 5658-5664. [Pg.125]

Payet, D. and Travers, A.A. (1997) The acidic tail of the high mobility group protein HMG-D modulates the structural selectivity of DNA binding. J. Mol. Biol. 266, 66-75. [Pg.125]

Murphy, F.V. 4th, Sweet, R.M., and Churchill, M.E.A. (1999) The structure of a chromosomal high mobility group protein-DNA complex reveals sequence-neutral mechanisms important for non-sequence specific DNA recognition EMBO J. 18, 6610-6618. [Pg.126]

Lorenz, M., Hillisch, A., Payet, D., Buttinelli, M., Travers, A., and Diekmann, S. (1999) DNA bending induced by high mobility group proteins studied by fluorescence resonance energy transfer. Biochemistry 38, 12150-12158. [Pg.126]

Ohndorf, U.-M., Rould, M.A., He, Q., Pabo, C.O., and Lippard, S.J. (1999) Basis for recognition of cisplatin-modified DNA by high-mobility group proteins. Nature 399, 708-712. [Pg.127]

Bonne, C., Sautiere, P., Duguet, M., and de Recondo, A.M. (1982) Identification of a single-stranded DNA binding protein from rat liver with high mobility group protein 1. J. Biol. Chem. 257,... [Pg.128]

Pauli, T.T. and Johnson, R.C. (1995) DNA looping by Saccharomyces cerevisiae high mobility group proteins NHP6A/B. Consequences for nucleoprotein complex assembly and chromatin condensation. J. Biol. Chem. 270, 8744-8754. [Pg.128]

Tremethick, D.J. and Drew, H.R. (1993) High mobility group proteins 14 and 17 can space nucleosomes in vitro. J Biol. Chem. 268, 11389-11393. [Pg.129]

Singh, J. and Dixon, G.H. (1990) High mobility group proteins 1 and 2 function as general class II transcription factors. Biochemistry 29, 6295-6302. [Pg.131]

Spencer, J.A., Baron, M.H., and Olson, E.N. (1999) Cooperative transcriptional activation by serum response factor and the high mobility group protein SSRPl. J. Biol. Chem. 274, 15686-15693. [Pg.132]

Ge, H. and Roeder, R.G. (1994) The high mobility group protein HMGl can reversibly inhibit class II gene transcription by interaction with the TATA-binding protein. J. Biol. Chem. 269, 17136-17140. [Pg.132]

Sutrias-Grau, M., Bianchi, M.E., and Bernues, J. (1999) High mobility group protein 1 interacts specifically with the core domain of human TATA box-binding protein and interferes with transcription factor IIB within the pre-initiation complex. J. Biol. Chem. 274, 1628-1634. [Pg.132]

Yumoto, Y., Shirakawa, H., Yoshida, M., Suwa, A., Watanabe, F, and Teraoka, H. (1998) High mobility group proteins 1 and 2 can function as DNA-binding regulatory components for DNA-dependent protein kinase in vitro. J. Biochem. 124, 519-527. [Pg.133]

Sterner, R., Vidali, G., Heituikson, R.L., and Allfrey, V.G. (1978) Postsynthetic modification of high mobility group proteins. Evidence that high mobility group proteins are acetylated. J. Biol. Chem. 253, 7601-7604. [Pg.133]

Renner, U., Ghidelli, S., Schafer, M.A., and Wisniewski, J.R. (2000) Alterations in titer and distribution of high mobility group proteins during embryonic development of Drosophila melanogaster. Biochim. Biophys. Acta 1475, 99-108. [Pg.133]

Peterson, C.L. (1996) Multiple Switches to turn on chromatin Curr. Opin. Genet. Dev. 6, 171-175. Bourachot, B., Yaniv, M., and Muchardt, C. (1999) The activity of mammalian brm/SNF2cr is dependent on a high-mobility-group protein I/Y-like DNA binding domain. Mol. Cell. Biol. 19, 3931-3939. [Pg.456]

Relevance of High-Mobility Group Protein Box 1 to Neurodegeneration Silvia Fossati and Alberto Chiarugi... [Pg.461]

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High-mobility group

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