Publications
Please contact with khorasan@virginia.edu |
[Enter]
W. Fischle, H. Franz, S.A. Jacobs, C.D. Allis, S. Khorasanizadeh (2008) Specificity of the CDY family of chromodomains for lysine-methylated ARKS/T motifs.
J. Biol. Chem./ 283, 19626-35 |
[Entrez]
S.E. Rosasco-Nitcher, W. Lan, S. Khorasanizadeh & P.T. Stukenberg (2008)
Centromeric Aurora-B activation requires TD-60, microtubules, and
substrate priming phosphorylation.
Science 319, 469-72. |
[Entrez]
S. Raghuram, K.R. Stayrook, P. Huang, P.M. Rogers, A.K. Nosie, D.B.
McClure, L.L. Burris, S. Khorasanizadeh, T.P. Burris & F. Rastinejad
(2007) Identification of heme as the ligand for the orphan nuclear
receptors REV-ERBalpha and REV-ERBbeta.
Nat Struct Mol Biol.14, 1207-13. |
[Entrez]
J.F. Flanagan, B. J. Blus, D. Kim, K.L. Clines, F. Rastinejad & S.
Khorasanizadeh (2007) Molecular implications of evolutionary differences
in CHD double chromodomains.
J. Mol. Biol.369, 334-42. |
[Entrez]
R. M. Hughes, K. R. Wiggins, S. Khorasanizadeh & M. L. Waters (2007)
Recognition of trimethyllysine by a chromodomain is not driven by the
hydrophobic effect.
Proc Natl Acad Sci U S A 104, 11184-8. |
[Entrez]
X. Zhang, S. Germann, B. J. Blus, S. Khorasanizadeh, V. Gaudin & S. E.
Jacobsen (2007)The Arabidopsis LHP1 protein colocalizes with histone H3 Lys27
trimethylation.
Nat Struct Mol Biol 14, 869-71. |
[Entrez]
C. Henkels & S. Khorasanizadeh (2007) Implications of a histone code mimic in epigenetic signaling.
Molecular Cell 27, 521-2. |
[Entrez]
.F. Flanagan, L.Z. Mi, M. Chruszcz, M. Cymborowski, K.L. Clines, Y.
Kim, W. Minor, F. Rastinejad & S. Khorasanizadeh (2005) Double
chromodomains cooperate to recognize the methylated histone H3 tail.
Nature 438, 1181-5. |
[Entrez]
S. Khorasanizadeh (2004) The Nucleosome: From Genomic Organization to Genomic Regulation.
Cell 116, 259-272. |
[Entrez]
M. Lindroth, D. Shultis, Z. Jasencakova, J. Fuchs, L. Johnson, D.
Schubert, D. Patnaik, S. Pradhan, J. Goodrich, I. Schubert, T. Jenuwein,
S. Khorasanizadeh & S. E. Jacobsen (2004) Dual histone H3 methylation
marks at lysines 9 and 27 required for interaction with CHROMOMETHYLASE3.
EMBO Journal, 23, 4146-55. |
[Entrez]
S.A. Jacobs, W. Fischle & S. Khorasanizadeh (2004) Assays for the
determination of structure and dynamics of the interaction of the
chromodomain with histone peptides.
Methods in Enzymology 376, 131-48. |
[Entrez]
W. Fischle, Y. Wang, S. A. Jacobs, Y. Kim, C. D. Allis &
S. Khorasanizadeh (2003) Molecular basis for the discrimination of repressive methyl-lysine marks in histone H3 by Polycomb and HP1 chromodomains.
Genes & Development 17, 1870-1881. |
[News]
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[Entrez]
L-z Mi, S. Devarakonda, J. M. Harp, Q. Han, R. Pellicciari, T. M. Wilson, S. Khorasanizadeh &
F. Rastinejad (2003) Structural Basis for Bile Acid Binding and Activation of the Nuclear Receptor FXR.
Molecular Cell 11, 1093-1100. |
[Entrez]
S. A. Jacobs, J. M. Harp, S. Devarakonda, Y. Kim, F. Rastinajed &
S. Khorasanizadeh (2002) The active site of the SET domain is constructed
on a knot.
Nature Structural Biology 9, 833-838. |
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S. A. Jacobs & S. Khorasanizadeh (2002) Structure of HP1 Chromodomain
Bound to a Lysine 9-Methylated Histone H3 Tail.
Science 295, 2080-2083. |
[News]
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S. A. Jacobs, S. D. Taverna, Y. Zhang, S. D. Briggs, J. Li, J. C. Eissenberg,
C. D. Allis & S. Khorasanizadeh (2001) Specificity of the HP1 chromo
domain for the methylated N-terminus of histone H3.
EMBO Journal 20, 5232-5241. |
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S. Khorasanizadeh & F. Rastinejad (2001)Nuclear-receptor interactions
on DNA-response elements.
TRENDS in Biochemical Sciences 26, 384-390. |
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F. Rastinejad, T. Wagner, Q. Zhao, S. Khorasanizadeh (2000) Structure
of the RXR-RAR DNA-binding complex on the retinoic acid response element
DR1.
EMBO Journal 19, 1045-1054. |
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S. Khorasanizadeh, R. Campos-Olivas & M. F. Summers (1999) Solution
structure of the capsid protein from the human T-cell leukemia virus type
I.
J. Mol. Biol. 291, 491-505. |
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S. Khorasanizadeh & F. Rastinejad (1999) Transcription factors:
The right combination for the DNA lock.
Current Biology 9, 456-458. |
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S. Khorasanizadeh, R. Campos-Olivas, C. A. Clark & M. F. Summers
(1999) Sequence-specific 1H, 15N, 13C assignment and secondary structure
of the HTLV-I capsid protein.
J. Biomol. NMR 14, 199-200. |
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Q. Zhao, S. khorasanizadeh, Y. Miyoshi, M. A. Lazar & F. Rastinejad
(1998) Structural elements of an orphan nuclear receptor-DNA complex.
Molecular Cell 1, 849-861. |
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S. khorasanizadeh, I.D. Peters, & H. Roder (1996) Evidence for
a three-state model of protein folding from kinetic analysis of ubiquitin
variants with altered core residues.
Nature Structural Biology 3, 193-205. |
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P. B. Laub, S. Khorasanizadeh, & H. Roder (1995) Localized solution
structure of an F45W variant of ubiquitin using stochastic boundary molecular
dynamics and NMR distance restraints.
Protein Science 4, 973-982. |
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S. Khorasanizadeh, I. D. Peters, T. R. Butt, & H. Roder (1993)
Folding and stability of a tryptophan-containing mutant of ubiquitin.
Biochemistry 32, 7054-7063. |
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