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Items: 1 to 20 of 105

1.

The Histone Database: a comprehensive resource for histones and histone fold-containing proteins.

Mariño-Ramírez L, Hsu B, Baxevanis AD, Landsman D.

Proteins. 2006 Mar 1;62(4):838-42.

2.

The Histone Database: an integrated resource for histones and histone fold-containing proteins.

Mariño-Ramírez L, Levine KM, Morales M, Zhang S, Moreland RT, Baxevanis AD, Landsman D.

Database (Oxford). 2011 Oct 23;2011:bar048. doi: 10.1093/database/bar048.

3.

The histone database: a comprehensive WWW resource for histones and histone fold-containing proteins.

Sullivan SA, Aravind L, Makalowska I, Baxevanis AD, Landsman D.

Nucleic Acids Res. 2000 Jan 1;28(1):320-2.

4.

The Histone Database.

Sullivan S, Sink DW, Trout KL, Makalowska I, Taylor PM, Baxevanis AD, Landsman D.

Nucleic Acids Res. 2002 Jan 1;30(1):341-2.

5.

Histone and histone fold sequences and structures: a database.

Baxevanis AD, Landsman D.

Nucleic Acids Res. 1997 Jan 1;25(1):272-3.

6.

Histone Sequence Database: a compilation of highly-conserved nucleoprotein sequences.

Baxevanis AD, Landsman D.

Nucleic Acids Res. 1996 Jan 1;24(1):245-7.

7.

Histone Sequence Database: new histone fold family members.

Baxevanis AD, Landsman D.

Nucleic Acids Res. 1998 Jan 1;26(1):372-5.

8.

HistoneDB 2.0: a histone database with variants--an integrated resource to explore histones and their variants.

Draizen EJ, Shaytan AK, Mariño-Ramírez L, Talbert PB, Landsman D, Panchenko AR.

Database (Oxford). 2016 Mar 17;2016. pii: baw014. doi: 10.1093/database/baw014.

9.

Histone Sequence Database: sequences, structures, post-translational modifications and genetic loci.

Makalowska I, Ferlanti ES, Baxevanis AD, Landsman D.

Nucleic Acids Res. 1999 Jan 1;27(1):323-4.

10.

Characterization of sequence variability in nucleosome core histone folds.

Sullivan SA, Landsman D.

Proteins. 2003 Aug 15;52(3):454-65.

PMID:
12866056
11.

In silico functional characterization of a double histone fold domain from the Heliothis zea virus 1.

Greco C, Fantucci P, De Gioia L.

BMC Bioinformatics. 2005 Dec 1;6 Suppl 4:S15.

12.

Determinants of histone H4 N-terminal domain function during nucleosomal array oligomerization: roles of amino acid sequence, domain length, and charge density.

McBryant SJ, Klonoski J, Sorensen TC, Norskog SS, Williams S, Resch MG, Toombs JA 3rd, Hobdey SE, Hansen JC.

J Biol Chem. 2009 Jun 19;284(25):16716-22. doi: 10.1074/jbc.M109.011288.

13.

Core histones of the amitochondriate protist, Giardia lamblia.

Wu G, McArthur AG, Fiser A, Sali A, Sogin ML, Mllerm M.

Mol Biol Evol. 2000 Aug;17(8):1156-63.

14.

Identification and in silico analysis of a new group of double-histone fold-containing proteins.

Greco C, Sacco E, Vanoni M, De Gioia L.

J Mol Model. 2005 Dec;12(1):76-84.

PMID:
16247600
15.

Archaeal histones and the origin of the histone fold.

Sandman K, Reeve JN.

Curr Opin Microbiol. 2006 Oct;9(5):520-5.

PMID:
16920388
16.

Tandem histone folds in the structure of the N-terminal segment of the ras activator Son of Sevenless.

Sondermann H, Soisson SM, Bar-Sagi D, Kuriyan J.

Structure. 2003 Dec;11(12):1583-93.

17.

Comprehensive structural analysis of mutant nucleosomes containing lysine to glutamine (KQ) substitutions in the H3 and H4 histone-fold domains.

Iwasaki W, Tachiwana H, Kawaguchi K, Shibata T, Kagawa W, Kurumizaka H.

Biochemistry. 2011 Sep 13;50(36):7822-32. doi: 10.1021/bi201021h.

PMID:
21812398
18.
19.

Crystal structure of a nucleosome core particle containing the variant histone H2A.Z.

Suto RK, Clarkson MJ, Tremethick DJ, Luger K.

Nat Struct Biol. 2000 Dec;7(12):1121-4.

PMID:
11101893
20.

Crystal structures of recombinant histones HMfA and HMfB from the hyperthermophilic archaeon Methanothermus fervidus.

Decanniere K, Babu AM, Sandman K, Reeve JN, Heinemann U.

J Mol Biol. 2000 Oct 13;303(1):35-47.

PMID:
11021968
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