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PDBsum entry 2fui
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Protein binding PDB id
2fui

 

 

 

 

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Contents
Protein chain
62 a.a. *
* Residue conservation analysis
PDB id:
2fui
Name: Protein binding
Title: Nmr solution structure of phd finger fragment of human bptf in free state
Structure: Bromodomain phd finger transcription factor. Chain: a. Fragment: phd finger domain (residues 2583-2639). Engineered: yes
Source: Homo sapiens. Human. Organism_taxid: 9606. Expressed in: escherichia coli. Expression_system_taxid: 562.
NMR struc: 20 models
Authors: S.Ilin,D.J.Patel
Key ref:
H.Li et al. (2006). Molecular basis for site-specific read-out of histone H3K4me3 by the BPTF PHD finger of NURF. Nature, 442, 91-95. PubMed id: 16728978 DOI: 10.1038/nature04802
Date:
26-Jan-06     Release date:   11-Jul-06    
PROCHECK
Go to PROCHECK summary
 Headers
 References

Protein chain
Pfam   ArchSchema ?
Q12830  (BPTF_HUMAN) -  Nucleosome-remodeling factor subunit BPTF from Homo sapiens
Seq:
Struc: 		 
Seq:
Struc: 		 
Seq:
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Seq:
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Seq:
Struc: 		 
Seq:
Struc: 		 
Seq:
Struc: 		3046 a.a.
62 a.a.*
Key:    PfamA domain  Secondary structure  CATH domain
* PDB and UniProt seqs differ at 5 residue positions (black crosses)

 

 
DOI no: 10.1038/nature04802 Nature 442:91-95 (2006)
PubMed id: 16728978  
 
 
Molecular basis for site-specific read-out of histone H3K4me3 by the BPTF PHD finger of NURF.
H.Li, S.Ilin, W.Wang, E.M.Duncan, J.Wysocka, C.D.Allis, D.J.Patel.
 
  ABSTRACT  
 
Mono-, di- and trimethylated states of particular histone lysine residues are selectively found in different regions of chromatin, thereby implying specialized biological functions for these marks ranging from heterochromatin formation to X-chromosome inactivation and transcriptional regulation. A major challenge in chromatin biology has centred on efforts to define the connection between specific methylation states and distinct biological read-outs impacting on function. For example, histone H3 trimethylated at lysine 4 (H3K4me3) is associated with transcription start sites of active genes, but the molecular 'effectors' involved in specific recognition of H3K4me3 tails remain poorly understood. Here we demonstrate the molecular basis for specific recognition of H3(1-15)K4me3 (residues 1-15 of histone H3 trimethylated at K4) by a plant homeodomain (PHD) finger of human BPTF (bromodomain and PHD domain transcription factor), the largest subunit of the ATP-dependent chromatin-remodelling complex, NURF (nucleosome remodelling factor). We report on crystallographic and NMR structures of the bromodomain-proximal PHD finger of BPTF in free and H3(1-15)K4me3-bound states. H3(1-15)K4me3 interacts through anti-parallel beta-sheet formation on the surface of the PHD finger, with the long side chains of arginine 2 (R2) and K4me3 fitting snugly in adjacent pre-formed surface pockets, and bracketing an invariant tryptophan. The observed stapling role by non-adjacent R2 and K4me3 provides a molecular explanation for H3K4me3 site specificity. Binding studies establish that the BPTF PHD finger exhibits a modest preference for K4me3- over K4me2-containing H3 peptides, and discriminates against monomethylated and unmodified counterparts. Furthermore, we identified key specificity-determining residues from binding studies of H3(1-15)K4me3 with PHD finger point mutants. Our findings call attention to the PHD finger as a previously uncharacterized chromatin-binding module found in a large number of chromatin-associated proteins.
 
  Selected figure(s)  
 
Figure 2.
Figure 2: Crystal structures of human BPTF PHD finger-linker-bromodomain in the free state and bound to H3(1–15)K4me3. a, Domain architecture of BPTF bromodomain and proximal PHD finger. b, Ribbon representation of the crystal structure of the BPTF PHD finger-linker-bromodomain in the free state. Two bound Zn ions within the PHD fold are shown as balls. c, Crystal structure of the H3(1–15)K4me3-bound complex, with bound peptide shown in a space-filling representation. d, Structure of the PHD finger complex with the 2F[o] - F[c] omit electron density (0.8 level) highlighted for the bound H3(1–15)K4me3 peptide. e, Positioning of the H3(1–15)K4me3 peptide (space-filling representation) on the surface of the PHD finger portion (electrostatic surface representation with red as negatively charged and blue as positively charged surface) of the complex. f, Different view emphasizing the positioning of R2 and K4me3 in adjacent channels. 		Figure 3.
Figure 3: Details of the intermolecular contacts in the H3(1–15)K4me3 peptide–BPTF PHD finger complex and comparison with its H3(1–15)K4me2-bound counterpart. a, Intermolecular backbone interactions between the A1–T6 segment of bound H3(1–15)K4me3 peptide and the PHD finger in the complex. b, Intermolecular hydrogen-bonding interactions involving the guanidinium group of R2 in the complex. c, Superposition of free (coloured green) and H3(1–15)K4me3-bound complex (coloured yellow) of the BPTF PHD finger. d, e, Positioning of the trimethylated lysine of the H3(1–15)K4me3 peptide (d) and the dimethylated lysine of the H3(1–15)K4me2 peptide (e) within a four-aromatic-amino-acid cage of the BPTF PHD finger. Two bridging water molecules link the NH of K4me2 to the carboxylate of D6, as indicated by dashed lines.
 
  The above figures are reprinted by permission from Macmillan Publishers Ltd: Nature (2006, 442, 91-95) copyright 2006.  
  Figures were selected by an automated process.  

Literature references that cite this PDB file's key reference

  PubMed id Reference
23211769 C.A.Musselman, M.E.Lalonde, J.Côté, and T.G.Kutateladze (2012).
Perceiving the epigenetic landscape through histone readers.
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Phf19 links methylated Lys36 of histone H3 to regulation of Polycomb activity.
  Nat Struct Mol Biol, 19, 1257-1265.
PDB code: 4bd3
  21141727 A.K.Upadhyay, and X.Cheng (2011).
Dynamics of histone lysine methylation: structures of methyl writers and erasers.
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21326359 C.Barnett, and J.E.Krebs (2011).
WSTF does it all: a multifunctional protein in transcription, repair, and replication.
  Biochem Cell Biol, 89, 12-23.  
21272588 K.E.Gardner, C.D.Allis, and B.D.Strahl (2011).
OPERating ON Chromatin, a Colorful Language where Context Matters.
  J Mol Biol, 409, 36-46.  
20818169 K.Fortschegger, and R.Shiekhattar (2011).
Plant homeodomain fingers form a helping hand for transcription.
  Epigenetics, 6, 4-8.  
21804550 L.Pasqualucci, V.Trifonov, G.Fabbri, J.Ma, D.Rossi, A.Chiarenza, V.A.Wells, A.Grunn, M.Messina, O.Elliot, J.Chan, G.Bhagat, A.Chadburn, G.Gaidano, C.G.Mullighan, R.Rabadan, and R.Dalla-Favera (2011).
Analysis of the coding genome of diffuse large B-cell lymphoma.
  Nat Genet, 43, 830-837.  
21333655 M.Attia, A.Förster, C.Rachez, P.Freemont, P.Avner, and U.C.Rogner (2011).
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ATRX ADD domain links an atypical histone methylation recognition mechanism to human mental-retardation syndrome.
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PDB codes: 3ql9 3qla 3qlc 3qln
21167713 S.M.Fuchs, K.Krajewski, R.W.Baker, V.L.Miller, and B.D.Strahl (2011).
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MLL-AF9-induced leukemogenesis requires coexpression of the wild-type Mll allele.
  Cancer Cell, 17, 148-159.  
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PDB codes: 2e61 2rr4
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20299455 J.Q.Chen, Y.Li, X.Pan, B.K.Lei, C.Chang, Z.X.Liu, and H.Lu (2010).
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PDB codes: 3kv4 3kv5 3kv6 3kv9 3kva 3kvb
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PDB codes: 2kwj 2kwk 2kwn 2kwo
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20677832 S.Park, U.Osmers, G.Raman, R.H.Schwantes, M.O.Diaz, and J.H.Bushweller (2010).
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PDB code: 2ke1
19382993 G.A.Holländer, and P.Peterson (2009).
Learning to be tolerant: how T cells keep out of trouble.
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19430464 G.G.Wang, J.Song, Z.Wang, H.L.Dormann, F.Casadio, H.Li, J.L.Luo, D.J.Patel, and C.D.Allis (2009).
Haematopoietic malignancies caused by dysregulation of a chromatin-binding PHD finger.
  Nature, 459, 847-851.
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Marking time: the dynamic role of chromatin and covalent modification in transcription.
  Int J Biochem Cell Biol, 41, 155-163.  
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  Mol Cell, 36, 153-163.  
19442115 K.S.Champagne, and T.G.Kutateladze (2009).
Structural insight into histone recognition by the ING PHD fingers.
  Curr Drug Targets, 10, 432-441.  
19190526 M.A.Su, and M.S.Anderson (2009).
Monogenic autoimmune diseases: insights into self-tolerance.
  Pediatr Res, 65, 20R-25R.  
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Nucleosome remodeling and transcriptional repression are distinct functions of Isw1 in Saccharomyces cerevisiae.
  Mol Cell Biol, 29, 2419-2430.  
  19704708 P.Han, and Y.X.Zhu (2009).
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  Plant Signal Behav, 4, 52-54.  
19668247 P.J.Farnham (2009).
Insights from genomic profiling of transcription factors.
  Nat Rev Genet, 10, 605-616.  
19234465 Q.Zhao, G.Rank, Y.T.Tan, H.Li, R.L.Moritz, R.J.Simpson, L.Cerruti, D.J.Curtis, D.J.Patel, C.D.Allis, J.M.Cunningham, and S.M.Jane (2009).
PRMT5-mediated methylation of histone H4R3 recruits DNMT3A, coupling histone and DNA methylation in gene silencing.
  Nat Struct Mol Biol, 16, 304-311.  
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Role of the polycomb protein EED in the propagation of repressive histone marks.
  Nature, 461, 762-767.
PDB codes: 3iiw 3iiy 3ij0 3ij1 3ijc
  19736624 R.Sanchez, and M.M.Zhou (2009).
The role of human bromodomains in chromatin biology and gene transcription.
  Curr Opin Drug Discov Devel, 12, 659-665.  
19446523 S.Chakravarty, L.Zeng, and M.M.Zhou (2009).
Structure and site-specific recognition of histone H3 by the PHD finger of human autoimmune regulator.
  Structure, 17, 670-679.
PDB code: 2kft
18834952 S.Guil, and M.Esteller (2009).
DNA methylomes, histone codes and miRNAs: tying it all together.
  Int J Biochem Cell Biol, 41, 87-95.  
18718879 S.M.Fuchs, R.N.Laribee, and B.D.Strahl (2009).
Protein modifications in transcription elongation.
  Biochim Biophys Acta, 1789, 26-36.  
18923809 S.S.Ng, W.W.Yue, U.Oppermann, and R.J.Klose (2009).
Dynamic protein methylation in chromatin biology.
  Cell Mol Life Sci, 66, 407-422.  
19629165 S.Y.Kwon, H.Xiao, C.Wu, and P.Badenhorst (2009).
Alternative splicing of NURF301 generates distinct NURF chromatin remodeling complexes with altered modified histone binding specificities.
  PLoS Genet, 5, e1000574.  
19434754 T.Gao, R.E.Collins, J.R.Horton, X.Zhang, R.Zhang, A.Dhayalan, R.Tamas, A.Jeltsch, and X.Cheng (2009).
The ankyrin repeat domain of Huntingtin interacting protein 14 contains a surface aromatic cage, a potential site for methyl-lysine binding.
  Proteins, 76, 772-777.
PDB code: 3eu9
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ING4 mediates crosstalk between histone H3 K4 trimethylation and H3 acetylation to attenuate cellular transformation.
  Mol Cell, 33, 248-256.
PDB code: 2pnx
19379692 T.Kim, and S.Buratowski (2009).
Dimethylation of H3K4 by Set1 recruits the Set3 histone deacetylase complex to 5' transcribed regions.
  Cell, 137, 259-272.  
19078966 V.Borde, N.Robine, W.Lin, S.Bonfils, V.Géli, and A.Nicolas (2009).
Histone H3 lysine 4 trimethylation marks meiotic recombination initiation sites.
  EMBO J, 28, 99.  
19154204 W.Y.Lee, D.Lee, W.I.Chung, and C.S.Kwon (2009).
Arabidopsis ING and Alfin1-like protein families localize to the nucleus and bind to H3K4me3/2 via plant homeodomain fingers.
  Plant J, 58, 511-524.  
19523169 Y.Hayashi, T.Senda, N.Sano, and M.Horikoshi (2009).
Theoretical framework for the histone modification network: modifications in the unstructured histone tails form a robust scale-free network.
  Genes Cells, 14, 789-806.  
  19731809 Y.Liu, L.Zhang, and S.Desiderio (2009).
Temporal and spatial regulation of V(D)J recombination: interactions of extrinsic factors with the RAG complex.
  Adv Exp Med Biol, 650, 157-165.  
19788305 Z.Lu, J.Lai, and Y.Zhang (2009).
Importance of charge independent effects in readout of the trimethyllysine mark by HP1 chromodomain.
  J Am Chem Soc, 131, 14928-14931.  
19073934 A.Grishok, S.Hoersch, and P.A.Sharp (2008).
RNA interference and retinoblastoma-related genes are required for repression of endogenous siRNA targets in Caenorhabditis elegans.
  Proc Natl Acad Sci U S A, 105, 20386-20391.  
18077460 A.N.Iberg, A.Espejo, D.Cheng, D.Kim, J.Michaud-Levesque, S.Richard, and M.T.Bedford (2008).
Arginine methylation of the histone h3 tail impedes effector binding.
  J Biol Chem, 283, 3006-3010.  
18381289 A.Palacios, I.G.Muñoz, D.Pantoja-Uceda, M.J.Marcaida, D.Torres, J.M.Martín-García, I.Luque, G.Montoya, and F.J.Blanco (2008).
Molecular basis of histone H3K4me3 recognition by ING4.
  J Biol Chem, 283, 15956-15964.
PDB code: 2vnf
18829457 A.Patel, V.E.Vought, V.Dharmarajan, and M.S.Cosgrove (2008).
A Conserved Arginine-containing Motif Crucial for the Assembly and Enzymatic Activity of the Mixed Lineage Leukemia Protein-1 Core Complex.
  J Biol Chem, 283, 32162-32175.  
18840680 A.S.Koh, A.J.Kuo, S.Y.Park, P.Cheung, J.Abramson, D.Bua, D.Carney, S.E.Shoelson, O.Gozani, R.E.Kingston, C.Benoist, and D.Mathis (2008).
Aire employs a histone-binding module to mediate immunological tolerance, linking chromatin regulation with organ-specific autoimmunity.
  Proc Natl Acad Sci U S A, 105, 15878-15883.  
18515183 B.J.Ferguson, A.Cooke, P.Peterson, and T.Rich (2008).
Death in the AIRE.
  Trends Immunol, 29, 306-312.  
18818090 C.Xu, G.Cui, M.V.Botuyan, and G.Mer (2008).
Structural basis for the recognition of methylated histone H3K36 by the Eaf3 subunit of histone deacetylase complex Rpd3S.
  Structure, 16, 1740-1750.
PDB codes: 2k3x 2k3y
18706458 D.L.Chalker (2008).
Dynamic nuclear reorganization during genome remodeling of Tetrahymena.
  Biochim Biophys Acta, 1783, 2130-2136.  
18643997 E.Kraft, M.Bostick, S.E.Jacobsen, and J.Callis (2008).
ORTH/VIM proteins that regulate DNA methylation are functional ubiquitin E3 ligases.
  Plant J, 56, 704-715.  
18957203 E.M.Duncan, T.L.Muratore-Schroeder, R.G.Cook, B.A.Garcia, J.Shabanowitz, D.F.Hunt, and C.D.Allis (2008).
Cathepsin L proteolytically processes histone H3 during mouse embryonic stem cell differentiation.
  Cell, 135, 284-294.  
18343668 F.Forneris, C.Binda, E.Battaglioli, and A.Mattevi (2008).
LSD1: oxidative chemistry for multifaceted functions in chromatin regulation.
  Trends Biochem Sci, 33, 181-189.  
18406326 G.LeRoy, B.Rickards, and S.J.Flint (2008).
The double bromodomain proteins Brd2 and Brd3 couple histone acetylation to transcription.
  Mol Cell, 30, 51-60.  
19011376 G.Musco, and P.Peterson (2008).
PHD finger of autoimmune regulator: An epigenetic link between the histone modifications and tissue-specific antigen expression in thymus.
  Epigenetics, 3, 310-314.  
18782834 H.Wang, S.T.Walsh, and M.R.Parthun (2008).
Expanded binding specificity of the human histone chaperone NASP.
  Nucleic Acids Res, 36, 5763-5772.  
18682226 H.van Ingen, F.M.van Schaik, H.Wienk, J.Ballering, H.Rehmann, A.C.Dechesne, J.A.Kruijzer, R.M.Liskamp, H.T.Timmers, and R.Boelens (2008).
Structural insight into the recognition of the H3K4me3 mark by the TFIID subunit TAF3.
  Structure, 16, 1245-1256.  
18676843 J.Chen, D.A.Santillan, M.Koonce, W.Wei, R.Luo, M.J.Thirman, N.J.Zeleznik-Le, and M.O.Diaz (2008).
Loss of MLL PHD finger 3 is necessary for MLL-ENL-induced hematopoietic stem cell immortalization.
  Cancer Res, 68, 6199-6207.  
18084306 J.Lee, J.R.Thompson, M.V.Botuyan, and G.Mer (2008).
Distinct binding modes specify the recognition of methylated histones H3K4 and H4K20 by JMJD2A-tudor.
  Nat Struct Mol Biol, 15, 109-111.
PDB codes: 2qqr 2qqs
18406149 J.Peng, and J.Wysocka (2008).
It takes a PHD to SUMO.
  Trends Biochem Sci, 33, 191-194.  
18623064 K.S.Champagne, N.Saksouk, P.V.Peña, K.Johnson, M.Ullah, X.J.Yang, J.Côté, and T.G.Kutateladze (2008).
The crystal structure of the ING5 PHD finger in complex with an H3K4me3 histone peptide.
  Proteins, 72, 1371-1376.
PDB code: 3c6w
18682256 L.A.Baker, C.D.Allis, and G.G.Wang (2008).
PHD fingers in human diseases: disorders arising from misinterpreting epigenetic marks.
  Mutat Res, 647, 3.  
  18525104 L.Liu, Y.Li, and T.O.Tollefsbol (2008).
Gene-environment interactions and epigenetic basis of human diseases.
  Curr Issues Mol Biol, 10, 25-36.  
18400184 L.Zeng, Q.Zhang, G.Gerona-Navarro, N.Moshkina, and M.M.Zhou (2008).
Structural basis of site-specific histone recognition by the bromodomains of human coactivators PCAF and CBP/p300.
  Structure, 16, 643-652.
PDB codes: 2rnw 2rnx 2rny
18498752 M.Fiedler, M.J.Sánchez-Barrena, M.Nekrasov, J.Mieszczanek, V.Rybin, J.Müller, P.Evans, and M.Bienz (2008).
Decoding of methylated histone H3 tail by the Pygo-BCL9 Wnt signaling complex.
  Mol Cell, 30, 507-518.
PDB codes: 2vp7 2vpb 2vpd 2vpe 2vpg
18814851 M.Hu, Y.B.Zhang, L.Qian, R.P.Briñas, L.Kuznetsova, and J.F.Hainfeld (2008).
Three-dimensional structure of human chromatin accessibility complex hCHRAC by electron microscopy.
  J Struct Biol, 164, 263-269.  
18614164 M.Nair, I.Nagamori, P.Sun, D.P.Mishra, C.Rhéaume, B.Li, P.Sassone-Corsi, and X.Dai (2008).
Nuclear regulator Pygo2 controls spermiogenesis and histone H3 acetylation.
  Dev Biol, 320, 446-455.  
18564434 P.Hahn, J.Böse, S.Edler, and A.Lengeling (2008).
Genomic structure and expression of Jmjd6 and evolutionary analysis in the context of related JmjC domain containing proteins.
  BMC Genomics, 9, 293.  
17967883 P.Karagianni, L.Amazit, J.Qin, and J.Wong (2008).
ICBP90, a novel methyl K9 H3 binding protein linking protein ubiquitination with heterochromatin formation.
  Mol Cell Biol, 28, 705-717.  
18533182 P.V.Peña, R.A.Hom, T.Hung, H.Lin, A.J.Kuo, R.P.Wong, O.M.Subach, K.S.Champagne, R.Zhao, V.V.Verkhusha, G.Li, O.Gozani, and T.G.Kutateladze (2008).
Histone H3K4me3 binding is required for the DNA repair and apoptotic activities of ING1 tumor suppressor.
  J Mol Biol, 380, 303-312.
PDB code: 2qic
18073212 R.Gamsjaeger, M.K.Swanton, F.J.Kobus, E.Lehtomaki, J.A.Lowry, A.H.Kwan, J.M.Matthews, and J.P.Mackay (2008).
Structural and biophysical analysis of the DNA binding properties of myelin transcription factor 1.
  J Biol Chem, 283, 5158-5167.
PDB code: 2jyd
18066050 R.K.Ng, and J.B.Gurdon (2008).
Epigenetic memory of an active gene state depends on histone H3.3 incorporation into chromatin in the absence of transcription.
  Nat Cell Biol, 10, 102-109.  
18684714 R.L.Foy, I.Y.Song, V.C.Chitalia, H.T.Cohen, N.Saksouk, C.Cayrou, C.Vaziri, J.Côté, and M.V.Panchenko (2008).
Role of Jade-1 in the histone acetyltransferase (HAT) HBO1 complex.
  J Biol Chem, 283, 28817-28826.  
18172164 T.Nakagawa, T.Kajitani, S.Togo, N.Masuko, H.Ohdan, Y.Hishikawa, T.Koji, T.Matsuyama, T.Ikura, M.Muramatsu, and T.Ito (2008).
Deubiquitylation of histone H2A activates transcriptional initiation via trans-histone cross-talk with H3K4 di- and trimethylation.
  Genes Dev, 22, 37-49.  
18292755 T.Org, F.Chignola, C.Hetényi, M.Gaetani, A.Rebane, I.Liiv, U.Maran, L.Mollica, M.J.Bottomley, G.Musco, and P.Peterson (2008).
The autoimmune regulator PHD finger binds to non-methylated histone H3K4 to activate gene expression.
  EMBO Rep, 9, 370-376.  
17978851 T.Thorstensen, P.E.Grini, I.S.Mercy, V.Alm, S.Erdal, R.Aasland, and R.B.Aalen (2008).
The Arabidopsis SET-domain protein ASHR3 is involved in stamen development and interacts with the bHLH transcription factor ABORTED MICROSPORES (AMS).
  Plant Mol Biol, 66, 47-59.  
17763999 U.G.Tallen, M.Truss, F.Kunitz, S.Wellmann, B.Unryn, B.Sinn, U.Lass, S.Krabbe, N.Holtkamp, C.Hagemeier, R.Wurm, G.Henze, K.T.Riabowol, and A.von Deimling (2008).
Down-regulation of the inhibitor of growth 1 (ING1) tumor suppressor sensitizes p53-deficient glioblastoma cells to cisplatin-induced cell death.
  J Neurooncol, 86, 23-30.  
19075677 X.Wu, and X.Hua (2008).
Menin, histone h3 methyltransferases, and regulation of cell proliferation: current knowledge and perspective.
  Curr Mol Med, 8, 805-815.  
18224408 Y.Dou, and J.L.Hess (2008).
Mechanisms of transcriptional regulation by MLL and its disruption in acute leukemia.
  Int J Hematol, 87, 10-18.  
18385154 Z.Hong, J.Jiang, L.Lan, S.Nakajima, S.Kanno, H.Koseki, and A.Yasui (2008).
A polycomb group protein, PHF1, is involved in the response to DNA double-strand breaks in human cell.
  Nucleic Acids Res, 36, 2939-2947.  
18208619 Z.Liang, R.P.Wong, L.H.Li, H.Jiang, H.Xiao, and G.Li (2008).
Development of pan-specific antibody against trimethyllysine for protein research.
  Proteome Sci, 6, 2.  
18033247 A.G.Matthews, A.J.Kuo, S.Ramón-Maiques, S.Han, K.S.Champagne, D.Ivanov, M.Gallardo, D.Carney, P.Cheung, D.N.Ciccone, K.L.Walter, P.J.Utz, Y.Shi, T.G.Kutateladze, W.Yang, O.Gozani, and M.A.Oettinger (2007).
RAG2 PHD finger couples histone H3 lysine 4 trimethylation with V(D)J recombination.
  Nature, 450, 1106-1110.
PDB code: 2v89
17218268 A.J.Ruthenburg, C.D.Allis, and J.Wysocka (2007).
Methylation of lysine 4 on histone H3: intricacy of writing and reading a single epigenetic mark.
  Mol Cell, 25, 15-30.  
18037899 A.J.Ruthenburg, H.Li, D.J.Patel, and C.D.Allis (2007).
Multivalent engagement of chromatin modifications by linked binding modules.
  Nat Rev Mol Cell Biol, 8, 983-994.  
17698420 A.K.Voss, R.Gamble, C.Collin, C.Shoubridge, M.Corbett, J.Gécz, and T.Thomas (2007).
Protein and gene expression analysis of Phf6, the gene mutated in the Börjeson-Forssman-Lehmann Syndrome of intellectual disability and obesity.
  Gene Expr Patterns, 7, 858-871.  
17898715 A.Kirmizis, H.Santos-Rosa, C.J.Penkett, M.A.Singer, M.Vermeulen, M.Mann, J.Bähler, R.D.Green, and T.Kouzarides (2007).
Arginine methylation at histone H3R2 controls deposition of H3K4 trimethylation.
  Nature, 449, 928-932.  
18082607 A.V.Ivanov, H.Peng, V.Yurchenko, K.L.Yap, D.G.Negorev, D.C.Schultz, E.Psulkowski, W.J.Fredericks, D.E.White, G.G.Maul, M.J.Sadofsky, M.M.Zhou, and F.J.Rauscher (2007).
PHD domain-mediated E3 ligase activity directs intramolecular sumoylation of an adjacent bromodomain required for gene silencing.
  Mol Cell, 28, 823-837.  
17456468 B.E.Dul, and N.C.Walworth (2007).
The plant homeodomain fingers of fission yeast Msc1 exhibit E3 ubiquitin ligase activity.
  J Biol Chem, 282, 18397-18406.  
17320510 B.Schuettengruber, D.Chourrout, M.Vervoort, B.Leblanc, and G.Cavalli (2007).
Genome regulation by polycomb and trithorax proteins.
  Cell, 128, 735-745.  
17043109 C.S.Dacwag, Y.Ohkawa, S.Pal, S.Sif, and A.N.Imbalzano (2007).
The protein arginine methyltransferase Prmt5 is required for myogenesis because it facilitates ATP-dependent chromatin remodeling.
  Mol Cell Biol, 27, 384-394.  
17544291 D.Pépin, B.C.Vanderhyden, D.J.Picketts, and B.D.Murphy (2007).
ISWI chromatin remodeling in ovarian somatic and germ cells: revenge of the NURFs.
  Trends Endocrinol Metab, 18, 215-224.  
17713580 E.Brown, S.Malakar, and J.E.Krebs (2007).
How many remodelers does it take to make a brain? Diverse and cooperative roles of ATP-dependent chromatin-remodeling complexes in development.
  Biochem Cell Biol, 85, 444-462.  
17687328 F.Lan, R.E.Collins, R.De Cegli, R.Alpatov, J.R.Horton, X.Shi, O.Gozani, X.Cheng, and Y.Shi (2007).
Recognition of unmethylated histone H3 lysine 4 links BHC80 to LSD1-mediated gene repression.
  Nature, 448, 718-722.
PDB code: 2puy
17988933 G.Kustatscher, and A.G.Ladurner (2007).
Modular paths to 'decoding' and 'wiping' histone lysine methylation.
  Curr Opin Chem Biol, 11, 628-635.  
18042461 H.Li, W.Fischle, W.Wang, E.M.Duncan, L.Liang, S.Murakami-Ishibe, C.D.Allis, and D.J.Patel (2007).
Structural basis for lower lysine methylation state-specific readout by MBT repeats of L3MBTL1 and an engineered PHD finger.
  Mol Cell, 28, 677-691.
PDB codes: 2rhi 2rhu 2rhx 2rhy 2rhz 2ri2 2ri3 2ri5 2ri7
17283050 J.A.Sherriff, N.A.Kent, and J.Mellor (2007).
The Isw2 chromatin-remodeling ATPase cooperates with the Fkh2 transcription factor to repress transcription of the B-type cyclin gene CLB2.
  Mol Cell Biol, 27, 2848-2860.  
17589523 J.F.Couture, E.Collazo, P.A.Ortiz-Tello, J.S.Brunzelle, and R.C.Trievel (2007).
Specificity and mechanism of JMJD2A, a trimethyllysine-specific histone demethylase.
  Nat Struct Mol Biol, 14, 689-695.
PDB codes: 2q8c 2q8d 2q8e
17805299 J.Huang, R.Sengupta, A.B.Espejo, M.G.Lee, J.A.Dorsey, M.Richter, S.Opravil, R.Shiekhattar, M.T.Bedford, T.Jenuwein, and S.L.Berger (2007).
p53 is regulated by the lysine demethylase LSD1.
  Nature, 449, 105-108.  
18026117 J.Min, A.Allali-Hassani, N.Nady, C.Qi, H.Ouyang, Y.Liu, F.MacKenzie, M.Vedadi, and C.H.Arrowsmith (2007).
L3MBTL1 recognition of mono- and dimethylated histones.
  Nat Struct Mol Biol, 14, 1229-1230.
PDB codes: 2pqw 2rjc 2rjd 2rje 2rjf
17377988 J.R.Horton, S.J.Elgar, S.I.Khan, X.Zhang, P.A.Wade, and X.Cheng (2007).
Structure of the SANT domain from the Xenopus chromatin remodeling factor ISWI.
  Proteins, 67, 1198-1202.
PDB code: 2nog
17380162 K.K.Lee, and J.L.Workman (2007).
Histone acetyltransferase complexes: one size doesn't fit all.
  Nat Rev Mol Cell Biol, 8, 284-295.  
17277801 L.Corsini, and M.Sattler (2007).
Tudor hooks up with DNA repair.
  Nat Struct Mol Biol, 14, 98-99.  
17719264 M.A.Hakimi, and K.W.Deitsch (2007).
Epigenetics in Apicomplexa: control of gene expression during cell cycle progression, differentiation and antigenic variation.
  Curr Opin Microbiol, 10, 357-362.  
17949986 M.A.Soliman, and K.Riabowol (2007).
After a decade of study-ING, a PHD for a versatile family of proteins.
  Trends Biochem Sci, 32, 509-519.  
17371846 M.Gordon, D.G.Holt, A.Panigrahi, B.T.Wilhelm, H.Erdjument-Bromage, P.Tempst, J.Bähler, and B.R.Cairns (2007).
Genome-wide dynamics of SAPHIRE, an essential complex for gene activation and chromatin boundaries.
  Mol Cell Biol, 27, 4058-4069.  
17582821 M.Singh, G.M.Popowicz, M.Krajewski, and T.A.Holak (2007).
Structural ramification for acetyl-lysine recognition by the bromodomain of human BRG1 protein, a central ATPase of the SWI/SNF remodeling complex.
  Chembiochem, 8, 1308-1316.
PDB code: 2grc
17884155 M.Vermeulen, K.W.Mulder, S.Denissov, W.W.Pijnappel, F.M.van Schaik, R.A.Varier, M.P.Baltissen, H.G.Stunnenberg, M.Mann, and H.T.Timmers (2007).
Selective anchoring of TFIID to nucleosomes by trimethylation of histone H3 lysine 4.
  Cell, 131, 58-69.  
17320506 P.A.Jones, and S.B.Baylin (2007).
The epigenomics of cancer.
  Cell, 128, 683-692.  
17540172 P.Trojer, G.Li, R.J.Sims, A.Vaquero, N.Kalakonda, P.Boccuni, D.Lee, H.Erdjument-Bromage, P.Tempst, S.D.Nimer, Y.H.Wang, and D.Reinberg (2007).
L3MBTL1, a histone-methylation-dependent chromatin lock.
  Cell, 129, 915-928.  
17371840 R.J.Klose, K.E.Gardner, G.Liang, H.Erdjument-Bromage, P.Tempst, and Y.Zhang (2007).
Demethylation of histone H3K36 and H3K9 by Rph1: a vestige of an H3K9 methylation system in Saccharomyces cerevisiae?
  Mol Cell Biol, 27, 3951-3961.  
17342184 R.J.Klose, and Y.Zhang (2007).
Regulation of histone methylation by demethylimination and demethylation.
  Nat Rev Mol Cell Biol, 8, 307-318.  
17947424 S.Ahmed, B.Dul, X.Qiu, and N.C.Walworth (2007).
Msc1 acts through histone H2A.Z to promote chromosome stability in Schizosaccharomyces pombe.
  Genetics, 177, 1487-1497.  
17984965 S.D.Taverna, H.Li, A.J.Ruthenburg, C.D.Allis, and D.J.Patel (2007).
How chromatin-binding modules interpret histone modifications: lessons from professional pocket pickers.
  Nat Struct Mol Biol, 14, 1025-1040.  
17984971 S.Lall (2007).
Primers on chromatin.
  Nat Struct Mol Biol, 14, 1110-1115.  
18025461 S.Ramón-Maiques, A.J.Kuo, D.Carney, A.G.Matthews, M.A.Oettinger, O.Gozani, and W.Yang (2007).
The plant homeodomain finger of RAG2 recognizes histone H3 methylated at both lysine-4 and arginine-2.
  Proc Natl Acad Sci U S A, 104, 18993-18998.
PDB codes: 2v83 2v85 2v86 2v87 2v88
17369256 S.Tu, E.M.Bulloch, L.Yang, C.Ren, W.C.Huang, P.H.Hsu, C.H.Chen, C.L.Liao, H.M.Yu, W.S.Lo, M.A.Freitas, and M.D.Tsai (2007).
Identification of histone demethylases in Saccharomyces cerevisiae.
  J Biol Chem, 282, 14262-14271.  
18082598 T.Hunter (2007).
The age of crosstalk: phosphorylation, ubiquitination, and beyond.
  Mol Cell, 28, 730-738.  
17525156 T.Kim, and S.Buratowski (2007).
Two Saccharomyces cerevisiae JmjC domain proteins demethylate histone H3 Lys36 in transcribed regions to promote elongation.
  J Biol Chem, 282, 20827-20835.  
17088384 T.Xiao, Y.Shibata, B.Rao, R.N.Laribee, R.O'Rourke, M.J.Buck, J.F.Greenblatt, N.J.Krogan, J.D.Lieb, and B.D.Strahl (2007).
The RNA polymerase II kinase Ctk1 regulates positioning of a 5' histone methylation boundary along genes.
  Mol Cell Biol, 27, 721-731.  
17306844 V.K.Gangaraju, and B.Bartholomew (2007).
Mechanisms of ATP dependent chromatin remodeling.
  Mutat Res, 618, 3.  
17374386 X.Cheng, and X.Zhang (2007).
Structural dynamics of protein lysine methylation and demethylation.
  Mutat Res, 618, 102-115.  
17142463 X.Shi, I.Kachirskaia, K.L.Walter, J.H.Kuo, A.Lake, F.Davrazou, S.M.Chan, D.G.Martin, I.M.Fingerman, S.D.Briggs, L.Howe, P.J.Utz, T.G.Kutateladze, A.A.Lugovskoy, M.T.Bedford, and O.Gozani (2007).
Proteome-wide analysis in Saccharomyces cerevisiae identifies several PHD fingers as novel direct and selective binding modules of histone H3 methylated at either lysine 4 or lysine 36.
  J Biol Chem, 282, 2450-2455.  
17936034 Y.Liu, R.Subrahmanyam, T.Chakraborty, R.Sen, and S.Desiderio (2007).
A plant homeodomain in RAG-2 that binds Hypermethylated lysine 4 of histone H3 is necessary for efficient antigen-receptor-gene rearrangement.
  Immunity, 27, 561-571.  
18048344 Y.Xiang, Z.Zhu, G.Han, X.Ye, B.Xu, Z.Peng, Y.Ma, Y.Yu, H.Lin, A.P.Chen, and C.D.Chen (2007).
JARID1B is a histone H3 lysine 4 demethylase up-regulated in prostate cancer.
  Proc Natl Acad Sci U S A, 104, 19226-19231.  
17567753 Z.Chen, J.Zang, J.Kappler, X.Hong, F.Crawford, Q.Wang, F.Lan, C.Jiang, J.Whetstine, S.Dai, K.Hansen, Y.Shi, and G.Zhang (2007).
Structural basis of the recognition of a methylated histone tail by JMJD2A.
  Proc Natl Acad Sci U S A, 104, 10818-10823.
PDB codes: 2p5b 2pxj
16923967 D.G.Martin, K.Baetz, X.Shi, K.L.Walter, V.E.MacDonald, M.J.Wlodarski, O.Gozani, P.Hieter, and L.Howe (2006).
The Yng1p plant homeodomain finger is a methyl-histone binding module that recognizes lysine 4-methylated histone H3.
  Mol Cell Biol, 26, 7871-7879.  
16987819 F.Forneris, C.Binda, A.Dall'Aglio, M.W.Fraaije, E.Battaglioli, and A.Mattevi (2006).
A highly specific mechanism of histone H3-K4 recognition by histone demethylase LSD1.
  J Biol Chem, 281, 35289-35295.  
16968818 L.B.Bender, J.Suh, C.R.Carroll, Y.Fong, I.M.Fingerman, S.D.Briggs, R.Cao, Y.Zhang, V.Reinke, and S.Strome (2006).
MES-4: an autosome-associated histone methyltransferase that participates in silencing the X chromosomes in the C. elegans germ line.
  Development, 133, 3907-3917.  
16893883 M.R.Kaadige, and D.E.Ayer (2006).
The polybasic region that follows the plant homeodomain zinc finger 1 of Pf1 is necessary and sufficient for specific phosphoinositide binding.
  J Biol Chem, 281, 28831-28836.  
17190600 M.V.Botuyan, J.Lee, I.M.Ward, J.E.Kim, J.R.Thompson, J.Chen, and G.Mer (2006).
Structural basis for the methylation state-specific recognition of histone H4-K20 by 53BP1 and Crb2 in DNA repair.
  Cell, 127, 1361-1373.
PDB codes: 2fhd 2g3r 2ig0
16823438 P.B.Becker (2006).
Gene regulation: a finger on the mark.
  Nature, 442, 31-32.  
16983801 R.J.Klose, E.M.Kallin, and Y.Zhang (2006).
JmjC-domain-containing proteins and histone demethylation.
  Nat Rev Genet, 7, 715-727.  
17021013 S.Lee, D.K.Lee, Y.Dou, J.Lee, B.Lee, E.Kwak, Y.Y.Kong, S.K.Lee, R.G.Roeder, and J.W.Lee (2006).
Coactivator as a target gene specificity determinant for histone H3 lysine 4 methyltransferases.
  Proc Natl Acad Sci U S A, 103, 15392-15397.  
16954381 S.P.Sripathy, J.Stevens, and D.C.Schultz (2006).
The KAP1 corepressor functions to coordinate the assembly of de novo HP1-demarcated microenvironments of heterochromatin required for KRAB zinc finger protein-mediated transcriptional repression.
  Mol Cell Biol, 26, 8623-8638.  
The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB code is shown on the right.

 

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