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The Dnmt3a DNA methyltransferase contains in its N-terminal part a PWWP domain that is involved in chromatin targeting. Here, we have investigated the interaction of the PWWP domain with modified histone tails using peptide arrays and show that it specifically recognizes the histone 3 lysine 36 trimethylation mark. H3K36me3 is known to be a repressive modification correlated with DNA methylation in mammals and heterochromatin in Schizosaccharomyces pombe. These results were confirmed by equilibrium peptide binding studies and pulldown experiments with native histones and purified native nucleosomes. The PWWP-H3K36me3 interaction is important for the subnuclear localization of enhanced yellow fluorescent protein-fused Dnmt3a. Furthermore, the PWWP-H3K36me3 interaction increases the activity of Dnmt3a for methylation of nucleosomal DNA as observed using native nucleosomes isolated from human cells after demethylation of the DNA with 5-aza-2′-deoxycytidine as substrate for methylation with Dnmt3a. These data suggest that the interaction of the PWWP domain with H3K36me3 is involved in targeting of Dnmt3a to chromatin carrying that mark, a model that is in agreement with several studies on the genome-wide distribution of DNA methylation and H3K36me3.  相似文献   

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Wu H  Zeng H  Lam R  Tempel W  Amaya MF  Xu C  Dombrovski L  Qiu W  Wang Y  Min J 《PloS one》2011,6(6):e18919

Background

The PWWP domain was first identified as a structural motif of 100–130 amino acids in the WHSC1 protein and predicted to be a protein-protein interaction domain. It belongs to the Tudor domain ‘Royal Family’, which consists of Tudor, chromodomain, MBT and PWWP domains. While Tudor, chromodomain and MBT domains have long been known to bind methylated histones, PWWP was shown to exhibit histone binding ability only until recently.

Methodology/Principal Findings

The PWWP domain has been shown to be a DNA binding domain, but sequence analysis and previous structural studies show that the PWWP domain exhibits significant similarity to other ‘Royal Family’ members, implying that the PWWP domain has the potential to bind histones. In order to further explore the function of the PWWP domain, we used the protein family approach to determine the crystal structures of the PWWP domains from seven different human proteins. Our fluorescence polarization binding studies show that PWWP domains have weak histone binding ability, which is also confirmed by our NMR titration experiments. Furthermore, we determined the crystal structures of the BRPF1 PWWP domain in complex with H3K36me3, and HDGF2 PWWP domain in complex with H3K79me3 and H4K20me3.

Conclusions

PWWP proteins constitute a new family of methyl lysine histone binders. The PWWP domain consists of three motifs: a canonical β-barrel core, an insertion motif between the second and third β-strands and a C-terminal α-helix bundle. Both the canonical β-barrel core and the insertion motif are directly involved in histone binding. The PWWP domain has been previously shown to be a DNA binding domain. Therefore, the PWWP domain exhibits dual functions: binding both DNA and methyllysine histones.

Enhanced version

This article can also be viewed as an enhanced version in which the text of the article is integrated with interactive 3D representations and animated transitions. Please note that a web plugin is required to access this enhanced functionality. Instructions for the installation and use of the web plugin are available in Text S1.  相似文献   

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Qiu Y  Zhang W  Zhao C  Wang Y  Wang W  Zhang J  Zhang Z  Li G  Shi Y  Tu X  Wu J 《The Biochemical journal》2012,442(3):527-538
Methylation of H4K20 (Lys(20) of histone H4) plays an important role in the regulation of diverse cellular processes. In fission yeast, all three states of H4K20 methylation are catalysed by Set9. Pdp1 is a PWWP (proline-tryptophan-tryptophan-proline) domain-containing protein, which associates with Set9 to regulate its chromatin localization and methyltransferase activity towards H4K20. The structure of the Pdp1 PWWP domain, which is the first PWWP domain identified which binds to methyl-lysine at the H4K20 site, was determined in the present study by solution NMR. The Pdp1 PWWP domain adopts a classical PWWP fold, with a five-strand antiparallel β-barrel followed by three α-helices. However, it differs significantly from other PWWP domains in some structural aspects that account, in part, for its molecular recognition. Moreover, we revealed a unique binding pattern of the PWWP domain, in that the PWWP domain of Pdp1 bound not only to H4K20me3 (trimethylated Lys(20) of histone H4), but also to dsDNA (double-stranded DNA) via an aromatic cage and a positively charged area respectively. EMSAs (electrophoretic mobility-shift assays) illustrated the ability of the Pdp1 PWWP domain to bind to the nucleosome core particle, and further mutagenesis experiments indicated the crucial role of this binding activity in histone H4K20 di- and tri-methylation in yeast cells. The present study may shed light on a novel mechanism of histone methylation regulation by the PWWP domain.  相似文献   

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《Journal of molecular biology》2019,431(24):5063-5074
The PWWP domain of DNMT3 DNA methyltransferases binds to histone H3 tails containing methylated K36, and this activity is important for heterochromatic targeting. Here, we show that the PWWP domain of mouse DNMT3A binds to H3K36me2 and H3K36me3 with a slight preference for H3K36me2. PWWP domains have also been reported to bind to DNA, and the close proximity of H3K36 and nucleosomal DNA suggests a combined binding to H3K36me2/3 and DNA. We show here that the DNMT3A PWWP domain binds to DNA with a weak preference for AT-rich sequences and that the designed charge reversal R362E mutation disrupts DNA binding. The K295E mutation, as well as K295I recently identified in paraganglioma, a rare neuroendocrine neoplasm, disrupts both DNA and H3K36me2/3 binding, which is in agreement with the proximity of K295 to residues involved in K36me2/3 methyllysine binding. Nucleosome pulldown experiments show that DNA binding and H3K36me2/3 binding are important for the interaction of the DNMT3A PWWP domain with nucleosomes. Localization studies of transiently transfected fluorescently-tagged wild-type and PWWP-mutated full-length DNMT3A indicate that both interactions contribute to the subnuclear localization of DNMT3A in mouse cells. In summary, our data demonstrate that the combined binding of the DNMT3A PWWP domain to the H3 tail containing K36me2/3 and to the nucleosomal or linker DNA is important for its chromatin interaction and subnuclear targeting of DNMT3A in living cells.  相似文献   

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Set1 is the catalytic subunit and the central component of the evolutionarily conserved Set1 complex (Set1C) that methylates histone 3 lysine 4 (H3K4). Here we have determined protein/protein interactions within the complex and related the substructure to function. The loss of individual Set1C subunits differentially affects Set1 stability, complex integrity, global H3K4 methylation, and distribution of H3K4 methylation along active genes. The complex requires Set1, Swd1, and Swd3 for integrity, and Set1 amount is greatly reduced in the absence of the Swd1-Swd3 heterodimer. Bre2 and Sdc1 also form a heteromeric subunit, which requires the SET domain for interaction with the complex, and Sdc1 strongly interacts with itself. Inactivation of either Bre2 or Sdc1 has very similar effects. Neither is required for complex integrity, and their removal results in an increase of H3K4 mono- and dimethylation and a severe decrease of trimethylation at the 5' end of active coding regions but a decrease of H3K4 dimethylation at the 3' end of coding regions. Cells lacking Spp1 have a reduced amount of Set1 and retain a fraction of trimethylated H3K4, whereas cells lacking Shg1 show slightly elevated levels of both di- and trimethylation. Set1C associates with both serine 5- and serine 2-phosphorylated forms of polymerase II, indicating that the association persists to the 3' end of transcribed genes. Taken together, our results suggest that Set1C subunits stimulate Set1 catalytic activity all along active genes.  相似文献   

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The SET domain is an evolutionarily conserved domain found predominantly in histone methyltransferases (HMTs). The Neurospora crassa genome includes nine SET domain genes (set-1 through set-9) in addition to dim-5, which encodes a histone H3 lysine 9 HMT required for DNA methylation. We demonstrate that Neurospora set-2 encodes a histone H3 lysine 36 (K36) methyltransferase and that it is essential for normal growth and development. We used repeat induced point mutation to make a set-2 mutant (set-2(RIP1)) with multiple nonsense mutations. Western analyses revealed that the mutant lacks SET-2 protein and K36 methylation. An amino-terminal fragment that includes the AWS, SET, and post-SET domains of SET-2 proved sufficient for K36 HMT activity in vitro. Nucleosomes were better substrates than free histones. The set-2(RIP1) mutant grows slowly, conidiates poorly, and is female sterile. Introducing the wild-type gene into the mutant complemented the defects, confirming that they resulted from loss of set-2 function. We replaced the wild-type histone H3 gene (hH3) with an allele producing a Lys to Leu substitution at position 36 and found that this hH3(K36L) mutant phenocopied the set-2(RIP1) mutant, confirming that the observed defects in growth and development result from inability to methylate K36 of H3. Finally, we used chromatin immunoprecipitation to demonstrate that actively transcribed genes in Neurospora crassa are enriched for H3 methylated at lysines 4 and 36. Taken together, our results suggest that methylation of K36 in Neurospora crassa is essential for normal growth and development.  相似文献   

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