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protein databank alphafold2 multimer  (Databank Inc)

 
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    Structured Review

    Databank Inc protein databank alphafold2 multimer
    Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the <t>Alphafold2</t> colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.
    Protein Databank Alphafold2 Multimer, supplied by Databank Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/protein databank alphafold2 multimer/product/Databank Inc
    Average 86 stars, based on 1 article reviews
    protein databank alphafold2 multimer - by Bioz Stars, 2026-06
    86/100 stars

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    1) Product Images from "Human O- GlcNAcase catalytic-stalk dimer anchors flexible histone binding domains"

    Article Title: Human O- GlcNAcase catalytic-stalk dimer anchors flexible histone binding domains

    Journal: Communications Chemistry

    doi: 10.1038/s42004-025-01813-7

    Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the Alphafold2 colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.
    Figure Legend Snippet: Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the Alphafold2 colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.

    Techniques Used: Binding Assay, Residue, Concentration Assay



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    protein databank alphafold2 multimer  (Databank Inc)
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    Databank Inc protein databank alphafold2 multimer
    Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the <t>Alphafold2</t> colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.
    Protein Databank Alphafold2 Multimer, supplied by Databank Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/protein databank alphafold2 multimer/product/Databank Inc
    Average 86 stars, based on 1 article reviews
    protein databank alphafold2 multimer - by Bioz Stars, 2026-06
    86/100 stars
    		  Buy from Supplier

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    Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the Alphafold2 colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.

    Journal: Communications Chemistry

    Article Title: Human O- GlcNAcase catalytic-stalk dimer anchors flexible histone binding domains

    doi: 10.1038/s42004-025-01813-7

    Figure Lengend Snippet: Potential binding sites of the pHAT domains to nucleosomes, highlighting proximity and spacing of the H3K36 residues ( a ) as well as the H3K36 and H4K 5,8,12, and 16 residues ( b ) in the nucleosome (PDBID:1kx5: gray). OGA is colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and HAT-like domain: green. The distance between K36 residues (red) is 73.5 Å, and the total distance between pHAT densities is 107 Å (green). The distance between the K36 residue and the H4K 5,8,12,16 is 72.8 Å (pink). c OGA-L pHAT binding to histone modifications such as H3K36 Me and acetylated H4 tails would facilitate recruitment to sites of active transcription and DNA repair. The structural features identified for OGA-L are likely to increase the local concentration of tihe OGA-L and allow flexible movement of the catalytic domain to facilitate O- GlcNAc removal from proteins in proximity. The OGA model is shown with unstructured linkers added from the Alphafold2 colored by domain: catalytic domain, dark blue; stalk, yellow; linker, and pHAT domain, green.

    Article Snippet: Additional data compared in this study from the protein databank: Alphafold2 Multimer, PDB ID: 5M7R, PDB ID: 5VVO, PDB ID:5UHK, PDB ID: 5M7S, PDBID:5UN9, PDB ID:5UHL, PDB ID: 5M7T, PDB ID: 5UHO, PDB ID: 8P0L, PDB ID: 9BA8, 9BA9, PDB ID: 1KX5 .

    Techniques: Binding Assay, Residue, Concentration Assay