hypothetical protein SARC_00025 [Sphaeroforma arctica JP610]
Protein Classification
WSD superfamily-containing protein( domain architecture ID 307528)
WSD superfamily-containing protein
List of domain hits
| Name | Accession | Description | Interval | E-value | ||
| WSD super family | cl21412 | Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined ... |
24-49 | 1.35e-06 | ||
Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined alpha-helical module found in diverse eukaryotic chromatin proteins. Based on the Ioc3 structure, the N-terminus of this module is inferred to interact with nucleosomal linker DNA and the SLIDE domain of ISWI proteins. The resulting complex forms a protein ruler that measures out the spacing between two adjacent nucleosomes. The acidic residue from the GxD signature at the N-terminus is a major determinant of the interaction between the ISWI and WHIM motifs. The N-terminal portion also contacts the inter-nucleosomal linker DNA. The module shows a great domain architectural diversity and is often combined with other modified histone peptide recognizing and DNA binding domains, some of which discriminate methylated DNA. The WSD module constitutes the inter-nucleosomal linker DNA binding site in the major groove of DNA, and was first identified as WSD, the D-TOX E motif of plant homeodomains homologous with the mutant transcription factor causing Williams-Beuren syndrome in association with the DDT-domain. The actual alignment was detected with superfamily member pfam15613: Pssm-ID: 464775 [Multi-domain] Cd Length: 69 Bit Score: 45.99 E-value: 1.35e-06
|
||||||
| Name | Accession | Description | Interval | E-value | ||
| WSD | pfam15613 | Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined ... |
24-49 | 1.35e-06 | ||
Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined alpha-helical module found in diverse eukaryotic chromatin proteins. Based on the Ioc3 structure, the N-terminus of this module is inferred to interact with nucleosomal linker DNA and the SLIDE domain of ISWI proteins. The resulting complex forms a protein ruler that measures out the spacing between two adjacent nucleosomes. The acidic residue from the GxD signature at the N-terminus is a major determinant of the interaction between the ISWI and WHIM motifs. The N-terminal portion also contacts the inter-nucleosomal linker DNA. The module shows a great domain architectural diversity and is often combined with other modified histone peptide recognizing and DNA binding domains, some of which discriminate methylated DNA. The WSD module constitutes the inter-nucleosomal linker DNA binding site in the major groove of DNA, and was first identified as WSD, the D-TOX E motif of plant homeodomains homologous with the mutant transcription factor causing Williams-Beuren syndrome in association with the DDT-domain. Pssm-ID: 464775 [Multi-domain] Cd Length: 69 Bit Score: 45.99 E-value: 1.35e-06
|
||||||
| Name | Accession | Description | Interval | E-value | ||
| WSD | pfam15613 | Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined ... |
24-49 | 1.35e-06 | ||
Williams-Beuren syndrome DDT (WSD), D-TOX E motif; This family represents the combined alpha-helical module found in diverse eukaryotic chromatin proteins. Based on the Ioc3 structure, the N-terminus of this module is inferred to interact with nucleosomal linker DNA and the SLIDE domain of ISWI proteins. The resulting complex forms a protein ruler that measures out the spacing between two adjacent nucleosomes. The acidic residue from the GxD signature at the N-terminus is a major determinant of the interaction between the ISWI and WHIM motifs. The N-terminal portion also contacts the inter-nucleosomal linker DNA. The module shows a great domain architectural diversity and is often combined with other modified histone peptide recognizing and DNA binding domains, some of which discriminate methylated DNA. The WSD module constitutes the inter-nucleosomal linker DNA binding site in the major groove of DNA, and was first identified as WSD, the D-TOX E motif of plant homeodomains homologous with the mutant transcription factor causing Williams-Beuren syndrome in association with the DDT-domain. Pssm-ID: 464775 [Multi-domain] Cd Length: 69 Bit Score: 45.99 E-value: 1.35e-06
|
||||||
| Blast search parameters | ||||
|
