Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/BESS_domain> ?p ?o }
Showing triples 1 to 50 of
50
with 100 triples per page.
- BESS_domain abstract "In molecular biology, the BESS domain is a protein domain which has been named after the three proteins that originally defined the domain: BEAF (Boundary element associated factor 32), Suvar(3)7 and Stonewall ). The BESS domain is 40 amino acid residues long and is predicted to be composed of three alpha helices, as such it might be related to the myb/SANT HTH domain. The BESS domain directs a variety of protein-protein interactions, including interactions with itself, with Dorsal, and with a TBP-associated factor. It is found in a single copy in Drosophila proteins and is often associated with the MADF domain.Proteins known to contain a BESS domain include: Drosophila Boundary element associated factor 32 (BEAF-32). Drosophila Suppressor of variegation protein 3-7 (Su(var)3-7), which could play a role in chromosome condensation. Drosophila Ravus, which is homologous to the C-terminal part of Su(var)3-7. Drosophila Stonewall (Stwl), a putative transcription factor required for maintenance of female germline stem cells as well as oocyte differentiation. Drosophila Adf-1, a transcription factor first identified on the basis of its interaction with the alcohol dehydrogenase promoter but that binds the promoters of a diverse group of genes. Drosophila Dorsal-interacting protein 3 (Dip3). It functions both as an activator to bind DNA in a sequence specific manner and a coactivator to stimulate synergistic activation by Dorsal and Twist.↑ ↑ ↑ ↑ 4.0 4.1 ↑ 5.0 5.1 ↑ ↑".
- BESS_domain symbol "BESS".
- BESS_domain wikiPageID "32160562".
- BESS_domain wikiPageLength "4575".
- BESS_domain wikiPageOutDegree "26".
- BESS_domain wikiPageRevisionID "590759942".
- BESS_domain wikiPageWikiLink Activator_(genetics).
- BESS_domain wikiPageWikiLink Alcohol_dehydrogenase.
- BESS_domain wikiPageWikiLink Amino_acid.
- BESS_domain wikiPageWikiLink Category:Protein_domains.
- BESS_domain wikiPageWikiLink Cellular_differentiation.
- BESS_domain wikiPageWikiLink Chromosome.
- BESS_domain wikiPageWikiLink Coactivation_(Transcription).
- BESS_domain wikiPageWikiLink Drosophila.
- BESS_domain wikiPageWikiLink Gene.
- BESS_domain wikiPageWikiLink Homology_(biology).
- BESS_domain wikiPageWikiLink MYB_(gene).
- BESS_domain wikiPageWikiLink Molecular_binding.
- BESS_domain wikiPageWikiLink Oocyte.
- BESS_domain wikiPageWikiLink Promoter_(genetics).
- BESS_domain wikiPageWikiLink Protein.
- BESS_domain wikiPageWikiLink Protein_domain.
- BESS_domain wikiPageWikiLink Protein–protein_interaction.
- BESS_domain wikiPageWikiLink Regulation_of_gene_expression.
- BESS_domain wikiPageWikiLink SANT_domain.
- BESS_domain wikiPageWikiLink Sequence_(biology).
- BESS_domain wikiPageWikiLink Stem_cell.
- BESS_domain wikiPageWikiLink Transcription_factor.
- BESS_domain interpro "IPR004210".
- BESS_domain name "BESS".
- BESS_domain pfam "PF02944".
- BESS_domain symbol "BESS".
- BESS_domain wikiPageUsesTemplate Template:Infobox_protein_family.
- BESS_domain wikiPageUsesTemplate Template:InterPro_content.
- BESS_domain wikiPageUsesTemplate Template:Reflist.
- BESS_domain subject Category:Protein_domains.
- BESS_domain hypernym Domain.
- BESS_domain type Biomolecule.
- BESS_domain type Protein.
- BESS_domain type Domain.
- BESS_domain type Thing.
- BESS_domain type Q206229.
- BESS_domain type Q8054.
- BESS_domain comment "In molecular biology, the BESS domain is a protein domain which has been named after the three proteins that originally defined the domain: BEAF (Boundary element associated factor 32), Suvar(3)7 and Stonewall ). The BESS domain is 40 amino acid residues long and is predicted to be composed of three alpha helices, as such it might be related to the myb/SANT HTH domain.".
- BESS_domain label "BESS domain".
- BESS_domain sameAs Q4835446.
- BESS_domain sameAs m.0gwz6jr.
- BESS_domain sameAs Q4835446.
- BESS_domain wasDerivedFrom BESS_domain?oldid=590759942.
- BESS_domain isPrimaryTopicOf BESS_domain.