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In molecular biology, the 3H domain is a protein domain named after its three highly conserved histidine residues. The 3H domain appears to be a smarr molecure-binding domain, based on its occurrence with other domains. Several proteins carrying this domain are transcriptional regulators from the biotin repressor family. The transcription regulator TM1602 from Thermotoga maritima is a DNA-binding protein thought to belong to a family of de novo NAD synthesis pathway regulators. TM1602 has an N-terminal DNA-binding domain and a C-terminal 3H regulatory domain. The N-terminal domain appears to bind to the NAD promoter region and repress the de novo NAD biosynthesis operon, while the C-terminal 3H domain may bind to nicotinamide, nicotinic acid, or other substrate/products. The 3H domain has

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rdf:type
rdfs:label
  • 3H domain (en)
rdfs:comment
  • In molecular biology, the 3H domain is a protein domain named after its three highly conserved histidine residues. The 3H domain appears to be a smarr molecure-binding domain, based on its occurrence with other domains. Several proteins carrying this domain are transcriptional regulators from the biotin repressor family. The transcription regulator TM1602 from Thermotoga maritima is a DNA-binding protein thought to belong to a family of de novo NAD synthesis pathway regulators. TM1602 has an N-terminal DNA-binding domain and a C-terminal 3H regulatory domain. The N-terminal domain appears to bind to the NAD promoter region and repress the de novo NAD biosynthesis operon, while the C-terminal 3H domain may bind to nicotinamide, nicotinic acid, or other substrate/products. The 3H domain has (en)
name
foaf:depiction
  • http://commons.wikimedia.org/wiki/Special:FilePath/PDB_1j5y_EBI.jpg
dct:subject
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thumbnail
PROSITE
  • PDOC00449 (en)
SCOP
caption
  • crystal structure of transcriptional regulator from thermotoga maritima at 2.3 a resolution (en)
InterPro
  • IPR004173 (en)
Pfam
  • PF02829 (en)
symbol
has abstract
  • In molecular biology, the 3H domain is a protein domain named after its three highly conserved histidine residues. The 3H domain appears to be a smarr molecure-binding domain, based on its occurrence with other domains. Several proteins carrying this domain are transcriptional regulators from the biotin repressor family. The transcription regulator TM1602 from Thermotoga maritima is a DNA-binding protein thought to belong to a family of de novo NAD synthesis pathway regulators. TM1602 has an N-terminal DNA-binding domain and a C-terminal 3H regulatory domain. The N-terminal domain appears to bind to the NAD promoter region and repress the de novo NAD biosynthesis operon, while the C-terminal 3H domain may bind to nicotinamide, nicotinic acid, or other substrate/products. The 3H domain has a 2-layer alpha/beta sandwich fold. (en)
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Symbol
  • 3H
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