S100 Family: 3.10.450.40.13.1.1.1

Molscript image for 1tu5A01
Representative domain: 1tu5A01
PDB coordinates for domain 1tu5A01

Classification Lineage (3.10.450.40.13.1.1.1)

CATH CodeLevel DescriptionLinks
3 Alpha Beta
3.10 Roll
3.10.450 Nuclear Transport Factor 2; Chain: A,
3.10.450.40 Gene3D
3.10.450.40.13
3.10.450.40.13.1
3.10.450.40.13.1.1
3.10.450.40.13.1.1.1

Summary of Non-Redundant Representatives
- - - - - - - - 4

S100 Count Entries in S100 Family 3.10.450.40.13.1.1.1 (4)

CATH Level CATH code Domain ID Keywords Thumbnail
3.10.450.40.13.1.1.1.1 1tu5A01 Primary-amine oxidase., Phenylalanine metabolism, primary-amine oxidase [EC:1.4.3.21], amine metabolic process, Bos taurus, copper ion binding, beta-Alanine metabolism, Primary amine oxidase, liver isozyme, Glycine, serine and threonine metabolism, Tyrosine metabolism, Metabolic pathways Molscript image for 1tu5A01
3.10.450.40.13.1.1.1.2 2pncA01 Phenylalanine metabolism, Primary-amine oxidase., primary-amine oxidase [EC:1.4.3.21], amine metabolic process, Bos taurus, beta-Alanine metabolism, copper ion binding, Primary amine oxidase, liver isozyme, Metabolic pathways, Glycine, serine and threonine metabolism, Tyrosine metabolism Molscript image for 2pncA01
3.10.450.40.13.1.1.1.3 2pncB01 Primary amine oxidase, liver isozyme, Metabolic pathways, Tyrosine metabolism, Glycine, serine and threonine metabolism, Bos taurus, beta-Alanine metabolism, copper ion binding, primary-amine oxidase [EC:1.4.3.21], amine metabolic process, Primary-amine oxidase., Phenylalanine metabolism Molscript image for 2pncB01
3.10.450.40.13.1.1.1.4 1tu5B01 amine metabolic process, primary-amine oxidase [EC:1.4.3.21], Primary-amine oxidase., Phenylalanine metabolism, Metabolic pathways, Tyrosine metabolism, Glycine, serine and threonine metabolism, Primary amine oxidase, liver isozyme, beta-Alanine metabolism, copper ion binding, Bos taurus Molscript image for 1tu5B01

The information on Functional Families (FunFams) is currently being updated and will be released by the end of March 2012. The pages will include the following features:
  • Multiple alignments for each functional family
  • Representative structure for each functional with known catalytic and interface residues highlighted, along with conserved residues predicted by scorecons
  • Detailed functional information on diversity and conservation within Functional families
  • Multi-domain architectures
In the meantime, please find a summary of information on the FunFams and protein networks within this superfamily on the Gene3D pages:
http://gene3d.biochem.ucl.ac.uk/superfamily/?accession=3.10.450.40.13.1.1.1