S100 Family: 1.25.40.20.15.1.1.1

Representative domain: 1iknD00

Classification Lineage (1.25.40.20.15.1.1.1)

CATH Code	Level Description	Links
1	Mainly Alpha
1.25	Alpha Horseshoe
1.25.40	Serine Threonine Protein Phosphatase 5, Tetratricopeptide repeat
1.25.40.20		Gene3D
1.25.40.20.15
1.25.40.20.15.1
1.25.40.20.15.1.1
1.25.40.20.15.1.1.1

Summary of Non-Redundant Representatives


-	-	-	-	-	-	-	-	3

Non-Redundant Representatives (3)
Functional Families
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What is a Non-Redundant Representative?

CATH is a tree-like organisation of nodes that begins with the class node (i.e. the first branch-point of the tree) and ends with the domain nodes (i.e. the leaves of the tree). Each node below the class have a parent that they belong to, e.g. the parent of the H level (Homologous superfamily) is the T (Topology). Additionally, each node above the domains have child nodes that belong to them, e.g. the child nodes of a given H (Homologous superfamily) level are the S35 families (domains clustered at > 35% sequence identity).

S100 Count Entries in S100 Family 1.25.40.20.15.1.1.1 (3)

CATH code	Domain ID	Keywords
1.25.40.20.15.1.1.1.1	1iknD00	RIG-I-like receptor signaling pathway, identical protein binding, negative regulation of NF-kappaB transcription factor activity, Apoptosis, Toll-like receptor signaling pathway, nuclear factor of kappa light polypeptide gene enhancer in B-cells inhibitor, alpha, ubiquitin protein ligase binding, Adipocytokine signaling pathway, positive regulation of cholesterol efflux, negative regulation of lipid storage, Chagas disease, B cell receptor signaling pathway, cytoplasmic sequestering of NF-kappaB, Leishmaniasis, Chronic myeloid leukemia, NOD-like receptor signaling pathway, NF-kappa-B inhibitor alpha, negative regulation of macrophage derived foam cell differentiation, positive regulation of cellular protein metabolic process, nucleus, Homo sapiens, Chemokine signaling pathway, Cytosolic DNA-sensing pathway, T cell receptor signaling pathway, Neurotrophin signaling pathway, NF-kappaB binding, Prostate cancer, Small cell lung cancer, I-kappaB/NF-kappaB complex, nuclear localization sequence binding, Epithelial cell signaling in Helicobacter pylori infection, positive regulation of gene-specific transcription from RNA polymerase II promoter, Pathways in cancer, apoptosis
1.25.40.20.15.1.1.1.2	1nfiE00	positive regulation of cholesterol efflux, negative regulation of lipid storage, B cell receptor signaling pathway, Chagas disease, cytoplasmic sequestering of NF-kappaB, Chronic myeloid leukemia, Leishmaniasis, NOD-like receptor signaling pathway, NF-kappa-B inhibitor alpha, positive regulation of cellular protein metabolic process, negative regulation of macrophage derived foam cell differentiation, nucleus, RIG-I-like receptor signaling pathway, identical protein binding, negative regulation of NF-kappaB transcription factor activity, Toll-like receptor signaling pathway, Apoptosis, nuclear factor of kappa light polypeptide gene enhancer in B-cells inhibitor, alpha, ubiquitin protein ligase binding, Adipocytokine signaling pathway, Prostate cancer, Small cell lung cancer, I-kappaB/NF-kappaB complex, nuclear localization sequence binding, Epithelial cell signaling in Helicobacter pylori infection, positive regulation of gene-specific transcription from RNA polymerase II promoter, Pathways in cancer, apoptosis, Homo sapiens, Chemokine signaling pathway, Cytosolic DNA-sensing pathway, T cell receptor signaling pathway, Neurotrophin signaling pathway, NF-kappaB binding
1.25.40.20.15.1.1.1.3	1nfiF00	negative regulation of lipid storage, positive regulation of cholesterol efflux, Chagas disease, B cell receptor signaling pathway, cytoplasmic sequestering of NF-kappaB, NOD-like receptor signaling pathway, Chronic myeloid leukemia, Leishmaniasis, nucleus, NF-kappa-B inhibitor alpha, negative regulation of macrophage derived foam cell differentiation, positive regulation of cellular protein metabolic process, negative regulation of NF-kappaB transcription factor activity, RIG-I-like receptor signaling pathway, identical protein binding, Toll-like receptor signaling pathway, Apoptosis, nuclear factor of kappa light polypeptide gene enhancer in B-cells inhibitor, alpha, ubiquitin protein ligase binding, Adipocytokine signaling pathway, Small cell lung cancer, I-kappaB/NF-kappaB complex, Prostate cancer, nuclear localization sequence binding, Epithelial cell signaling in Helicobacter pylori infection, positive regulation of gene-specific transcription from RNA polymerase II promoter, Pathways in cancer, apoptosis, Homo sapiens, Chemokine signaling pathway, T cell receptor signaling pathway, Cytosolic DNA-sensing pathway, Neurotrophin signaling pathway, NF-kappaB binding

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=1.25.40.20.15.1.1.1

What is a Non-Redundant Representative?

Why can't I have a multiple structural alignment of the whole superfamily?

The simple answer is that some of the larger superfamilies in CATH comprise relatives which are very structurally diverse, having different secondary structure embellishments. Attempting to provide a global alignment of all domains in the superfamily would result in poor quality alignments. As a result, structural alignments in CATH are generated by first clustering together the structures that have at least some recognisable structural similarity using a normalised RMSD score (SIMAX = RMSDxNumber of residues in the largest domain/number of aligned residues) less than a given cutoff.

What is an Close Structural Cluster?

A Close Structural Cluster describes a cluster of two or more CATH domains that have been grouped together due to their close structural similarity (SIMAX score < 5Å where SIMAX = RMSD x Number of residues in the larger domain/number of aligned residues).

What is a Distant Structural Cluster?

A Distant Structural Cluster describes a cluster of two or CATH domains that have been grouped together with a more relaxed structural similarity threshold to investigate more distant evolutionary similarities (SIMAX score < 5Å where SIMAX = RMSD x Number of residues in the larger domain/number of aligned residues).

What is a Structural Neighbour?

The term "structural neighbour" is used here to describe two CATH domains that share a degree of structural similarity. The SSAP algorithm is used to calculate this similarity and works by generating a structure-based pairwise alignment of the two domains then scoring this alignment using a RMSD score which has been normalised by the length of the larger domain divided by the number of aligned residues (SIMAX).

S100 Family: 1.25.40.20.15.1.1.1

Classification Lineage (1.25.40.20.15.1.1.1)

Summary of Non-Redundant Representatives

What is a Non-Redundant Representative?

S100 Count Entries in S100 Family 1.25.40.20.15.1.1.1 (3)

What is a Non-Redundant Representative?

Why can't I have a multiple structural alignment of the whole superfamily?

What is an Close Structural Cluster?

What is a Distant Structural Cluster?

What is a Structural Neighbour?

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