Family known ![]() |
|||||||
Total |
100% ![]() |
<100% ![]() |
Family unknown ![]() |
||||
Functional domains | 13877 | 0 | 13530 | 347 | |||
UniProtKB | 28749 | 0 | 28511 | 238 | |||
GI | 54186 | 0 | 53656 | 530 | |||
Structures | 70 | ||||||
Reactions | 0 | ||||||
Functional domains of this subgroup were last updated on Nov. 22, 2017 | |||||||
New functional domains were last added to this subgroup on May 7, 2015 |
The enolase group consists of the subset of enolase superfamily enzymes with a Lys at the end of the sixth beta strand that functions in proton abstraction and a Glu at the end of the second beta strand that facilitates departure of the 3-OH group. Currently, the only well-characterized reaction in this group is the enolase reaction.
Babbitt, P.C., et al.
The enolase superfamily: a general strategy for enzyme-catalyzed abstraction of the alpha-protons of carboxylic acids
▸ Abstract
Biochemistry 1996;35(51):16489-16501 | PubMed ID: 8987982
No notes.
Static File Downloads
File Name | Description | Parameters | Stats |
---|---|---|---|
repnet.sg178.th50.pE20.mek250.xgmml | Representative network: each node is a group of similar sequences | node similarity threshold = 50 max edge count = 250 min -log10 E = 20 |
size = 7.7M num_edges = 5970 num_nodes = 110 |
sfld_alignment_sg178.msa | Annotated Sequence Alignment, Stockholm format | 45 sequences size: 29K |
Total number of functional domains in this group.
Number of Functional Domains that have been manually or automatically been assigned to a family.
Number of Functional Domains that have not been assigned to a family.
Number of structures available from the PDB for members of this group.
Number of Functional Domains with 100% of Conserved Residues
Number of Functional Domains with less than 100% Conserved Residues
Depth of the multi-level Subgroup hierarchy.