Reviewed
Homo Sapiens (Human) [TaxID: 9606]
E10R
Probable FAD-linked sulfhydryl oxidase E10 (EC 1.8.3.2)
Vaccinia Virus (strain Copenhagen) (VACV)
Viruses> DsDNA Viruses> No RNA Stage> Poxviridae> Chordopoxvirinae> Orthopoxvirus> Vaccinia Virus> Vaccinia Virus (strain Copenhagen) (VACV)
2219722 ;
Various pathway(s) in which protein is involved
Not Available
Not Available
MNPKHWGRAVWTIIFIVLSQAGLDGNIEACKRKLYTIVSTLPCPACRRHATIAIEDNNVMSSDDLNYIYYFFIRLFNNLASDPKYAIDVSKVKPL
95
Not Available
Not Available
01-02-1991
Evidence at transcript level
| Amino Acid | Count | % Frequency | Amino Acid | Count | % Frequency |
|---|---|---|---|---|---|
| Alanine (A) | Leucine (L) | ||||
| Arginine (R) | Lysine (K) | ||||
| Asparagine (N) | Methionine (M) | ||||
| Aspartic Acid (D) | Phenylalanine (F) | ||||
| Cysteine (C) | Proline (P) | ||||
| Glutamine (Q) | Serine (S) | ||||
| Glutamic Acid (E) | Threonine (T) | ||||
| Glycine (G) | Tryptophan (W) | ||||
| Histidine (H) | Tyrosine (Y) | ||||
| Isoleucine (I) | Valine (V) |
| % Number of Residues in Helices | % Number of Residues in Strands | % Number of Residues in Coils |
|---|---|---|
FAD-dependent sulfhydryl oxidase that catalyzes disulfide bond formation. The complete pathway for formation of disulfide bonds in intracellular virion membrane proteins sequentially involves oxidation of E10, A2.5 and G4 (By similarity).
1.8.3.2
♦ Virion membrane
♦ Single-pass membrane protein . Note=Associated with crescent membranes, immature virions (IV) and mature virions (MV). .
♦ Single-pass membrane protein . Note=Associated with crescent membranes, immature virions (IV) and mature virions (MV). .
DOMAIN 1 95 ERV/ALR sulfhydryl oxidase.
Not Available
Predicted/Modelled
Not Available
Not Available
Protein couldn't be modeled using I-Tasser and Raptor X because of length constraints of the software.
Not Available
- Million Molecules
Best 20 Hit molecules
Not Available