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E1 (HCV)


E1 is one of two subunits of the envelope glycoprotein found in the virus hepatitis C virus. The other subunit is E2 This protein is a type 1 transmembrane protein with a highly glycosylated N-terminal ectodomain and a C-terminal hydrophobic anchor. After being synthesized the E1 glycoproteins associates with the E2 glycoprotein as a noncovalent heterodimer.

The E1 glycoprotein residues 192-383 in the genotype 1a H77 strain. After translation the E1 C-terminal transmembrane domains (TMDs) forms a hairpin of antiparallel a-helices. E1 is then cleaved by signal peptide peptidase at the endoplasmic reticulum and E1 is then made into a single long straight a-helix. What is known of the structure is from a crystal structure made in 2014. This crystal structure shows that it has two a-helixes and 3 B-sheets for both monomers; two disulfide bridges stabilize these two monomers. This means that E1 is more compact then its E2 counterpart. It has been shown that E1 can fold with a small amount of E2 protein present. In addition to this it was shown that E1 oxidation preceded E2 maturation. This means that E1 has a chaperone-like role for E2. Despite these finds there are many things still unknown about the structure of E1. The E1 protein is anchored to the membrane. Most of the time E1 remains in its unfolded conformation.

The E1 protein helps the virus attach to the membrane of the targeted cell. In other envelope virus the E1 protein has a similar role in helping the virus get into the cell. As a heterodimer with E2 it has been discovered that it is essential for HCV entry. When the heterodimer is formed the hepatitis C virus is then able to bind to the receptor of the cell. As a heterodimer the E1 protein alone with the E2 protein worked together to enter the cell. Also cleavage at the core-E1 junction is a prerequisite for SPP-catalyzed cleavage. This helps the virus relocate to the surface of lipid droplets. Once the virus gets to the surface of the lipid droplets it recruits the virus no-structural proteins and replication complex. The SP-catalyzed cleavage at the core-E1 junction is required for the formation of infectious particles and for the release of any HCV particles. Also E1 has no function with budding at the ER membrane. It also had no effect on the intracellular formation of capsid-containing particles. Instead when E1 was not allowed to form this tended to facilitate the budding process.


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