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AB43032

Recombinant Rubella Virus gpE1 protein

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Recombinant Rubella Virus gpE1 protein is a Rubella virus strain TO-336 Fragment protein, expressed in Escherichia coli, with >95%, suitable for ELISA, WB.

View Alternative Names

Structural polyprotein, p110

Key facts

Purity

>95% SDS-PAGE

Expression system

Escherichia coli

Tags

Tag free

Applications

ELISA, WB

applications

Biologically active

No

Accession

P08564

Animal free

No

Carrier free

No

Species

Rubella virus strain TO-336

Storage buffer

Preservative: 0.14% Imidazole Constituents: 48% Urea, 1.74% Sodium chloride

storage-buffer

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "ELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" }, "WB": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" } } }
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Sequence info

[{"sequence":"","proteinLength":"Fragment","predictedMolecularWeight":null,"actualMolecularWeight":null,"aminoAcidEnd":0,"aminoAcidStart":0,"nature":"Recombinant","expressionSystem":null,"accessionNumber":"P08564","tags":[]}]
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Properties and storage information

Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
-20°C
Appropriate long-term storage conditions
-20°C
Aliquoting information
Upon delivery aliquot
Storage information
Avoid freeze / thaw cycle
False
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

The Rubella Virus envelope glycoprotein E1 (gpE1) also known simply as E1 is an integral part of the rubella virus structure. This protein facilitates viral entry into host cells by mediating fusion with the cell membrane a critical step for viral infection. Structurally gpE1 is expressed on the surface of the rubella virus and has an approximate molecular weight of 58 kDa. This glycoprotein is predominantly found on the viral envelope where it performs its mechanical functions essential for initiating infection.
Biological function summary

The function of the envelope glycoprotein E1 lies in its association with the virus's infectivity and immune evasion capabilities. E1 forms a complex with another structural protein E2 contributing to the protective envelope of the virus. This protein complex is responsible for antigenic properties that help the virus to avoid detection by the host’s immune system. The interactions between gpE1 and host cell receptors play a significant role in the virus’ lifecycle by facilitating its entry into the host cells which is essential for successful replication and proliferation of the virus.

Pathways

Involvement of Rubella Virus gpE1 extends to its important roles in the viral entry and fusion pathways. The protein works in coordination with the viral envelope protein E2 to penetrate host immune defenses. This functional partnership allows gpE1 to participate actively in processes that facilitate the virus' survival and propagation within the host. The protein's mechanistic role in fusion pathways relates to its ability to induce cellular membrane fusion which is key for viral entry.

Rubella Virus gpE1 is directly linked to the pathogenesis of rubella infection which can cause serious outcomes like congenital rubella syndrome (CRS). This protein's interactions with immune system components are vital in the disease's development and progression. The inflammatory responses and pathologies associated with rubella infection are significantly influenced by gpE1 through its interactions with the host's immune recognition proteins such as CD46 which may act as a receptor for the virus. These interactions emphasize the protein's contribution to the virus's pathogenicity and the challenges it poses for medical intervention and vaccine development.
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Specifications

Form

Liquid

Additional notes

Purified by ion exchange chromatography.

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General info

Function

Capsid protein. Capsid protein interacts with genomic RNA and assembles into icosahedric core particles 65-70 nm in diameter. The resulting nucleocapsid eventually associates with the cytoplasmic domain of E2 at the cell membrane, leading to budding and formation of mature virions from host Golgi membranes. Phosphorylation negatively regulates RNA-binding activity, possibly delaying virion assembly during the viral replication phase. Capsid protein dimerizes and becomes disulfide-linked in the virion. Modulates genomic RNA replication. Modulates subgenomic RNA synthesis by interacting with human C1QBP/SF2P32. Induces both perinuclear clustering of mitochondria and the formation of electron-dense intermitochondrial plaques, both hallmarks of rubella virus infected cells. Induces apoptosis when expressed in transfected cells.. Spike glycoprotein E2. Responsible for viral attachment to target host cell, by binding to the cell receptor. Its transport to the plasma membrane depends on interaction with E1 protein. The surface glycoproteins display an irregular helical organization and a pseudo-tetrameric inner nucleocapsid arrangement.. Spike glycoprotein E1. Class II viral fusion protein (By similarity). Fusion activity is inactive as long as E1 is bound to E2 in mature virion. After virus attachment to target cell and clathrin-mediated endocytosis, acidification of the endosome would induce dissociation of E1/E2 heterodimer and concomitant trimerization of the E1 subunits (By similarity). This E1 homotrimer is fusion active, and promotes release of viral nucleocapsid in cytoplasm after endosome and viral membrane fusion. The cytoplasmic tail of spike glycoprotein E1 modulates virus release. The surface glycoproteins display an irregular helical organization and a pseudo-tetrameric inner nucleocapsid arrangement (By similarity).

Post-translational modifications

Structural polyprotein: Specific enzymatic cleavages in vivo yield mature proteins. Two signal peptidase-mediated cleavages within the polyprotein produce the structural proteins capsid, E2, and E1. The E2 signal peptide remains attached to the C-terminus of the capsid protein after cleavage by the signal peptidase. Another signal peptide at E2 C-terminus directs E1 to the ER, with a similar mechanism.. Spike glycoprotein E1. Contains three N-linked oligosaccharides.. Capsid is phosphorylated on Ser-46 by host. This phosphorylation negatively regulates capsid protein RNA-binding activity (By similarity). Dephosphorylated by human PP1A (By similarity).

Subcellular localisation

Host mitochondrion

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Product protocols

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Target data

Capsid protein. Capsid protein interacts with genomic RNA and assembles into icosahedric core particles 65-70 nm in diameter. The resulting nucleocapsid eventually associates with the cytoplasmic domain of E2 at the cell membrane, leading to budding and formation of mature virions from host Golgi membranes. Phosphorylation negatively regulates RNA-binding activity, possibly delaying virion assembly during the viral replication phase. Capsid protein dimerizes and becomes disulfide-linked in the virion. Modulates genomic RNA replication. Modulates subgenomic RNA synthesis by interacting with human C1QBP/SF2P32. Induces both perinuclear clustering of mitochondria and the formation of electron-dense intermitochondrial plaques, both hallmarks of rubella virus infected cells. Induces apoptosis when expressed in transfected cells.. Spike glycoprotein E2. Responsible for viral attachment to target host cell, by binding to the cell receptor. Its transport to the plasma membrane depends on interaction with E1 protein. The surface glycoproteins display an irregular helical organization and a pseudo-tetrameric inner nucleocapsid arrangement.. Spike glycoprotein E1. Class II viral fusion protein (By similarity). Fusion activity is inactive as long as E1 is bound to E2 in mature virion. After virus attachment to target cell and clathrin-mediated endocytosis, acidification of the endosome would induce dissociation of E1/E2 heterodimer and concomitant trimerization of the E1 subunits (By similarity). This E1 homotrimer is fusion active, and promotes release of viral nucleocapsid in cytoplasm after endosome and viral membrane fusion. The cytoplasmic tail of spike glycoprotein E1 modulates virus release. The surface glycoproteins display an irregular helical organization and a pseudo-tetrameric inner nucleocapsid arrangement (By similarity).
See full target information Structural polyprotein
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