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Official Full Name coatomer protein complex, subunit epsilon
Background The product of this gene is an epsilon subunit of coatomer protein complex. Coatomer is a cytosolic protein complex that binds to dilysine motifs and reversibly associates with Golgi non-clathrin-coated vesicles. It is required for budding from Golgi membranes, and is essential for the retrograde Golgi-to-ER transport of dilysine-tagged proteins. Coatomer complex consists of at least the alpha, beta, beta, gamma, delta, epsilon and zeta subunits. Alternatively spliced transcript variants encoding different isoforms have been identified.
Synonyms COPE; coatomer protein complex, subunit epsilon; coatomer subunit epsilon; epsilon COP; 1110005D17Rik; Coatomer epsilon subunit; Coatomer protein complex subunit epsilon; Cope1; Epsilon coat protein; Epsilon COP I; Epsilon subunit of coatomer protein complex; FLJ13241; epsilon-coat protein; epsilon-COP
    • Species :
    • Chicken
    • Human
    • Mouse
    • Rhesus Macaque
    • Zebrafish
    • Source :
    • E.coli
    • HEK293
    • HEK293T
    • Mammalian Cell
    • Wheat Germ
    • Tag :
    • GST
    • His
    • Myc/DDK
    • N/A
    Species Cat.# Product name Source (Host) Tag Protein Length Price
    Mouse Cope-2259M Recombinant Mouse Cope Protein, Myc/DDK-tagged HEK293T Myc/DDK
    Human COPE-3597H Recombinant Human COPE Protein, Myc/DDK-tagged, C13 and N15-labeled HEK293T Myc/DDK
    Human COPE-11456H Recombinant Human COPE, GST-tagged E.coli GST
    Human COPE-1695H Recombinant Human COPE Protein, GST-tagged Wheat Germ GST
    Human COPE-649H Recombinant Human coatomer protein complex, subunit epsilon, His-tagged E.coli His
    Human COPE-7361HCL Recombinant Human COPE 293 Cell Lysate HEK293 N/A
    Mouse COPE-3776M Recombinant Mouse COPE Protein Mammalian Cell His
    Rhesus Macaque COPE-970R Recombinant Rhesus monkey COPE Protein, His-tagged Mammalian Cell His
    Chicken COPE-1483C Recombinant Chicken COPE Mammalian Cell His
    Zebrafish COPE-1752Z Recombinant Zebrafish COPE Mammalian Cell His

    COPE involved in several pathways and played different roles in them. We selected most pathways COPE participated on our site, such as COPI Mediated Transport, Golgi to ER Retrograde Transport, Membrane Trafficking, which may be useful for your reference. Also, other proteins which involved in the same pathway with COPE were listed below. Creative BioMart supplied nearly all the proteins listed, you can search them on our site.

    Pathway Name Pathway Related Protein
    Golgi to ER Retrograde Transport ARCN1B; COPG; ARCN1; COPB1; ARCN1A; COPE; COPB2; COPZ1; TERFA
    Membrane Trafficking BLOC1S4; COPB1; TCEAL4; LMAN2L; COPZ1; TBC1D8B; AP4B1; RALAA; SNF8; EXOC1
    Vesicle-mediated transport CX27.5; PICALM; GJD3; NAPB; MYO6B; NECAP1; TRAPPC9; TRAPPC6BL; CLVS1; STAB2

    COPE has several biochemical functions, for example, protein binding, structural molecule activity. Some of the functions are cooperated with other proteins, some of the functions could acted by COPE itself. We selected most functions COPE had, and list some proteins which have the same functions with COPE. You can find most of the proteins on our site.

    Function Related Protein
    protein binding DCAF8; MYBL2; CTSL2; RAB18; PCGF5; TSEN54; HTR1E; LMF2; APLF; MATR3
    structural molecule activity KRT94; CLDN20; CLDND; LAMB1; COPB1; KRT1-C5; SPRR2G; LCE3D; CLDN5B; CLDN15LA

    COPE has direct interactions with proteins and molecules. Those interactions were detected by several methods such as yeast two hybrid, co-IP, pull-down and so on. We selected proteins and molecules interacted with COPE here. Most of them are supplied by our site. Hope this information will be useful for your research of COPE.

    EFHC2; Copa; CASP4; COPA; malF2; TSG101; pi3p; 15-deoxy-delta(12,14; midostaurin; Katna1; XRCC3; FN1; MYH6; LRRK2; NUDCD1; Erp44

    Popova, D; Stonier, A; et al. Representative mammalian cell culture test materials for assessment of primary recovery technologies: A rapid method with industrial applicability. BIOTECHNOLOGY JOURNAL 10:162-170(2015).
    Ksiazek, A; Zub, K; et al. Immunocompetence and high metabolic rates enhance overwinter survival in the root vole, Microtus oeconomus. BIOLOGY LETTERS 10:-(2014).

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