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Human ATP6V0A4/A4/ATP6N1B ORF/cDNA clone-Lentivirus plasmid (NM_020632.3)
Cat. No.: pGMLV001589
Size: 10 µg
Concentration: generally 0.5ug/ul, usually not less than 0.3ug/ul
Leading Time: 3-7 working days
Pre-made Human ATP6V0A4/A4/ATP6N1B Lentiviral expression plasmid for ATP6V0A4 lentivirus packaging, ATP6V0A4 lentivirus production, overexpression stable cell line development, cell transient transfection and gene delivery targeting T/B/NK cells, macrophages, cardiomyocytes, hepatocytes, and neurons.
Our GM-Lentiviral vector is seamlessly integrated with the GM lentivirus packaging system. Discover more about the GM lentivirus packaging system.
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Product Description
| Catalog ID | pGMLV001589 |
| Gene Name | ATP6V0A4 |
| Accession Number | NM_020632.3 |
| Gene ID | 50617 |
| Species | Human |
| Product Type | Lentivirus plasmid (overexpression) |
| Insert Length | 2523 bp |
| Gene Alias | A4,ATP6N1B,ATP6N2,DRTA3,RDRTA2,RTA1C,RTADR,STV1,VPH1,VPP2 |
| Fluorescent Reporter | ZsGreen |
| Mammalian Cell Selection | Puromyocin |
| Fusion Tag | 3xflag (C-Terminal) |
| Promoter | CMV |
| Resistance | Amplicin |
| ORF Nucleotide Sequence | ATGGTGTCTGTGTTTCGAAGCGAGGAGATGTGTTTGTCACAACTGTTTCTCCAGGTGGAAGCTGCATATTGCTGTGTGGCTGAGCTCGGAGAGCTCGGATTGGTTCAGTTCAAAGATTTAAATATGAATGTGAACAGCTTTCAAAGGAAATTTGTGAATGAAGTCAGAAGGTGTGAATCACTGGAGAGAATCCTCCGTTTTCTGGAAGACGAGATGCAAAATGAGATTGTAGTTCAGTTGCTCGAGAAAAGCCCACTGACCCCGCTCCCACGGGAAATGATTACCCTGGAGACTGTTCTAGAAAAACTGGAAGGAGAGTTACAGGAAGCCAACCAGAACCAGCAGGCCTTGAAACAAAGCTTCCTAGAACTGACAGAACTGAAATACCTCCTGAAGAAAACCCAAGACTTCTTTGAGACGGAAACCAATTTAGCTGATGATTTCTTTACTGAGGACACTTCTGGCCTCCTGGAGTTGAAAGCAGTGCCTGCATATATGACCGGAAAGTTGGGGTTCATAGCCGGTGTGATCAACAGGGAGAGGATGGCTTCCTTTGAGCGGTTACTGTGGCGAATCTGCCGAGGAAACGTGTACTTGAAGTTCAGTGAGATGGACGCCCCTCTGGAGGATCCTGTGACGAAAGAAGAAATTCAGAAGAACATATTCATCATATTTTACCAAGGAGAGCAGCTCAGGCAGAAAATCAAGAAGATCTGTGATGGGTTTCGAGCCACTGTCTACCCTTGCCCAGAGCCTGCGGTGGAGCGCAGAGAGATGTTGGAGAGCGTCAATGTGAGGCTGGAAGATTTAATCACCGTCATAACACAAACAGAGTCTCACCGCCAGCGCCTGCTGCAGGAAGCCGCTGCCAACTGGCACTCCTGGCTCATCAAGGTGCAGAAGATGAAAGCTGTCTACCACATCCTGAACATGTGCAACATCGACGTCACCCAGCAGTGTGTCATCGCCGAGATCTGGTTCCCGGTGGCAGATGCCACACGTATCAAGAGGGCACTGGAGCAAGGCATGGAACTAAGTGGCTCCTCCATGGCCCCCATCATGACCACAGTGCAATCTAAAACAGCCCCTCCCACATTTAACAGGACCAATAAATTCACAGCTGGCTTCCAGAATATTGTTGATGCCTATGGTGTCGGCAGCTACCGGGAGATAAACCCAGCCCCCTACACCATCATCACTTTCCCCTTCCTGTTCGCTGTGATGTTTGGAGACTGTGGTCATGGAACCGTGATGCTCCTGGCTGCACTTTGGATGATTCTGAATGAGAGACGCTTGCTCTCCCAGAAGACAGACAATGAGATTTGGAACACCTTCTTCCACGGGCGCTATCTGATCCTACTTATGGGCATCTTCTCCATCTACACGGGTTTGATCTACAATGACTGCTTCTCCAAGTCCTTGAACATCTTTGGCTCTTCTTGGAGTGTCCAACCCATGTTCAGAAACGGCACATGGAATACTCATGTAATGGAGGAAAGTCTATATCTGCAGCTGGACCCAGCCATACCAGGAGTGTATTTTGGAAATCCATACCCGTTTGGGATTGATCCGATTTGGAACTTGGCTTCAAACAAACTCACATTTCTGAACTCGTATAAAATGAAGATGTCGGTGATCCTGGGAATTGTCCAGATGGTTTTCGGTGTCATCCTCAGCCTTTTCAATCACATATACTTCAGAAGAACTCTCAACATCATTCTGCAATTTATCCCTGAGATGATTTTTATCCTGTGTCTGTTTGGATACCTGGTTTTCATGATCATTTTCAAATGGTGCTGCTTTGACGTCCATGTATCTCAGCACGCCCCCAGCATCCTCATCCACTTCATCAACATGTTTCTGTTTAACTACAGTGACTCTTCCAACGCACCCCTCTACAAACATCAGCAAGAAGTCCAAAGTTTCTTTGTGGTTATGGCTTTGATTTCTGTGCCGTGGATGCTTCTGATTAAGCCGTTTATTCTTAGAGCCAGTCATCGGAAATCCCAGCTGCAGGCATCCAGGATCCAAGAAGATGCCACTGAGAACATTGAAGGTGATAGCTCCAGCCCTTCTAGCCGTTCTGGCCAGAGGACTTCTGCAGATACCCACGGGGCTCTGGACGACCATGGAGAAGAGTTCAACTTTGGAGACGTCTTTGTCCACCAAGCCATCCACACCATCGAGTACTGCCTGGGCTGCATTTCAAACACAGCCTCCTACCTGCGGCTCTGGGCCCTCAGCCTGGCTCATGCACAACTGTCTGAAGTGCTCTGGACTATGGTGATGAACAGCGGCCTTCAGACGCGAGGCTGGGGAGGAATCGTCGGGGTTTTTATTATTTTTGCCGTATTTGCTGTCCTGACAGTAGCCATCCTTCTGATCATGGAGGGCCTCTCTGCTTTCCTGCACGCCCTGCGACTGCACTGGGTTGAGTTCCAGAACAAGTTCTATGTCGGGGATGGTTACAAGTTTTCTCCATTCTCCTTTAAACACATCCTGGATGGCACAGCCGAGGAGTAG |
| ORF Protein Sequence | MVSVFRSEEMCLSQLFLQVEAAYCCVAELGELGLVQFKDLNMNVNSFQRKFVNEVRRCESLERILRFLEDEMQNEIVVQLLEKSPLTPLPREMITLETVLEKLEGELQEANQNQQALKQSFLELTELKYLLKKTQDFFETETNLADDFFTEDTSGLLELKAVPAYMTGKLGFIAGVINRERMASFERLLWRICRGNVYLKFSEMDAPLEDPVTKEEIQKNIFIIFYQGEQLRQKIKKICDGFRATVYPCPEPAVERREMLESVNVRLEDLITVITQTESHRQRLLQEAAANWHSWLIKVQKMKAVYHILNMCNIDVTQQCVIAEIWFPVADATRIKRALEQGMELSGSSMAPIMTTVQSKTAPPTFNRTNKFTAGFQNIVDAYGVGSYREINPAPYTIITFPFLFAVMFGDCGHGTVMLLAALWMILNERRLLSQKTDNEIWNTFFHGRYLILLMGIFSIYTGLIYNDCFSKSLNIFGSSWSVQPMFRNGTWNTHVMEESLYLQLDPAIPGVYFGNPYPFGIDPIWNLASNKLTFLNSYKMKMSVILGIVQMVFGVILSLFNHIYFRRTLNIILQFIPEMIFILCLFGYLVFMIIFKWCCFDVHVSQHAPSILIHFINMFLFNYSDSSNAPLYKHQQEVQSFFVVMALISVPWMLLIKPFILRASHRKSQLQASRIQEDATENIEGDSSSPSSRSGQRTSADTHGALDDHGEEFNFGDVFVHQAIHTIEYCLGCISNTASYLRLWALSLAHAQLSEVLWTMVMNSGLQTRGWGGIVGVFIIFAVFAVLTVAILLIMEGLSAFLHALRLHWVEFQNKFYVGDGYKFSPFSFKHILDGTAEE |
Reference
Data / case study
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Associated products
| Category | Cat No. | Products Name |
|---|---|---|
| Target Antibody | GM-Tg-g-MP0113-Ab | Anti-VPP4/ ATP6V0A4/ A4 monoclonal antibody |
| Target Antigen | GM-Tg-g-MP0113-Ag | ATP6V0A4 VLP (virus-like particle) |
| ORF Viral Vector | pGMLV001589 | Human ATP6V0A4 Lentivirus plasmid |
| ORF Viral Vector | vGMLV001589 | Human ATP6V0A4 Lentivirus particle |
Target information
| Target ID | GM-MP0113 |
| Target Name | ATP6V0A4 |
| Gene ID | 50617, 140494, 715492, 296981, 101089593, 482779, 518974, 100064797 |
| Gene Symbol and Synonyms | A4,ATP6N1B,ATP6N2,ATP6V0A4,DRTA3,RDRTA2,RTA1C,RTADR,STV1,VPH1,VPP2 |
| Uniprot Accession | Q9HBG4 |
| Uniprot Entry Name | VPP4_HUMAN |
| Protein Sub-location | Transmembrane Protein |
| Category | Not Available |
| Disease | Not Available |
| Gene Ensembl | ENSG00000105929 |
| Target Classification | Not Available |
This gene encodes a component of vacuolar ATPase (V-ATPase), a multisubunit enzyme that mediates acidification of intracellular compartments of eukaryotic cells. V-ATPase dependent acidification is necessary for such intracellular processes as protein sorting, zymogen activation, receptor-mediated endocytosis, and synaptic vesicle proton gradient generation. V-ATPase is composed of a cytosolic V1 domain and a transmembrane V0 domain. The V1 domain consists of three A and three B subunits, two G subunits plus the C, D, E, F, and H subunits. The V1 domain contains the ATP catalytic site. The V0 domain consists of five different subunits: a, c, c', c'', and d. This gene is one of four genes in man and mouse that encode different isoforms of the a subunit. Alternatively spliced transcript variants encoding the same protein have been described. Mutations in this gene are associated with renal tubular acidosis associated with preserved hearing. [provided by RefSeq, Jul 2008]
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