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Human XDH/XAN1/XO ORF/cDNA clone-Adenovirus particle (NM_000379.3)
Cat. No.: vGMAD000009
Pre-made Human XDH/XAN1/XO Adenovirus for XDH overexpression in-vitro and in-vivo. The XDH adenoviral vector excels as a vehicle for transient gene transfection in both stable cell lines and primary cells, including DC cells, macrophages, cardiomyocytes, hepatocytes, and neurons. The purified XDH-encoding adenovirus also stands out as a quintessential tool for in vivo studies and vaccine research initiatives.
At GM Vector Core (GMVC), we provide bespoke adenovirus development and manufacture various grades of adenoviruses utilizing cutting-edge techniques. Dive deeper into our offerings.
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Product information
| Catalog No. | Product Name | Adenovirus Grade | Adenovirus quantity |
| vGMAD000009 | Human XDH Adenovirus particle | Research Grade-In vitro | 1E+10PFU (1E+10pfu/ml×1ml) |
| 5E+10PFU (1E+10pfu/ml×5ml) | |||
| 1E+11PFU (1E+10pfu/ml×10ml) | |||
| Research Grade-In vivo | 1E+11PFU (1E+11pfu/ml×1ml) | ||
| GMP-like Grade | inquiry | ||
| GMP Grade | inquiry |
Product Description
| Catalog ID | vGMAD000009 |
| Gene Name | XDH |
| Accession Number | NM_000379.3 |
| Gene ID | 7498 |
| Species | Human |
| Product Type | Adenovirus particle (overexpression) |
| Insert Length | 4002 bp |
| Gene Alias | XAN1,XO,XOR |
| Fluorescent Reporter | GFP |
| Mammalian Cell Selection | Null |
| Fusion Tag | 3xflag (C-Terminal) |
| Promoter | EF1 |
| Resistance | Amplicin |
| ORF Nucleotide Sequence | ATGACAGCAGACAAATTGGTTTTCTTTGTGAATGGCAGAAAGGTGGTGGAGAAAAATGCAGATCCAGAGACAACCCTTTTGGCCTACCTGAGAAGAAAGTTGGGGCTGAGTGGAACCAAGCTCGGCTGTGGAGAGGGGGGCTGCGGGGCTTGCACAGTGATGCTCTCCAAGTATGATCGTCTGCAGAACAAGATCGTCCACTTTTCTGCCAATGCCTGCCTGGCCCCCATCTGCTCCTTGCACCATGTTGCAGTGACAACTGTGGAAGGAATAGGAAGCACCAAGACGAGGCTGCATCCTGTGCAGGAGAGAATTGCCAAAAGCCACGGCTCCCAGTGCGGGTTCTGCACCCCTGGCATCGTCATGAGTATGTACACACTGCTCCGGAATCAGCCCGAGCCCACCATGGAGGAGATTGAGAATGCCTTCCAAGGAAATCTGTGCCGCTGCACAGGCTACAGACCCATCCTCCAGGGCTTCCGGACCTTTGCCAGGGATGGTGGATGCTGTGGAGGAGATGGGAATAATCCAAATTGCTGCATGAACCAGAAGAAAGACCACTCAGTCAGCCTCTCGCCATCTTTATTCAAACCAGAGGAGTTCACGCCCCTGGATCCAACCCAGGAGCCCATTTTTCCCCCAGAGTTGCTGAGGCTGAAAGACACTCCTCGGAAGCAGCTGCGATTTGAAGGGGAGCGTGTGACGTGGATACAGGCCTCAACCCTCAAGGAGCTGCTGGACCTCAAGGCTCAGCACCCTGACGCCAAGCTGGTCGTGGGGAACACGGAGATTGGCATTGAGATGAAGTTCAAGAATATGCTGTTTCCTATGATTGTCTGCCCAGCCTGGATCCCTGAGCTGAATTCGGTAGAACATGGACCCGACGGTATCTCCTTTGGAGCTGCTTGCCCCCTGAGCATTGTGGAAAAAACCCTGGTGGATGCTGTTGCTAAGCTTCCTGCCCAAAAGACAGAGGTGTTCAGAGGGGTCCTGGAGCAGCTGCGCTGGTTTGCTGGGAAGCAAGTCAAGTCTGTGGCGTCCGTTGGAGGGAACATCATCACTGCCAGCCCCATCTCCGACCTCAACCCCGTGTTCATGGCCAGTGGGGCCAAGCTGACACTTGTGTCCAGAGGCACCAGGAGAACTGTCCAGATGGACCACACCTTCTTCCCTGGCTACAGAAAGACCCTGCTGAGCCCGGAGGAGATACTGCTCTCCATAGAGATCCCCTACAGCAGGGAGGGGGAGTATTTCTCAGCATTCAAGCAGGCCTCCCGGAGAGAAGATGACATTGCCAAGGTAACCAGTGGCATGAGAGTTTTATTCAAGCCAGGAACCACAGAGGTACAGGAGCTGGCCCTTTGCTATGGTGGAATGGCCAACAGAACCATCTCAGCCCTCAAGACCACTCAGAGGCAGCTTTCCAAGCTCTGGAAGGAGGAGCTGCTGCAGGACGTGTGTGCAGGACTGGCAGAGGAGCTGCATCTGCCTCCCGATGCCCCTGGTGGCATGGTGGACTTCCGGTGCACCCTCACCCTCAGCTTCTTCTTCAAGTTCTACCTGACAGTCCTTCAGAAGCTGGGCCAAGAGAACCTGGAAGACAAGTGTGGTAAACTGGACCCCACTTTCGCCAGTGCAACTTTACTGTTTCAGAAAGACCCCCCAGCCGATGTCCAGCTCTTCCAAGAGGTGCCCAAGGGTCAGTCTGAGGAGGACATGGTGGGCCGGCCCCTGCCCCACCTGGCAGCGGACATGCAGGCCTCTGGTGAGGCCGTGTACTGTGACGACATTCCTCGCTACGAGAATGAGCTGTCTCTCCGGCTGGTCACCAGCACCCGGGCCCACGCCAAGATCAAGTCCATAGATACATCAGAAGCTAAGAAGGTTCCAGGGTTTGTTTGTTTCATTTCCGCTGATGATGTTCCTGGGAGTAACATAACTGGAATTTGTAATGATGAGACAGTCTTTGCGAAGGATAAGGTTACTTGTGTTGGGCATATCATTGGTGCTGTGGTTGCTGACACCCCGGAACACACACAGAGAGCTGCCCAAGGGGTGAAAATCACCTATGAAGAACTACCAGCCATTATCACAATTGAGGATGCTATAAAGAACAACTCCTTTTATGGACCTGAGCTGAAGATCGAGAAAGGGGACCTAAAGAAGGGGTTTTCCGAAGCAGATAATGTTGTGTCAGGGGAGATATACATCGGTGGCCAAGAGCACTTCTACCTGGAGACTCACTGCACCATTGCTGTTCCAAAAGGCGAGGCAGGGGAGATGGAGCTCTTTGTGTCTACACAGAACACCATGAAGACCCAGAGCTTTGTTGCAAAAATGTTGGGGGTTCCAGCAAACCGGATTGTGGTTCGAGTGAAGAGAATGGGAGGAGGCTTTGGAGGCAAGGAGACCCGGAGCACTGTGGTGTCCACGGCAGTGGCCCTGGCTGCATATAAGACCGGCCGCCCTGTGCGATGCATGCTGGACCGTGATGAGGACATGCTGATAACTGGTGGCAGACATCCCTTCCTGGCCAGATACAAGGTTGGCTTCATGAAGACTGGGACAGTTGTGGCTCTTGAGGTGGACCACTTCAGCAATGTGGGGAACACCCAGGATCTCTCTCAGAGTATTATGGAACGAGCTTTATTCCACATGGACAACTGCTATAAAATCCCCAACATCCGGGGCACTGGGCGGCTGTGCAAAACCAACCTTCCCTCCAACACGGCCTTCCGGGGCTTTGGGGGGCCCCAGGGGATGCTCATTGCCGAGTGCTGGATGAGTGAAGTTGCAGTGACCTGTGGGATGCCTGCAGAGGAGGTGCGGAGAAAAAACCTGTACAAAGAAGGGGACCTGACACACTTCAACCAGAAGCTTGAGGGTTTCACCTTGCCCAGATGCTGGGAAGAATGCCTAGCAAGCTCTCAGTATCATGCTCGGAAGAGTGAGGTTGACAAGTTCAACAAGGAGAATTGTTGGAAAAAGAGAGGATTGTGCATAATTCCCACCAAGTTTGGAATAAGCTTTACAGTTCCTTTTCTGAATCAGGCAGGAGCCCTACTTCATGTGTACACAGATGGCTCTGTGCTGCTGACCCACGGGGGGACTGAGATGGGCCAAGGCCTTCATACCAAAATGGTCCAGGTGGCCAGTAGAGCTCTGAAAATCCCCACCTCTAAGATTTATATCAGCGAGACAAGCACTAACACTGTGCCCAACACCTCTCCCACGGCTGCCTCTGTCAGCGCTGACCTCAATGGACAGGCCGTCTATGCGGCTTGTCAGACCATCTTGAAAAGGCTGGAACCCTACAAGAAGAAGAATCCCAGTGGCTCCTGGGAAGACTGGGTCACAGCTGCCTACATGGACACAGTGAGCTTGTCTGCCACTGGGTTTTATAGAACACCCAATCTGGGCTACAGCTTTGAGACTAACTCAGGGAACCCCTTCCACTACTTCAGCTATGGGGTGGCTTGCTCTGAAGTAGAAATCGACTGCCTAACAGGAGATCATAAGAACCTCCGCACAGATATTGTCATGGATGTTGGCTCCAGTCTAAACCCTGCCATTGATATTGGACAGGTGGAAGGGGCATTTGTCCAGGGCCTTGGCCTCTTCACCCTAGAGGAGCTACACTATTCCCCCGAGGGGAGCCTGCACACCCGTGGCCCTAGCACCTACAAGATCCCGGCATTTGGCAGCATCCCCATTGAGTTCAGGGTGTCCCTGCTCCGCGACTGCCCCAACAAGAAGGCCATCTATGCATCGAAGGCTGTTGGAGAGCCGCCCCTCTTCCTGGCTGCTTCTATCTTCTTTGCCATCAAAGATGCCATCCGTGCAGCTCGAGCTCAGCACACAGGTAATAACGTGAAGGAACTCTTCCGGCTAGACAGCCCTGCCACCCCGGAGAAGATCCGCAATGCCTGCGTGGACAAGTTCACCACCCTGTGTGTCACTGGTGTCCCAGAAAACTGCAAACCCTGGTCTGTGAGGGTCTAA |
| ORF Protein Sequence | MTADKLVFFVNGRKVVEKNADPETTLLAYLRRKLGLSGTKLGCGEGGCGACTVMLSKYDRLQNKIVHFSANACLAPICSLHHVAVTTVEGIGSTKTRLHPVQERIAKSHGSQCGFCTPGIVMSMYTLLRNQPEPTMEEIENAFQGNLCRCTGYRPILQGFRTFARDGGCCGGDGNNPNCCMNQKKDHSVSLSPSLFKPEEFTPLDPTQEPIFPPELLRLKDTPRKQLRFEGERVTWIQASTLKELLDLKAQHPDAKLVVGNTEIGIEMKFKNMLFPMIVCPAWIPELNSVEHGPDGISFGAACPLSIVEKTLVDAVAKLPAQKTEVFRGVLEQLRWFAGKQVKSVASVGGNIITASPISDLNPVFMASGAKLTLVSRGTRRTVQMDHTFFPGYRKTLLSPEEILLSIEIPYSREGEYFSAFKQASRREDDIAKVTSGMRVLFKPGTTEVQELALCYGGMANRTISALKTTQRQLSKLWKEELLQDVCAGLAEELHLPPDAPGGMVDFRCTLTLSFFFKFYLTVLQKLGQENLEDKCGKLDPTFASATLLFQKDPPADVQLFQEVPKGQSEEDMVGRPLPHLAADMQASGEAVYCDDIPRYENELSLRLVTSTRAHAKIKSIDTSEAKKVPGFVCFISADDVPGSNITGICNDETVFAKDKVTCVGHIIGAVVADTPEHTQRAAQGVKITYEELPAIITIEDAIKNNSFYGPELKIEKGDLKKGFSEADNVVSGEIYIGGQEHFYLETHCTIAVPKGEAGEMELFVSTQNTMKTQSFVAKMLGVPANRIVVRVKRMGGGFGGKETRSTVVSTAVALAAYKTGRPVRCMLDRDEDMLITGGRHPFLARYKVGFMKTGTVVALEVDHFSNVGNTQDLSQSIMERALFHMDNCYKIPNIRGTGRLCKTNLPSNTAFRGFGGPQGMLIAECWMSEVAVTCGMPAEEVRRKNLYKEGDLTHFNQKLEGFTLPRCWEECLASSQYHARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGALLHVYTDGSVLLTHGGTEMGQGLHTKMVQVASRALKIPTSKIYISETSTNTVPNTSPTAASVSADLNGQAVYAACQTILKRLEPYKKKNPSGSWEDWVTAAYMDTVSLSATGFYRTPNLGYSFETNSGNPFHYFSYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAFVQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPIEFRVSLLRDCPNKKAIYASKAVGEPPLFLAASIFFAIKDAIRAARAQHTGNNVKELFRLDSPATPEKIRNACVDKFTTLCVTGVPENCKPWSVRV |
Reference
Data / case study
Click to get more Data / Case study about the product.
Associated products
| Category | Cat No. | Products Name |
|---|---|---|
| Target Antibody | GM-Tg-g-T40954-Ab | Anti-XDH/ XAN1/ XO functional antibody |
| Target Antigen | GM-Tg-g-T40954-Ag | XDH protein |
| ORF Viral Vector | pGMAD000009 | Human XDH Adenovirus plasmid |
| ORF Viral Vector | pGMAD000414 | Human XDH Adenovirus plasmid |
| ORF Viral Vector | vGMAD000009 | Human XDH Adenovirus particle |
| ORF Viral Vector | vGMAD000414 | Human XDH Adenovirus particle |
Target information
| Target ID | GM-T40954 |
| Target Name | XDH |
| Gene ID | 7498, 22436, 708046, 497811, 483028, 280960 |
| Gene Symbol and Synonyms | XAN1,XDH,XO,XOR,Xox-1,Xox1 |
| Uniprot Accession | P47989 |
| Uniprot Entry Name | XDH_HUMAN |
| Protein Sub-location | Secreted Protein/Potential Cytokines |
| Category | Therapeutics Target |
| Disease | Not Available |
| Gene Ensembl | ENSG00000158125 |
| Target Classification | Not Available |
Xanthine dehydrogenase belongs to the group of molybdenum-containing hydroxylases involved in the oxidative metabolism of purines. The encoded protein has been identified as a moonlighting protein based on its ability to perform mechanistically distinct functions. Xanthine dehydrogenase can be converted to xanthine oxidase by reversible sulfhydryl oxidation or by irreversible proteolytic modification. Defects in xanthine dehydrogenase cause xanthinuria, may contribute to adult respiratory stress syndrome, and may potentiate influenza infection through an oxygen metabolite-dependent mechanism. [provided by RefSeq, Jan 2014]
About GMVC
GMVC (GM Vector Core) is GeneMedi’s unique platform for QbD Viral vectors Processes development and manufacturing. In GMVC, our core expertise lies in the tailored production of viral vectors, including adeno-associated virus (AAV), lentivirus, and adenovirus. Our state-of-the-art facilities are equipped for scalable manufacturing, ensuring high-quality viral vector production to meet both research and therapeutic needs. Our expert team specializes in process development, leveraging innovative technology and extensive industry knowledge to provide clients with tailored solutions that exceed expectations. GMVC will be the ideal partner for scientists and healthcare professionals seeking reliable and efficient viral vector production services.
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