Human FMN1/FMN/LD ORF/cDNA clone-Mammalian (Non-Viral Vector) plasmid (NM_001277313.2)

Cat. No.: pGMPC001166
Size: 10 µg
Concentration: generally 0.5ug/ul, usually not less than 0.3ug/ul
Leading Time: 3-7 working days

Pre-made Human FMN1/FMN/LD Non-Viral expression plasmid (overexpression vector) for mouse FMN1 overexpression in unique cell transient transfection and stable cell line development.

pdf Datasheet
pdf MSDS
pdf Terms of Use
Purchase
Shipping fee: Limited-time free
For payment issues, contact us.


Product Description

Catalog ID pGMPC001166
Gene Name FMN1
Accession Number NM_001277313.2
Gene ID 342184
Species Human
Product Type Mammalian (Non-Viral Vector) plasmid (overexpression)
Insert Length 4260 bp
Gene Alias FMN,LD
Fluorescent Reporter ZsGreen
Mammalian Cell Selection Puromyocin
Fusion Tag 3xflag (C-Terminal)
Promoter CMV
Resistance Amplicin
ORF Nucleotide Sequence ATGGAAGGCACTCATTGTACCCTCCAATTGCATAAGCCCATTACGGAACTCTGCTACATCAGCTTCTGTCTTCCAAAGGGGGAAGTCAGAGGATTTTCATACAAGGGCACTGTAACTCTAGACAGATCCAATAAAGGTTTTCATAACTGCTACCAAGTCAGGGAGGAGTCAGACATCATCAGCCTCAGCCAGGAGCCGGACGAACATCCAGGCGACATATTTTTCAAGCAGACTCCCACGAAAGACATTCTAACTGAGCTGTACAAACTCACAACAGAGAGGGAGAGACTGCTAACCAATCTCCTGAGCTCAGACCACATCCTGGGGATCACGATGGGGAACCAGGAGGGGAAGCTGCAAGAGCTGTCCGTGAGCCTGGCCCCCGAGGATGACTGTTTCCAGAGTGCTGGTGACTGGCAGGGAGAGCTCCCCGTGGGCCCTCTCAATAAGAGGAGCACCCACGGGAACAAAAAGCCTCGGAGGTCTAGTGGAAGGAGAGAGAGCTTTGGGGCCCTTCCACAGAAGAGGACCAAAAGAAAAGGGCGTGGAGGCCGAGAATCAGCTCCTCTGATGGGCAAGGACAAGATCTGTTCCAGCCACTCCCTTCCTCTTTCTAGAACAAGGCCTAACCTTTGGGTACTAGAGGAGAAAGGAAATCTGCTCCCGAATGGGGCACTTGCCTGCTCCCTGCAGAGGAGAGAGAGCTGCCCCCCAGATATTCCCAAGACGCCAGACACAGACCTTGGCTTTGGGAGCTTTGAGACGGCTTTCAAGGACACTGGGCTTGGAAGAGAAGTGCTGCCCCCTGACTGCAGCTCCACAGAGGCAGGAGGGGATGGCATTCGGAGGCCGCCGAGCGGGCTGGAGCATCAGCAAACAGGTTTGTCTGAAAGTCACCAGGACCCTGAGAAGCATCCAGAGGCAGAAAAGGATGAGATGGAGAAGCCGGCTAAGCGGACTTGCAAGCAGAAACCTGTCTCCAAAGTGGTGGCCAAAGTTCAGGACCTGTCCTCCCAGGTACAAAGAGTAGTTAAAACGCATTCTAAGGGTAAGGAGACGATTGCCATTCGCCCAGCAGCCCACGCTGAGTTTGTACCCAAAGCCGACTTGCTCACCCTCCCGGGAGCTGAGGCTGGGGCTCATGGCTCCAGGCGGCAGGGCAAGGAGCGGCAAGGGGATAGGTCATCGCAGTCGCCAGCCGGGGAAACAGCCTCCATTTCTAGTGTGTCGGCCAGTGCCGAGGGGGCCGTGAACAAGGTCCCCCTGAAGGTGATAGAGAGTGAGAAGTTAGATGAAGCCCCTGAGGGGAAAAGACTGGGCTTCCCTGTCCACACGAGTGTCCCTCACACTCGCCCAGAAACGAGAAACAAGAGGAGAGCCGGGTTGCCCCTTGGTGGCCACAAGTCCTTGTTTCTGGATCTGCCCCACAAAGTAGGTCCTGACTCCTCACAACCCAGAGGTGATAAGAAGAAGCCATCCCCACCAGCACCGGCAGCTCTTGGCAAGGTGTTTAATAATTCAGCCTCGCAGTCCAGCACACACAAACAGACGTCACCTGTTCCCTCGCCTCTGTCTCCAAGGCTCCCCAGCCCTCAGCAGCATCACAGGATCCTCCGGCTCCCTGCATTGCCTGGTGAGAGGGAAGCTGCTCTTAATGACTCTCCTTGTAGAAAGAGCCGTGTCTTCTCTGGGTGCGTCTCTGCTGACACCTTGGAGCCACCATCCTCTGCAAAGGTCACGGAGACCAAAGGAGCCAGCCCGGCCTTCCTCAGAGCAGGCCAACCTCGGTTGGTGCCTGGGGAAACTTTGGAAAAGAGCTTGGGGCCAGGGAAGACCACAGCTGAGCCCCAGCACCAGTCACCTCCAGGTATCTCCTCTGAGGGCTTTCCCTGGGACGGCTTCAATGAGCAGACACCTAAAGACCTTCCCAACAGAGATGGAGGCGCGTGGGTTCTGGGCTACAGAGCGGGACCAGCCTGTCCATTTTTGCTTCATGAGGAAAGGGAGAAGTCAAACAGGAGCGAATTGTACTTGGATCTCCATCCTGACCACAGCCTGACTGAGCAGGATGACAGGACTCCTGGCAGACTTCAAGCTGTCTGGCCACCCCCAAAGACAAAAGACACAGAAGAAAAAGTGGGACTGAAGTACACTGAAGCAGAATACCAAGCTGCTATTTTACACTTGAAGAGGGAGCACAAAGAAGAAATTGAAAACCTGCAGGCACAGTTTGAACTTCGGGCATTTCATATCCGGGGCGAGCATGCAATGATAACAGCGAGACTAGAAGAAACCATTGAAAATCTGAAACACGAGCTAGAACACAGATGGCGAGGGGGTTGTGAAGAGAGGAAAGATGTGTGCATTTCCACCGATGATGACTGCCCTCCAAAGACCTTCAGAAATGTGTGCGTCCAGACAGACAGAGAGACCTTCCTCAAGCCCTGTGAAAGTGAAAGCAAGACAACCAGAAGTAATCAATTAGTACCCAAAAAGCTGAATATCTCCTCTTTAAGCCAGCTCTCACCCCCAAATGACCACAAAGACATCCATGCAGCACTCCAGCCAATGGAGGGCATGGCATCAAATCAGCAGAAGGCATTGCCTCCGCCTCCCGCATCCATCCCTCCCCCTCCGCCCCTCCCCTCAGGACTTGGATCTTTGTCTCCCGCACCTCCAATGCCACCTGTGAGTGCTGGGCCACCGCTACCACCTCCGCCTCCTCCACCGCCACCTCTACCTCCACCTTCAAGTGCTGGACCTCCACCACCCCCACCCCCACCCCCACTTCCTAACTCCCCTGCCCCACCCAACCCTGGAGGGCCTCCTCCTGCTCCACCACCCCCAGGACTTGCACCCCCACCTCCCCCTGGACTCTTCTTTGGACTTGGCTCTTCTTCCAGTCAATGTCCTCGAAAACCAGCCATCGAGCCCAGTTGTCCCATGAAGCCTTTATATTGGACTAGGATACAAATAAGTGATAGGAGCCAAAATGCTACACCAACCTTATGGGACTCCTTAGAAGAACCTGACATTCGGGACCCCAGTGAATTTGAGTATTTATTCTCCAAAGACACAACTCAACAGAAGAAAAAACCTCTGTCAGAGACTTATGAGAAGAAAAACAAGGTCAAAAAGATCATCAAATTGTTGGATGGAAAACGATCTCAAACTGTGGGAATCTTGATATCTAGTTTACATTTAGAAATGAAGGATATCCAACAGGCCATTTTCAATGTGGATGACTCCGTGGTTGATCTGGAGACCCTGGCAGCCTTATATGAAAACAGAGCCCAAGAGGATGAGCTGGTTAAAATAAGAAAGTATTACGAGACATCCAAAGAAGAAGAACTGAAGCTGCTGGATAAACCTGAGCAATTTTTACATGAGTTAGCCCAGATTCCTAATTTTGCTGAACGTGCCCAGTGCATAATCTTCAGATCTGTCTTTTCTGAGGGTATCACCTCCTTGCACAGAAAGGTAGAGATCATCACGCGAGCTTCTAAGGACTTGCTGCACGTGAAGAGCGTGAAGGATATTTTAGCTCTCATCTTGGCTTTTGGAAATTATATGAATGGAGGAAATAGGACTCGGGGACAAGCCGATGGATATAGCTTAGAAATTCTGCCCAAACTCAAGGATGTCAAAAGTCGGGATAATGGGATTAATCTGGTGGACTACGTTGTTAAGTATTACCTGCGTTACTATGATCAGGAAGCTGGAACAGAAAAGAGTGTTTTCCCCTTGCCGGAACCACAGGATTTCTTTCTGGCCTCCCAAGTCAAGTTTGAAGACCTCATAAAAGATTTGAGAAAACTGAAGAGGCAACTAGAAGCAAGTGAGAAACAGATGGTGGTGGTGTGCAAGGAGTCCCCAAAGGAGTATCTCCAGCCTTTCAAGGACAAACTAGAGGAGTTCTTCCAAAAAGCCAAAAAAGAGCATAAGATGGAAGAAAGTCACTTGGAGAATGCACAGAAAAGTTTTGAAACAACAGTACGATATTTTGGGATGAAGCCAAAGTCTGGTGAGAAGGAGATCACACCCAGCTACGTGTTTATGGTGTGGTATGAGTTCTGCAGTGACTTCAAGACAATTTGGAAACGGGAGAGTAAAAACATATCTAAAGAAAGATTGAAAATGGCTCAGGAATCAGTCAGCAAGTTGACTTCAGAGAAGAAAGTGGAGACAAAGAAAATCAATCCCACTGCTAGCCTGAAAGAAAGACTGCGTCAGAAGGAAGCCAGTGTGACCACTAACTAA
ORF Protein Sequence MEGTHCTLQLHKPITELCYISFCLPKGEVRGFSYKGTVTLDRSNKGFHNCYQVREESDIISLSQEPDEHPGDIFFKQTPTKDILTELYKLTTERERLLTNLLSSDHILGITMGNQEGKLQELSVSLAPEDDCFQSAGDWQGELPVGPLNKRSTHGNKKPRRSSGRRESFGALPQKRTKRKGRGGRESAPLMGKDKICSSHSLPLSRTRPNLWVLEEKGNLLPNGALACSLQRRESCPPDIPKTPDTDLGFGSFETAFKDTGLGREVLPPDCSSTEAGGDGIRRPPSGLEHQQTGLSESHQDPEKHPEAEKDEMEKPAKRTCKQKPVSKVVAKVQDLSSQVQRVVKTHSKGKETIAIRPAAHAEFVPKADLLTLPGAEAGAHGSRRQGKERQGDRSSQSPAGETASISSVSASAEGAVNKVPLKVIESEKLDEAPEGKRLGFPVHTSVPHTRPETRNKRRAGLPLGGHKSLFLDLPHKVGPDSSQPRGDKKKPSPPAPAALGKVFNNSASQSSTHKQTSPVPSPLSPRLPSPQQHHRILRLPALPGEREAALNDSPCRKSRVFSGCVSADTLEPPSSAKVTETKGASPAFLRAGQPRLVPGETLEKSLGPGKTTAEPQHQSPPGISSEGFPWDGFNEQTPKDLPNRDGGAWVLGYRAGPACPFLLHEEREKSNRSELYLDLHPDHSLTEQDDRTPGRLQAVWPPPKTKDTEEKVGLKYTEAEYQAAILHLKREHKEEIENLQAQFELRAFHIRGEHAMITARLEETIENLKHELEHRWRGGCEERKDVCISTDDDCPPKTFRNVCVQTDRETFLKPCESESKTTRSNQLVPKKLNISSLSQLSPPNDHKDIHAALQPMEGMASNQQKALPPPPASIPPPPPLPSGLGSLSPAPPMPPVSAGPPLPPPPPPPPPLPPPSSAGPPPPPPPPPLPNSPAPPNPGGPPPAPPPPGLAPPPPPGLFFGLGSSSSQCPRKPAIEPSCPMKPLYWTRIQISDRSQNATPTLWDSLEEPDIRDPSEFEYLFSKDTTQQKKKPLSETYEKKNKVKKIIKLLDGKRSQTVGILISSLHLEMKDIQQAIFNVDDSVVDLETLAALYENRAQEDELVKIRKYYETSKEEELKLLDKPEQFLHELAQIPNFAERAQCIIFRSVFSEGITSLHRKVEIITRASKDLLHVKSVKDILALILAFGNYMNGGNRTRGQADGYSLEILPKLKDVKSRDNGINLVDYVVKYYLRYYDQEAGTEKSVFPLPEPQDFFLASQVKFEDLIKDLRKLKRQLEASEKQMVVVCKESPKEYLQPFKDKLEEFFQKAKKEHKMEESHLENAQKSFETTVRYFGMKPKSGEKEITPSYVFMVWYEFCSDFKTIWKRESKNISKERLKMAQESVSKLTSEKKVETKKINPTASLKERLRQKEASVTTN

Reference




    Data / case study


    Click to get more Data / Case study about the product.







    About GMVC

    GDU

    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.