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Gene Therapy Diagnostics Biologics Tarmart

Human FBN3 ORF/cDNA clone-Adeno-associate virus(AAV) plasmid (NM_001321431.1)

Name: Human FBN3 Adeno-associate virus(AAV) plasmid
Brand: GeneMedi
SKU: pGMAAV000586
Price: 3672 USD
Availability: InStock
Rating: 5 (12 reviews)

Cat. No.: pGMAAV000586
Size: 10 µg
Concentration: generally 0.5ug/ul, usually not less than 0.3ug/ul
Leading Time: 3-7 working days

Pre-made Human FBN3/ Adeno-associated virus expression plasmid (ITR-vector) for FBN3 AAV packaging, FBN3 AAV production.The purified Human FBN3/ AAV particle serves as an invaluable asset for in-depth in vivo FBN3 studies, mechanism of action (MOA) research, and the evolution of FBN3-associated gene therapy strategies.

Our GM-AAV ITR vector is optimized with the G-NEXT™ multi-serotypes AAV vector system. Explore the G-NEXT™ system in detail.

Datasheet

MSDS

Go to FBN3/ products collection>>
(antibodies, antigen, VLP, mRNA, ORF viral vector, etc)

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Product Description

Catalog ID	pGMAAV000586
Gene Name	FBN3
Accession Number	NM_001321431.1
Gene ID	84467
Species	Human
Product Type	Adeno-associate virus(AAV) plasmid (overexpression)
Insert Length	8430 bp
Gene Alias
Fluorescent Reporter	ZsGreen
Mammalian Cell Selection	Null
Fusion Tag	Null
Promoter	CMV
Resistance	Amplicin
ORF Nucleotide Sequence	ATGACTCTGGAGGGTCTGTATTTGGCAAGGGGCCCCCTGGCCCGGCTCCTGCTGGCCTGGTCGGCCCTGTTGTGCATGGCAGGTGGCCAAGGCCGCTGGGACGGGGCCTTGGAGGCTGCAGGTCCTGGACGTGTGCGGAGGCGGGGCAGCCCAGGCATCTTGCAGGGGCCGAATGTGTGCGGCTCCCGGTTCCATGCCTACTGCTGTCCAGGCTGGAGGACATTCCCTGGCAGGAGCCAGTGTGTCGTACCCATCTGTAGGCGCGCCTGCGGTGAAGGCTTCTGCTCCCAGCCCAACCTGTGCACCTGTGCGGATGGGACGCTGGCTCCCAGCTGCGGGGTGAGCCGAGGGTCAGGGTGCAGTGTGAGCTGTATGAATGGGGGCACCTGCCGGGGGGCGTCCTGTCTGTGTCAGAAGGGCTACACAGGCACCGTGTGTGGGCAGCCCATCTGTGACCGCGGCTGCCACAATGGGGGTCGCTGCATTGGGCCCAACCGCTGCGCCTGTGTGTATGGCTTCATGGGACCTCAATGTGAGAGAGATTACCGGACGGGACCCTGCTTTGGCCAAGTAGGCCCCGAGGGGTGCCAGCATCAGCTGACGGGCCTCGTGTGCACCAAGGCACTTTGCTGTGCCACTGTGGGCCGTGCCTGGGGCCTTCCATGTGAACTTTGCCCTGCACAGCCACACCCCTGCCGCCGCGGCTTCATCCCCAATATCCACACGGGGGCCTGCCAAGATGTGGATGAGTGCCAGGCTGTGCCAGGCCTGTGCCAGGGAGGCAGCTGCGTCAACATGGTGGGCTCCTTCCATTGCCGCTGTCCAGTTGGACACCGGCTCAGTGACAGCAGCGCCGCATGTGAAGACTACCGGGCCGGCGCCTGCTTCTCAGTGCTTTTCGGGGGCCGCTGTGCTGGAGACCTCGCCGGCCACTACACTCGCAGGCAGTGCTGCTGTGACAGGGGCAGGTGCTGGGCAGCTGGCCCGGTCCCTGAGCTGTGTCCTCCTCGGGGCTCCAATGAATTCCAGCAACTGTGCGCCCAGCGGCTGCCGCTGCTACCCGGCCACCCTGGCCTCTTCCCTGGCCTCCTGGGCTTCGGATCCAATGGCATGGGTCCCCCTCTTGGGCCAGCGCGACTCAACCCCCATGGCTCTGATGCGCGTGGGATCCCCAGCCTGGGCCCTGGCAACTCTAATATTGGCACTGCTACCCTGAACCAGACCATTGACATCTGCCGACACTTCACCAACCTGTGTCTGAATGGCCGCTGCCTGCCCACGCCTTCCAGCTACCGCTGCGAGTGTAACGTGGGCTACACCCAGGACGTGCGCGGCGAGTGCATTGATGTAGACGAATGCACCAGCAGCCCCTGCCACCACGGTGACTGCGTCAACATCCCCGGCACCTACCACTGCCGGTGCTACCCGGGCTTCCAGGCCACGCCCACCAGGCAGGCATGCGTGGATGTGGACGAGTGCATTGTCAGTGGTGGCCTTTGTCACCTGGGCCGCTGTGTCAACACAGAGGGCAGCTTCCAGTGTGTCTGCAATGCAGGCTTCGAGCTCAGCCCTGACGGCAAGAACTGTGTGGACCACAACGAGTGTGCCACCAGCACCATGTGCGTCAACGGCGTGTGTCTCAACGAGGATGGCAGCTTCTCCTGCCTCTGCAAACCCGGCTTCCTGCTGGCGCCTGGCGGCCACTACTGCATGGACATTGACGAGTGCCAGACGCCCGGCATCTGCGTGAACGGCCACTGTACCAACACCGAGGGCTCCTTCCGCTGCCAGTGCCTGGGGGGGCTGGCGGTAGGCACGGATGGCCGCGTGTGCGTGGACACCCACGTGCGCAGCACCTGCTATGGGGCCATCGAGAAGGGCTCCTGTGCCCGCCCCTTCCCTGGCACTGTCACCAAGTCCGAGTGCTGCTGTGCCAATCCGGACCACGGTTTTGGGGAGCCCTGCCAGCTTTGTCCTGCCAAAGACTCCGCTGAGTTCCAGGCACTGTGCAGCAGTGGGCTTGGCATTACCACGGATGGTCGAGACATCAACGAGTGTGCTCTGGATCCTGAGGTTTGTGCCAATGGCGTGTGCGAGAACCTTCGGGGCAGCTACCGCTGTGTCTGCAACCTGGGTTATGAGGCAGGTGCCTCAGGCAAGGACTGCACAGACGTGGATGAGTGTGCCCTCAACAGCCTCCTGTGTGACAACGGGTGGTGCCAGAATAGCCCTGGCAGCTACAGCTGCTCCTGCCCCCCCGGCTTCCACTTCTGGCAGGACACGGAGATCTGCAAAGATGTCGACGAATGCCTGTCCAGCCCGTGTGTGAGTGGCGTCTGTCGGAACCTGGCCGGCTCCTACACCTGCAAATGTGGCCCTGGCAGCCGGCTGGACCCCTCTGGTACCTTCTGTCTAGACAGCACCAAGGGCACCTGCTGGCTGAAGATCCAGGAGAGCCGCTGTGAGGTGAACCTTCAGGGAGCCAGCCTGCGGTCTGAGTGCTGCGCCACCCTCGGGGCAGCCTGGGGGAGCCCCTGCGAACGCTGCGAGATCGACCCTGCCTGTGCCCGGGGCTTTGCCCGGATGACGGGTGTCACCTGCGATGATGTGAACGAGTGTGAGTCCTTCCCGGGAGTCTGTCCCAACGGGCGTTGCGTCAACACTGCTGGGTCTTTCCGCTGTGAGTGTCCAGAGGGCCTGATGCTGGACGCCTCAGGCCGGCTGTGCGTGGATGTGAGATTGGAACCATGTTTCCTGCGATGGGATGAGGATGAGTGTGGGGTCACCCTGCCTGGCAAGTACCGGATGGACGTCTGCTGCTGCTCCATCGGGGCCGTGTGGGGAGTCGAGTGCGAGGCCTGCCCGGATCCCGAGTCTCTGGAGTTCGCCAGCCTGTGCCCGCGGGGGCTGGGCTTCGCCAGCCGGGACTTCCTGTCTGGCCGACCATTCTATAAAGATGTGAATGAATGCAAGGTGTTCCCTGGCCTCTGCACGCACGGTACCTGCAGAAACACGGTGGGCAGCTTCCACTGCGCCTGTGCGGGGGGCTTCGCCCTGGATGCCCAGGAACGGAACTGCACAGATATCGACGAGTGTCGCATCTCTCCTGACCTCTGCGGCCAGGGCACCTGTGTCAACACGCCGGGCAGCTTTGAGTGCGAGTGTTTTCCCGGCTACGAGAGTGGCTTCATGCTGATGAAGAACTGCATGGACGTGGACGAGTGTGCAAGGGACCCGCTGCTCTGCCGGGGAGGCACTTGCACCAACACGGATGGGAGCTACAAGTGCCAGTGTCCCCCTGGGCATGAGCTGACGGCCAAGGGCACTGCCTGTGAGGACATCGATGAGTGCTCCCTGAGTGATGGCCTGTGTCCCCATGGCCAGTGTGTCAATGTCATCGGTGCCTTCCAGTGCTCCTGCCATGCCGGCTTCCAGAGCACACCTGACCGCCAGGGCTGCGTGGACATCAACGAATGCCGGGTCCAGAATGGTGGGTGTGACGTGCACTGTATTAACACTGAGGGCAGCTACCGGTGCAGCTGTGGGCAGGGCTACTCGCTGATGCCCGACGGAAGGGCATGTGCAGACGTGGACGAGTGTGAAGAGAACCCCCGCGTTTGTGACCAAGGCCACTGCACCAACATGCCAGGGGGTCACCGCTGCCTGTGCTATGATGGCTTCATGGCCACGCCAGACATGAGGACATGTGTTGATGTGGATGAGTGTGACCTGAACCCTCACATCTGCCTCCATGGGGACTGCGAGAACACGAAGGGTTCCTTTGTCTGCCACTGTCAGCTGGGCTACATGGTCAGGAAGGGGGCCACAGGCTGCTCTGATGTGGATGAATGCGAGGTTGGAGGACACAACTGTGACAGTCACGCCTCCTGTCTCAACATCCCGGGGAGTTTCAGCTGTAGGTGCCTGCCAGGCTGGGTGGGGGATGGCTTCGAATGTCACGACCTGGATGAATGCGTCTCCCAGGAGCACCGGTGCAGCCCAAGAGGTGACTGTCTCAATGTCCCTGGCTCCTACCGCTGCACCTGCCGCCAGGGCTTTGCCGGGGATGGCTTCTTCTGCGAAGACAGGGATGAATGTGCCGAGAACGTGGACCTCTGTGACAACGGGCAGTGCCTCAATGCGCCCGGCGGGTACCGCTGTGAATGTGAGATGGGCTTTGACCCCACCGAGGACCACCGGGCCTGCCAGGATGTGGACGAGTGTGCGCAAGGGAACCTCTGTGCATTTGGGAGCTGTGAGAACCTGCCTGGAATGTTCCGCTGCATCTGCAATGGTGGCTACGAACTGGACCGAGGGGGTGGCAACTGCACAGACATCAACGAGTGTGCAGACCCAGTAAACTGCATCAACGGCGTGTGCATTAACACCCCCGGCAGCTACCTCTGCAGCTGCCCCCAGGATTTTGAGCTGAACCCCAGCGGAGTGGGCTGCGTGGACACTCGGGCCGGGAACTGTTTCCTGGAGACGCATGACCGAGGGGACAGTGGCATTTCCTGCAGTGCCGAGATCGGAGTTGGTGTCACCCGAGCTTCCTGCTGTTGCTCCCTGGGCCGGGCTTGGGGCAATCCCTGTGAGCTGTGCCCTATGGCCAACACCACTGAGTACAGAACCCTGTGCCCGGGTGGTGAGGGCTTCCAGCCTAACCGCATCACTGTCATTCTGGAAGACATCGACGAGTGCCAAGAGCTGCCAGGGCTGTGTCAGGGGGGTGACTGCGTCAACACGTTTGGCAGTTTCCAGTGTGAGTGCCCACCTGGCTACCACCTCAGTGAGCACACCCGCATCTGTGAGGATATTGACGAATGCTCCACACACTCCGGCATCTGTGGCCCTGGCACCTGCTACAACACCCTGGGGAACTACACCTGTGTCTGCCCTGCAGAGTACCTCCAAGTCAATGGTGGCAACAACTGCATGGATATGAGGAAGAGTGTCTGCTTCCGGCACTATAACGGCACATGTCAAAATGAGCTGGCCTTCAACGTGACCCGGAAAATGTGTTGCTGCTCCTACAACATTGGCCAGGCCTGGAATAGACCCTGTGAGGCCTGCCCCACTCCCATCAGTCCTGACTACCAGATCCTGTGTGGAAATCAGGCCCCGGGATTCCTCACTGACATCCACACGGGGAAGCCCCTTGACATTGATGAGTGTGGGGAGATCCCCGCCATCTGTGCCAATGGCATCTGCATAAACCAGATCGGGAGTTTCCGCTGCGAGTGCCCCGCAGGCTTCAACTACAACAGCATCCTGCTGGCTTGTGAAGATGTCGATGAGTGTGGCAGCAGGGAGAGTCCCTGCCAGCAGAATGCTGACTGCATCAACATCCCCGGTAGCTACCGCTGCAAGTGCACCCGAGGGTACAAACTGTCGCCAGGCGGGGCTTGTGTGGGACGGAATGAGTGTCGGGAGATCCCGAATGTCTGTAGCCATGGTGACTGCATGGACACAGAAGGCAGCTACATGTGTCTGTGTCACCGTGGATTCCAGGCCTCTGCAGACCAGACCCTGTGCATGGACATTGACGAGTGTGACCGGCAGCCTTGTGGAAATGGGACCTGCAAGAACATCATTGGCTCCTACAACTGCCTCTGCTTCCCTGGCTTTGTGGTGACACACAATGGGGATTGTGTGGATTTTGATGAGTGTACTACCCTGGTGGGGCAGGTGTGCCGATTTGGCCATTGCCTCAACACAGCTGGTTCCTTCCACTGCCTCTGCCAGGATGGCTTTGAGCTCACAGCTGATGGGAAGAACTGTGTGGACACCAATGAGTGCCTCAGCCTTGCAGGAACCTGCCTACCCGGCACTTGCCAGAACCTCGAGGGCTCCTTCCGCTGCATCTGTCCCCCTGGCTTCCAGGTGCAGAGTGACCACTGCATTGATATCGACGAGTGCTCAGAGGAGCCCAACCTCTGCCTCTTTGGCACCTGTACCAACAGCCCTGGGAGCTTCCAGTGCCTCTGCCCACCTGGCTTTGTCCTCTCTGACAATGGGCACCGTTGCTTTGACACACGGCAGAGTTTCTGCTTCACCCGTTTTGAGGCTGGGAAGTGCTCGGTGCCCAAAGCTTTCAACACCACCAAGACCCGCTGCTGCTGCAGTAAGAGGCCTGGGGAGGGCTGGGGAGACCCCTGCGAACTGTGTCCCCAGGAGGGCAGCGCTGCCTTTCAGGAGCTCTGCCCCTTTGGCCACGGGGCAGTCCCAGGCCCGGATGACTCCCGAGAAGACGTGAATGAGTGTGCAGAGAACCCTGGCGTCTGCACTAACGGCGTCTGTGTCAACACCGATGGATCCTTCCGCTGTGAGTGTCCCTTTGGCTACAGCCTGGACTTCACTGGCATCAACTGTGTGGACACAGACGAGTGCTCTGTCGGCCACCCCTGTGGGCAAGGGACATGCACCAATGTCATCGGAGGCTTCGAATGTGCCTGTGCTGACGGCTTTGAGCCTGGCCTCATGATGACCTGCGAGGACATCGACGAATGCTCCCTGAACCCGCTGCTCTGTGCCTTCCGCTGCCACAATACCGAGGGCTCCTACCTGTGCACCTGTCCAGCCGGCTACACCCTGCGGGAGGATGGGGCCATGTGTCGAGATGTGGACGAGTGTGCAGATGGTCAGCAGGACTGCCACGCCCGGGGCATGGAGTGCAAGAACCTCATCGGTACCTTCGCGTGCGTCTGTCCCCCAGGCATGCGGCCCCTGCCTGGCTCTGGGGAGGGCTGCACAGATGACAATGAATGCCACGCTCAGCCTGACCTCTGTGTCAACGGCCGCTGTGTCAACACCGCGGGCAGCTTCCGGTGCGACTGTGATGAGGGATTCCAGCCCAGCCCCACCCTTACCGAGTGCCACGACATCCGGCAGGGGCCCTGCTTTGCCGAGGTGCTGCAGACCATGTGCCGGTCTCTGTCCAGCAGCAGTGAGGCTGTCACCAGGGCCGAGTGCTGCTGTGGGGGTGGCCGGGGCTGGGGGCCCCGCTGCGAGCTCTGTCCCCTGCCCGGCACCTCTGCCTACAGGAAGCTGTGCCCCCATGGCTCAGGCTACACTGCTGAGGGCCGAGATGTAGATGAATGCCGTATGCTTGCTCACCTGTGTGCTCATGGGGAGTGCATCAACAGCCTTGGCTCCTTCCGCTGCCACTGTCAGGCCGGGTACACACCGGATGCTACTGCTACTACCTGCCTGGATATGGATGAGTGCAGCCAGGTCCCCAAGCCATGTACCTTCCTCTGCAAAAACACGAAGGGCAGTTTCCTGTGCAGCTGTCCCCGAGGCTACCTGCTGGAGGAGGATGGCAGGACCTGCAAAGACCTGGACGAATGCACCTCCCGGCAGCACAACTGTCAGTTCCTCTGTGTCAACACTGTGGGCGCCTTCACCTGCCGCTGTCCGCCCGGCTTCACCCAGCACCACCAGGCCTGCTTCGACAATGATGAGTGCTCAGCCCAGCCTGGCCCATGTGGTGCCCACGGGCACTGCCACAACACCCCGGGCAGCTTCCGCTGTGAATGCCACCAAGGCTTCACCCTGGTCAGCTCAGGCCATGGCTGTGAAGATGTGAATGAATGTGATGGGCCCCACCGCTGCCAGCATGGCTGTCAGAACCAGCTAGGGGGCTACCGCTGCAGCTGCCCCCAGGGTTTCACCCAGCACTCCCAGTGGGCCCAGTGTGTGGATGAGAATGAGTGTGCCCTGTCGCCCCCCACCTGCGGGAGCGCCTCCTGTCGCAACACTCTTGGTGGCTTCCGCTGCGTCTGCCCCTCTGGCTTTGACTTTGATCAGGCCCTCGGGGGCTGCCAGGAGGTGGATGAGTGCGCCGGACGGCGTGGCCCCTGTAGCTACAGCTGTGCCAACACGCCTGGTGGCTTCCTGTGCGGCTGTCCTCAAGGCTACTTCCGGGCTGGGCAAGGGCACTGTGTCTCCGGCCTGGGCTTCAGCCCCGGACCCCAGGACACCCCGGACAAAGAGGAGCTGCTCTCGTCTGAAGCCTGCTACGAATGCAAGATCAATGGCCTCTCCCCTCGGGACCGGCCACGACGCAGTGCCCACAGGGACCACCAGGTGAACCTGGCCACCCTTGACTCCGAGGCCCTGCTGACCTTGGGCCTGAACCTCTCACACCTGGGCCGGGCCGAGCGCATCCTGGAGCTCCGGCCGGCCCTGGAGGGTCTAGAGGGCCGGATCCGCTACGTCATCGTCCGCGGAAACGAGCAAGGTTTCTTTCGCATGCATCACCTCCGTGGCGTCAGCTCCCTGCAGCTGGGGCGGAGGCGGCCGGGGCCTGGAACCTACCGGCTGGAGGTGGTGAGCCACATGGCAGGACCCTGGGGTGTCCAGCCAGAGGGGCAGCCAGGGCCATGGGGCCAGGCCTTGAGGCTGAAGGTGCAGCTGCAGTTGCTTTAG
ORF Protein Sequence	MTLEGLYLARGPLARLLLAWSALLCMAGGQGRWDGALEAAGPGRVRRRGSPGILQGPNVCGSRFHAYCCPGWRTFPGRSQCVVPICRRACGEGFCSQPNLCTCADGTLAPSCGVSRGSGCSVSCMNGGTCRGASCLCQKGYTGTVCGQPICDRGCHNGGRCIGPNRCACVYGFMGPQCERDYRTGPCFGQVGPEGCQHQLTGLVCTKALCCATVGRAWGLPCELCPAQPHPCRRGFIPNIHTGACQDVDECQAVPGLCQGGSCVNMVGSFHCRCPVGHRLSDSSAACEDYRAGACFSVLFGGRCAGDLAGHYTRRQCCCDRGRCWAAGPVPELCPPRGSNEFQQLCAQRLPLLPGHPGLFPGLLGFGSNGMGPPLGPARLNPHGSDARGIPSLGPGNSNIGTATLNQTIDICRHFTNLCLNGRCLPTPSSYRCECNVGYTQDVRGECIDVDECTSSPCHHGDCVNIPGTYHCRCYPGFQATPTRQACVDVDECIVSGGLCHLGRCVNTEGSFQCVCNAGFELSPDGKNCVDHNECATSTMCVNGVCLNEDGSFSCLCKPGFLLAPGGHYCMDIDECQTPGICVNGHCTNTEGSFRCQCLGGLAVGTDGRVCVDTHVRSTCYGAIEKGSCARPFPGTVTKSECCCANPDHGFGEPCQLCPAKDSAEFQALCSSGLGITTDGRDINECALDPEVCANGVCENLRGSYRCVCNLGYEAGASGKDCTDVDECALNSLLCDNGWCQNSPGSYSCSCPPGFHFWQDTEICKDVDECLSSPCVSGVCRNLAGSYTCKCGPGSRLDPSGTFCLDSTKGTCWLKIQESRCEVNLQGASLRSECCATLGAAWGSPCERCEIDPACARGFARMTGVTCDDVNECESFPGVCPNGRCVNTAGSFRCECPEGLMLDASGRLCVDVRLEPCFLRWDEDECGVTLPGKYRMDVCCCSIGAVWGVECEACPDPESLEFASLCPRGLGFASRDFLSGRPFYKDVNECKVFPGLCTHGTCRNTVGSFHCACAGGFALDAQERNCTDIDECRISPDLCGQGTCVNTPGSFECECFPGYESGFMLMKNCMDVDECARDPLLCRGGTCTNTDGSYKCQCPPGHELTAKGTACEDIDECSLSDGLCPHGQCVNVIGAFQCSCHAGFQSTPDRQGCVDINECRVQNGGCDVHCINTEGSYRCSCGQGYSLMPDGRACADVDECEENPRVCDQGHCTNMPGGHRCLCYDGFMATPDMRTCVDVDECDLNPHICLHGDCENTKGSFVCHCQLGYMVRKGATGCSDVDECEVGGHNCDSHASCLNIPGSFSCRCLPGWVGDGFECHDLDECVSQEHRCSPRGDCLNVPGSYRCTCRQGFAGDGFFCEDRDECAENVDLCDNGQCLNAPGGYRCECEMGFDPTEDHRACQDVDECAQGNLCAFGSCENLPGMFRCICNGGYELDRGGGNCTDINECADPVNCINGVCINTPGSYLCSCPQDFELNPSGVGCVDTRAGNCFLETHDRGDSGISCSAEIGVGVTRASCCCSLGRAWGNPCELCPMANTTEYRTLCPGGEGFQPNRITVILEDIDECQELPGLCQGGDCVNTFGSFQCECPPGYHLSEHTRICEDIDECSTHSGICGPGTCYNTLGNYTCVCPAEYLQVNGGNNCMDMRKSVCFRHYNGTCQNELAFNVTRKMCCCSYNIGQAWNRPCEACPTPISPDYQILCGNQAPGFLTDIHTGKPLDIDECGEIPAICANGICINQIGSFRCECPAGFNYNSILLACEDVDECGSRESPCQQNADCINIPGSYRCKCTRGYKLSPGGACVGRNECREIPNVCSHGDCMDTEGSYMCLCHRGFQASADQTLCMDIDECDRQPCGNGTCKNIIGSYNCLCFPGFVVTHNGDCVDFDECTTLVGQVCRFGHCLNTAGSFHCLCQDGFELTADGKNCVDTNECLSLAGTCLPGTCQNLEGSFRCICPPGFQVQSDHCIDIDECSEEPNLCLFGTCTNSPGSFQCLCPPGFVLSDNGHRCFDTRQSFCFTRFEAGKCSVPKAFNTTKTRCCCSKRPGEGWGDPCELCPQEGSAAFQELCPFGHGAVPGPDDSREDVNECAENPGVCTNGVCVNTDGSFRCECPFGYSLDFTGINCVDTDECSVGHPCGQGTCTNVIGGFECACADGFEPGLMMTCEDIDECSLNPLLCAFRCHNTEGSYLCTCPAGYTLREDGAMCRDVDECADGQQDCHARGMECKNLIGTFACVCPPGMRPLPGSGEGCTDDNECHAQPDLCVNGRCVNTAGSFRCDCDEGFQPSPTLTECHDIRQGPCFAEVLQTMCRSLSSSSEAVTRAECCCGGGRGWGPRCELCPLPGTSAYRKLCPHGSGYTAEGRDVDECRMLAHLCAHGECINSLGSFRCHCQAGYTPDATATTCLDMDECSQVPKPCTFLCKNTKGSFLCSCPRGYLLEEDGRTCKDLDECTSRQHNCQFLCVNTVGAFTCRCPPGFTQHHQACFDNDECSAQPGPCGAHGHCHNTPGSFRCECHQGFTLVSSGHGCEDVNECDGPHRCQHGCQNQLGGYRCSCPQGFTQHSQWAQCVDENECALSPPTCGSASCRNTLGGFRCVCPSGFDFDQALGGCQEVDECAGRRGPCSYSCANTPGGFLCGCPQGYFRAGQGHCVSGLGFSPGPQDTPDKEELLSSEACYECKINGLSPRDRPRRSAHRDHQVNLATLDSEALLTLGLNLSHLGRAERILELRPALEGLEGRIRYVIVRGNEQGFFRMHHLRGVSSLQLGRRRPGPGTYRLEVVSHMAGPWGVQPEGQPGPWGQALRLKVQLQLL

Reference

Data / case study

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Associated products

Category	Cat No.	Products Name
Target Antibody	GM-Tg-g-SE0914-Ab	Anti-FBN3 functional antibody
Target Antigen	GM-Tg-g-SE0914-Ag	FBN3 protein
ORF Viral Vector	pGMAAV000586	Human FBN3 Adeno-associate virus(AAV) plasmid
ORF Viral Vector	vGMAAV000586	Human FBN3 Adeno-associate virus(AAV) particle

Target information

Target ID	GM-SE0914
Target Name	FBN3
Gene ID	84467, 709446, 101094160, 485006, 787458, 100147616
Gene Symbol and Synonyms	FBN3
Uniprot Accession	Q75N90
Uniprot Entry Name	FBN3_HUMAN
Protein Sub-location	Secreted Protein/Potential Cytokines
Category	Not Available
Disease	Not Available
Gene Ensembl	ENSG00000142449
Target Classification	Not Available

This gene encodes a memebr of the fibrillin protein family. Fibrillins are extracellular matrix molecules that assemble into microfibrils in many connective tissues. This gene is most highly expressed in fetal tissues and its protein product is localized to extracellular microfibrils of developing skeletal elements, skin, lung, kidney, and skeletal muscle. This gene is potentially involved in Weill-Marchesani syndrome.

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.

GVector System - Human FBN3 Adeno-associate virus(AAV) plasmid pGMAAV000586