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Fibrillin 1 (FBN1) (NM_000138) Human Tagged ORF Clone

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SKU
RC218499
FBN1 (Myc-DDK-tagged)-Human fibrillin 1 (FBN1)
  • TrueORF Gold

    Protein expression verified by Western blot, fully sequenced and in stock

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ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_000138 in other vectors (2)
Reconstitution Protocol
$3,489.00
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Size
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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol Fibrillin 1
Synonyms ACMICD; ECTOL1; FBN; GPHYSD2; MASS; MFLS; MFS1; OCTD; SGS; SSKS; WMS; WMS2
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RC218499 representing NM_000138
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGCGTCGAGGGCGTCTGCTGGAGATCGCCCTGGGATTTACCGTGCTTTTAGCGTCCTACACGAGCCATG
GGGCGGACGCCAATTTGGAGGCTGGGAACGTGAAGGAAACCAGAGCCAGTCGGGCCAAGAGAAGAGGCGG
TGGAGGACACGACGCGCTTAAAGGACCCAATGTCTGTGGATCACGTTATAATGCTTACTGTTGCCCTGGA
TGGAAAACCTTACCTGGCGGAAATCAGTGTATTGTCCCCATTTGCCGGCATTCCTGTGGGGATGGATTTT
GTTCGAGGCCAAATATGTGCACTTGCCCATCTGGTCAGATAGCTCCTTCCTGTGGCTCCAGATCCATACA
ACACTGCAATATTCGCTGTATGAATGGAGGTAGCTGCAGTGACGATCACTGTCTATGCCAGAAAGGATAC
ATAGGGACTCACTGTGGACAACCTGTTTGTGAAAGTGGCTGTCTCAATGGAGGAAGGTGTGTGGCCCCAA
ATCGATGTGCATGCACTTACGGATTTACTGGACCCCAGTGTGAAAGAGATTACAGGACAGGCCCATGTTT
TACTGTGATCAGCAACCAGATGTGCCAGGGACAACTCAGCGGGATTGTCTGCACAAAAACGCTCTGCTGT
GCCACAGTCGGCCGAGCCTGGGGCCACCCCTGTGAGATGTGTCCTGCCCAGCCTCACCCCTGCCGCCGTG
GCTTCATTCCAAATATCCGCACGGGAGCTTGTCAAGATGTGGATGAATGCCAGGCCATCCCCGGGCTCTG
TCAGGGAGGAAATTGCATTAATACTGTTGGGTCTTTTGAGTGCAAATGCCCTGCTGGACACAAACTTAAT
GAAGTGTCACAAAAATGTGAAGATATTGATGAATGCAGCACCATTCCTGGAATCTGTGAAGGGGGTGAAT
GTACAAACACAGTCAGCAGTTACTTTTGCAAATGTCCCCCTGGTTTTTACACCTCTCCAGATGGTACCAG
ATGCATAGATGTTCGCCCAGGATACTGTTACACAGCTCTGACAAACGGGCGCTGCTCTAACCAGCTGCCA
CAGTCCATAACCAAAATGCAGTGCTGCTGTGATGCCGGCCGATGCTGGTCTCCAGGGGTCACTGTCGCCC
CTGAGATGTGTCCCATCAGAGCAACCGAGGATTTCAACAAGCTGTGCTCTGTTCCTATGGTAATTCCTGG
GAGACCAGAATATCCTCCCCCACCCCTTGGCCCCATTCCTCCAGTTCTCCCTGTTCCTCCTGGCTTTCCT
CCTGGACCTCAAATTCCGGTCCCTCGACCACCAGTGGAATATCTGTATCCATCTCGGGAGCCACCAAGGG
TGCTGCCAGTAAACGTTACTGATTACTGCCAGTTGGTCCGCTATCTCTGTCAAAATGGACGCTGCATTCC
AACTCCTGGGAGTTGCCGGTGTGAGTGCAACAAAGGGTTCCAGCTGGACCTCCGTGGGGAGTGTATTGAT
GTTGATGAATGTGAGAAAAACCCCTGTGCTGGTGGTGAGTGTATTAACAACCAGGGTTCGTACACCTGTC
AGTGCCGAGCTGGATATCAGAGCACACTCACGCGGACAGAATGCCGAGACATTGATGAGTGTTTACAGAA
TGGCCGGATCTGCAATAATGGACGCTGCATCAACACAGATGGCAGTTTTCATTGCGTGTGTAATGCGGGC
TTTCATGTTACACGAGATGGGAAGAACTGTGAAGATATGGATGAATGCAGCATAAGGAACATGTGCCTTA
ATGGAATGTGTATCAATGAAGATGGCAGTTTTAAATGTATTTGCAAACCTGGATTCCAGCTGGCATCAGA
TGGACGTTATTGCAAAGACATTAACGAGTGTGAAACCCCTGGGATCTGCATGAATGGGCGTTGCGTCAAC
ACTGATGGCTCCTACAGATGTGAATGCTTCCCTGGACTGGCTGTGGGTCTGGATGGCCGTGTGTGTGTTG
ACACACACATGCGGAGCACATGCTATGGTGGATACAAGAGAGGCCAGTGTATCAAACCTTTGTTTGGTGC
TGTCACTAAATCTGAATGCTGTTGCGCCAGCACTGAGTATGCATTTGGGGAACCTTGCCAGCCGTGTCCT
GCACAGAATTCAGCGGAATATCAGGCACTCTGCAGCAGTGGGCCAGGAATGACGTCAGCAGGCAGTGATA
TAAATGAATGTGCACTAGATCCTGATATTTGCCCAAATGGAATCTGTGAAAACCTTCGTGGGACCTATAA
ATGTATATGCAATTCAGGATATGAAGTGGATTCAACTGGGAAAAACTGCGTTGATATTAATGAATGTGTA
CTGAACAGTCTCCTTTGTGACAATGGACAATGTAGAAATACTCCTGGAAGTTTTGTCTGTACCTGCCCCA
AGGGATTTATCTACAAACCTGATCTAAAAACATGTGAAGACATTGATGAATGCGAATCAAGTCCTTGCAT
TAATGGAGTCTGCAAGAACAGCCCAGGCTCTTTTATTTGTGAATGTTCTTCTGAAAGTACTTTGGATCCA
ACAAAAACCATCTGCATAGAAACCATCAAGGGCACTTGCTGGCAGACTGTCATTGATGGGCGATGTGAGA
TCAACATCAATGGAGCCACCTTAAAGTCCCAGTGCTGCTCCTCCCTCGGTGCTGCGTGGGGAAGCCCGTG
CACCCTATGCCAAGTTGATCCCATATGTGGTAAAGGGTACTCAAGAATTAAAGGAACACAATGTGAAGAT
ATAGATGAATGTGAAGTGTTCCCAGGAGTGTGTAAAAATGGCCTGTGTGTTAACACTAGGGGGTCATTCA
AGTGTCAGTGTCCCAGTGGAATGACTTTGGATGCCACAGGAAGGATCTGTCTTGATATCCGCCTGGAAAC
CTGCTTCCTGAGGTACGAGGACGAGGAGTGCACCCTGCCTATTGCTGGCCGCCACCGCATGGACGCCTGC
TGCTGCTCCGTCGGGGCAGCCTGGGGTACTGAGGAATGCGAGGAGTGTCCCATGAGAAATACTCCTGAGT
ACGAGGAGCTGTGTCCGAGAGGACCCGGATTTGCCACAAAAGAAATTACAAATGGAAAGCCTTTCTTCAA
AGATATCAATGAGTGCAAGATGATACCCAGCCTCTGCACCCACGGCAAGTGCAGAAACACCATTGGCAGC
TTTAAGTGCAGGTGTGACAGCGGCTTTGCTCTTGATTCTGAAGAAAGGAACTGCACAGACATTGACGAAT
GCCGCATATCTCCTGACCTCTGTGGCAGAGGCCAGTGTGTGAACACCCCTGGGGACTTTGAATGCAAGTG
TGACGAAGGCTATGAAAGTGGATTCATGATGATGAAGAACTGCATGGATATTGATGAGTGTCAGAGAGAT
CCTCTCCTATGCCGAGGTGGTGTTTGCCATAACACAGAGGGAAGTTACCGCTGTGAATGCCCGCCTGGCC
ATCAGCTGTCCCCCAACATCTCCGCGTGTATCGACATCAATGAATGTGAGCTGAGTGCACACCTGTGCCC
CAATGGCCGTTGCGTGAACCTCATAGGGAAGTATCAGTGTGCCTGCAACCCTGGCTACCATTCAACTCCC
GATAGGCTATTTTGTGTTGACATTGATGAATGCAGCATAATGAATGGTGGTTGTGAAACCTTCTGCACAA
ACTCTGAAGGCAGCTATGAATGTAGCTGTCAGCCGGGATTTGCACTAATGCCTGACCAGAGATCATGCAC
CGACATCGATGAGTGTGAAGATAATCCCAATATCTGTGATGGTGGTCAGTGCACAAATATCCCTGGAGAG
TACAGGTGCTTGTGTTATGATGGATTCATGGCATCTGAAGACATGAAGACTTGTGTAGATGTCAATGAGT
GTGACCTGAATCCAAATATCTGCCTAAGTGGGACCTGTGAAAACACGAAAGGCTCATTTATCTGCCACTG
TGATATGGGCTACTCCGGCAAAAAAGGAAAAACTGGCTGTACAGACATCAATGAATGTGAAATTGGAGCA
CACAACTGTGGCAAACATGCTGTATGTACCAATACAGCAGGAAGCTTCAAATGTAGCTGCAGTCCCGGGT
GGATTGGAGATGGCATTAAGTGCACTGATCTGGACGAATGTTCCAATGGAACCCATATGTGCAGCCAGCA
TGCAGACTGCAAGAATACCATGGGATCTTACCGCTGTCTGTGCAAGGAAGGATACACAGGTGATGGCTTC
ACTTGTACAGACCTTGATGAGTGCTCTGAGAACCTGAATCTCTGTGGCAATGGCCAGTGCCTCAATGCAC
CAGGAGGATACCGCTGTGAATGCGACATGGGCTTCGTGCCCAGTGCTGACGGGAAAGCCTGTGAAGATAT
TGATGAGTGCTCCCTTCCGAACATCTGTGTCTTTGGAACTTGCCACAACCTCCCTGGCCTGTTCCGCTGT
GAGTGTGAGATAGGCTACGAACTGGACAGAAGCGGCGGGAACTGCACAGATGTGAATGAATGCCTGGATC
CAACCACGTGCATCAGTGGGAACTGTGTCAACACTCCAGGCAGCTATATCTGTGACTGCCCACCTGATTT
TGAACTGAACCCAACTCGAGTTGGCTGTGTTGATACCCGCTCTGGAAATTGCTATTTGGATATTCGACCT
CGAGGAGACAATGGAGATACAGCCTGCAGCAATGAAATTGGAGTTGGTGTTTCCAAAGCTTCCTGCTGCT
GTTCTCTGGGTAAAGCCTGGGGTACTCCTTGTGAGATGTGTCCTGCTGTGAACACATCCGAGTACAAAAT
TCTTTGTCCTGGAGGGGAAGGTTTCCGACCAAATCCTATCACCGTTATATTGGAAGATATTGATGAGTGC
CAGGAGCTACCAGGGCTGTGCCAAGGAGGAAAATGTATCAACACCTTTGGGAGTTTCCAGTGCCGCTGTC
CAACCGGCTACTACCTGAATGAAGATACACGAGTGTGTGATGATGTGAATGAATGTGAGACTCCTGGAAT
CTGTGGTCCAGGGACATGTTACAACACCGTTGGCAACTACACCTGTATCTGTCCTCCAGACTACATGCAA
GTGAATGGGGGAAATAATTGCATGGATATGAGAAGAAGTTTGTGCTACAGAAACTACTATGCTGACAACC
AGACCTGTGATGGAGAATTGTTATTCAACATGACCAAGAAGATGTGCTGCTGTTCCTACAACATTGGCCG
GGCGTGGAACAAGCCCTGTGAACAGTGTCCCATCCCAAGTACAGATGAGTTTGCTACACTCTGTGGAAGT
CAAAGGCCAGGCTTTGTCATCGACATTTATACCGGTTTACCCGTTGATATTGATGAGTGCCGGGAGATCC
CAGGGGTCTGTGAAAATGGAGTGTGTATCAACATGGTTGGCAGCTTCCGATGTGAATGTCCAGTGGGATT
CTTCTATAATGACAAGTTGTTGGTTTGTGAAGATATTGACGAGTGTCAGAACGGCCCAGTGTGCCAGCGC
AACGCCGAATGCATCAACACTGCAGGCAGCTACCGCTGTGACTGTAAGCCCGGCTACCGCTTCACCTCCA
CAGGACAGTGCAATGATCGTAATGAATGTCAAGAAATCCCCAATATATGCAGTCATGGGCAGTGCATTGA
CACAGTTGGAAGCTTTTATTGCCTTTGCCACACTGGTTTTAAAACAAATGATGACCAAACCATGTGCTTG
GACATAAATGAATGTGAAAGAGATGCCTGTGGGAATGGAACTTGCCGGAACACAATTGGTTCCTTCAACT
GCCGCTGCAATCATGGTTTCATCCTTTCTCACAACAATGACTGTATAGATGTTGATGAATGTGCAAGTGG
AAATGGGAATCTTTGCAGAAATGGCCAATGCATTAATACAGTGGGGTCTTTCCAGTGCCAGTGCAATGAA
GGCTATGAGGTGGCTCCAGATGGGAGGACCTGTGTGGATATCAATGAATGTCTTCTAGAACCCAGAAAAT
GTGCACCAGGTACCTGTCAAAACTTGGATGGGTCCTACAGATGCATTTGCCCACCTGGATACAGTCTTCA
AAATGAGAAGTGTGAAGATATTGATGAGTGTGTCGAAGAGCCAGAAATTTGTGCCCTGGGCACATGCAGT
AACACTGAAGGCAGCTTCAAATGTCTGTGTCCAGAAGGGTTTTCCTTGTCCTCCAGTGGAAGAAGGTGCC
AAGATTTGCGAATGAGCTACTGTTATGCGAAGTTTGAAGGAGGAAAGTGTTCATCACCCAAATCCAGAAA
TCACTCCAAGCAGGAATGCTGCTGTGCCTTGAAGGGAGAAGGCTGGGGAGACCCCTGCGAGCTCTGCCCC
ACGGAACCTGATGAGGCCTTCCGCCAGATATGTCCTTATGGAAGTGGGATCATCGTGGGACCTGATGATT
CAGCAGTTGATATGGACGAATGCAAAGAACCCGATGTCTGTAAACATGGACAGTGCATCAATACAGATGG
TTCCTATCGCTGCGAGTGTCCCTTTGGTTATATTCTAGCAGGGAATGAATGTGTAGATACTGATGAATGT
TCTGTTGGCAATCCTTGTGGAAATGGAACCTGCAAGAATGTGATTGGAGGTTTTGAATGCACCTGCGAGG
AGGGATTTGAGCCCGGTCCAATGATGACATGTGAAGATATAAATGAATGTGCCCAGAATCCTCTGCTCTG
TGCCTTCCGATGTGTGAACACTTATGGGTCATATGAATGCAAATGTCCCGTGGGATATGTGCTCAGAGAA
GACCGTAGGATGTGCAAAGATGAGGATGAGTGTGAAGAGGGAAAACATGACTGTACTGAAAAACAAATGG
AATGCAAGAACCTCATTGGCACATATATGTGCATCTGTGGACCCGGGTATCAGCGGAGACCTGATGGAGA
AGGCTGTGTAGATGAGAATGAATGTCAGACGAAGCCAGGGATCTGTGAGAATGGGCGCTGCCTCAACACC
CGTGGGAGCTACACCTGTGAGTGTAATGATGGGTTTACCGCCAGCCCCAACCAGGACGAGTGCCTTGACA
ATCGGGAAGGGTACTGCTTCACAGAGGTGCTACAAAACATGTGTCAGATCGGCTCCAGCAACAGGAACCC
CGTCACCAAATCGGAATGCTGCTGTGACGGAGGGAGAGGCTGGGGTCCCCACTGTGAGATCTGCCCTTTC
CAGGGGACTGTGGCTTTCAAGAAACTCTGTCCCCATGGCCGAGGATTCATGACCAATGGAGCAGATATCG
ATGAATGCAAGGTTATTCACGATGTTTGCCGAAATGGGGAATGTGTCAATGACAGAGGATCATATCATTG
CATTTGTAAAACTGGGTACACTCCAGATATAACTGGGACTTCCTGTGTAGATCTGAACGAGTGCAACCAG
GCTCCCAAACCCTGCAATTTTATCTGCAAAAACACAGAAGGGAGTTACCAGTGTTCATGCCCGAAAGGCT
ACATTCTGCAAGAGGATGGAAGGAGCTGCAAAGATCTTGATGAGTGTGCAACCAAGCAACACAACTGCCA
GTTCCTATGTGTTAACACCATTGGCGGCTTCACATGCAAATGTCCTCCCGGATTTACCCAACACCATACG
TCCTGCATTGATAACAATGAATGCACCTCTGACATCAATCTGTGCGGGTCTAAGGGCATTTGCCAGAACA
CTCCTGGAAGCTTCACCTGTGAATGCCAGCGGGGATTCTCACTTGATCAGACCGGCTCCAGCTGTGAAGA
CGTGGACGAGTGTGAGGGTAACCACCGCTGCCAGCATGGCTGCCAGAACATCATTGGGGGCTACAGGTGC
AGCTGCCCCCAGGGCTACCTCCAGCACTACCAGTGGAACCAGTGTGTTGATGAAAACGAATGCCTCAGCG
CTCACATCTGCGGAGGAGCCTCCTGTCACAACACCCTGGGGAGCTACAAGTGCATGTGTCCCGCCGGCTT
CCAGTATGAACAGTTCAGTGGAGGATGCCAAGACATCAATGAATGTGGCTCTGCGCAGGCCCCCTGCAGC
TATGGCTGTTCCAATACCGAGGGCGGTTACCTGTGTGGCTGTCCACCTGGTTACTTCCGCATAGGCCAAG
GGCACTGTGTTTCTGGAATGGGCATGGGCCGAGGAAACCCAGAGCCACCTGTCAGTGGTGAAATGGATGA
CAATTCACTCTCCCCAGAGGCTTGTTACGAGTGTAAGATCAATGGCTACCCCAAACGGGGCAGGAAACGG
AGAAGCACAAACGAAACTGATGCCTCCAATATCGAGGATCAGTCTGAGACAGAAGCCAATGTGAGTCTTG
CAAGTTGGGATGTTGAGAAGACAGCCATCTTTGCTTTCAATATTTCCCACGTCAGTAACAAGGTTCGAAT
CCTAGAACTCCTTCCAGCTCTTACAACTCTGACGAATCACAACAGATACTTGATCGAATCTGGAAATGAA
GATGGCTTCTTTAAAATCAACCAAAAGGAAGGGATCAGCTACCTCCACTTCACAAAGAAGAAGCCAGTGG
CTGGAACCTATTCATTACAAATCAGTAGTACTCCACTTTATAAAAAGAAAGAACTTAACCAACTAGAAGA
CAAATATGACAAAGACTACCTCAGTGGTGAACTGGGTGATAATCTGAAGATGAAAATCCAGGTTTTGCTT
CAT

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>RC218499 representing NM_000138
Red=Cloning site Green=Tags(s)

MRRGRLLEIALGFTVLLASYTSHGADANLEAGNVKETRASRAKRRGGGGHDALKGPNVCGSRYNAYCCPG
WKTLPGGNQCIVPICRHSCGDGFCSRPNMCTCPSGQIAPSCGSRSIQHCNIRCMNGGSCSDDHCLCQKGY
IGTHCGQPVCESGCLNGGRCVAPNRCACTYGFTGPQCERDYRTGPCFTVISNQMCQGQLSGIVCTKTLCC
ATVGRAWGHPCEMCPAQPHPCRRGFIPNIRTGACQDVDECQAIPGLCQGGNCINTVGSFECKCPAGHKLN
EVSQKCEDIDECSTIPGICEGGECTNTVSSYFCKCPPGFYTSPDGTRCIDVRPGYCYTALTNGRCSNQLP
QSITKMQCCCDAGRCWSPGVTVAPEMCPIRATEDFNKLCSVPMVIPGRPEYPPPPLGPIPPVLPVPPGFP
PGPQIPVPRPPVEYLYPSREPPRVLPVNVTDYCQLVRYLCQNGRCIPTPGSCRCECNKGFQLDLRGECID
VDECEKNPCAGGECINNQGSYTCQCRAGYQSTLTRTECRDIDECLQNGRICNNGRCINTDGSFHCVCNAG
FHVTRDGKNCEDMDECSIRNMCLNGMCINEDGSFKCICKPGFQLASDGRYCKDINECETPGICMNGRCVN
TDGSYRCECFPGLAVGLDGRVCVDTHMRSTCYGGYKRGQCIKPLFGAVTKSECCCASTEYAFGEPCQPCP
AQNSAEYQALCSSGPGMTSAGSDINECALDPDICPNGICENLRGTYKCICNSGYEVDSTGKNCVDINECV
LNSLLCDNGQCRNTPGSFVCTCPKGFIYKPDLKTCEDIDECESSPCINGVCKNSPGSFICECSSESTLDP
TKTICIETIKGTCWQTVIDGRCEININGATLKSQCCSSLGAAWGSPCTLCQVDPICGKGYSRIKGTQCED
IDECEVFPGVCKNGLCVNTRGSFKCQCPSGMTLDATGRICLDIRLETCFLRYEDEECTLPIAGRHRMDAC
CCSVGAAWGTEECEECPMRNTPEYEELCPRGPGFATKEITNGKPFFKDINECKMIPSLCTHGKCRNTIGS
FKCRCDSGFALDSEERNCTDIDECRISPDLCGRGQCVNTPGDFECKCDEGYESGFMMMKNCMDIDECQRD
PLLCRGGVCHNTEGSYRCECPPGHQLSPNISACIDINECELSAHLCPNGRCVNLIGKYQCACNPGYHSTP
DRLFCVDIDECSIMNGGCETFCTNSEGSYECSCQPGFALMPDQRSCTDIDECEDNPNICDGGQCTNIPGE
YRCLCYDGFMASEDMKTCVDVNECDLNPNICLSGTCENTKGSFICHCDMGYSGKKGKTGCTDINECEIGA
HNCGKHAVCTNTAGSFKCSCSPGWIGDGIKCTDLDECSNGTHMCSQHADCKNTMGSYRCLCKEGYTGDGF
TCTDLDECSENLNLCGNGQCLNAPGGYRCECDMGFVPSADGKACEDIDECSLPNICVFGTCHNLPGLFRC
ECEIGYELDRSGGNCTDVNECLDPTTCISGNCVNTPGSYICDCPPDFELNPTRVGCVDTRSGNCYLDIRP
RGDNGDTACSNEIGVGVSKASCCCSLGKAWGTPCEMCPAVNTSEYKILCPGGEGFRPNPITVILEDIDEC
QELPGLCQGGKCINTFGSFQCRCPTGYYLNEDTRVCDDVNECETPGICGPGTCYNTVGNYTCICPPDYMQ
VNGGNNCMDMRRSLCYRNYYADNQTCDGELLFNMTKKMCCCSYNIGRAWNKPCEQCPIPSTDEFATLCGS
QRPGFVIDIYTGLPVDIDECREIPGVCENGVCINMVGSFRCECPVGFFYNDKLLVCEDIDECQNGPVCQR
NAECINTAGSYRCDCKPGYRFTSTGQCNDRNECQEIPNICSHGQCIDTVGSFYCLCHTGFKTNDDQTMCL
DINECERDACGNGTCRNTIGSFNCRCNHGFILSHNNDCIDVDECASGNGNLCRNGQCINTVGSFQCQCNE
GYEVAPDGRTCVDINECLLEPRKCAPGTCQNLDGSYRCICPPGYSLQNEKCEDIDECVEEPEICALGTCS
NTEGSFKCLCPEGFSLSSSGRRCQDLRMSYCYAKFEGGKCSSPKSRNHSKQECCCALKGEGWGDPCELCP
TEPDEAFRQICPYGSGIIVGPDDSAVDMDECKEPDVCKHGQCINTDGSYRCECPFGYILAGNECVDTDEC
SVGNPCGNGTCKNVIGGFECTCEEGFEPGPMMTCEDINECAQNPLLCAFRCVNTYGSYECKCPVGYVLRE
DRRMCKDEDECEEGKHDCTEKQMECKNLIGTYMCICGPGYQRRPDGEGCVDENECQTKPGICENGRCLNT
RGSYTCECNDGFTASPNQDECLDNREGYCFTEVLQNMCQIGSSNRNPVTKSECCCDGGRGWGPHCEICPF
QGTVAFKKLCPHGRGFMTNGADIDECKVIHDVCRNGECVNDRGSYHCICKTGYTPDITGTSCVDLNECNQ
APKPCNFICKNTEGSYQCSCPKGYILQEDGRSCKDLDECATKQHNCQFLCVNTIGGFTCKCPPGFTQHHT
SCIDNNECTSDINLCGSKGICQNTPGSFTCECQRGFSLDQTGSSCEDVDECEGNHRCQHGCQNIIGGYRC
SCPQGYLQHYQWNQCVDENECLSAHICGGASCHNTLGSYKCMCPAGFQYEQFSGGCQDINECGSAQAPCS
YGCSNTEGGYLCGCPPGYFRIGQGHCVSGMGMGRGNPEPPVSGEMDDNSLSPEACYECKINGYPKRGRKR
RSTNETDASNIEDQSETEANVSLASWDVEKTAIFAFNISHVSNKVRILELLPALTTLTNHNRYLIESGNE
DGFFKINQKEGISYLHFTKKKPVAGTYSLQISSTPLYKKKELNQLEDKYDKDYLSGELGDNLKMKIQVLL
H

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms Chromatograms
Sequencher program is needed, download here
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_000138
ORF Size 8613 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution Method 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_000138.3
RefSeq Size 9749 bp
RefSeq ORF 8616 bp
Locus ID 2200
UniProt ID P35555
Cytogenetics 15q21.1
Protein Families Druggable Genome
MW 312.24 kDa
Summary This gene encodes a member of the fibrillin family of proteins. The encoded preproprotein is proteolytically processed to generate two proteins including the extracellular matrix component fibrillin-1 and the protein hormone asprosin. Fibrillin-1 is an extracellular matrix glycoprotein that serves as a structural component of calcium-binding microfibrils. These microfibrils provide force-bearing structural support in elastic and nonelastic connective tissue throughout the body. Asprosin, secreted by white adipose tissue, has been shown to regulate glucose homeostasis. Mutations in this gene are associated with Marfan syndrome and the related MASS phenotype, as well as ectopia lentis syndrome, Weill-Marchesani syndrome, Shprintzen-Goldberg syndrome and neonatal progeroid syndrome. [provided by RefSeq, Apr 2016]
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"NM_000138" in other vectors (2)
SKU Description Size Price
RG218499 FBN1 (tGFP-tagged) - Human fibrillin 1 (FBN1) 10 ug
$3,689.00
SC300014 FBN1 (untagged)-Human fibrillin 1 (FBN1) 10 ug
$3,723.00
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*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.