CELSR1 (NM_014246) Human Tagged ORF Clone

CAT#: RC211652

CELSR1 (Myc-DDK-tagged)-Human cadherin, EGF LAG seven-pass G-type receptor 1 (flamingo homolog, Drosophila) (CELSR1)

Product Images

Circular map for RC211652

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: CELSR1
• Synonyms: ADGRC1; CDHF9; FMI2; HFMI2; LMPHM9; ME2
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RC211652 representing NM_014246.
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG
  GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC
  ATGGCGCCGCCGCCGCCGCCCGTGCTGCCCGTGCTGCTGCTCCTGGCCGCCGCCGCCGCCCTGCCGGCG
  ATGGGGCTGCGAGCGGCCGCCTGGGAGCCGCGCGTACCCGGCGGGACCCGCGCCTTCGCCCTCCGGCCC
  GGCTGTACCTACGCGGTGGGCGCCGCTTGCACGCCCCGGGCGCCGCGGGAGCTGCTGGACGTGGGCCGC
  GATGGGCGGCTGGCAGGACGTCGGCGCGTCTCGGGCGCGGGGCGCCCGCTGCCGCTGCAAGTCCGCTTG
  GTGGCCCGCAGTGCCCCGACGGCGCTGAGCCGCCGCCTGCGGGCGCGCACGCACCTTCCCGGCTGCGGA
  GCCCGTGCCCGGCTCTGCGGAACCGGTGCCCGGCTCTGCGGGGCGCTCTGCTTCCCCGTCCCCGGCGGC
  TGCGCGGCCGCGCAGCATTCGGCGCTCGCAGCTCCGACCACCTTACCCGCCTGCCGCTGCCCGCCGCGC
  CCCAGGCCCCGCTGTCCCGGCCGTCCCATCTGCCTGCCGCCGGGCGGCTCGGTCCGCCTGCGTCTGCTG
  TGCGCCCTGCGGCGCGCGGCTGGCGCCGTCCGGGTGGGACTGGCGCTGGAGGCCGCCACCGCGGGGACG
  CCCTCCGCGTCGCCATCCCCATCGCCGCCCCTGCCGCCGAACTTGCCCGAAGCCCGGGCGGGGCCGGCG
  CGACGGGCCCGGCGGGGCACGAGCGGCAGAGGGAGCCTGAAGTTTCCGATGCCCAACTACCAGGTGGCG
  TTGTTTGAGAACGAACCGGCGGGCACCCTCATCCTCCAGCTGCACGCGCACTACACCATCGAGGGCGAG
  GAGGAGCGCGTGAGCTATTACATGGAGGGGCTGTTCGACGAGCGCTCCCGGGGCTACTTCCGAATCGAC
  TCTGCCACGGGCGCCGTGAGCACGGACAGCGTACTGGACCGCGAGACCAAGGAGACGCACGTCCTCAGG
  GTGAAAGCCGTGGACTACAGTACGCCGCCGCGCTCGGCCACCACCTACATCACTGTCTTGGTCAAAGAC
  ACCAACGACCACAGCCCGGTCTTCGAGCAGTCGGAGTACCGCGAGCGCGTGCGGGAGAACCTGGAGGTG
  GGCTACGAGGTGCTGACCATCCGCGCCAGCGACCGCGACTCGCCCATCAACGCCAACTTGCGTTACCGC
  GTGTTGGGGGGCGCGTGGGACGTCTTCCAGCTCAACGAGAGCTCTGGCGTGGTGAGCACACGGGCGGTG
  CTGGACCGGGAGGAGGCGGCCGAGTACCAGCTCCTGGTGGAGGCCAACGACCAGGGGCGCAATCCGGGC
  CCGCTCAGTGCCACGGCCACCGTGTACATCGAGGTGGAGGACGAGAACGACAACTACCCCCAGTTCAGC
  GAGCAGAACTACGTGGTCCAGGTGCCCGAGGACGTGGGGCTCAACACGGCTGTGCTGCGAGTGCAGGCC
  ACGGACCGGGACCAGGGCCAGAACGCGGCCATTCACTACAGCATCCTCAGCGGGAACGTGGCCGGCCAG
  TTCTACCTGCACTCGCTGAGCGGGATCCTGGATGTGATCAACCCCTTGGATTTCGAGGATGTCCAGAAA
  TACTCGCTGAGCATTAAGGCCCAGGATGGGGGCCGGCCCCCGCTCATCAATTCTTCAGGGGTGGTGTCT
  GTGCAGGTGCTGGATGTCAACGACAACGAGCCTATCTTTGTGAGCAGCCCCTTCCAGGCCACGGTGCTG
  GAGAATGTGCCCCTGGGCTACCCCGTGGTGCACATTCAGGCGGTGGACGCGGACTCTGGAGAGAACGCC
  CGGCTGCACTATCGCCTGGTGGACACGGCCTCCACCTTTCTGGGGGGCGGCAGCGCTGGGCCTAAGAAT
  CCTGCCCCCACCCCTGACTTCCCCTTCCAGATCCACAACAGCTCCGGTTGGATCACAGTGTGTGCCGAG
  CTGGACCGCGAGGAGGTGGAGCACTACAGCTTCGGGGTGGAGGCGGTGGACCACGGCTCGCCCCCCATG
  AGCTCCTCCACCAGCGTGTCCATCACGGTGCTGGACGTGAATGACAACGACCCGGTGTTCACGCAGCCC
  ACCTACGAGCTTCGTCTGAATGAGGATGCGGCCGTGGGGAGCAGCGTGCTGACCCTGCAGGCCCGCGAC
  CGTGACGCCAACAGTGTGATTACCTACCAGCTCACAGGCGGCAACACCCGGAACCGCTTTGCACTCAGC
  AGCCAGAGAGGGGGCGGCCTCATCACCCTGGCGCTACCTCTGGACTACAAGCAGGAGCAGCAGTACGTG
  CTGGCGGTGACAGCATCCGACGGCACACGGTCGCACACTGCGCATGTCCTAATCAACGTCACTGATGCC
  AACACCCACAGGCCTGTCTTTCAGAGCTCCCATTACACAGTGAGTGTCAGTGAGGACAGGCCTGTGGGC
  ACCTCCATTGCTACCCTCAGTGCCAACGATGAGGACACAGGAGAGAATGCCCGCATCACCTACGTGATT
  CAGGACCCCGTGCCGCAGTTCCGCATTGACCCCGACAGTGGCACCATGTACACCATGATGGAGCTGGAC
  TATGAGAACCAGGTCGCCTACACGCTGACCATCATGGCCCAGGACAACGGCATCCCGCAGAAATCAGAC
  ACCACCACCCTAGAGATCCTCATCCTCGATGCCAATGACAATGCACCCCAGTTCCTGTGGGATTTCTAC
  CAGGGTTCCATCTTTGAGGATGCTCCACCCTCGACCAGCATCCTCCAGGTCTCTGCCACGGACCGGGAC
  TCAGGTCCCAATGGGCGTCTGCTGTACACCTTCCAGGGTGGGGACGACGGCGATGGGGACTTCTACATC
  GAGCCCACGTCCGGTGTGATTCGCACCCAGCGCCGGCTGGACCGGGAGAATGTGGCCGTGTACAACCTT
  TGGGCTCTGGCTGTGGATCGGGGCAGTCCCACTCCCCTTAGCGCCTCGGTAGAAATCCAGGTGACCATC
  TTGGACATTAATGACAATGCCCCCATGTTTGAGAAGGACGAACTGGAGCTGTTTGTTGAGGAGAACAAC
  CCAGTGGGGTCGGTGGTGGCAAAGATTCGTGCTAACGACCCTGATGAAGGCCCTAATGCCCAGATCATG
  TATCAGATTGTGGAAGGGGACATGCGGCATTTCTTCCAGCTGGACCTGCTCAACGGGGACCTGCGTGCC
  ATGGTGGAGCTGGACTTTGAGGTCCGGCGGGAGTATGTGCTGGTGGTGCAGGCCACGTCGGCTCCGCTG
  GTGAGCCGAGCCACGGTGCACATCCTTCTCGTGGACCAGAATGACAACCCGCCTGTGCTGCCCGACTTC
  CAGATCCTCTTCAACAACTATGTCACCAACAAGTCCAACAGTTTCCCCACCGGCGTGATCGGCTGCATC
  CCGGCCCATGACCCCGACGTGTCAGACAGCCTCAACTACACCTTCGTGCAGGGCAACGAGCTGCGCCTG
  TTGCTGCTGGACCCCGCCACGGGCGAACTGCAGCTCAGCCGCGACCTGGACAACAACCGGCCGCTGGAG
  GCGCTCATGGAGGTGTCTGTGTCTGATGGCATCCACAGCGTCACGGCCTTCTGCACCCTGCGTGTCACC
  ATCATCACGGACGACATGCTGACCAACAGCATCACTGTCCGCCTGGAGAACATGTCCCAGGAGAAGTTC
  CTGTCCCCGCTGCTGGCCCTCTTCGTGGAGGGGGTGGCCGCCGTGCTGTCCACCACCAAGGACGACGTC
  TTCGTCTTCAACGTCCAGAACGACACCGACGTCAGCTCCAACATCCTGAACGTGACCTTCTCGGCGCTG
  CTGCCTGGCGGCGTCCGCGGCCAGTTCTTCCCGTCGGAGGACCTGCAGGAGCAGATCTACCTGAATCGG
  ACGCTGCTGACCACCATCTCCACGCAGCGCGTGCTGCCCTTCGACGACAACATCTGCCTGCGCGAGCCC
  TGCGAGAACTACATGAAGTGCGTGTCCGTTCTGCGATTCGACAGCTCCGCGCCCTTCCTCAGCTCCACC
  ACCGTGCTCTTCCGGCCCATCCACCCCATCAACGGCCTGCGCTGCCGCTGCCCGCCCGGCTTCACCGGC
  GACTACTGCGAGACGGAGATCGACCTCTGCTACTCCGACCCGTGCGGCGCCAACGGCCGCTGCCGCAGC
  CGCGAGGGCGGCTACACCTGCGAGTGCTTCGAGGACTTCACTGGAGAGCACTGTGAGGTGGATGCCCGC
  TCAGGCCGCTGTGCCAACGGGGTGTGCAAGAACGGGGGCACCTGCGTGAACCTGCTCATCGGCGGCTTC
  CACTGCGTGTGTCCTCCTGGCGAGTATGAGAGGCCCTACTGTGAGGTGACCACCAGGAGCTTCCCGCCC
  CAGTCCTTCGTCACCTTCCGGGGCCTGAGACAGCGCTTCCACTTCACCATCTCCCTCACGTTTGCCACT
  CAGGAAAGGAACGGCTTGCTTCTCTACAACGGCCGCTTCAATGAGAAGCACGACTTCATCGCCCTGGAG
  ATCGTGGACGAGCAGGTGCAGCTCACCTTCTCTGCAGGCGAGACAACAACGACCGTGGCACCGAAGGTT
  CCCAGTGGTGTGAGTGACGGGCGGTGGCACTCTGTGCAGGTGCAGTACTACAACAAGCCCAATATTGGC
  CACCTGGGCCTGCCCCATGGGCCGTCCGGGGAAAAGATGGCCGTGGTGACAGTGGATGATTGTGACACA
  ACCATGGCTGTGCGCTTTGGAAAGGACATCGGGAACTACAGCTGCGCTGCCCAGGGCACTCAGACCGGC
  TCCAAGAAGTCCCTGGATCTGACCGGCCCTCTACTCCTGGGGGGTGTCCCCAACCTGCCAGAAGACTTC
  CCAGTGCACAACCGGCAGTTCGTGGGCTGCATGCGGAACCTGTCAGTCGACGGCAAAAATGTGGACATG
  GCCGGATTCATCGCCAACAATGGCACCCGGGAAGGCTGCGCTGCTCGGAGGAACTTCTGCGATGGGAGG
  CGGTGTCAGAATGGAGGCACCTGTGTCAACAGGTGGAATATGTATCTGTGTGAGTGTCCACTCCGATTC
  GGCGGGAAGAACTGTGAGCAAGCCATGCCTCACCCCCAGCTCTTCAGCGGTGAGAGCGTCGTGTCCTGG
  AGTGACCTGAACATCATCATCTCTGTGCCCTGGTACCTGGGGCTCATGTTCCGGACCCGGAAGGAGGAC
  AGCGTTCTGATGGAGGCCACCAGTGGTGGGCCCACCAGCTTTCGCCTCCAGATCCTGAACAACTACCTC
  CAGTTTGAGGTGTCCCACGGCCCCTCCGATGTGGAGTCCGTGATGCTGTCCGGGTTGCGGGTGACCGAC
  GGGGAGTGGCACCACCTGCTGATCGAGCTGAAGAATGTTAAGGAGGACAGTGAGATGAAGCACCTGGTC
  ACCATGACCTTGGACTATGGGATGGACCAGAACAAGGCAGATATCGGGGGCATGCTTCCCGGGCTGACG
  GTAAGGAGCGTGGTGGTCGGAGGCGCCTCTGAAGACAAGGTCTCCGTGCGCCGTGGATTCCGAGGCTGC
  ATGCAGGGAGTGAGGATGGGGGGGACGCCCACCAACGTCGCCACCCTGAACATGAACAACGCACTCAAG
  GTCAGGGTGAAGGACGGCTGTGATGTGGACGACCCCTGTACCTCGAGCCCCTGTCCCCCCAATAGCCGC
  TGCCACGACGCCTGGGAGGACTACAGCTGCGTCTGTGACAAAGGGTACCTTGGAATAAACTGTGTGGAT
  GCCTGTCACCTGAACCCCTGCGAGAACATGGGGGCCTGCGTGCGCTCCCCCGGCTCCCCGCAGGGCTAC
  GTGTGCGAGTGTGGGCCCAGTCACTACGGGCCGTACTGTGAGAACAAACTCGACCTTCCGTGCCCCAGA
  GGCTGGTGGGGGAACCCCGTCTGTGGACCCTGCCACTGTGCCGTCAGCAAAGGCTTTGATCCCGACTGT
  AATAAGACCAACGGCCAGTGCCAATGCAAGGAGAATTACTACAAGCTCCTAGCCCAGGACACCTGTCTG
  CCCTGCGACTGCTTCCCCCATGGCTCCCACAGCCGCACTTGCGACATGGCCACCGGGCAGTGTGCCTGC
  AAGCCCGGCGTCATCGGCCGCCAGTGCAACCGCTGCGACAACCCGTTTGCCGAGGTCACCACGCTCGGC
  TGTGAAGTGATCTACAATGGCTGTCCCAAAGCATTTGAGGCCGGCATCTGGTGGCCACAGACCAAGTTC
  GGGCAGCCGGCTGCGGTGCCATGCCCTAAGGGATCCGTTGGAAATGCGGTCCGACACTGCAGCGGGGAG
  AAGGGCTGGCTGCCCCCAGAGCTCTTTAACTGTACCACCATCTCCTTCGTGGACCTCAGGGCCATGAAT
  GAGAAGCTGAGCCGCAATGAGACGCAGGTGGACGGCGCCAGGGCCCTGCAGCTGGTGAGGGCGCTGCGC
  AGTGCTACACAGCACACGGGCACGCTCTTTGGCAATGACGTGCGCACGGCCTACCAGCTGCTGGGCCAC
  GTCCTTCAGCACGAGAGCTGGCAGCAGGGCTTCGACCTGGCAGCCACGCAGGACGCCGACTTTCACGAG
  GACGTCATCCACTCGGGCAGCGCCCTCCTGGCCCCAGCCACCAGGGCGGCGTGGGAGCAGATCCAGCGG
  AGCGAGGGCGGCACGGCACAGCTGCTCCGGCGCCTCGAGGGCTACTTCAGCAACGTGGCACGCAACGTG
  CGGCGGACGTACCTGCGGCCCTTCGTCATCGTCACCGCCAACATGATTCTTGCTGTCGACATCTTTGAC
  AAGTTCAACTTTACGGGAGCCAGGGTCCCGCGATTCGACACCATCCATGAAGAGTTCCCCAGGGAGCTG
  GAGTCCTCCGTCTCCTTCCCAGCCGACTTCTTCAGACCACCTGAAGAAAAAGAAGGCCCCCTGCTGAGG
  CCGGCTGGCCGGAGGACCACCCCGCAGACCACGCGCCCGGGGCCTGGCACCGAGAGGGAGGCCCCGATC
  AGCAGGCGGAGGCGACACCCTGATGACGCTGGCCAGTTCGCCGTCGCTCTGGTCATCATTTACCGCACC
  CTGGGGCAGCTCCTGCCCGAGCGCTACGACCCCGACCGTCGCAGCCTCCGGTTGCCTCACCGGCCCATC
  ATTAATACCCCGATGGTGAGCACGCTGGTGTACAGCGAGGGGGCTCCGCTCCCGAGACCCCTGGAGAGG
  CCCGTCCTGGTGGAGTTCGCCCTGCTGGAGGTGGAGGAGCGAACCAAGCCTGTCTGCGTGTTCTGGAAC
  CACTCCCTGGCCGTTGGTGGGACGGGAGGGTGGTCTGCCCGGGGCTGCGAGCTCCTGTCCAGGAACCGG
  ACACATGTCGCCTGCCAGTGCAGCCACACAGCCAGCTTTGCGGTGCTCATGGATATCTCCAGGCGTGAG
  AACGGGGAGGTCCTGCCTCTGAAGATTGTCACCTATGCCGCTGTGTCCTTGTCACTGGCAGCCCTGCTG
  GTGGCCTTCGTCCTCCTGAGCCTGGTCCGCATGCTGCGCTCCAACCTGCACAGCATTCACAAGCACCTC
  GCCGTGGCGCTCTTCCTCTCTCAGCTGGTGTTCGTGATTGGGATCAACCAGACGGAAAACCCGTTTCTG
  TGCACAGTGGTTGCCATCCTCCTCCACTACATCTACATGAGCACCTTTGCCTGGACCCTCGTGGAGAGC
  CTGCATGTCTACCGCATGCTGACCGAGGTGCGCAACATCGACACGGGGCCCATGCGGTTCTACTACGTC
  GTGGGCTGGGGCATCCCGGCCATTGTCACAGGACTGGCGGTCGGCCTGGACCCCCAGGGCTACGGGAAC
  CCCGACTTCTGCTGGCTGTCGCTTCAAGACACCCTGATTTGGAGCTTTGCGGGGCCCATCGGAGCTGTT
  ATAATCATCAACACAGTCACTTCTGTCCTATCTGCAAAGGTTTCCTGCCAAAGAAAGCACCATTATTAT
  GGGAAAAAAGGGATCGTCTCCCTGCTGAGGACCGCATTCCTCCTGCTGCTGCTCATCAGCGCCACCTGG
  CTGCTGGGGCTGCTGGCTGTGAACCGCGATGCACTGAGCTTTCACTACCTCTTCGCCATCTTCAGCGGC
  TTACAGGGCCCCTTCGTCCTCCTTTTCCACTGCGTGCTCAACCAGGAGGTCCGGAAGCACCTGAAGGGC
  GTGCTCGGCGGGAGGAAGCTGCACCTGGAGGACTCCGCCACCACCAGGGCCACCCTGCTGACGCGCTCC
  CTCAACTGCAACACCACCTTCGGTGACGGGCCTGACATGCTGCGCACAGACTTGGGCGAGTCCACCGCC
  TCGCTGGACAGCATCGTCAGGGATGAAGGGATCCAGAAGCTCGGCGTGTCCTCTGGGCTGGTGAGGGGC
  AGCCACGGAGAGCCAGACGCGTCCCTCATGCCCAGGAGCTGCAAGGATCCCCCTGGCCACGATTCCGAC
  TCAGATAGCGAGCTGTCCCTGGATGAGCAGAGCAGCTCTTACGCCTCCTCACACTCGTCAGACAGCGAG
  GACGATGGGGTGGGAGCTGAGGAAAAATGGGACCCGGCCAGGGGCGCCGTCCACAGCACCCCCAAAGGG
  GACGCTGTGGCCAACCACGTTCCGGCCGGCTGGCCCGACCAGAGCCTGGCTGAGAGTGACAGTGAGGAC
  CCCAGCGGCAAGCCCCGCCTGAAGGTGGAGACCAAGGTCAGCGTGGAGCTGCACCGCGAGGAGCAGGGC
  AGTCACCGTGGAGAGTACCCCCCGGACCAGGAGAGCGGGGGCGCAGCCAGGCTTGCTAGCAGCCAGCCC
  CCAGAGCAGAGGAAAGGCATCTTGAAAAATAAAGTCACGTACCCGCCGCCGCTGACGCTGACGGAGCAG
  ACGCTGAAGGGCCGGCTCCGGGAGAAGCTGGCAGACTGTGAGCAGAGCCCCACATCCTCGCGCACGTCT
  TCCCTGGGCTCTGGCGGCCCCGACTGCGCCATCACAGTCAAGAGCCCTGGGAGGGAGCCGGGGCGTGAC
  CACCTCAACGGGGTGGCCATGAATGTGCGCACTGGGAGCGCCCAGGCCGATGGCTCCGACTCTGAGAAA
  CCG
  CAAGCTTCACTAGCTAGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGAT
  CTGGCAGCAAATGATATCCTGGATTACAAGGATGAC
  
  Protein Sequence

  >Peptide sequence encoded by RC211652
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  MAPPPPPVLPVLLLLAAAAALPAMGLRAAAWEPRVPGGTRAFALRPGCTYAVGAACTPRAPRELLDVGR
  DGRLAGRRRVSGAGRPLPLQVRLVARSAPTALSRRLRARTHLPGCGARARLCGTGARLCGALCFPVPGG
  CAAAQHSALAAPTTLPACRCPPRPRPRCPGRPICLPPGGSVRLRLLCALRRAAGAVRVGLALEAATAGT
  PSASPSPSPPLPPNLPEARAGPARRARRGTSGRGSLKFPMPNYQVALFENEPAGTLILQLHAHYTIEGE
  EERVSYYMEGLFDERSRGYFRIDSATGAVSTDSVLDRETKETHVLRVKAVDYSTPPRSATTYITVLVKD
  TNDHSPVFEQSEYRERVRENLEVGYEVLTIRASDRDSPINANLRYRVLGGAWDVFQLNESSGVVSTRAV
  LDREEAAEYQLLVEANDQGRNPGPLSATATVYIEVEDENDNYPQFSEQNYVVQVPEDVGLNTAVLRVQA
  TDRDQGQNAAIHYSILSGNVAGQFYLHSLSGILDVINPLDFEDVQKYSLSIKAQDGGRPPLINSSGVVS
  VQVLDVNDNEPIFVSSPFQATVLENVPLGYPVVHIQAVDADSGENARLHYRLVDTASTFLGGGSAGPKN
  PAPTPDFPFQIHNSSGWITVCAELDREEVEHYSFGVEAVDHGSPPMSSSTSVSITVLDVNDNDPVFTQP
  TYELRLNEDAAVGSSVLTLQARDRDANSVITYQLTGGNTRNRFALSSQRGGGLITLALPLDYKQEQQYV
  LAVTASDGTRSHTAHVLINVTDANTHRPVFQSSHYTVSVSEDRPVGTSIATLSANDEDTGENARITYVI
  QDPVPQFRIDPDSGTMYTMMELDYENQVAYTLTIMAQDNGIPQKSDTTTLEILILDANDNAPQFLWDFY
  QGSIFEDAPPSTSILQVSATDRDSGPNGRLLYTFQGGDDGDGDFYIEPTSGVIRTQRRLDRENVAVYNL
  WALAVDRGSPTPLSASVEIQVTILDINDNAPMFEKDELELFVEENNPVGSVVAKIRANDPDEGPNAQIM
  YQIVEGDMRHFFQLDLLNGDLRAMVELDFEVRREYVLVVQATSAPLVSRATVHILLVDQNDNPPVLPDF
  QILFNNYVTNKSNSFPTGVIGCIPAHDPDVSDSLNYTFVQGNELRLLLLDPATGELQLSRDLDNNRPLE
  ALMEVSVSDGIHSVTAFCTLRVTIITDDMLTNSITVRLENMSQEKFLSPLLALFVEGVAAVLSTTKDDV
  FVFNVQNDTDVSSNILNVTFSALLPGGVRGQFFPSEDLQEQIYLNRTLLTTISTQRVLPFDDNICLREP
  CENYMKCVSVLRFDSSAPFLSSTTVLFRPIHPINGLRCRCPPGFTGDYCETEIDLCYSDPCGANGRCRS
  REGGYTCECFEDFTGEHCEVDARSGRCANGVCKNGGTCVNLLIGGFHCVCPPGEYERPYCEVTTRSFPP
  QSFVTFRGLRQRFHFTISLTFATQERNGLLLYNGRFNEKHDFIALEIVDEQVQLTFSAGETTTTVAPKV
  PSGVSDGRWHSVQVQYYNKPNIGHLGLPHGPSGEKMAVVTVDDCDTTMAVRFGKDIGNYSCAAQGTQTG
  SKKSLDLTGPLLLGGVPNLPEDFPVHNRQFVGCMRNLSVDGKNVDMAGFIANNGTREGCAARRNFCDGR
  RCQNGGTCVNRWNMYLCECPLRFGGKNCEQAMPHPQLFSGESVVSWSDLNIIISVPWYLGLMFRTRKED
  SVLMEATSGGPTSFRLQILNNYLQFEVSHGPSDVESVMLSGLRVTDGEWHHLLIELKNVKEDSEMKHLV
  TMTLDYGMDQNKADIGGMLPGLTVRSVVVGGASEDKVSVRRGFRGCMQGVRMGGTPTNVATLNMNNALK
  VRVKDGCDVDDPCTSSPCPPNSRCHDAWEDYSCVCDKGYLGINCVDACHLNPCENMGACVRSPGSPQGY
  VCECGPSHYGPYCENKLDLPCPRGWWGNPVCGPCHCAVSKGFDPDCNKTNGQCQCKENYYKLLAQDTCL
  PCDCFPHGSHSRTCDMATGQCACKPGVIGRQCNRCDNPFAEVTTLGCEVIYNGCPKAFEAGIWWPQTKF
  GQPAAVPCPKGSVGNAVRHCSGEKGWLPPELFNCTTISFVDLRAMNEKLSRNETQVDGARALQLVRALR
  SATQHTGTLFGNDVRTAYQLLGHVLQHESWQQGFDLAATQDADFHEDVIHSGSALLAPATRAAWEQIQR
  SEGGTAQLLRRLEGYFSNVARNVRRTYLRPFVIVTANMILAVDIFDKFNFTGARVPRFDTIHEEFPREL
  ESSVSFPADFFRPPEEKEGPLLRPAGRRTTPQTTRPGPGTEREAPISRRRRHPDDAGQFAVALVIIYRT
  LGQLLPERYDPDRRSLRLPHRPIINTPMVSTLVYSEGAPLPRPLERPVLVEFALLEVEERTKPVCVFWN
  HSLAVGGTGGWSARGCELLSRNRTHVACQCSHTASFAVLMDISRRENGEVLPLKIVTYAAVSLSLAALL
  VAFVLLSLVRMLRSNLHSIHKHLAVALFLSQLVFVIGINQTENPFLCTVVAILLHYIYMSTFAWTLVES
  LHVYRMLTEVRNIDTGPMRFYYVVGWGIPAIVTGLAVGLDPQGYGNPDFCWLSLQDTLIWSFAGPIGAV
  IIINTVTSVLSAKVSCQRKHHYYGKKGIVSLLRTAFLLLLLISATWLLGLLAVNRDALSFHYLFAIFSG
  LQGPFVLLFHCVLNQEVRKHLKGVLGGRKLHLEDSATTRATLLTRSLNCNTTFGDGPDMLRTDLGESTA
  SLDSIVRDEGIQKLGVSSGLVRGSHGEPDASLMPRSCKDPPGHDSDSDSELSLDEQSSSYASSHSSDSE
  DDGVGAEEKWDPARGAVHSTPKGDAVANHVPAGWPDQSLAESDSEDPSGKPRLKVETKVSVELHREEQG
  SHRGEYPPDQESGGAARLASSQPPEQRKGILKNKVTYPPPLTLTEQTLKGRLREKLADCEQSPTSSRTS
  SLGSGGPDCAITVKSPGREPGRDHLNGVAMNVRTGSAQADGSDSEKP
  QASLASGPTRTRPLEQKLISEEDLAANDILDYKDDDDKV
  
• Restriction Sites: SgfI-HindIII Cloning Scheme for this gene Plasmid Map
• ACCN: NM_014246
• ORF Size: 9042 bp
• OTI Disclaimer: 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.
• Product 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: 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.

Reference Data

• RefSeq Size: 11389 bp
• RefSeq ORF: 9045 bp
• Locus ID: 9620
• UniProt ID: Q9NYQ6
• Cytogenetics: 22q13.31
• Protein Families: Druggable Genome, Transmembrane
• MW: 329.5 kDa
• Gene Summary: The protein encoded by this gene is a member of the flamingo subfamily, part of the cadherin superfamily. The flamingo subfamily consists of nonclassic-type cadherins; a subpopulation that does not interact with catenins. The flamingo cadherins are located at the plasma membrane and have nine cadherin domains, seven epidermal growth factor-like repeats and two laminin A G-type repeats in their ectodomain. They also have seven transmembrane domains, a characteristic unique to this subfamily. It is postulated that these proteins are receptors involved in contact-mediated communication, with cadherin domains acting as homophilic binding regions and the EGF-like domains involved in cell adhesion and receptor-ligand interactions. This particular member is a developmentally regulated, neural-specific gene which plays an unspecified role in early embryogenesis. [provided by RefSeq, Jul 2008]