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Dchs1 (NM_001162943) Mouse Tagged ORF Clone

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SKU
MG215323
Dchs1 (tGFP-tagged) - Mouse dachsous 1 (Drosophila) (Dchs1), (10ug)
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ORF Plasmid:
tGFP DDK
  $2,866.00
3 Weeks*
Bulk Requests & Clone Modifications

Frequently Bought Together (4)

TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8
100 ul
$447.00
CC100003 DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
5 x 200 ul
$170.00
PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
100 pmol
$59.00
PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug
10 ug
$780.00

Other products for "Dchs1 or NM_001162943"

Specifications
Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Dchs1
Synonyms 3110041P15Rik; C130033F22Rik; CDH25; FIB1; Gm165; PCDH16
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MG215323 representing NM_001162943
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGCAGAAGGAGCTGAGTGTCGCACTTTCCTGCCCTGGCATGAAGAGCCTCAGGACTCTATTACCATTGC
TGGTGCTGTTAGGGGCTACAGTGCCAGGAAGCTGGGGTCAGGCTGGGAGCCTGGACCTACAGATCGACGA
GGAACAACCAGCAGGCACGCTGATTGGAGACATCAGTGCAGGGCTTCCACCAGGCACAGCGCCTCCTCCC
ATGTACTTCATCTCTGCCCAGGAAGGCAGTGGCGTAGGCACAGACCTTGCTATTGATGAGCACAGTGGAG
TGGTCCGTACAGCTCGGGTCCTAGACCGTGAGCGGAGAGACCGTTACCGCTTCACTGCAGTCACTCCTGA
TGGGGCCACCGTGGAAGTTACAGTGAGAGTAGCTGATATCAATGACCACGCACCAGCTTTCCCTCAGGCT
CGGGCAGCCCTGCAGATACCTGAGCATACAGCTCTTGGTACACGTTACCCACTGGAGCCTGCTCGTGATG
CAGATGCCGGCCGCCTAGGAACCCAAGGGTATGCGCTATCTGGTGATGGGGCTGGAGAGACCTTTCGGCT
GGAGACACGTCCTGGTCCTGGTGGAGCTCCAGTACCTGAGCTGGTGATTGCCGGAGAACTGGACCGGGAG
AACCGCTCACACTACATGTTGCAGCTCGAAGCCTACGATGGTGGCTCACCTCCGCGGAGAGCACAGGCCC
TGCTAGATGTGACACTTCTGGACATCAATGACCATGCCCCAGCTTTCAATCAAAGCCGATACCATGCTGT
GGTATCTGAGAGTCTGGCCCCTGGAAGTCCTGTTTTGCAGGTGTTTGCATCTGATGCTGATGCTGGTGCC
AACGGAGCTGTGACTTATGAGATCAACAGGAGACAGAGTGAAGGTGATGGACCCTTCTCCATTGATGCAC
ACACAGGGTTTCTGAGGCTGGAGCGCCCACTGGACTTTGAACAAAGGCGAGTTCATGAACTGGTGGTACA
GGCACGGGATGGTGGGGCTCACCCAGAGCTGGGTTCAGCTTTTGTGACAGTGCATGTGCGAGATGCAAAT
GACAATCAGCCGTCCATGACTGTCATCTTCCTGAGTGCTGATGGCTCCCCCCGAGTGTCTGAGGCTGCCC
CACCTGGACAGCTTGTTGCTCGAATCTCTGTGTCAGATCCAGATGATGGTGACTTCGCCCACGTCAATGT
GTCCCTGGAAGGTGGAGAGGGCCACTTTGCTCTGAGCACCCAAGACAGTGTCATCTATCTGGTGTGTGTG
GCTCGAAGGCTGGATCGGGAGGAGAGAGATGTCTATAACTTGCGAGTCACAGCCACGGACTCAGGCTCAC
CCCCACTTAGGGCCGAAGCTGCTTTTGTGCTACATGTCACTGATGTCAATGACAACGCACCTGCTTTTGA
CCGCCAGCTCTACCGACCTGAGCCTCTGCCTGAAGTTGCATTGCCTGGCAGCTTCGTGGTACGGGTGACT
GCCCGGGATCCTGACCAAGGCACCAATGGTCAGATCACCTACAGCCTGGCTCCTGGCACTCACACTCACT
GGTTCTCCATTGATCCCACTTCAGGCATCATCACCACAGCTGCCACACTGGACTATGAACTAGAGCCTCA
GCCACAGCTTATTGTGGTGGCCACAGATGGGGGCCTGCCTCCTTTAGTCTCCTCGGCCACAGTTAGTGTG
GCCTTACAAGACGTGAATGACAATGAGCCCCAGTTCCAGAGGACTTTCTACAATGCCTCGCTGCCTGAAG
GTACCCAGCCTGGAACCTGTTTCCTGCAGGTAACAGCCACAGATGCTGACAGTGGCCCATTTGGCCTCCT
CTCCTATTCCTTGGGTGCTGGGCTTGGAGCTTCTGGATCCCCCCCATTCCGCATTGATGCCCACAGTGGT
GATGTGTGTACCACCCGGACCCTGGACCGTGATCAGGGACCTTCAAGCTTTGACTTCACGGTGACAGCTA
TCGATGGGGGAGGCCTCAAGTCCATGGTGTACGTGAAGGTATTTGTGGCAGATGAGAATGACAACCCACC
TCAGTTTTATCCACGGGAGTATGCTGCCAGTCTGAGTGCTCAGAGTACACCAGGCACAGCTGTGCTGAGG
GTGCATGCCCATGACCCTGACCAGGGACCCCATGGGCGACTTTCCTACCATATCCTGGCTGGCAACAGTC
CCCCACTCTTTGCATTGGATGCACACTCAGGGCTGTTGACAGTAGCCTGGCCCTTAGGCAGACGGGCTAA
TTCTGTGGTGCAGCTGGAGATCGGGGCTCAGGATGGAGGTGGTCTACAAGCAGAACCCATTGCCCGAGTC
AACATCAGCATTGTGCCTGGGACCCCCACACCACCTATATTTGAGCAACTACAGTATGTTTTTTCAGTGC
CAGAAGATGTGGCACCCGGCACCAGTGTGGGCATAATCCAGGCACACAACCCACCAGGTCGCTTAGGGCC
TGTGACCCTCACCCTATCAGGTGGGGACCCCCGAGGGCTCTTCTCCCTAGATTCACCCTCAGGGCTATTA
AAAACACTTCGCCCTCTGGACCGGGAGCTCCTGGGACCTGTCCTAGAGCTAGAAGTTCGAGCAGGCAGTG
GAACCCCACCAGTGTTTGCTGTGGCTCGGATCCGCGTGCTGCTGGATGATGTGAATGATAATTCTCCTGC
CTTCCCTGCACCTGAAGACACTGTACTGTTGCCACAAAACACTGCTCCAGGGACTCCCATCTATACACTG
CGCGCTCTAGACCCTGACTCAGGAGCTAACAGTAGAATCACCTTTAATCTACTTGCTGGGGGTGATGGAT
TGTTCACTGTGGATCCCACCACAGGCCACGTCCGGCTCATGGGACCTCTGGGGCCTCCAGGGGGACCAGC
CCATGAGTTGGAGGTGGAGGCCCGGGATGGAGGCTCCCCACCACGCACCAGCCATTTCCGACTTCGTGTG
GTGATACAGGATTTGGGAATCCATGGGCTGGCTCCACGATTTGATAGCCCTACCTACCGTGTGGACTTAC
CCTCGGGCACTACCACCGGAACTCAGATCTTGCAAGTGCAGGCCCAGGCACCAGATGGGAGCCCTGTCAC
TTACCATCTTGCAGCAGATGGTGCCAGTAGCCCCTTTGGCCTGGAGTCACAGAGTGGGTGGCTGTGGGTA
CGGACAGCACTAGACCGTGAGTCCCAGGAGTTATACACATTGAAGGTGATGGCTGTATCCGGTTCCAAAG
CTGAATTGGGGCAACAGACAGGCACAGCCACAGTGAGGGTCATTATCCTCAACCAAAATGACCACAGTCC
CCGCTTGTCTGAAGAGCCCACCTTTCTGGCTGTAGCAGAGAATCAACCCCCAGGGACCAGTGTAGGCCGA
GTCTTTGCCACTGACAGAGACTCAGGTCCTAATGGACGTCTGACCTACAGCCTTCAACAGCTTTCAGAAG
ACAGCAAGGCCTTCCGCATCCACCCCCAGACTGGAGAAGTGACTACACTCCAAACCCTGGACCGAGAGCA
GCAGAGCAGTTTCCAGCTCCTGGTGCAAGTGCAGGATGGGGGTAGTCCACCTCGCAGTGCCACAGGCACT
GTGCATGTCGCTGTGCTCGATCTTAATGACAACAGTCCCACCTTCCTGCAGGCTTCAGGGGCTGCTGGTG
GGGGCCTCCCTATACAGGTACCAGATCGAGTGCCTCCAGGAACACTGGTGACAACTCTACAGGCCAAAGA
TCCAGATGAGGGGGAGAATGGAACCATCCTATACACCCTAACTGGTCCTGGCTCTGAGCTCTTCTCTCTG
CATCCTCACACCGGGGAGCTGCACACAGCAGCATCCCTGGTTAGAGCTGAGCGGCCTCACTATGTACTAA
CTCTAAGTGCTCACGACCAGGGCAGCCCCCCTCGAAGTGCCAGCCTCCAACTGCTCGTGCAGGTACTTCC
CTCGACTCGGGTGGTGGAGTCACCAGATCTCATAGAAGCTGACTCAGCGGCAACAGTGCCTGTAGTACTT
ACGGTGACAGCAGCTGAGGGCCTTCGACCTGGATCCCTGTTGGGTTCGGTGGCCCCGCAGGAGCCAGCTA
GTGTGGGCGTACTCACCTATACTCTGGTTGGTGGCGCGGACCCCGAGGGCACCTTCGCGCTGGACTCAGC
CTCCGGTCGCCTGTACTTGGCGCGTCCCTTGGACTTCGAGGCTGGGCCAGCCTGGCGCGCGCTCACCGTG
CGCGCCGAGGGGCCGGGAGGCGCAGGCGCGCGGCTGTTGAGAGTGCAGGTGCGTGTGCAGGACGAGAACG
AGCACGCGCCAACTTTTGCGCGCGACCCCCTGGCACTGGCGCTACCTGAGAACCCCGACCCCGGTGCCAC
GCTATACACTTTCCGCGCATCAGACGCCGATGGCCCAGGTCCCAACAGTGAGGTGCGATACCGCCTGCTG
AGGCAGGAGCCCCCGGTGCCCGCCCTGCGCTTGGACGCGCGCACCGGGGCGCTCAGCGCTCCTCGTGGTC
TGGATCGAGAGACCACACCTGCGCTGTTACTGCTCGTGGAAGCCACCGACCGGCCAGCCAATGCCAGCCG
CCGCAGGGCAGCGCGCGTTTCAGCGCGCGTCTTTGTCACAGATGAAAATGACAACGCCCCGGTCTTCGCC
TCCCCATCACGGGTGCGCCTCCCAGAGGATCAGCCCCCTGGGCCCGCAGCACTGCACGTGGTAGCTCGGG
ATCCAGACCTGGGGGAGGCTGCCCGCGTGTCCTATCGCCTTGCGGCTGGAGGGGACGGCCACTTCCGGCT
ACACGCGACCACTGGAGCGCTGTCCGTGGTGCGGCCTTTGGACCGTGAACAGCGAGCTGAGCATGTACTG
ACAGTGGTGGCCTTGGACCATGGCTCCCCTCCACGTTCATCCACTCAGCTCCTGACTGTCAGTGTTGTTG
ACGTCAACGACGAGGCACCGGCTTTCCCTCAGCAGGAGTACAATGTCATCCTTCGTGAGAACAGTCCCCC
TGGCACTTCTCTGCTCACTCTGAAGGCAACTGACCCTGACCTTGGGGCCAATGGGCAAGTGACTTATGGG
GGTGTCTCTGGCGAGAGCTTCTCTCTGGACCCAAACACTGGAGTTCTCACGACTCTGAGGGCTCTGGACC
GGGAGGAGCAGGAGGAGATCTATTTGACAGTATATGCTCGGGATAGGGGCTTGCCACCCCTGTTAACGCA
CATCACAGTGAGAGTGACTGTGGAAGATGAAAATGACCATACTCCAACTTTTGGGAACACCCACCTCTCC
CTGGAAGTGCCTGAAGGCCAGGACCCCCAAACCCTAACCACACTAAGAGCCTCTGATCCAGATGGGGGAC
TCAATGGACAGCTACAGTACCGCATCCTTGATGGGGACTCTTCAGGAGCCTTTGCACTAGATCTCACTTC
TGGGGAGTTTGGCACCATGAGGCCACTAGACCGGGAGGTAGAGCCAGCATTCCAGCTGCAGATAGAGGCC
AGAGATGGAGGCCAGCCAGCCCTCAGTGCCACCTTGCTTGTGACAGTGACAGTGCTGGATGCCAATGACC
ATGCACCAGTCTTTCCTGTGCCTTCTTATTCTGTGGAGGTGCCTGAGGATGCACCTGTAGGGACCCTACT
GCTGCAGCTACAGGCTCATGACCCAGATGATGGGGACAATGGCCGTGTGATGTACTACCTGGGTGCAGGT
ACAGCGGGGGCCTTCCTGTTGGAGCCTACCTCTGGGGAACTGAGCACAGCTACAGCCTTGGACAGAGAAC
ACTGTGCCAGCTATGCCTTTTCTGTGACCGCAGTGGATGGTGCAGCTGCTGGGCCTCTGAGCACCACAGT
ACCAATCACCATCACAGTGCGTGACGTCAATGATCATGCACCCGCTTTCCCCACGAGTCCTCTCCGCCTC
CGCCTACCCCGCCCAGGTCCTAGCCTCAACAAACCAACCCTGGCTCTGGCCACGCTTCGAGCTGAAGATC
GAGATGCTGGTGCCAATGCCTCCATTCTATACCGGCTGGCAGGCACACCACCACCTGGCACCACTGTGGA
CTCTTACACTGGTGAAATTCGTGTGGCTCGATCCCCCGTGGCTCTTGGACCCCAGGATCGTGTCCTCTTC
ATTGTAGCTACTGACCTTGGACGCCCAGCTCGCTCCGCCACTGGTGTGGTCGTTGTTGGAATACAGGGAG
AGCCTGAGCGTGGACCCCGCTTTCCCAGAACTAGTAGTGAGGCTGTGCTCCGTGAAAATGCACCACCAGG
GACTCCAGTTATCTCCCCAAAGGCTGTCCATTCAGGAGGTTCAAATGGACCAATTACTTATAGCATTCTC
AGTGGGAATGAGAGAGGGATATTCTCCATCCAACCTAGCACAGGAGCCATCACAGTTCGCTCAGCAGAGG
GTCTTGACTTTGAAACAAGCCCACGGCTGCGGCTGGTGCTACAGGCAGAGAGTGGAGGAGCCTTTGCTTT
CTCAGTGCTGACCCTGACCCTTCAAGATGCCAATGACAACGCTCCCCGTTTCCTGCGGCCTCACTATGTG
GCTTTCCTGCCAGAGTCCCGACCCTTGGAAGGGCCCCTGCTGCAGGTGGAAGCCGATGACCTGGACCAAG
GCTCTGGAGGACAGATTTCCTACAGTCTGGCTGCATCCCAGCCAGCACGGGGCTTGTTCCATGTAGACCC
AGCCACAGGCACTATCACTACCACAGCCATCCTGGACCGGGAAATCTGGGCAGAAACACGGCTGGTACTG
ATGGCCACAGACAGAGGAAGCCCAGCACTGGTGGGCTCAGCTACCCTGACAGTGATGGTCATCGATACCA
ATGACAATCGTCCCACCATCCCCCAGCCCTGGGAGCTCCGAGTATCAGAAGATGCACTGTTGGGCTCAGA
GATCGCACAGGTGACTGGGAATGACGTGGACTCTGGACCAGTGCTATGGTATGTGCTGAGCCCATCGGGG
CCTCAGGATCCCTTCAGTATTGGCCGGTATGGAGGACGTGTCTCCCTCACGGGCCCCCTGGACTTTGAGC
AGTGTGACCACTACCACCTACAGCTGCTGGCACATGATGGGCCTCATGAGGGCCATGCCAACCTCACAGT
GCTTGTGGAAGATGTCAATGACAATGTACCTACCTTCTCACAAAGCCTCTACCAGGTAATGATGTTGGAG
CACACCCCTCCGGGCAGCGCCATTCTCTCCGTCTCTGCCACCGACAGAGACTCGGGTGCCAATGGTCACA
TATCTTACCATCTGGCTTCCCCTGCTGAGGGCTTCCGTGTCGACCCTAACAATGGAACTCTGTTCACAAC
AGTAGGAGCAATGGCCTTGGGTCATGAGGGGCCAGGAGTGGTGGATGTGGTACTGGAAGCCCGAGACCAT
GGGGCTCCAGGCCGGACAGCACAGGCCACAGTGCATGTGCAGCTGAAGGACCAGAATGACCATGCCCCAA
GCTTCACATTGCCACACTACCGTGTTGCTGTGTCTGAAGATTTGCCCCCTGGTTCCACCCTGCTCACCCT
GGAGGCCACAGATGCTGATGGAAGCCGCACCCATGCTACTGTGGACTACAGCATCATCAGTGGCAATCGG
GGCCGAGTTTTCCAGCTGGAACCCCGTCTGGCTGAGGTCGGGGACGGTGTTGGGCCAGGTCCCCAAGCAC
TGGGCTGCCTAGTGTTGCTTGAACCTCTAGACTTTGAAAGCCTGACACAGTACAATTTAACTGTGGCTGC
AGCTGATCGGGGACAGCCACCCCGCAGTTCAGCCGTGCCAGTGACTGTCACTGTGCTGGATGTCAATGAC
AACCCACCCGTCTTTACTCGAGCATCCTACCGTGTGACAGTACCTGAGGACATGCCTGTTGGAGCTGAGC
TATTGCATGTGGAGGCCTCTGATGCTGACCCTGGACCTCATGGTCTTGTGCATTTCACTCTTAGTTCAGG
TGACCCTTTGGGTCTCTTTGAGCTGGATGAGAACTCGGGTGCCTTGAGGCTATCCCGCCCTCTGGACTGT
GAAACCCAGGCTCAACACCAGCTTGTGGTGCAGGCAGCTGACCCTGCTGGAACACACTTTTCTTTGGTAC
CAGTGACAGTTGAGGTCCAGGATGTGAATGACCATGGTCCGGCCTTCCCATTGAGTCTGCTCAGTACTAG
CCTTGCTGAGAATCAGCCTCCAGGCACTCTTGTGACCACACTACACGCGATTGATGGGGATGCTGGGACT
TTTGGTAGACTCCGATATAGCCTGTTGGAGGCAGTGCCAGGGCCTGAGGGTCGTGAGGCATTTTCCCTGA
ACAGCTCAACAGGGGAATTGCGGGCACGGGTGCCTTTTGACTATGAGCACACAGGAAGCTTCCGTCTACT
AGTGGGTGCTGCCGATGCTGGGAATCTCTCAGCCTCTGTCACTGTGTCAGTACTGATTACTGGAGAAGAT
GAATATGACCCTGTATTCTTGGCTCCATCTTTCCATTTCCAAGTGCCAGAAGGTGCCCAGCGAGGCCACA
GCCTGGGTCACGTGCAGGCCACAGATGAGGATGGAGGTGCCGATGGTCTGGTGCTCTACTCGCTGGCTAC
CTCTTCCCCCTATTTTGGTATCAACCAGACAACAGGTGCTTTGTACTTGCGAGTGGACAGTCGCGCACCA
GGAAGTGGAACAACCACCTCTGGGGGTGGGGGCCGGACCCGACGTGAAGCACCTCGGGAGTTAAGGCTGG
AGGTAGTAGCAAGAGGGCCTCTGCCTGGATCCCGGAGTGCCACAGTACCTGTGACTGTGGATATTACCCA
CACTGCTCTAGGCCTGGCACCTGACCTCAACTTGCTATTGGTTGGGGCTGTGGCAGCCTCCTTGGGAGTT
GTGGTGGTGCTTGCCCTGGCAGCTCTGGTCCTGGGCCTTGTTCGGGCGCGAAGCCGCAAGGCTGAGGCAG
CCCCTGGCCCGATGTCACAGACAGCGCCGATAGCCAGTAGCTCTTTACAGAAACTGGGTCGGGAACCCCC
CAGTCCACCACCCTCTGAACATCTGTATCATCAGACTCTTCCCAGCTACGGTGGCCCAGGAGCTGGAGGT
CCCTACCCTCGTGGCGGCTCCCTGGACCCTTCACATTCAAGTGGCAGAGGCTCAGCAGAGGCTGCAGAGG
ATGACGAGATCCGCATGATCAACGAGTTTCCCCGAGTGGCCAGTGTAGCCTCCTCCCTGGCTGCTCGAGG
CCCTGACTCTGGCATCCAGCAGGATGCGGATGGATTGAGTGACACGTCTTGTGAGCCTCCTGCCCCTGAC
ACCTGGTACAAGGGCAGAAAGGCAGGGTTGCTGCTGCCAGGCGCAGGAGCCACTCTGTACCGAGAGGAGG
GGCCTCCAGCCACTGCTACAGCCTTCCTGGGGGGCTGTGGCCTGAGCCCTGCACCCGCTGGGGACTATGG
CTTCCCAGCAGACGGGAAGCCGTGTGTAGCTGGAGCACTGACGGCCATTGTGGCTGGTGAGGAAGAGCTC
CGTGGCAGCTATAACTGGGACTACCTGTTGAGCTGGTGCCCTCAGTTCCAGCCTCTGGCCAGTGTCTTCA
CAGAGATTGCTCGGCTCAAGGATGAAGCTCGTCCGTGTCCTCCAGCTCCCCGTATTGACCCACCACCCCT
CATCACTGCTGTGGCACACCCAGGAGCCAAGTCTGTTCCCCCAAAGCCTGCAAGCACAGCTGTAGCCCGG
GCCATCTTCCCACCAGCCTCTCACCGCTCCCCTATCAGCCATGAAGGCTCCCTCTCCTCAGCTGCCATGT
CCCCCAGCTTCTCACCCTCACTGTCTCCTTTGGCTGCTCGCTCTCCCGTTGTCTCACCATTCGGGGTAGC
CCAGGGCCCCTCAGCTTCAGCACTCAGTACAGAGTCTGGCCTGGAGCCTCCGGATGACACAGAGCTGCGC
ATC

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>MG215323 representing NM_001162943
Red=Cloning site Green=Tags(s)

MQKELSVALSCPGMKSLRTLLPLLVLLGATVPGSWGQAGSLDLQIDEEQPAGTLIGDISAGLPPGTAPPP
MYFISAQEGSGVGTDLAIDEHSGVVRTARVLDRERRDRYRFTAVTPDGATVEVTVRVADINDHAPAFPQA
RAALQIPEHTALGTRYPLEPARDADAGRLGTQGYALSGDGAGETFRLETRPGPGGAPVPELVIAGELDRE
NRSHYMLQLEAYDGGSPPRRAQALLDVTLLDINDHAPAFNQSRYHAVVSESLAPGSPVLQVFASDADAGA
NGAVTYEINRRQSEGDGPFSIDAHTGFLRLERPLDFEQRRVHELVVQARDGGAHPELGSAFVTVHVRDAN
DNQPSMTVIFLSADGSPRVSEAAPPGQLVARISVSDPDDGDFAHVNVSLEGGEGHFALSTQDSVIYLVCV
ARRLDREERDVYNLRVTATDSGSPPLRAEAAFVLHVTDVNDNAPAFDRQLYRPEPLPEVALPGSFVVRVT
ARDPDQGTNGQITYSLAPGTHTHWFSIDPTSGIITTAATLDYELEPQPQLIVVATDGGLPPLVSSATVSV
ALQDVNDNEPQFQRTFYNASLPEGTQPGTCFLQVTATDADSGPFGLLSYSLGAGLGASGSPPFRIDAHSG
DVCTTRTLDRDQGPSSFDFTVTAIDGGGLKSMVYVKVFVADENDNPPQFYPREYAASLSAQSTPGTAVLR
VHAHDPDQGPHGRLSYHILAGNSPPLFALDAHSGLLTVAWPLGRRANSVVQLEIGAQDGGGLQAEPIARV
NISIVPGTPTPPIFEQLQYVFSVPEDVAPGTSVGIIQAHNPPGRLGPVTLTLSGGDPRGLFSLDSPSGLL
KTLRPLDRELLGPVLELEVRAGSGTPPVFAVARIRVLLDDVNDNSPAFPAPEDTVLLPQNTAPGTPIYTL
RALDPDSGANSRITFNLLAGGDGLFTVDPTTGHVRLMGPLGPPGGPAHELEVEARDGGSPPRTSHFRLRV
VIQDLGIHGLAPRFDSPTYRVDLPSGTTTGTQILQVQAQAPDGSPVTYHLAADGASSPFGLESQSGWLWV
RTALDRESQELYTLKVMAVSGSKAELGQQTGTATVRVIILNQNDHSPRLSEEPTFLAVAENQPPGTSVGR
VFATDRDSGPNGRLTYSLQQLSEDSKAFRIHPQTGEVTTLQTLDREQQSSFQLLVQVQDGGSPPRSATGT
VHVAVLDLNDNSPTFLQASGAAGGGLPIQVPDRVPPGTLVTTLQAKDPDEGENGTILYTLTGPGSELFSL
HPHTGELHTAASLVRAERPHYVLTLSAHDQGSPPRSASLQLLVQVLPSTRVVESPDLIEADSAATVPVVL
TVTAAEGLRPGSLLGSVAPQEPASVGVLTYTLVGGADPEGTFALDSASGRLYLARPLDFEAGPAWRALTV
RAEGPGGAGARLLRVQVRVQDENEHAPTFARDPLALALPENPDPGATLYTFRASDADGPGPNSEVRYRLL
RQEPPVPALRLDARTGALSAPRGLDRETTPALLLLVEATDRPANASRRRAARVSARVFVTDENDNAPVFA
SPSRVRLPEDQPPGPAALHVVARDPDLGEAARVSYRLAAGGDGHFRLHATTGALSVVRPLDREQRAEHVL
TVVALDHGSPPRSSTQLLTVSVVDVNDEAPAFPQQEYNVILRENSPPGTSLLTLKATDPDLGANGQVTYG
GVSGESFSLDPNTGVLTTLRALDREEQEEIYLTVYARDRGLPPLLTHITVRVTVEDENDHTPTFGNTHLS
LEVPEGQDPQTLTTLRASDPDGGLNGQLQYRILDGDSSGAFALDLTSGEFGTMRPLDREVEPAFQLQIEA
RDGGQPALSATLLVTVTVLDANDHAPVFPVPSYSVEVPEDAPVGTLLLQLQAHDPDDGDNGRVMYYLGAG
TAGAFLLEPTSGELSTATALDREHCASYAFSVTAVDGAAAGPLSTTVPITITVRDVNDHAPAFPTSPLRL
RLPRPGPSLNKPTLALATLRAEDRDAGANASILYRLAGTPPPGTTVDSYTGEIRVARSPVALGPQDRVLF
IVATDLGRPARSATGVVVVGIQGEPERGPRFPRTSSEAVLRENAPPGTPVISPKAVHSGGSNGPITYSIL
SGNERGIFSIQPSTGAITVRSAEGLDFETSPRLRLVLQAESGGAFAFSVLTLTLQDANDNAPRFLRPHYV
AFLPESRPLEGPLLQVEADDLDQGSGGQISYSLAASQPARGLFHVDPATGTITTTAILDREIWAETRLVL
MATDRGSPALVGSATLTVMVIDTNDNRPTIPQPWELRVSEDALLGSEIAQVTGNDVDSGPVLWYVLSPSG
PQDPFSIGRYGGRVSLTGPLDFEQCDHYHLQLLAHDGPHEGHANLTVLVEDVNDNVPTFSQSLYQVMMLE
HTPPGSAILSVSATDRDSGANGHISYHLASPAEGFRVDPNNGTLFTTVGAMALGHEGPGVVDVVLEARDH
GAPGRTAQATVHVQLKDQNDHAPSFTLPHYRVAVSEDLPPGSTLLTLEATDADGSRTHATVDYSIISGNR
GRVFQLEPRLAEVGDGVGPGPQALGCLVLLEPLDFESLTQYNLTVAAADRGQPPRSSAVPVTVTVLDVND
NPPVFTRASYRVTVPEDMPVGAELLHVEASDADPGPHGLVHFTLSSGDPLGLFELDENSGALRLSRPLDC
ETQAQHQLVVQAADPAGTHFSLVPVTVEVQDVNDHGPAFPLSLLSTSLAENQPPGTLVTTLHAIDGDAGT
FGRLRYSLLEAVPGPEGREAFSLNSSTGELRARVPFDYEHTGSFRLLVGAADAGNLSASVTVSVLITGED
EYDPVFLAPSFHFQVPEGAQRGHSLGHVQATDEDGGADGLVLYSLATSSPYFGINQTTGALYLRVDSRAP
GSGTTTSGGGGRTRREAPRELRLEVVARGPLPGSRSATVPVTVDITHTALGLAPDLNLLLVGAVAASLGV
VVVLALAALVLGLVRARSRKAEAAPGPMSQTAPIASSSLQKLGREPPSPPPSEHLYHQTLPSYGGPGAGG
PYPRGGSLDPSHSSGRGSAEAAEDDEIRMINEFPRVASVASSLAARGPDSGIQQDADGLSDTSCEPPAPD
TWYKGRKAGLLLPGAGATLYREEGPPATATAFLGGCGLSPAPAGDYGFPADGKPCVAGALTAIVAGEEEL
RGSYNWDYLLSWCPQFQPLASVFTEIARLKDEARPCPPAPRIDPPPLITAVAHPGAKSVPPKPASTAVAR
AIFPPASHRSPISHEGSLSSAAMSPSFSPSLSPLAARSPVVSPFGVAQGPSASALSTESGLEPPDDTELR
I

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene | Plasmid Map
ACCN NM_001162943
ORF Size 9873 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.
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_001162943.1, NP_001156415.1
RefSeq Size 10651 bp
RefSeq ORF 9876 bp
Locus ID 233651
UniProt ID E9PVD3
Cytogenetics 7 E3
Summary Calcium-dependent cell-adhesion protein. Mediates functions in neuroprogenitor cell proliferation and differentiation. In the heart, has a critical role for proper morphogenesis of the mitral valve, acting in the regulation of cell migration involved in valve formation (PubMed:26258302).UniProtKB/Swiss-Prot Function
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Documents
Resources
"NM_001162943" in other vectors (2)
SKU Description Size Price
MC225474 Dchs1 (untagged) - Mouse dachsous 1 (Drosophila) (Dchs1), (10ug) 10 ug
$2,934.00
MR215323 Dchs1 (Myc-DDK-tagged) - Mouse dachsous 1 (Drosophila) (Dchs1) 10 ug
$2,666.00

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