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Desmoplakin (DSP) (NM_004415) Human Tagged ORF Clone

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SKU
RG220397
DSP (tGFP-tagged) - Human desmoplakin (DSP), transcript variant 1
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_004415 in other vectors (2)
Reconstitution Protocol
$2,526.00
3 Weeks*
Size
Bulk Requests & Clone Modifications

Other products for "Desmoplakin"

Frequently Bought Together (5)

TA350652 Rabbit Polyclonal Anti-DSP Antibody 100 ul
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TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
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CC100003 DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA) 5 x 200 ul
$160.00
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
$750.00
Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol Desmoplakin
Synonyms DCWHKTA; DP
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG220397 representing NM_004415
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAGCTGCAACGGAGGCTCCCACCCGCGGATCAACACTCTGGGCCGCATGATCCGCGCCGAGTCTGGCC
CGGACCTGCGCTACGAGGTGACCAGCGGCGGCGGGGGCACCAGCAGGATGTACTATTCTCGGCGCGGCGT
GATCACCGACCAGAACTCGGACGGCTACTGTCAAACCGGCACGATGTCCAGGCACCAGAACCAGAACACC
ATCCAGGAGCTGCTGCAGAACTGCTCCGACTGCTTGATGCGAGCAGAGCTCATCGTGCAGCCTGAATTGA
AGTATGGAGATGGAATACAACTGACTCGGAGTCGAGAATTGGATGAGTGTTTTGCCCAGGCCAATGACCA
AATGGAAATCCTCGACAGCTTGATCAGAGAGATGCGGCAGATGGGCCAGCCCTGTGATGCTTACCAGAAA
AGGCTTCTTCAGCTCCAAGAGCAAATGCGAGCCCTTTATAAAGCCATCAGTGTCCCTCGAGTCCGCAGGG
CCAGCTCCAAGGGTGGTGGAGGCTACACTTGTCAGAGTGGCTCTGGCTGGGATGAGTTCACCAAACATGT
CACCAGTGAATGTTTGGGGTGGATGAGGCAGCAAAGGGCGGAGATGGACATGGTGGCCTGGGGTGTGGAC
CTGGCCTCAGTGGAGCAGCACATTAACAGCCACCGGGGCATCCACAACTCCATCGGCGACTATCGCTGGC
AGCTGGACAAAATCAAAGCCGACCTGCGCGAGAAATCTGCGATCTACCAGTTGGAGGAGGAGTATGAAAA
CCTGCTGAAAGCGTCCTTTGAGAGGATGGATCACCTGCGACAGCTGCAGAACATCATTCAGGCCACGTCC
AGGGAGATCATGTGGATCAATGACTGCGAGGAGGAGGAGCTGCTGTACGACTGGAGCGACAAGAACACCA
ACATCGCTCAGAAACAGGAGGCCTTCTCCATACGCATGAGTCAACTGGAAGTTAAAGAAAAAGAGCTCAA
TAAGCTGAAACAAGAAAGTGACCAACTTGTCCTCAATCAGCATCCAGCTTCAGACAAAATTGAGGCCTAT
ATGGACACTCTGCAGACGCAGTGGAGTTGGATTCTTCAGATCACCAAGTGCATTGATGTTCATCTGAAAG
AAAATGCTGCCTACTTTCAGTTTTTTGAAGAGGCGCAGTCTACTGAAGCATACCTGAAGGGGCTCCAGGA
CTCCATCAGGAAGAAGTACCCCTGCGACAAGAACATGCCCCTGCAGCACCTGCTGGAACAGATCAAGGAG
CTGGAGAAAGAACGAGAGAAAATCCTTGAATACAAGCGTCAGGTGCAGAACTTGGTAAACAAGTCTAAGA
AGATTGTACAGCTGAAGCCTCGTAACCCAGACTACAGAAGCAATAAACCCATTATTCTCAGAGCTCTCTG
TGACTACAAACAAGATCAGAAAATCGTGCATAAGGGGGATGAGTGTATCCTGAAGGACAACAACGAGCGC
AGCAAGTGGTACGTGACGGGCCCGGGAGGCGTTGACATGCTTGTTCCCTCTGTGGGGCTGATCATCCCTC
CTCCGAACCCACTGGCCGTGGACCTCTCTTGCAAGATTGAGCAGTACTACGAAGCCATCTTGGCTCTGTG
GAACCAGCTCTACATCAACATGAAGAGCCTGGTGTCCTGGCACTACTGCATGATTGACATAGAGAAGATC
AGGGCCATGACAATCGCCAAGCTGAAAACAATGCGGCAGGAAGATTACATGAAGACGATAGCCGACCTTG
AGTTACATTACCAAGAGTTCATCAGAAATAGCCAAGGCTCAGAGATGTTTGGAGATGATGACAAGCGGAA
AATACAGTCTCAGTTCACCGATGCCCAGAAGCATTACCAGACCCTGGTCATTCAGCTCCCTGGCTATCCC
CAGCACCAGACAGTGACCACAACTGAAATCACTCATCATGGAACCTGCCAAGATGTCAACCATAATAAAG
TAATTGAAACCAACAGAGAAAATGACAAGCAAGAAACATGGATGCTGATGGAGCTGCAGAAGATTCGCAG
GCAGATAGAGCACTGCGAGGGCAGGATGACTCTCAAAAACCTCCCTCTAGCAGACCAGGGGTCTTCTCAC
CACATCACAGTGAAAATTAACGAGCTTAAGAGTGTGCAGAATGATTCACAAGCAATTGCTGAGGTTCTCA
ACCAGCTTAAAGATATGCTTGCCAACTTCAGAGGTTCTGAAAAGTACTGCTATTTACAGAATGAAGTATT
TGGACTATTTCAGAAACTGGAAAATATCAATGGTGTTACAGATGGCTACTTAAATAGCTTATGCACAGTA
AGGGCACTGCTCCAGGCTATTCTCCAAACAGAAGACATGTTAAAGGTTTATGAAGCCAGGCTCACTGAGG
AGGAAACTGTCTGCCTGGACCTGGATAAAGTGGAAGCTTACCGCTGTGGACTGAAGAAAATAAAAAATGA
CTTGAACTTGAAGAAGTCGTTGTTGGCCACTATGAAGACAGAACTACAGAAAGCCCAGCAGATCCACTCT
CAGACTTCACAGCAGTATCCACTTTATGATCTGGACTTGGGCAAGTTCGGTGAAAAAGTCACACAGCTGA
CAGACCGCTGGCAAAGGATAGATAAACAGATCGACTTTAGGTTATGGGACCTGGAGAAACAAATCAAGCA
ATTGAGGAATTATCGTGATAACTATCAGGCTTTCTGCAAGTGGCTCTATGATGCTAAACGCCGCCAGGAT
TCCTTAGAATCCATGAAATTTGGAGATTCCAACACAGTCATGCGGTTTTTGAATGAGCAGAAGAACTTGC
ACAGTGAAATATCTGGCAAACGAGACAAATCAGAGGAAGTACAAAAAATTGCTGAACTTTGCGCCAATTC
AATTAAGGATTATGAGCTCCAGCTGGCCTCATACACCTCAGGACTGGAAACTCTGCTGAACATACCTATC
AAGAGGACCATGATTCAGTCCCCTTCTGGGGTGATTCTGCAAGAGGCTGCAGATGTTCATGCTCGGTACA
TTGAACTACTTACAAGATCTGGAGACTATTACAGGTTCTTAAGTGAGATGCTGAAGAGTTTGGAAGATCT
GAAGCTGAAAAATACCAAGATCGAAGTTTTGGAAGAGGAGCTCAGACTGGCCCGAGATGCCAACTCGGAA
AACTGTAATAAGAACAAATTCCTGGATCAGAACCTGCAGAAATACCAGGCAGAGTGTTCCCAGTTCAAAG
CGAAGCTTGCGAGCCTGGAGGAGCTGAAGAGACAGGCTGAGCTGGATGGGAAGTCGGCTAAGCAAAATCT
AGACAAGTGCTACGGCCAAATAAAAGAACTCAATGAGAAGATCACCCGACTGACTTATGAGATTGAAGAT
GAAAAGAGAAGAAGAAAATCTGTGGAAGACAGATTTGACCAACAGAAGAATGACTATGACCAACTGCAGA
AAGCAAGGCAATGTGAAAAGGAGAACCTTGGTTGGCAGAAATTAGAGTCTGAGAAAGCCATCAAGGAGAA
GGAGTACGAGATTGAAAGGTTGAGGGTTCTACTGCAGGAAGAAGGCACCCGGAAGAGAGAATATGAAAAT
GAGCTGGCAAAGGTAAGAAACCACTATAATGAGGAGATGAGTAATTTAAGGAACAAGTATGAAACAGAGA
TTAACATTACGAAGACCACCATCAAGGAGATATCCATGCAAAAAGAGGATGATTCCAAAAATCTTAGAAA
CCAGCTTGATAGACTTTCAAGGGAAAATCGAGATCTGAAGGATGAAATTGTCAGGCTCAATGACAGCATC
TTGCAGGCCACTGAGCAGCGAAGGCGAGCTGAAGAAAACGCCCTTCAGCAAAAGGCCTGTGGCTCTGAGA
TAATGCAGAAGAAGCAGCATCTGGAGATAGAACTGAAGCAGGTCATGCAGCAGCGCTCTGAGGACAATGC
CCGGCACAAGCAGTCCCTGGAGGAGGCTGCCAAGACCATTCAGGACAAAAATAAGGAGATCGAGAGACTC
AAAGCTGAGTTTCAGGAGGAGGCCAAGCGCCGCTGGGAATATGAAAATGAACTGAGTAAGGTAAGAAACA
ATTATGATGAGGAGATCATTAGCTTAAAAAATCAGTTTGAGACCGAGATCAACATCACCAAGACCACCAT
CCACCAGCTCACCATGCAGAAGGAAGAGGATACCAGTGGCTACCGGGCTCAGATAGACAATCTCACCCGA
GAAAACAGGAGCTTATCTGAAGAAATAAAGAGGCTGAAGAACACTCTAACCCAGACCACAGAGAATCTCA
GGAGGGTGGAAGAAGACATCCAACAGCAAAAGGCCACTGGCTCTGAGGTGTCTCAGAGGAAACAGCAGCT
GGAGGTTGAGCTGAGACAAGTCACTCAGATGCGAACAGAGGAGAGCGTAAGATATAAGCAATCTCTTGAT
GATGCTGCCAAAACCATCCAGGATAAAAACAAGGAGATAGAAAGGTTAAAACAACTGATCGACAAAGAAA
CAAATGACCGGAAATGCCTGGAAGATGAAAACGCGAGATTACAAAGGGTCCAGTATGACCTGCAGAAAGC
AAACAGTAGTGCGACGGAGACAATAAACAAACTGAAGGTTCAGGAGCAAGAACTGACACGCCTGAGGATC
GACTATGAAAGGGTTTCCCAGGAGAGGACTGTGAAGGACCAGGATATCACGCGGTTCCAGAACTCTCTGA
AAGAGCTGCAGCTGCAGAAGCAGAAGGTGGAAGAGGAGCTGAATCGGCTGAAGAGGACCGCGTCAGAAGA
CTCCTGCAAGAGGAAGAAGCTGGAGGAAGAGCTGGAAGGCATGAGGAGGTCGCTGAAGGAGCAAGCCATC
AAAATCACCAACCTGACCCAGCAGCTGGAGCAGGCATCCATTGTTAAGAAGAGGAGTGAGGATGACCTCC
GGCAGCAGAGGGACGTGCTGGATGGCCACCTGAGGGAAAAGCAGAGGACCCAGGAAGAGCTGAGGAGGCT
CTCTTCTGAGGTCGAGGCCCTGAGGCGGCAGTTACTCCAGGAACAGGAAAGTGTCAAACAAGCTCACTTG
AGGAATGAGCATTTCCAGAAGGCGATAGAAGATAAAAGCAGAAGCTTAAATGAAAGCAAAATAGAAATTG
AGAGGCTGCAGTCTCTCACAGAGAACCTGACCAAGGAGCACTTGATGTTAGAAGAAGAACTGCGGAACCT
GAGGCTGGAGTACGATGACCTGAGGAGAGGACGAAGCGAAGCGGACAGTGATAAAAATGCAACCATCTTG
GAACTAAGGAGCCAGCTGCAGATCAGCAACAACCGGACCCTGGAACTGCAGGGGCTGATTAATGATTTAC
AGAGAGAGAGGGAAAATTTGAGACAGGAAATTGAGAAATTCCAAAAGCAGGCTTTAGAGGCATCTAATAG
GATTCAGGAATCAAAGAATCAGTGTACTCAGGTGGTACAGGAAAGAGAGAGCCTTCTGGTGAAAATCAAA
GTCCTGGAGCAAGACAAGGCAAGGCTGCAGAGGCTGGAGGATGAGCTGAATCGTGCAAAATCAACTCTAG
AGGCAGAAACCAGGGTGAAACAGCGCCTGGAGTGTGAGAAACAGCAAATTCAGAATGACCTGAATCAGTG
GAAGACTCAATATTCCCGCAAGGAGGAGGCTATTAGGAAGATAGAATCGGAAAGAGAAAAGAGTGAGAGA
GAGAAGAACAGTCTTAGGAGTGAGATCGAAAGACTCCAAGCAGAGATCAAGAGAATTGAAGAGAGGTGCA
GGCGTAAGCTGGAGGATTCTACCAGGGAGACACAGTCACAGTTAGAAACAGAACGCTCCCGATATCAGAG
GGAGATTGATAAACTCAGACAGCGCCCATATGGGTCCCATCGAGAGACCCAGACTGAGTGTGAGTGGACC
GTTGACACCTCCAAGCTGGTGTTTGATGGGCTGAGGAAGAAGGTGACAGCAATGCAGCTCTATGAGTGTC
AGCTGATCGACAAAACAACCTTGGACAAACTATTGAAGGGGAAGAAGTCAGTGGAAGAAGTTGCTTCTGA
AATCCAGCCATTCCTTCGGGGTGCAGGATCTATCGCTGGAGCATCTGCTTCTCCTAAGGAAAAATACTCT
TTGGTAGAGGCCAAGAGAAAGAAATTAATCAGCCCAGAATCCACAGTCATGCTTCTGGAGGCCCAGGCAG
CTACAGGTGGTATAATTGATCCCCATCGGAATGAGAAGCTGACTGTCGACAGTGCCATAGCTCGGGACCT
CATTGACTTCGATGACCGTCAGCAGATATATGCAGCAGAAAAAGCTATCACTGGTTTTGATGATCCATTT
TCAGGCAAGACAGTATCTGTTTCAGAAGCCATCAAGAAAAATTTGATTGATAGAGAAACCGGAATGCGCC
TGCTGGAAGCCCAGATTGCTTCAGGGGGTGTAGTAGACCCTGTGAACAGTGTCTTTTTGCCAAAAGATGT
CGCCTTGGCCCGGGGGCTGATTGATAGAGATTTGTATCGATCCCTGAATGATCCCCGAGATAGTCAGAAA
AACTTTGTGGATCCAGTCACCAAAAAGAAGGTCAGTTACGTGCAGCTGAAGGAACGGTGCAGAATCGAAC
CACATACTGGTCTGCTCTTGCTTTCAGTACAGAAGAGAAGCATGTCCTTCCAAGGAATCAGACAACCTGT
GACCGTCACTGAGCTAGTAGATTCTGGTATATTGAGACCGTCCACTGTCAATGAACTGGAATCTGGTCAG
ATTTCTTATGACGAGGTTGGTGAGAGAATTAAGGACTTCCTCCAGGGTTCAAGCTGCATAGCAGGCATAT
ACAATGAGACCACAAAACAGAAGCTTGGCATTTATGAGGCCATGAAAATTGGCTTAGTCCGACCTGGTAC
TGCTCTGGAGTTGCTGGAAGCCCAAGCAGCTACTGGCTTTATAGTGGATCCTGTTAGCAACTTGAGGTTA
CCAGTGGAGGAAGCCTACAAGAGAGGTCTGGTGGGCATTGAGTTCAAAGAGAAGCTCCTGTCTGCAGAAC
GAGCTGTCACTGGGTATAATGATCCTGAAACAGGAAACATCATCTCTTTGTTCCAAGCCATGAATAAGGA
ACTCATCGAAAAGGGCCACGGTATTCGCTTATTAGAAGCACAGATCGCAACCGGGGGGATCATTGACCCA
AAGGAGAGCCATCGTTTACCAGTTGACATAGCATATAAGAGGGGCTATTTCAATGAGGAACTCAGTGAGA
TTCTCTCAGATCCAAGTGATGATACCAAAGGATTTTTTGACCCCAACACTGAAGAAAATCTTACCTATCT
GCAACTAAAAGAAAGATGCATTAAGGATGAGGAAACAGGGCTCTGTCTTCTGCCTCTGAAAGAAAAGAAG
AAACAGGTGCAGACATCACAAAAGAATACCCTCAGGAAGCGTAGAGTGGTCATAGTTGACCCAGAAACCA
ATAAAGAAATGTCTGTTCAGGAGGCCTACAAGAAGGGCCTAATTGATTATGAAACCTTCAAAGAACTGTG
TGAGCAGGAATGTGAATGGGAAGAAATAACCATCACGGGATCAGATGGCTCCACCAGGGTGGTCCTGGTA
GATAGAAAGACAGGCAGTCAGTATGATATTCAAGATGCTATTGACAAGGGCCTTGTTGACAGGAAGTTCT
TTGATCAGTACCGATCCGGCAGCCTCAGCCTCACTCAATTTGCTGACATGATCTCCTTGAAAAATGGTGT
CGGCACCAGCAGCAGCATGGGCAGTGGTGTCAGCGATGATGTTTTTAGCAGCTCCCGACATGAATCAGTA
AGTAAGATTTCCACCATATCCAGCGTCAGGAATTTAACCATAAGGAGCAGCTCTTTTTCAGACACCCTGG
AAGAATCGAGCCCCATTGCAGCCATCTTTGACACAGAAAACCTGGAGAAAATCTCCATTACAGAAGGTAT
AGAGCGGGGCATCGTTGACAGCATCACGGGTCAGAGGCTTCTGGAGGCTCAGGCCTGCACAGGTGGCATC
ATCCACCCAACCACGGGCCAGAAGCTGTCACTTCAGGACGCAGTCTCCCAGGGTGTGATTGACCAAGACA
TGGCCACCAGGCTGAAGCCTGCTCAGAAAGCCTTCATAGGCTTCGAGGGTGTGAAGGGAAAGAAGAAGAT
GTCAGCAGCAGAGGCAGTGAAAGAAAAATGGCTCCCGTATGAGGCTGGCCAGCGCTTCCTGGAGTTCCAG
TACCTCACGGGAGGTCTTGTTGACCCGGAAGTGCATGGGAGGATAAGCACCGAAGAAGCCATCCGGAAGG
GGTTCATAGATGGCCGCGCCGCACAGAGGCTGCAAGACACCAGCAGCTATGCCAAAATCCTGACCTGCCC
CAAAACCAAATTAAAAATATCCTATAAGGATGCCATAAATCGCTCCATGGTAGAAGATATCACTGGGCTG
CGCCTTCTGGAAGCCGCCTCCGTGTCGTCCAAGGGCTTACCCAGCCCTTACAACATGTCTTCGGCTCCGG
GGTCCCGCTCCGGCTCCCGCTCGGGATCTCGCTCCGGATCTCGCTCCGGGTCCCGCAGTGGGTCCCGGAG
AGGAAGCTTTGACGCCACAGGGAATTCTTCCTACTCTTATTCCTACTCATTTAGCAGTAGTTCTATTGGG
CAC

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG220397 representing NM_004415
Red=Cloning site Green=Tags(s)

MSCNGGSHPRINTLGRMIRAESGPDLRYEVTSGGGGTSRMYYSRRGVITDQNSDGYCQTGTMSRHQNQNT
IQELLQNCSDCLMRAELIVQPELKYGDGIQLTRSRELDECFAQANDQMEILDSLIREMRQMGQPCDAYQK
RLLQLQEQMRALYKAISVPRVRRASSKGGGGYTCQSGSGWDEFTKHVTSECLGWMRQQRAEMDMVAWGVD
LASVEQHINSHRGIHNSIGDYRWQLDKIKADLREKSAIYQLEEEYENLLKASFERMDHLRQLQNIIQATS
REIMWINDCEEEELLYDWSDKNTNIAQKQEAFSIRMSQLEVKEKELNKLKQESDQLVLNQHPASDKIEAY
MDTLQTQWSWILQITKCIDVHLKENAAYFQFFEEAQSTEAYLKGLQDSIRKKYPCDKNMPLQHLLEQIKE
LEKEREKILEYKRQVQNLVNKSKKIVQLKPRNPDYRSNKPIILRALCDYKQDQKIVHKGDECILKDNNER
SKWYVTGPGGVDMLVPSVGLIIPPPNPLAVDLSCKIEQYYEAILALWNQLYINMKSLVSWHYCMIDIEKI
RAMTIAKLKTMRQEDYMKTIADLELHYQEFIRNSQGSEMFGDDDKRKIQSQFTDAQKHYQTLVIQLPGYP
QHQTVTTTEITHHGTCQDVNHNKVIETNRENDKQETWMLMELQKIRRQIEHCEGRMTLKNLPLADQGSSH
HITVKINELKSVQNDSQAIAEVLNQLKDMLANFRGSEKYCYLQNEVFGLFQKLENINGVTDGYLNSLCTV
RALLQAILQTEDMLKVYEARLTEEETVCLDLDKVEAYRCGLKKIKNDLNLKKSLLATMKTELQKAQQIHS
QTSQQYPLYDLDLGKFGEKVTQLTDRWQRIDKQIDFRLWDLEKQIKQLRNYRDNYQAFCKWLYDAKRRQD
SLESMKFGDSNTVMRFLNEQKNLHSEISGKRDKSEEVQKIAELCANSIKDYELQLASYTSGLETLLNIPI
KRTMIQSPSGVILQEAADVHARYIELLTRSGDYYRFLSEMLKSLEDLKLKNTKIEVLEEELRLARDANSE
NCNKNKFLDQNLQKYQAECSQFKAKLASLEELKRQAELDGKSAKQNLDKCYGQIKELNEKITRLTYEIED
EKRRRKSVEDRFDQQKNDYDQLQKARQCEKENLGWQKLESEKAIKEKEYEIERLRVLLQEEGTRKREYEN
ELAKVRNHYNEEMSNLRNKYETEINITKTTIKEISMQKEDDSKNLRNQLDRLSRENRDLKDEIVRLNDSI
LQATEQRRRAEENALQQKACGSEIMQKKQHLEIELKQVMQQRSEDNARHKQSLEEAAKTIQDKNKEIERL
KAEFQEEAKRRWEYENELSKVRNNYDEEIISLKNQFETEINITKTTIHQLTMQKEEDTSGYRAQIDNLTR
ENRSLSEEIKRLKNTLTQTTENLRRVEEDIQQQKATGSEVSQRKQQLEVELRQVTQMRTEESVRYKQSLD
DAAKTIQDKNKEIERLKQLIDKETNDRKCLEDENARLQRVQYDLQKANSSATETINKLKVQEQELTRLRI
DYERVSQERTVKDQDITRFQNSLKELQLQKQKVEEELNRLKRTASEDSCKRKKLEEELEGMRRSLKEQAI
KITNLTQQLEQASIVKKRSEDDLRQQRDVLDGHLREKQRTQEELRRLSSEVEALRRQLLQEQESVKQAHL
RNEHFQKAIEDKSRSLNESKIEIERLQSLTENLTKEHLMLEEELRNLRLEYDDLRRGRSEADSDKNATIL
ELRSQLQISNNRTLELQGLINDLQRERENLRQEIEKFQKQALEASNRIQESKNQCTQVVQERESLLVKIK
VLEQDKARLQRLEDELNRAKSTLEAETRVKQRLECEKQQIQNDLNQWKTQYSRKEEAIRKIESEREKSER
EKNSLRSEIERLQAEIKRIEERCRRKLEDSTRETQSQLETERSRYQREIDKLRQRPYGSHRETQTECEWT
VDTSKLVFDGLRKKVTAMQLYECQLIDKTTLDKLLKGKKSVEEVASEIQPFLRGAGSIAGASASPKEKYS
LVEAKRKKLISPESTVMLLEAQAATGGIIDPHRNEKLTVDSAIARDLIDFDDRQQIYAAEKAITGFDDPF
SGKTVSVSEAIKKNLIDRETGMRLLEAQIASGGVVDPVNSVFLPKDVALARGLIDRDLYRSLNDPRDSQK
NFVDPVTKKKVSYVQLKERCRIEPHTGLLLLSVQKRSMSFQGIRQPVTVTELVDSGILRPSTVNELESGQ
ISYDEVGERIKDFLQGSSCIAGIYNETTKQKLGIYEAMKIGLVRPGTALELLEAQAATGFIVDPVSNLRL
PVEEAYKRGLVGIEFKEKLLSAERAVTGYNDPETGNIISLFQAMNKELIEKGHGIRLLEAQIATGGIIDP
KESHRLPVDIAYKRGYFNEELSEILSDPSDDTKGFFDPNTEENLTYLQLKERCIKDEETGLCLLPLKEKK
KQVQTSQKNTLRKRRVVIVDPETNKEMSVQEAYKKGLIDYETFKELCEQECEWEEITITGSDGSTRVVLV
DRKTGSQYDIQDAIDKGLVDRKFFDQYRSGSLSLTQFADMISLKNGVGTSSSMGSGVSDDVFSSSRHESV
SKISTISSVRNLTIRSSSFSDTLEESSPIAAIFDTENLEKISITEGIERGIVDSITGQRLLEAQACTGGI
IHPTTGQKLSLQDAVSQGVIDQDMATRLKPAQKAFIGFEGVKGKKKMSAAEAVKEKWLPYEAGQRFLEFQ
YLTGGLVDPEVHGRISTEEAIRKGFIDGRAAQRLQDTSSYAKILTCPKTKLKISYKDAINRSMVEDITGL
RLLEAASVSSKGLPSPYNMSSAPGSRSGSRSGSRSGSRSGSRSGSRRGSFDATGNSSYSYSYSFSSSSIG
H

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_004415
ORF Size 8613 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_004415.2, NP_004406.2
RefSeq Size 9730 bp
RefSeq ORF 8616 bp
Locus ID 1832
UniProt ID P15924
Cytogenetics 6p24.3
Domains Plectin, Pox_A_type_inc
Protein Families Druggable Genome
Protein Pathways Arrhythmogenic right ventricular cardiomyopathy (ARVC)
Summary This gene encodes a protein that anchors intermediate filaments to desmosomal plaques and forms an obligate component of functional desmosomes. Mutations in this gene are the cause of several cardiomyopathies and keratodermas, including skin fragility-woolly hair syndrome. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jan 2016]
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You're reviewing:Desmoplakin (DSP) (NM_004415) Human Tagged ORF Clone
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"NM_004415" in other vectors (2)
SKU Description Size Price
RC220397 DSP (Myc-DDK-tagged)-Human desmoplakin (DSP), transcript variant 1 10 ug
$2,326.00
SC309868 DSP (untagged)-Human desmoplakin (DSP), transcript variant 1 10 ug
$2,559.00

Citations

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