Utrn (NM_011682) Mouse Tagged ORF Clone

CAT#: MR231983

  • TrueORF®

Utrn (myc-DDK-tagged) - Mouse utrophin (Utrn)

Datasheet
SDS
Plasmid Map

  "NM_011682" in other vectors (1)

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Reconstitution Protocol

USD 3,000.00

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Size
    • 10 ug
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Frequently bought together (4)
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Other products for "Utrn"

Specifications

Product Data
Type Mouse Tagged ORF Clone
Tag Myc-DDK
Symbol Utrn
Synonyms AA589569; Dmdl; DRP
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MR231983 representing NM_011682
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCCAAGTATGGGGACCTTGAAGCCAGGCCTGATGATGGGCAGAACGAATTCAGTGACATCATTAAGT
CCAGATCTGATGAACACAATGATGTACAGAAGAAAACCTTTACCAAATGGATAAACGCTCGATTTTCCAA
GAGTGGGAAACCACCCATCAGTGATATGTTCTCAGACCTCAAAGATGGGAGAAAGCTCTTGGATCTTCTC
GAAGGCCTCACAGGAACATCATTGCCAAAGGAACGTGGTTCCACAAGGGTGCATGCCTTAAACAATGTCA
ACCGAGTGCTACAGGTTTTACATCAGAACAATGTGGACTTGGTGAATATTGGAGGCACGGACATTGTGGA
TGGAAATCCCAAGCTGACTTTAGGGTTACTCTGGAGCATCATTCTGCACTGGCAGGTGAAGGATGTCATG
AAAGATATCATGTCAGACCTGCAGCAGACAAACAGCGAGAAGATCCTGCTGAGCTGGGTGCGGCAGACCA
CCAGGCCCTACAGTCAAGTCAACGTCCTCAACTTCACCACCAGCTGGACCGATGGACTCGCGTTCAACGC
CGTGCTCCACCGGCACAAACCAGATCTCTTCAGCTGGGACAGAGTGGTCAAAATGTCCCCAATTGAGAGA
CTTGAACATGCTTTTAGCAAGGCCCACACTTATTTGGGAATTGAAAAGCTTCTAGATCCTGAAGATGTTG
CTGTGCATCTCCCTGACAAGAAATCCATAATTATGTATTTAACGTCTCTGTTTGAGGTGCTTCCTCAGCA
AGTCACGATAGATGCCATCCGAGAGGTGGAGACTCTCCCAAGGAAGTATAAGAAAGAATGTGAAGAGGAA
GAAATTCATATCCAGAGTGCAGTGCTGGCAGAGGAAGGCCAGAGTCCCCGAGCTGAGACCCCTAGCACCG
TCACTGAAGTGGACATGGATTTGGACAGCTACCAGATAGCGCTAGAGGAAGTGCTGACGTGGCTGCTGTC
CGCGGAGGACACGTTCCAGGAGCAAGATGACATTTCTGATGATGTCGAAGAAGTCAAAGAGCAGTTTGCT
ACCCATGAAACTTTTATGATGGAGCTGACAGCACACCAGAGCAGCGTGGGGAGCGTCCTGCAGGCTGGCA
ACCAGCTGATGACACAAGGGACTCTGTCAGAGGAGGAGGAGTTTGAGATCCAGGAACAGATGACCTTGCT
GAATGCAAGGTGGGAGGCGCTCCGGGTGGAGAGCATGGAGAGGCAGTCCCGGCTGCACGACGCTCTGATG
GAGCTGCAGAAGAAACAGCTGCAGCAGCTCTCAAGCTGGCTGGCCCTCACAGAAGAGCGCATTCAGAAGA
TGGAGAGCCTCCCGCTGGGTGATGACCTGCCCTCCCTGCAGAAGCTGCTTCAAGAACATAAAAGTTTGCA
AAATGACCTTGAAGCTGAACAGGTGAAGGTAAATTCCTTAACTCACATGGTGGTGATTGTGGATGAAAAC
AGTGGGGAGAGTGCCACAGCTCTTCTGGAAGATCAGTTACAGAAACTGGGTGAGCGCTGGACAGCTGTAT
GCCGCTGGACTGAAGAACGTTGGAACAGGTTGCAAGAAATCAGTATTCTGTGGCAGGAATTATTGGAAGA
GCAGTGTCTGTTGGAGGCTTGGCTCACCGAAAAGGAAGAGGCTTTGAATAAAGTTCAAACCAGCAACTTT
AAAGACCAGAAGGAACTAAGTGTCAGTGTCCGGCGTCTGGCTATATTGAAGGAAGACATGGAAATGAAGA
GGCAGACTCTGGATCAACTGAGTGAGATTGGCCAGGATGTGGGCCAATTACTCAGTAATCCCAAGGCATC
TAAGAAGATGAACAGTGACTCTGAGGAGCTAACACAGAGATGGGATTCTCTGGTTCAGAGACTCGAAGAC
TCTTCTAACCAGGTGACTCAGGCGGTAGCGAAGCTCGGCATGTCCCAGATTCCACAGAAGGACCTATTGG
AGACCGTTCATGTGAGAGAACAAGGGATGGTGAAGAAGCCCAAGCAGGAACTGCCTCCTCCTCCCCCACC
AAAGAAGAGACAGATTCACGTGGACGTGGAGGCCAAGAAAAAGTTTGATGCTATAAGTACAGAGCTGCTG
AACTGGATTTTGAAATCAAAGACTGCCATTCAGAACACAGAGATGAAAGAATATAAGAAGTCGCAGGAGA
CCTCAGGAATGAAAAAGAAATTGAAGGGATTAGAGAAAGAACAGAAGGAAAATCTGCCCCGACTGGACGA
ACTGAATCAAACCGGACAAACCCTCCGGGAGCAAATGGGAAAAGAAGGCCTTTCCACTGAAGAAGTAAAC
GATGTTCTGGAAAGGGTTTCGTTGGAGTGGAAGATGATATCTCAGCAGCTAGAAGATCTGGGAAGGAAGA
TCCAGCTGCAGGAAGATATAAATGCTTATTTTAAGCAGCTTGATGCCATTGAGGAGACCATCAAGGAGAA
GGAAGAGTGGCTGAGGGGCACACCCATTTCTGAATCGCCCCGGCAGCCCTTGCCAGGCTTAAAGGATTCT
TGCCAGAGGGAACTGACAGATCTCCTTGGCCTTCACCCCAGAATTGAGACGCTGTGTGCAAGCTGTTCAG
CCCTGAAGTCTCAGCCCTGTGTCCCAGGTTTTGTCCAGCAGGGTTTTGACGACCTTCGACATCATTACCA
GGCTGTGCGGAAGGCTTTAGAGGAATACCAACAACAACTAGAAAATGAGCTGAAGAGCCAGCCTGGACCC
GCGTATTTGGACACACTGAATACCCTGAAAAAAATGCTAAGCGAGTCAGAAAAGGCGGCCCAGGCCTCTC
TGAATGCCCTGAACGATCCCATAGCGGTGGAGCAGGCCCTGCAGGAGAAAAAGGCCCTTGATGAAACCCT
TGAGAATCAGAAACATACGTTACATAAGCTTTCAGAAGAAACGAAGACTTTGGAGAAAAATATGCTTCCT
GATGTGGGGAAAATGTATAAACAAGAATTTGATGATGTCCAAGGCAGATGGAATAAAGTAAAGACCAAGG
TTTCCAGAGACTTACACTTGCTCGAGGAAATCACCCCCAGACTCCGAGATTTTGAGGCTGATTCAGAAGT
CATTGAGAAGTGGGTGAGTGGCATCAAAGACTTCCTCATGAAAGAACAGGCTGCTCAAGGAGACGCTGCT
GCGCTGCAGAGCCAGCTTGACCAATGTGCTACGTTTGCTAATGAAATCGAAACCATCGAGTCATCTCTGA
AGAACATGAGGGAAGTAGAGACTAGCCTTCAGAGGTGTCCAGTCACTGGAGTCAAGACATGGGTACAGGC
AAGACTAGTGGATTACCAATCCCAACTGGAGAAATTCAGCAAAGAGATTGCTATTCAAAAAAGCAGGCTG
TCAGATAGTCAAGAAAAAGCCCTGAACTTGAAAAAGGATTTGGCTGAGATGCAGGAGTGGATGGCACAGG
CTGAAGAGGACTACCTGGAGAGGGACTTCGAGTACAAATCTCCAGAAGAACTCGAGAGTGCGGTGGAGGA
AATGAAGAGGGCAAAAGAGGAGGTGCTGCAGAAGGAGGTGAGGGTGAAAATTCTGAAGGACAGCATCAAG
CTGGTGGCTGCCAAGGTGCCCTCTGGTGGCCAGGAGTTGACGTCGGAATTCAACGAGGTGCTGGAGAGCT
ACCAGCTTCTGTGCAATAGAATTCGAGGGAAGTGCCACACACTGGAGGAGGTCTGGTCTTGCTGGGTGGA
GCTGCTTCACTATCTGGACCTGGAGACCACGTGGTTGAACACCTTGGAGGAGCGCGTGAGGAGCACGGAG
GCCCTGCCTGAGAGGGCAGAAGCTGTTCATGAAGCTCTGGAGTCTCTTGAGTCTGTTTTGCGCCATCCGG
CGGATAATCGCACCCAGATTCGGGAACTTGGGCAGACTCTGATTGATGGTGGAATCCTGGATGACATAAT
CAGCGAGAAGCTGGAGGCTTTTAACAGCCGCTACGAAGAGCTGAGTCACTTGGCGGAGAGCAAACAGATT
TCTTTGGAGAAGCAACTCCAGGTCCTCCGCGAAACTGACCACATGCTTCAGGTGCTGAAGGAGAGCCTGG
GGGAGCTGGACAAACAGCTTACCACATACCTGACGGACAGGATCGATGCCTTCCAACTGCCACAGGAAGC
TCAGAAGATCCAAGCCGAAATCTCAGCCCATGAGCTCACCCTGGAGGAGCTGAGGAAGAATGTGCGCTCC
CAGCCCCCGACGTCCCCTGAGGGCAGGGCCACCAGAGGAGGAAGTCAGATGGACATGCTACAGAGGAAAC
TTCGAGAGGTCTCCACCAAATTCCAGCTTTTCCAGAAGCCCGCAAATTTCGAGCAGCGGATGCTGGACTG
CAAGCGTGTGTTGGAGGGAGTGAAGGCCGAGCTTCATGTCCTCGATGTGAGGGATGTGGACCCTGACGTC
ATTCAGGCCCACTTGGACAAGTGCATGAAACTATATAAAACGTTGAGTGAAGTCAAACTTGAAGTTGAGA
CTGTCATCAAAACAGGGAGGCACATTGTCCAGAAGCAGCAGACGGACAACCCGAAAAGCATGGACGAACA
GCTTACATCTCTGAAAGTCCTCTACAATGACCTGGGCGCACAGGTGACAGAAGGGAAGCAAGACCTGGAA
AGAGCCTCACAGCTGTCCAGGAAGATGAAGAAGGAGGCTGCCGTCCTCTCTGAATGGCTCTCTGCCACAG
AGGCAGAACTAGTGCAGAAATCCACATCAGAAGGCGTGATTGGTGACCTGGACACAGAAATCTCCTGGGC
TAAAAGTATTCTCAAGGATCTGGAAAAGAGGAAAGTTGACTTAAATGGCATTACAGAGAGCAGTGCCGCC
CTTCAGCACTTGGTCTTGGGCAGTGAGTCTGTTCTGGAAGAGAACCTCTGTGTGCTCAATGCTGGATGGA
GCCGAGTGCGGACGTGGACCGAAGACTGGTGCAACACCTTGCTGAACCATCAAAACCAGCTGGAGCTATT
TGATGGACACGTCGCTCACATCAGTACCTGGCTCTATCAAGCCGAAGCTCTGCTGGATGAGATCGAAAAG
AAACCAGCGAGTAAACAGGAAGAAATTGTGAAGCGTTTACTGTCTGAATTGGATGATGCCAGCCTCCAGG
TTGAGAATGTTCGGGAACAAGCCATCATCTTGGTGAATGCTCGTGGAAGCGCCAGCAGGGAACTCGTGGA
ACCAAAATTAGCCGAGCTGAGCAGGAACTTTGAAAAGGTGTCCCAGCACATAAAGAGCGCCCGAATGCTG
ATTGGTCAGGACCCTTCATCCTACCAAGGCTTGGACCCTGCTGGAACTGTTCAAGCTGCTGAGTCTTTCT
CTGACTTGGAAAACTTAGAACAAGACATAGAAAACATGTTGAAAGTTGTGGAAAAGCACTTGGACCCCAA
TAACGATGAGAAGATGGATGAGGAGCAAGCCCAGATTGAGGAAGTTCTACAAAGAGGGGAGCATTTGTTA
CATGAACCTATGGAGGACAGTAAGAAAGAAAAGATCCGCTTGCAGTTGTTACTTTTGCATACTCGTTACA
ACAAAATTAAGACAATCCCTATCCAGCAGAGAAAAACAATTCCAGTTTCTTCTGGAATTACATCATCAGC
CCTCCCTGCAGATTATTTGGTTGAAATTAATAAAATTTTACTCACTCTGGATGACATTGAATTATCACTT
AATATGCCGGAGCTAAACACCACTGTCTACAAAGACTTCTCTTTCCAGGAAGACTCTCTGAAGAGTATCA
AAGGTCAACTGGACAGACTTGGAGAGCAGATTGCAGTTGTTCACGAGAAGCAGCCGGATGTCATCGTGGA
AGCCTCTGGCCCTGAGGCCATTCAGATCAGGGACATGCTCGCTCAGCTGAATGCAAAATGGGACCGAGTG
AATAGAGTGTACAGTGATCGGAGAGGGTCCTTTGCCAGGGCTGTGGAGGAATGGAGGCAGTTCCACCATG
ACCTTGATGACCTTACACAGTGGCTATCTGAAGCTGAAGACCTGCTGGTAGACACTTGTGCTCCAGATGG
TAGCCTGGACCTGGAGAAAGCCAGGGCACAGCAGCTGGAACTGGAAGAGGGCCTCAGCAGCCACCAGCCC
AGCCTGATCAAGGTTAACCGAAAGGGGGAGGACCTTGTTCAGAGACTCCGCCCCTCGGAGGCAAGCTTCC
TGAAGGAGAAGCTGGCAGGTTTCAACCAGCGCTGGAGCACTCTTGTAGCTGAGGTGGAGGCTTTGCAGCC
CAGGCTAAAAGGAGAAAGTCAGCAGGTGTTGGGGTATAAGAGACGGCTAGATGAGGTCACCTGCTGGTTA
ACGAAAGTGGAGAGTGCTGTGCAGAAGAGATCAACCCCTGACCCGGAAGAAAGCCCACAGGAATTAACAG
ATTTAGCCCAAGAGACGGAAGTTCAAGCTGAAAACATTAAGTGGCTGAACAGAGCAGAACTGGAAATGCT
TTCAGACAAAAATCTGAGTTTGCGTGAAAGAGAGAAACTTTCGGAAAGTTTAAGGAATGTAAACACAACA
TGGACCAAGGTATGCAGAGAAGTGCCTAGCCTCCTGAAGACACGCACCCAAGACCCCTGCTCTGCCCCAC
AGATGAGGATGGCTGCTCATCCCAACGTCCAAAAGGTGGTGCTAGTATCATCTGCATCAGATGCTCCTCT
GCGTGGCGGCCTGGAAATCTCGGTTCCTGCTGATTTGGATAAAACCATCACAGAACTGGCTGACTGGCTG
GTATTGATCGACCAAATGCTGAAGTCCAACATTGTCACTGTGGGGGACGTGAAAGAGATCAATAAGACAG
TTTCCCGGATGAAAATCACAAAGGCTGATTTAGAACAACGCCATCCTCAGCTTGATTGTGTATTTACCTT
GGCCCAAAATTTGAAAAACAAAGCTTCCAGTTCAGATGTGAGGACAGCAATCACAGAAAAATTGGAAAAG
CTGAAGACCCAGTGGGAGAGTACTCAGCATGGTGTGGAGCTGCGGCGGCAGCAGCTGGAGGACATGGTTG
TGGACAGCCTGCAGTGGGACGACCACAGGGAAGAGACTGAAGAGCTCATGAGAAAATACGAGGCTCGCTT
CTACATGCTGCAGCAGGCCCGCCGGGACCCACTTAGCAAACAAGTTTCTGATAATCAACTATTGCTTCAA
GAGCTGGGGTCTGGCGATGGTGTCATCATGGCGTTTGATAATGTCCTGCAGAAACTTCTGGAAGAATACA
GTGGCGATGACACAAGGAATGTGGAAGAAACCACGGAGTACTTGAAAACATCATGGGTCAATCTCAAACA
AAGCATCGCTGATAGACAGAGTGCCTTGGAGGCTGAGCTACAGACAGTGCAGACTTCTCGTAGAGACCTG
GAGAACTTTGTCAAGTGGCTTCAGGAAGCAGAAACCACAGCAAATGTGCTGGCCGATGCCTCTCAGCGGG
AGAATGCTCTTCAGGACAGTGTCCTGGCCCGGCAGCTCCGACAGCAGATGCTGGACATCCAGGCAGAAAT
TGATGCCCACAATGACATATTTAAAAGCATCGATGGAAACCGGCAGAAGATGGTGAAAGCTCTGGGGAAT
TCTGAGGAAGCAACAATGCTTCAGCATCGACTGGATGACATGAACCAAAGATGGAATGATTTGAAGGCAA
AATCTGCTAGCATCAGGGCCCATTTGGAGGCCAGTGCTGAGAAATGGAACCGGTTGCTGGCATCGCTGGA
AGAGCTGATCAAATGGCTCAATATGAAAGATGAGGAGCTTAAGAAGCAGATGCCCATTGGAGGGGACGTC
CCTGCCTTACAGCTCCAGTATGACCACTGCAAGGTGCTGAGACGTGAGCTAAAGGAGAAAGAGTATTCTG
TGCTGAACGCCGTAGATCAAGCTCGAGTTTTTCTGGCTGATCAGCCAATAGAGGCCCCCGAAGAACCAAG
AAGAAACCCACAATCAAAGACAGAGTTGACTCCTGAGGAGAGAGCCCAGAAGATCGCCAAAGCCATGCGC
AAGCAGTCTTCTGAAGTCCGAGAGAAGTGGGAAAATCTAAATGCTGTCACTAGCAACTGGCAAAAGCAAG
TAGGGAAGGCGTTAGAGAAACTCCGAGACCTGCAGGGAGCTATGGACGACCTGGACGCAGACATGAAGGA
GGTGGAGGCTGTGCGGAATGGCTGGAAGCCCGTGGGAGACCTGCTTATAGACTCCCTGCAGGATCACATC
GAGAAAACCCTGGCGTTTAGAGAAGAAATTGCACCAATCAACTTAAAAGTAAAAACAATGAATGACCTGT
CCAGTCAGCTGTCTCCACTTGACTTGCATCCATCTCTAAAGATGTCTCGCCAGCTGGATGACCTTAATAT
GCGATGGAAACTTCTACAGGTTTCCGTGGACGATCGCCTTAAGCAGCTCCAGGAAGCCCACAGAGATTTT
GGGCCATCTTCTCAACACTTTCTGTCCACTTCAGTCCAGCTGCCGTGGCAGAGATCCATTTCACATAATA
AAGTGCCCTATTACATCAACCATCAAACACAGACAACCTGTTGGGATCATCCTAAAATGACTGAGCTCTT
CCAATCCCTTGCTGATCTGAATAATGTACGTTTCTCTGCCTACCGCACAGCAATCAAAATTCGAAGGCTG
CAAAAAGCATTATGTCTGGATCTCTTAGAGCTGAATACGACGAATGAAGTTTTCAAGCAGCACAAACTGA
ACCAAAATGATCAGCTCCTGAGTGTCCCAGACGTCATCAACTGTCTGACCACCACTTACGATGGGCTTGA
GCAGCTGCACAAGGACTTGGTCAATGTTCCACTCTGCGTCGATATGTGTCTCAACTGGCTGCTCAACGTA
TACGACACGGGCCGGACTGGAAAAATTCGGGTACAGAGTCTGAAGATTGGATTGATGTCTCTCTCCAAAG
GCCTCTTAGAAGAGAAATACAGATGTCTCTTTAAGGAGGTGGCAGGGCCAACAGAGATGTGTGACCAGCG
GCAGCTTGGCCTGCTACTTCACGATGCCATCCAGATCCCTAGGCAGCTGGGGGAAGTAGCAGCCTTTGGG
GGCAGTAACATTGAGCCCAGTGTCCGCAGCTGCTTCCAGCAGAATAACAACAAGCCAGAAATCAGTGTGA
AGGAGTTTATAGACTGGATGCATTTGGAACCCCAGTCCATGGTGTGGTTGCCGGTTCTGCATCGGGTCGC
AGCTGCTGAGACTGCAAAACATCAGGCCAAATGCAACATCTGCAAAGAATGCCCGATTGTTGGGTTCAGA
TACAGGAGCCTAAAGCATTTTAATTATGATGTCTGCCAGAGTTGCTTCTTTTCTGGAAGAACAGCAAAGG
GCCACAAGTTACATTACCCGATGGTAGAATACTGCATACCGACAACATCTGGGGAAGATGTGAGAGATTT
CACTAAGGTGCTGAAGAACAAGTTCAGGTCCAAGAAATATTTTGCCAAACATCCTCGGCTTGGCTACCTG
CCTGTCCAGACCGTGCTGGAAGGGGACAACTTAGAAACTCCTATCACGCTCATCAGTATGTGGCCAGAGC
ACTATGACCCCTCCCAGTCCCCTCAGCTGTTTCATGATGACACCCACTCAAGAATAGAGCAATACGCTAC
ACGACTGGCCCAGATGGAAAGGACAAACGGGTCCTTCCTAACTGATAGCAGCTCTACAACAGGAAGCGTG
GAGGATGAGCATGCCCTCATCCAGCAGTACTGCCAGACCCTGGGCGGGGAGTCACCTGTGAGTCAGCCGC
AGAGTCCAGCTCAGATCCTGAAGTCCGTGGAGAGGGAAGAGCGTGGGGAACTGGAGCGGATCATTGCTGA
CTTGGAGGAAGAGCAAAGAAATCTGCAGGTGGAGTATGAGCAGCTGAAGGAGCAGCACCTAAGAAGGGGT
CTCCCTGTGGGCTCCCCTCCAGACTCCATCGTATCTCCTCACCACACATCTGAGGACTCAGAACTTATAG
CAGAAGCTAAACTCCTGCGGCAGCACAAAGGGCGGCTGGAGGCGAGGATGCAAATTTTGGAAGATCACAA
TAAACAGCTGGAGTCTCAGCTGCACCGCCTCAGACAGCTCCTGGAGCAGCCTGACTCTGACTCCCGCATC
AATGGTGTCTCCCCCTGGGCTTCCCCACAGCATTCTGCATTGAGCTACTCACTTGACACTGACCCAGGCC
CACAGTTCCACCAGGCAGCATCTGAGGACCTGCTGGCCCCACCTCACGACACTAGCACGGACCTCACGGA
CGTGATGGAGCAGATCAACAGCACGTTTCCCTCTTGCAGCTCAAATGTCCCCAGCAGGCCACAGGCAATG

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
>MR231983 representing NM_011682
Red=Cloning site Green=Tags(s)

MAKYGDLEARPDDGQNEFSDIIKSRSDEHNDVQKKTFTKWINARFSKSGKPPISDMFSDLKDGRKLLDLL
EGLTGTSLPKERGSTRVHALNNVNRVLQVLHQNNVDLVNIGGTDIVDGNPKLTLGLLWSIILHWQVKDVM
KDIMSDLQQTNSEKILLSWVRQTTRPYSQVNVLNFTTSWTDGLAFNAVLHRHKPDLFSWDRVVKMSPIER
LEHAFSKAHTYLGIEKLLDPEDVAVHLPDKKSIIMYLTSLFEVLPQQVTIDAIREVETLPRKYKKECEEE
EIHIQSAVLAEEGQSPRAETPSTVTEVDMDLDSYQIALEEVLTWLLSAEDTFQEQDDISDDVEEVKEQFA
THETFMMELTAHQSSVGSVLQAGNQLMTQGTLSEEEEFEIQEQMTLLNARWEALRVESMERQSRLHDALM
ELQKKQLQQLSSWLALTEERIQKMESLPLGDDLPSLQKLLQEHKSLQNDLEAEQVKVNSLTHMVVIVDEN
SGESATALLEDQLQKLGERWTAVCRWTEERWNRLQEISILWQELLEEQCLLEAWLTEKEEALNKVQTSNF
KDQKELSVSVRRLAILKEDMEMKRQTLDQLSEIGQDVGQLLSNPKASKKMNSDSEELTQRWDSLVQRLED
SSNQVTQAVAKLGMSQIPQKDLLETVHVREQGMVKKPKQELPPPPPPKKRQIHVDVEAKKKFDAISTELL
NWILKSKTAIQNTEMKEYKKSQETSGMKKKLKGLEKEQKENLPRLDELNQTGQTLREQMGKEGLSTEEVN
DVLERVSLEWKMISQQLEDLGRKIQLQEDINAYFKQLDAIEETIKEKEEWLRGTPISESPRQPLPGLKDS
CQRELTDLLGLHPRIETLCASCSALKSQPCVPGFVQQGFDDLRHHYQAVRKALEEYQQQLENELKSQPGP
AYLDTLNTLKKMLSESEKAAQASLNALNDPIAVEQALQEKKALDETLENQKHTLHKLSEETKTLEKNMLP
DVGKMYKQEFDDVQGRWNKVKTKVSRDLHLLEEITPRLRDFEADSEVIEKWVSGIKDFLMKEQAAQGDAA
ALQSQLDQCATFANEIETIESSLKNMREVETSLQRCPVTGVKTWVQARLVDYQSQLEKFSKEIAIQKSRL
SDSQEKALNLKKDLAEMQEWMAQAEEDYLERDFEYKSPEELESAVEEMKRAKEEVLQKEVRVKILKDSIK
LVAAKVPSGGQELTSEFNEVLESYQLLCNRIRGKCHTLEEVWSCWVELLHYLDLETTWLNTLEERVRSTE
ALPERAEAVHEALESLESVLRHPADNRTQIRELGQTLIDGGILDDIISEKLEAFNSRYEELSHLAESKQI
SLEKQLQVLRETDHMLQVLKESLGELDKQLTTYLTDRIDAFQLPQEAQKIQAEISAHELTLEELRKNVRS
QPPTSPEGRATRGGSQMDMLQRKLREVSTKFQLFQKPANFEQRMLDCKRVLEGVKAELHVLDVRDVDPDV
IQAHLDKCMKLYKTLSEVKLEVETVIKTGRHIVQKQQTDNPKSMDEQLTSLKVLYNDLGAQVTEGKQDLE
RASQLSRKMKKEAAVLSEWLSATEAELVQKSTSEGVIGDLDTEISWAKSILKDLEKRKVDLNGITESSAA
LQHLVLGSESVLEENLCVLNAGWSRVRTWTEDWCNTLLNHQNQLELFDGHVAHISTWLYQAEALLDEIEK
KPASKQEEIVKRLLSELDDASLQVENVREQAIILVNARGSASRELVEPKLAELSRNFEKVSQHIKSARML
IGQDPSSYQGLDPAGTVQAAESFSDLENLEQDIENMLKVVEKHLDPNNDEKMDEEQAQIEEVLQRGEHLL
HEPMEDSKKEKIRLQLLLLHTRYNKIKTIPIQQRKTIPVSSGITSSALPADYLVEINKILLTLDDIELSL
NMPELNTTVYKDFSFQEDSLKSIKGQLDRLGEQIAVVHEKQPDVIVEASGPEAIQIRDMLAQLNAKWDRV
NRVYSDRRGSFARAVEEWRQFHHDLDDLTQWLSEAEDLLVDTCAPDGSLDLEKARAQQLELEEGLSSHQP
SLIKVNRKGEDLVQRLRPSEASFLKEKLAGFNQRWSTLVAEVEALQPRLKGESQQVLGYKRRLDEVTCWL
TKVESAVQKRSTPDPEESPQELTDLAQETEVQAENIKWLNRAELEMLSDKNLSLREREKLSESLRNVNTT
WTKVCREVPSLLKTRTQDPCSAPQMRMAAHPNVQKVVLVSSASDAPLRGGLEISVPADLDKTITELADWL
VLIDQMLKSNIVTVGDVKEINKTVSRMKITKADLEQRHPQLDCVFTLAQNLKNKASSSDVRTAITEKLEK
LKTQWESTQHGVELRRQQLEDMVVDSLQWDDHREETEELMRKYEARFYMLQQARRDPLSKQVSDNQLLLQ
ELGSGDGVIMAFDNVLQKLLEEYSGDDTRNVEETTEYLKTSWVNLKQSIADRQSALEAELQTVQTSRRDL
ENFVKWLQEAETTANVLADASQRENALQDSVLARQLRQQMLDIQAEIDAHNDIFKSIDGNRQKMVKALGN
SEEATMLQHRLDDMNQRWNDLKAKSASIRAHLEASAEKWNRLLASLEELIKWLNMKDEELKKQMPIGGDV
PALQLQYDHCKVLRRELKEKEYSVLNAVDQARVFLADQPIEAPEEPRRNPQSKTELTPEERAQKIAKAMR
KQSSEVREKWENLNAVTSNWQKQVGKALEKLRDLQGAMDDLDADMKEVEAVRNGWKPVGDLLIDSLQDHI
EKTLAFREEIAPINLKVKTMNDLSSQLSPLDLHPSLKMSRQLDDLNMRWKLLQVSVDDRLKQLQEAHRDF
GPSSQHFLSTSVQLPWQRSISHNKVPYYINHQTQTTCWDHPKMTELFQSLADLNNVRFSAYRTAIKIRRL
QKALCLDLLELNTTNEVFKQHKLNQNDQLLSVPDVINCLTTTYDGLEQLHKDLVNVPLCVDMCLNWLLNV
YDTGRTGKIRVQSLKIGLMSLSKGLLEEKYRCLFKEVAGPTEMCDQRQLGLLLHDAIQIPRQLGEVAAFG
GSNIEPSVRSCFQQNNNKPEISVKEFIDWMHLEPQSMVWLPVLHRVAAAETAKHQAKCNICKECPIVGFR
YRSLKHFNYDVCQSCFFSGRTAKGHKLHYPMVEYCIPTTSGEDVRDFTKVLKNKFRSKKYFAKHPRLGYL
PVQTVLEGDNLETPITLISMWPEHYDPSQSPQLFHDDTHSRIEQYATRLAQMERTNGSFLTDSSSTTGSV
EDEHALIQQYCQTLGGESPVSQPQSPAQILKSVEREERGELERIIADLEEEQRNLQVEYEQLKEQHLRRG
LPVGSPPDSIVSPHHTSEDSELIAEAKLLRQHKGRLEARMQILEDHNKQLESQLHRLRQLLEQPDSDSRI
NGVSPWASPQHSALSYSLDTDPGPQFHQAASEDLLAPPHDTSTDLTDVMEQINSTFPSCSSNVPSRPQAM

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_011682
ORF Size 10290 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.
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 NM_011682.4, NP_035812.3
RefSeq Size 12382 bp
RefSeq ORF 10293 bp
Locus ID 22288
Cytogenetics 10 3.77 cM
MW 393.2 kDa

Other Versions

SKU Description Size Price
MC229772 Utrn (untagged) - Mouse utrophin (Utrn)
    • 10 ug

USD 3,001.00

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