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Myo18b (NM_028901) Mouse Tagged ORF Clone

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SKU
MR219474
Myo18b (Myc-DDK-tagged) - Mouse myosin XVIIIb (Myo18b). Note: ORF is codon optimized
  • TrueORF®
    TrueORF®

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

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ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_028901 in other vectors (2)
Reconstitution Protocol
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$2,150.00
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Myo18b
Synonyms 4932408L24Rik; 4933411E19Rik; Gm448
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR219474 representing NM_028901, codon optimized.
Due to the complexity of NM_028901, the ORF clone is codon optimized for mammalian Expression.
The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical.

Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCTATCTCATCCAGACTGGCTCTCTGGGAACAGAAAATTAGGGAAGAGGACAAGTCTCCCCCCCCTA
GCAGCCCCCCTCCACTGTTCTCCGTCATCCCGGGAGGTTTCATTAAGCAGCTCGTGCGCGAGACAGAGAA
AGAAAGCAAAGAAGCACGGAGGAGGAAGGCTGCTGCCTTCACAGCACCTGAGGTCGAAATCCCTGCCGTC
CCCACAAATCAGACAAATAAGACGAACAACGTTCCAAAGCCCGGAAGCCAGCAGACCAGCCAGGACTCAA
GCAGCACCACCCAGAATAGCGCAGACATTCCAGGGAAGGAGCCACCCGGCGCTGGTGACAAGGATTCCAC
CCCTGTGACAAGCACAAGCGGCGAACGGCCTCAGGAAAGCGGACCTACCGGAACACCTGCCAAAAGAACT
CTGCCTTTCAAGCGGGGTGTCAGAAGAGGAGACGTGCTGTTGATGGTCGCCAAACTGGACCCCGAGCTTG
CCAAAGCTGACCAGAAGGTGCAACCTAGGGACGTTCCTGTCGACAAGACTCCCGCCCCGGCCAAGGATAG
CGGGGGCACTAAGAAGGGCGTAACAACCGGGACAAGCTCCGCCCCTCAGCCTTCCATGCCTGAGAAAACT
AGGACCCGCGGCGTCGGAGATACCGGCCAAAGCACCAAGGGTGGAAAGTGTCAAGGCACCGAGGGCAAGG
GTAGTCGCGACCCACAAACAATTGGCCAGAAGGAAGGGGAGTCACAGTCTACAGAAGAACAGGGCACACG
GTCACAGGCTCAAGAAGCTGGCAATAAAGAGCAACTTGGGACAGCCGAGAAGGAAGGAGGAGGCCCACCC
AAGAAGATGGAGAAAGAGGACGAGCCTAAAGTGGCGGGAGCTGAGGTTAGACCCGTAGAGCCACCTGTCC
CTCTGAGAAAATGGGGAGGCTTCCTGGGTTGGCGAAGCAAATGGGATTCACCTCAGAGTAAGGATCGCGT
CACAGAGAGTCACAGGAAGGACGAAAAGACAGGAGATTTGCAGAGTCCCGCTGTGGATAGGTCTTGTGGC
CAGCTGGCCGAGCCTACTGGGCAACCGAGTGGCCCAACAGGACAGCCGTCTGGACCCACGGGCCAGCTGT
CTGAATCAACAGGCCAACCCAGCGGGCCTACGGGGCAGCCCGCCGGACCTACCGGGCAGCCCGCCGGGCC
TACCGGCCAGCCCGCGGGCCCAACGGGGCAGCCAGCAGGTCCAACAGGCCAGCAGCAAGAGGCCCCTGTG
AAGATGGAAGGCAAAGTTGGCCGGCCCCAAAAGAAGCTCGTGACCCCTAGGAAACCCCGAGAACTCCCCG
GGGTCGCCGCTAAAACCCAGAATCCCGAAGAATCCTGCAAAGCGCCTGATAGAATTCCCACTACTGGCAT
TTCAGCTGAAGCCGCCAAGAGGGACGGACAGCCCGAATCCAGGGTCCAGGGGGCTGGTGAGCCTCGAGTG
TGTACCGAGGAGGAGGTTGACGTGGTGAAGCCTCAGGCCGAGGGACACGTTGAAAGCATCCCTGAAGTGG
TAATGGAGAGACTGTCAACTCTGCGACCTATGGAGGAAAAACAGATACTCCAGGACCCCGATAGAGGCGG
ACAGAGTGGCGACTCTGATCAGGCATACGAGGACAGGTGGTATGAAGCCCAGAAAGTTTGGCTGGTGCAA
AAGGATGGTTTCACACTCGCGACGGTCCTGAAGCCTGATGAAGGTACCGCAGACCCACCAGCGGGACGAG
TCAGGTTGTGCATCGACGCAGACCGCACAGTCATCGAAGTGGACGAAGAACAAGTGCACCCCGCCAACCC
GTCCGAGCTGGACCAGGCCGAGGACCTGGCCTCTCTCGTCTCAGTCAACGAAAGTTCCGTTATGAATACA
CTCCTGCAGAGATATAGAGCTCAGCTTCCTTACACATGCAGCGGGCCCGATCTTATTACACTGCAGCCAC
AGACCACAACCGTCCCTAGTTCTGGGAAGGTGCCTCGCGGTCGGCAGGATGGACTGCCTGCCCATGTGAC
CAGCCTCGCCCAGAGAGCGTACTGGGCACTCTTGAGTCAGCGGCGGGACCAAAGTATCGTTGCCCTGGGT
AGGAGCGGAGCTGGAAAAACGACATGTTGTGAGCAGGTTCTGGAGCATCTGGTGGGAATGGCTGGTTCTG
TGGACGGGCGCGTAAGCGTGGAGAAACTTAGAGCCACTTTCACTGTGCTTAGAGCTTTCGGCTGCGTCAG
TACCGGGCATTCAAGACGCGCCACTAGGTTCGCTATGGTTATGAGCCTGGATTTCAACGCAACAGGTCGC
GTGACAGCTGCCCAGTTGCAGACCGTCCTGCTGGAGAATAGCAGGGTCGCACGCCAGCCGCAGGGGGAAG
GTAACTTCGAGGTGTTCTCTCAACTGCTTGCTGGCATGGACGTCGATCTGCGCACAGAGCTGAACTTGCA
TCAGATGGCCGAGAGTTCTGCCTTTGGCATGGGCTTGTGGTCAAAACCTGAGGACAAGCAGAAAGCTGCA
ACTGCCTTTAGTCAGCTTAGAGGGGCCATGGAGCTGCTTGGAATATCCGAGGGTGAGCAACAAGCCATAT
GGCGCGTTCTTGCCGCTATCTACCACTTGGGGGCAGCAGGTGCCTGCAAAGTTGGGAGAAAGCAGTTCAT
GCGCTTTGAGTGGGCTAATCATGCCGCAGAAGCCCTTGGGTGCGACTATGAAGAGTTGAACACGGCCACC
TTTAAACACCACCTTCGCCAAATTATAGAACAGATGACGAGTGGGCCTCAGAGACAGGGCCTGCAGGATA
ACGAAGCTTGCAGCGGGCTCAAAATGACAGGAGTGGAATGTGTTGAGGGGATGGCAAGTGGGCTCTACCA
AGAGCTCTTTGTTGCAGTGGTTTCCCTGATAAACAGAAGTTTCTCTTCTCACCACTTGTCTATGGCAAGC
ATCATGGTCGTGGATACGCCTGGCTTTCAGAACCCGCGCCACCAAGGTAAGGATAGGGCAGCGACCTTCG
AAGAGCTGTGTTACAATTATGCTCAAGAGCGACTTCAGCTTCTGTTCTATCATAGGACATTTGTTTCCAC
TCTCGAGCGATATAAGGAGGAGGGTATACCCGTTCCCTTTGATCTGCCAGAGAGCAGTCCAGGCACAACT
GTGGCAGTAGTAGACCAGAACCCCAGCCAGGTCCACCTCCCCGCTGGTAGGGGAGCCGAGGATGCCGGCG
GGCTGTTCTGGGTGCTTGACGAAGAGGTGCGAGTGCAGGGCAGCTCAGACTCCACAGTGCTGGAACGCCT
TCGCGCTGCCTTCGAGAAGAAGAAGGAGGCTGGAGCTGAAGAGCCACCGTCCATGCGGACCTGCGAACAG
CCACTCCAATGCGAGCTGTTCCACCAGCTCGGGCGGGACCCCGTCCGCTATGACCTTACAGGATGGCTGA
GAAGAGCTAAACCAAATCTGGCTGCACTGGAGGCTCCTCAAATCCTGCAGCAAAGTAAGCGGGAAGAGTT
GCAATCACTCTTTCAAGCTCGCGCTAAACTTCCTCCGGTATGCAGAGCTGTCGCTGGACTGGAAGGGACT
TCACAGCAGGCACTGCACAGATCTAGGGTCGTGAGACGGGCTTTTGCCTCATCCCTGGCCGCGGTCAAAC
GGAAGGCTCCGTGTGCACAGATAAAACTCCAGATGGATGCACTCATATCCCTGCTTCGCCGAAGCCGGCT
CCATTTTATTCACTGCCTCGTTCCGACAACTGTGGAGTCTAAGGCCGGCCAGCGCACTCCATCTCCATCA
CAGCCATCCGGCGATCAGGGAGTGGCTAATGAGCCAACTGCCCTGGACATTCCAGCTCTCAGGGTGCAGC
TGGCAGGCAGTCATATCTTGGAGGCCTTGCGGCTGCATCGCGCTGGTTACGCTGAGCATATGGGATTGGC
CCAGTTCAGACGCCGGTTCCAAGTATTGGACCCTGCACTTTTGAAAAAACTGGACCTCACTTCTGAAGAA
CTGGACGAAAGAAAGGTGGTGGAAGAACTGCTGAAAACGCTTGACCTGGAAAAAAAAGCCGTTGCCGTAG
GCCACAGCCAGGTGTTTCTGAAAGCTGGTGTGGTGTCCAGACTGGAGAGGCAGAGAGAAAAGCTCGTAAG
TAGGAACATCGTATTGTTTCAAGCTGCCTGCCGGGGCTTTCTGTCCCGCCAAGAGTACAAAAAACTGAAA
ATCCGGAGATTGGCCACGCTGTGCATACAGAAGAACCTGGCAGTCTTCCTTAAGGTGAAGGACTGGCCGT
GGTGGGGACTCCTCGCCTCTCTGCGACCTCTGCTCTCCAGTACCCTTGGTACCGAACAGCTGCGGGCAAA
AGAAGAAGAGCTGACTCTGTTGCGGCAGAAGCTGCAGAAGTCCGAGAACTCTAGATCCGAACTGAGACAG
AACACAGACCTGTTGGAAAGCAAGATAACAGATCTGACATCAGAGCTGGCAGATGAGCGGTTCAAAGGTG
ACGTAGCGTGTCAGGCTCTGGAGTCTGAAAGGGCTGAGAGGCTCCAGGCACTGCGCGAGGTCCAGGAGCT
GAAGACTAAGTACCAGCAGGTACAGGACGCACTGGGTGAAGTCCAGAAACAATTGGAGGAAGCTCAGCAG
AGAATTCAAGGCGCTAATCTTGAGGAAAAGCCGGCCGGCGGAGCAGACGAATGGCAGATGCGGTTGGACT
GTGCCCAGATGGAGAATGATTTCCTCAGGAAACGGCTGCAGCAGTGTGAGGAGCGATTGGACTCTGAGAT
GAAGGCTCGAACCGAGCTTGAACAAAAGTTGGGCGAGCTTCAGAGCGCCTACGAGGAAGCCAAGAAGATG
GCACATCAGTTGAAGAGAAAGTGTCATCACCTGACATGGGATCTGGAGGATACAAGAGTGCTCCTGGAGA
ATCAGCAGTCACGGAATCACGAGCTGGAGAAGAGACAAAAAAAGTTCGACTTGCAGCTCGCCCAAGCGCT
GGGAGAGTCTATGTTCGAGAAGTCCCTTCGCGAAAAAGTGAGCCAAGAGAACAATGGGGTGCGCTGGGAG
TTGGGCCAGCTGCAGCAGCAGCTGGAGCAAAAAGAACAGGAGGCTTCCAAGCTGAAACAGGAAGTCGAAC
GACTGCAAGGACAGAAGAGGGAACTGTTGTCCTGTGCTTCCGTCGGTGATCAGGGTGTGGCCTCCCTGAA
AGAGCGCGTTTGGGAACTCGAAACAAACGCACTCGAGCAACAGAAGATCCATTCACAGCAGGAAAATACA
ATCAAGCAGCTGGAGCAGCTTCGGCAGAGGTTCGAGCTGGAGATTGAGAGAATGAAGCAAATGCACCAGA
AGGATAGAGAGGACCAGGAGGAAGAGCTTGAAGACGTCAGGCAGTCATGCCAGAAAAGATTGAGACAGCT
GGAAATGCAGCTTGAGCAGGAGTACGAAGAGAAGCAGGTTGCCCTCCACGAGAAGCACGATCTGGAGGGG
CTTATCGGTACTCTCTGCGATCAGATCGGTCACCGAGACTTCGATGTAGAGAAGAGGCTGAGAAGGGACC
TGCGACGGACTCATGCACTGCTGAGCGACGTCCAGTTGCTCCTGGCTACCATCGAAGATTCCAAGACTAG
CATCAGTAAAGAAGAGCTGGAAAAAGTGCATTCCCAGCTGGAGCAGTCTGAAGCAAAGTGCGAAGACGCC
CTGAAAACGCAAAAGGTACTGACAGCCGACCTGGAGAACATGCATAGCGAGTTGGAGAATGTGACTCGAT
CTAAGAGCCTGGTGGATGAGCAACTCTACAGGCTTCAGTTCGAGAGAGCAGACCTGCTGAAGCGGATCGA
TGAGGATCAGGGGGATCTCAATGACCTGATGCAAAAACACAAAGATCTCATTGCGCAATCCGCAGCTGAC
ATCGGACAAATTCAGGAACTGCAACTGCAGCTGGAGGAGACGAAAAAGGAGAAGCAGAAGCTGAGGGAAC
AACTTCACATGGCCCAGCTGAGAATCCAGTACCTCGAACAATCTACTGTAGAGCGGGCTATCGTAAGTAG
GCAGGAGGCTATTATTTGTGATCTGGAGAACAAGACTGAGTTCCAGAAAGTGCAGATCAAACGCTTCGAG
GTACTCGTAATTCGACTCAGAGATTCAATGATCAAAATGGGTGAGGAGCTGTCAAGAGCTGTGAAGGCCG
AGGCGCAGCAGAGAGAGAACAGCCAGTACTATCAACAGCGGCTCGAAGAGCTGAAAGCTGAAATGCAAGA
ACTGGCTCAGCGAGAGGAAGAGGCGTCAAGGAGATGTATGGAGCTCGAGAAGTATGTAGAGGAACTTGCC
ACAGTTAGACAAACCCTGCAGACTGATCTGGAAACCTCTATTCGACGGATTGCTGATCTCCAGGCCGCCC
TGGAGGAGGTCGTCAGCAGTGACAGCGACACTGAAAGTGTGCAGACAGCCGTGGATTGCAGCAGCAGGAG
TGGAAAAGAAGGCGACAACGTCTCTGTCATTTCCAGCCAGCCAGAGGGCTCATTGCAGTCTTGGATGTCA
TGTTCCTTGAGCCTGGCAACAGATTCAGTGAGAATACCCTCCGGACAGAGCGTTGTTAGCAGTAGTTTTC
ACTCCCCTAGAGTGTCTGAGGAAGCCGGTGACTCTGAACGCCTGAGAACTGCCAGTAGTGCTTTGTCAGG
AGCCTGGGACGCCGCTCGAGATGCTTCAAAAGCAGGCAGCGCCAGCCTCCACCCCGTCTTCCCACAGAAA
CCTTATCACCTGGGTGACGGCGAAGGTTTCGCGGTTCACAGGAAGAGCACATTGGAACGCAGCGGACCAC
TGAGTTCTTCCCCTCCCAGCCAAAGGACGGCTGTGAGCCCTCCAAGTAGAGATAAGCTGCCTAGTCCCTC
AGCCGCGCTGTCTGAGTTCGTTGAAGAGCTGAGGAGGAAGCGCGCCCAGAGAGGACAGGGCTCAACGCTG
CACCTCGGCGACGGGCCGGTGCTGCCCATATTCCAGACCACTAGAGCGTCAAGTCTGCGGAGGGGGAGAG
CAAGTAGCGATGAGGGGGATCTCAGCTTGAAAACTAGGGTCAAGTCTCCTCTGGGCGCAGAGGGCATCCC
GGGCGCCACCGCTGGCCTTAGTCGGTCTACGTCTCTCAAATGTATCAGCTCCGAGGGCCCAGAAGACATT
ACCCTTCTGCCCGACAAGCAGAAGACCAGATTTGGCAGTTGTGAGAGCCTGCTTGAAAGCGGTCCTTGCA
CCAGGAGGAAATTGAGTTCTCCTACTGGGCTTCTGTCACCAACCCTGAGGCCCCGCAGGCCATGCCTGGA
GTCTTCAGTGGATGATGCCATCAGCCTGGAACTGGGTAAAGAACCCCTGGTGTTTCAAAACAGACAGTTC
TCCCACTTGATGGAAGAGACGCTTGACAGCGACCCATTTAGTTGGAAGCTCCCAAGTCTCAATTACAGAA
GACAGACTAAGGTGGACTTTGATGACTTCCTGCCAGCGATTAGAAAGTCTGACACACCCAGCTCTGGAGC
CGCCAAAGACGGTAAGGAAGCTTCAAAGCACCCTGGTGTTCATTTCGAAATGGGAGAAGCCGCAGATCGC
TCCTTTCTTTCAGGGATCAAAACAATTCTCAAAAAGAGCCCTGAAGTGAAGGAGGATCCCGCTCACCTGT
CTGACAGCAGTAGCTCTAGCTCAAGTATAGTGAGCTTCAAATCTACTGGTGGCACCGGATCTGGCCCTAG
GGTGCCTCGCCTGCAGGGAGACGGCGGCGAGCGGATGAGCCCAGAGCACCGGGACCCCGGATCTGCACGC
CGCGATGACGATGTCGAATCCATCATGAGGAAGTACTTGCAGCAG

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR219474 representing NM_028901
Red=Cloning site Green=Tags(s)

MAISSRLALWEQKIREEDKSPPPSSPPPLFSVIPGGFIKQLVRETEKESKEARRRKAAAFTAPEVEIPAV
PTNQTNKTNNVPKPGSQQTSQDSSSTTQNSADIPGKEPPGAGDKDSTPVTSTSGERPQESGPTGTPAKRT
LPFKRGVRRGDVLLMVAKLDPELAKADQKVQPRDVPVDKTPAPAKDSGGTKKGVTTGTSSAPQPSMPEKT
RTRGVGDTGQSTKGGKCQGTEGKGSRDPQTIGQKEGESQSTEEQGTRSQAQEAGNKEQLGTAEKEGGGPP
KKMEKEDEPKVAGAEVRPVEPPVPLRKWGGFLGWRSKWDSPQSKDRVTESHRKDEKTGDLQSPAVDRSCG
QLAEPTGQPSGPTGQPSGPTGQLSESTGQPSGPTGQPAGPTGQPAGPTGQPAGPTGQPAGPTGQQQEAPV
KMEGKVGRPQKKLVTPRKPRELPGVAAKTQNPEESCKAPDRIPTTGISAEAAKRDGQPESRVQGAGEPRV
CTEEEVDVVKPQAEGHVESIPEVVMERLSTLRPMEEKQILQDPDRGGQSGDSDQAYEDRWYEAQKVWLVQ
KDGFTLATVLKPDEGTADPPAGRVRLCIDADRTVIEVDEEQVHPANPSELDQAEDLASLVSVNESSVMNT
LLQRYRAQLPYTCSGPDLITLQPQTTTVPSSGKVPRGRQDGLPAHVTSLAQRAYWALLSQRRDQSIVALG
RSGAGKTTCCEQVLEHLVGMAGSVDGRVSVEKLRATFTVLRAFGCVSTGHSRRATRFAMVMSLDFNATGR
VTAAQLQTVLLENSRVARQPQGEGNFEVFSQLLAGMDVDLRTELNLHQMAESSAFGMGLWSKPEDKQKAA
TAFSQLRGAMELLGISEGEQQAIWRVLAAIYHLGAAGACKVGRKQFMRFEWANHAAEALGCDYEELNTAT
FKHHLRQIIEQMTSGPQRQGLQDNEACSGLKMTGVECVEGMASGLYQELFVAVVSLINRSFSSHHLSMAS
IMVVDTPGFQNPRHQGKDRAATFEELCYNYAQERLQLLFYHRTFVSTLERYKEEGIPVPFDLPESSPGTT
VAVVDQNPSQVHLPAGRGAEDAGGLFWVLDEEVRVQGSSDSTVLERLRAAFEKKKEAGAEEPPSMRTCEQ
PLQCELFHQLGRDPVRYDLTGWLRRAKPNLAALEAPQILQQSKREELQSLFQARAKLPPVCRAVAGLEGT
SQQALHRSRVVRRAFASSLAAVKRKAPCAQIKLQMDALISLLRRSRLHFIHCLVPTTVESKAGQRTPSPS
QPSGDQGVANEPTALDIPALRVQLAGSHILEALRLHRAGYAEHMGLAQFRRRFQVLDPALLKKLDLTSEE
LDERKVVEELLKTLDLEKKAVAVGHSQVFLKAGVVSRLERQREKLVSRNIVLFQAACRGFLSRQEYKKLK
IRRLATLCIQKNLAVFLKVKDWPWWGLLASLRPLLSSTLGTEQLRAKEEELTLLRQKLQKSENSRSELRQ
NTDLLESKITDLTSELADERFKGDVACQALESERAERLQALREVQELKTKYQQVQDALGEVQKQLEEAQQ
RIQGANLEEKPAGGADEWQMRLDCAQMENDFLRKRLQQCEERLDSEMKARTELEQKLGELQSAYEEAKKM
AHQLKRKCHHLTWDLEDTRVLLENQQSRNHELEKRQKKFDLQLAQALGESMFEKSLREKVSQENNGVRWE
LGQLQQQLEQKEQEASKLKQEVERLQGQKRELLSCASVGDQGVASLKERVWELETNALEQQKIHSQQENT
IKQLEQLRQRFELEIERMKQMHQKDREDQEEELEDVRQSCQKRLRQLEMQLEQEYEEKQVALHEKHDLEG
LIGTLCDQIGHRDFDVEKRLRRDLRRTHALLSDVQLLLATIEDSKTSISKEELEKVHSQLEQSEAKCEDA
LKTQKVLTADLENMHSELENVTRSKSLVDEQLYRLQFERADLLKRIDEDQGDLNDLMQKHKDLIAQSAAD
IGQIQELQLQLEETKKEKQKLREQLHMAQLRIQYLEQSTVERAIVSRQEAIICDLENKTEFQKVQIKRFE
VLVIRLRDSMIKMGEELSRAVKAEAQQRENSQYYQQRLEELKAEMQELAQREEEASRRCMELEKYVEELA
TVRQTLQTDLETSIRRIADLQAALEEVVSSDSDTESVQTAVDCSSRSGKEGDNVSVISSQPEGSLQSWMS
CSLSLATDSVRIPSGQSVVSSSFHSPRVSEEAGDSERLRTASSALSGAWDAARDASKAGSASLHPVFPQK
PYHLGDGEGFAVHRKSTLERSGPLSSSPPSQRTAVSPPSRDKLPSPSAALSEFVEELRRKRAQRGQGSTL
HLGDGPVLPIFQTTRASSLRRGRASSDEGDLSLKTRVKSPLGAEGIPGATAGLSRSTSLKCISSEGPEDI
TLLPDKQKTRFGSCESLLESGPCTRRKLSSPTGLLSPTLRPRRPCLESSVDDAISLELGKEPLVFQNRQF
SHLMEETLDSDPFSWKLPSLNYRRQTKVDFDDFLPAIRKSDTPSSGAAKDGKEASKHPGVHFEMGEAADR
SFLSGIKTILKKSPEVKEDPAHLSDSSSSSSSIVSFKSTGGTGSGPRVPRLQGDGGERMSPEHRDPGSAR
RDDDVESIMRKYLQQ

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_028901
ORF Size 7815 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_028901.2, NP_083177.2
RefSeq Size 8280 bp
RefSeq ORF 7818 bp
Locus ID 74376
Cytogenetics 5 F
MW 288.9 kDa
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"NM_028901" in other vectors (2)
SKU Description Size Price
MC225371 Myo18b (untagged) - Mouse myosin XVIIIb (Myo18b), (10ug) 10 ug
$2,365.00
MG219474 Myo18b (tGFP-tagged) - Mouse myosin XVIIIb (Myo18b), (10ug). Note: ORF is codon optimized 10 ug
$2,350.00
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Citations

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