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Zswim8 (NM_027996) Mouse Tagged ORF Clone

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SKU
MR215613
Zswim8 (Myc-DDK-tagged) - Mouse RIKEN cDNA 2310021P13 gene (2310021P13Rik)
  • TrueORF®
    TrueORF®

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

    Click here to learn more.

ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_027996 in other vectors (2)
Reconstitution Protocol
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$1,539.00
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Zswim8
Synonyms 2310021P13Rik; 4832404P21Rik; Kiaa0913; mKIAA0913
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR215613 representing NM_027996
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGAGCTGATGTTCGCGGAGTGGGAGGACGGCGAGCGCTTCTCGTTTGAGGATTCCGACCGCTTTGAGG
AGGATTCACTCTGTTCGTTCATTTCCGAGGCCGAGAGCCTTTGCCAGAACTGGCGAGGATGGCGCAAACA
GTCAGCGGGGCCCAATTCCCCCACTGGAGGCGGTGGCGGAGGTGGCAGTGGCGGTACCAGAACGCGAGAT
GGATTGGTAATCCCATTGGTGGAGCTGTCAGCAAAGCAGGTGGCATTTCACATCCCATTTGAAGTGGTAG
AGAAAGTTTATCCTCCAGTGCCAGAACAACTCCAACTCCGAATTGCTTTTTGGAGCTTCCCTGAGAATGA
AGAGGACATTCGTCTGTATTCATGCCTAGCCAATGGCAGTGCGGATGAGTTTCAGCGAGGGGATCAGCTG
TTCCGAATGAGGGCTGTGAAAGACCCGCTGCAGATAGGGTTCCATCTGAGCGCCACAGTGGTACCACCGC
AAATGGTCCCACCCAAGGGGGCCTACAATGTAGCTGTGATGTTTGACCGCTGCCGGGTCACTTCTTGTAG
CTGTACCTGTGGGGCCGGGGCCAAATGGTGCACCCATGTCGTGGCACTCTGCCTCTTCCGCATTCACAAC
GCATCTGCAGTCTGCCTGCGGGCTCCAGTCTCAGAGTCCCTGTCTCGGCTACAAAGGGACCAGCTTCAAA
AATTTGCTCAGTACCTTATCAGTGAGCTTCCTCAGCAGATTCTCCCCACAGCCCAGCGTCTTCTAGACGA
GCTCCTTTCCTCCCAGTCCACAGCCATCAACACAGTGTGTGGGGCTCCGGACCCTACAGCAGGGCCCTCA
GCTTCAGACCAGAGCACTTGGTATTTGGATGAGTCAACACTCACTGACAACATAAAGAAGACACTACATA
AGTTCTGTGGCCCCTCCCCTGTGGTCTTCAGTGATGTAAACTCTATGTATCTCTCTTCCACGGAACCTCC
TGCTGCTGCTGAGTGGGCATGTCTGCTGCGGCCTCTGAGGGGTCGAGAGCCTGAGGGTGTCTGGAACCTG
CTTAGCATTGTTCGAGAGATGTTCAAGCGAAGGGACAGCAATGCTGCCCCCTTGCTGGAAATACTCACTG
ACCAGTGCCTCACCTATGAACAGATAACAGGCTGGTGGTATAGTGTGCGCACCTCAGCTTCACACAGCAG
TGCCAGTGGTCACACAGGCCGTAGCAATGGGCAGTCAGAGGTAGCAGCCCATGCATGTGCAAGTATGTGC
GACGAGATGGTTACCCTCTGGAGGCTGGCTGTGCTGGACCCTGCCCTCAGCCCTCAGCGCCGCCGGGAAC
TGTGTGCACAGCTGCGTCAGTGGCAACTGAAGGTGATTGAGAATGTCAAGCGGGGCCAGCACAAGAAGAC
CCTAGAGAGGCTCTTCCCTGGCTTCCGGCCAGCTGTGGAGGCCTGCTACTTTAACTGGGAAGAGGCTTAT
CCTCTTCCTGGTGTTACCTACAGTGGCACTGACCGGAAGCTAGCCCTGTGCTGGGCCCGGGCCCTGCCTG
CCAGGCCAGGAGCCTCTAGATCTGGGGGCCTGGAAGAGTCCCGGCCCCGACCTCTTCCTACTGAGCCAGC
TGTGAGGCCCAAGGAACCTGGGGCCAAACGCAAAGGATTGGGTGAGGGGATCTCCTCACAGCGGGGCCCC
CGCCGCCTCTCTGCCGAAGGAGGAGATAAGGCTCTGCATAAGATGGGTCCAAGTGGGGGCAAAGCCAAGG
TACTGGGTGGGACTGGCAGCGGGGGCAAGAGCTCAGCAGGCAGTGGGAGCAAACGGCGGCTAAGCAGTGA
AGACAGCTCCCTGGAACCAGACCTGGCAGAGATGAGCCTGGATGACAGCAGCCTGGCCCTGGGTGCAGAG
GCCAGCACCTTTGGTGGATTCCCTGAGAGCCCTCCACCCTGTCCTTCCTCGGTTGGCTCCAGAGGACCTT
CCACCTTCCTTCCTGAGCCCCCAGATACTTATGAGGAAGATGCTGGTGTGTACTTTTCAGAAGGACCTGA
GCCTCCCACAGCCTCTGCAGACCACCCTGGTCTGCTGCCTGGGGAGGTCTGTACCCGAGATGACCTCCCT
TCCACAGACGACAGTGGCAGTGGGCTACACAAAACCAAAGAAGCAGCTCCTGCAGTTGGAGAGGAGGATG
ACGACTACCAAGCATATTACCTGAATGCCCAGGATGGGGCTGGAGGCGAGGAGGAGAAGGCGGAGGGCGG
GACTGGGGAGGAGCATGACCTGTTTGCTGGTTTGAAGCCACTGGAACAGGAGAGCCGAATGGAGGTGTTG
TTTGCCTGCGCTGAGGCCCTGCATGCCCATGGCTACAGCAATGAGGCCTCCCGCCTCACTGTGGAGCTTG
CCCAGGACCTGCTAGCCAACCCACCTGACCTCAAGGTAGAGCCGCCCCCTGCCAAGGGCAAGAAAAACAA
GGTGTCCACAAGCCGTCAGACCTGGGTGGCTACCAACACTCTGACCAAAGCAGCCTTCCTGTTGACAGTG
CTTAGTGAGCGCCCTGAGCACCACAGCCTGGCCTTCCGAGTTGGCATGTTTGCGCTGGAGCTACAGCGGC
CTCCTGCTTCAACCAAGGCCTTGGAGGTAAAATTGGCATATCAGGAATCTGAGGTAGCTGCTCTGCTCAA
GAAGATCCCTCGGGGCCCCAGTGAAATGAGTACCATTCGATGCCGGGCAGAAGAACTTCGGGAGGGTACA
CTGTGTGACTATCGGCCTGTCTTGCCCCTCATGTTGGCCAGTTTCATCTTTGATGTTCTCTGTGCTCCAG
TGGTTTCTCTCACGGGTTCCCGGCCCCCAAGTCGAAACTGGACTAACGAGATGCCTGGAGATGAGGAGCT
AGGATTTGAAGCAGCAGTTGCTGCCTTGGGCATGAAGACAACAGTGAGTGAGGCAGAACATCCCCTCCTA
TGTGAAGGCACACGTCGGGAGAAGGGTGACCTGGCCTTAGCACTCATGATCACCTACAAGGATGACCAGG
CCAAGCTCAAGAAGATCCTAGACAAACTCTTGGACCGAGAAAGCCAGACACATAAGCCACAGACCCTGAG
TTCTTTCTACTCATCCAGCCGGCCGGCCACAGCCAACCAGAGATCTCCTTCAAAGCACGGGGCCCCATCT
GCTCCCGGGGCCCTGCAGCCACTGACTTCAAGCTCTGCAGGGCCTGCTCAGCCAGGGAATGTGGCAGGGG
CTGGGCCAGGTCCCACTGAGGGCTTCACAGAGAAGAATGTACCCGAAAGTTCCCCACATTCCCCCTGTGA
AGGTCTCCCACCTGAGGCAGCTTTGACTCCACGGCCGGAGGGGAAGGTTCCTAGCCGCCTAGCACTTGGC
AGTCGTGGAGGTTATAATGGTCGAGGTTGGGGCTCTCCAGGGCGGCCCAAAAAGAAACACACAGGCATGG
CCAGCATTGACAGCAGTGCCCCTGAAACCACATCGGACAGCTCTCCTACCTTAAGCCGACGGCCACTTCG
AGGGGGCTGGGCCCCTACTTCTTGGGGTCGAGGACAAGACAGTGACAGCATTAGCAGCTCTTCCTCAGAC
TCTCTGGGCTCTTCATCCTCCAGTGGAAGCCGCCGGGCTAGTGCCAGTGGAGGGGCCCGGGCAAAGACAG
TTGACGTTGGCAGGTGTTACAAAGGCCGCCGCCCTGAGAGTCATGCCCCCCACGTACCCAATCAGCCGTC
AGAGGCAGCTGCACACTTCTACTTCGAATTGGCGAAGACAGTTCTGATCAAGGCAGGGGGCAACAGCAGC
ACCTCCATTTTCACACATCCATCTTCCTCAGGAGGCCACCAGGGTCCTCACCGCAACCTGCACCTTTGCG
CCTTTGAGATTGGGCTTTATGCCCTAGGCCTGCATAACTTTGTTTCTCCTAACTGGCTCTCTCGTACCTA
TTCTTCCCATGTATCCTGGATTACAGGGCAGGCCATGGAGATTGGCAGTGCAGCCTTGACTATACTGGTA
GAATGCTGGGATGGGCACCTGACACCCCCTGAGGTTGCATCGCTGGCCGACAGAGCGTCACGGGCACGAG
ACTCCAACATGGTGAGGGCAGCGGCAGAGCTGGCTCTAAGCTGCCTGCCTCATGCCCACGCACTGAACCC
CAATGAGATTCAGCGGGCCTTGGTGCAGTGCAAGGAACAGGATAACCTGATGTTGGAGAAGGCCTGCATG
GCCGTGGAAGAGGCAGCCAAGGGTGGGGGCGTATACCCTGAAGTGCTGTTTGAGGTTGCTCATCAGTGGT
TCTGGCTTTATGAGGAGACAGCAGGCGGCTCGTCCACAGCTCGTGAAGGGGCTACAAGCTGTAGTGGCAG
TGGGATGAGGGCCGCTGGGGAGGCTGGGCGGGGACTCCCTGAGGGTAGGGGTGCCCCAGGGACTGAACCT
GTTACAGTGGCTGCGGCAGCAGTGACAGCAGCAGCCACAGTGGTTCCGGTCATCTCAGTGGGGTCCAGTT
TATATCCAGGTCCAGGACTGGGGCATGGCCACTCCCCTGGCCTGCACCCCTACACTGCTCTCCAGCCCCA
CTTGCCCTGCAGCCCTCAGTACCTCACCCACCCAGCTCACCCTGCCCACCCTATGCCTCATATGCCCCGG
CCTGCCGTCTTCCCTGTGCCCAGCTCTGCATACCCACAGGGTGTGCATCCTGCATTCCTGGGGGCGCAAT
ACCCTTACTCAGTGACTCCTCCCTCGCTTGCTGCCACAGCTGTATCTTTCCCTGTCCCTTCCATGGCTCC
CATCACAGTCCATCCTTACCACACAGAACCAGGGCTCCCACTGCCCACCAGTGTGGCCTTGAGCAGTGTC
CATCCAGCATCTACGTTTCCAGCCATCCAGGGTGCCTCACTGCCTGCTCTGACCACACAGCCCAGCCCTC
TGGTAAGCGGGGGTTTTCCACCACCCGAAGAGGAGACACACAGTCAACCGGTCAATCCACATAGCCTGCA
CCATCTGCATGCTGCTTACCGTGTTGGGATGCTGGCACTGGAGATGCTAGGTCGCCGGGCACACAACGAT
CACCCCAACAACTTTTCCCGCTCCCCCCCTTACACTGATGATGTCAAATGGTTGCTGGGGCTGGCAGCAA
AGCTGGGAGTGAACTACGTGCACCAGTTCTGTGTGGGGGCAGCCAAGGGGGTGCTGAGCCCGTTTGTGCT
GCAGGAGATCGTCATGGAGACGCTGCAGCGGCTGAACCCCATTCATGCCCACAACCACCTTCGAGCCCCG
GCCTTCCACCAACTGGTGCAGCGCTGTCAGCAGGCATACATGCAGTACATCCATCACCGCTTAATTCACC
TGACTCCTGCCGACTACGACGACTTTGTGAATGCAATCCGCAGCGCTCGCAGCGCCTTCTGCCTGACACC
CATGGGCATGATGCAGTTCAACGACATCCTACAGAACCTCAAACGCAGCAAACAGACCAAGGAGTTGTGG
CAGCGGGTCTCTCTGGAGATAACCACCTTCTCCCCC

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR215613 representing NM_027996
Red=Cloning site Green=Tags(s)

MELMFAEWEDGERFSFEDSDRFEEDSLCSFISEAESLCQNWRGWRKQSAGPNSPTGGGGGGGSGGTRTRD
GLVIPLVELSAKQVAFHIPFEVVEKVYPPVPEQLQLRIAFWSFPENEEDIRLYSCLANGSADEFQRGDQL
FRMRAVKDPLQIGFHLSATVVPPQMVPPKGAYNVAVMFDRCRVTSCSCTCGAGAKWCTHVVALCLFRIHN
ASAVCLRAPVSESLSRLQRDQLQKFAQYLISELPQQILPTAQRLLDELLSSQSTAINTVCGAPDPTAGPS
ASDQSTWYLDESTLTDNIKKTLHKFCGPSPVVFSDVNSMYLSSTEPPAAAEWACLLRPLRGREPEGVWNL
LSIVREMFKRRDSNAAPLLEILTDQCLTYEQITGWWYSVRTSASHSSASGHTGRSNGQSEVAAHACASMC
DEMVTLWRLAVLDPALSPQRRRELCAQLRQWQLKVIENVKRGQHKKTLERLFPGFRPAVEACYFNWEEAY
PLPGVTYSGTDRKLALCWARALPARPGASRSGGLEESRPRPLPTEPAVRPKEPGAKRKGLGEGISSQRGP
RRLSAEGGDKALHKMGPSGGKAKVLGGTGSGGKSSAGSGSKRRLSSEDSSLEPDLAEMSLDDSSLALGAE
ASTFGGFPESPPPCPSSVGSRGPSTFLPEPPDTYEEDAGVYFSEGPEPPTASADHPGLLPGEVCTRDDLP
STDDSGSGLHKTKEAAPAVGEEDDDYQAYYLNAQDGAGGEEEKAEGGTGEEHDLFAGLKPLEQESRMEVL
FACAEALHAHGYSNEASRLTVELAQDLLANPPDLKVEPPPAKGKKNKVSTSRQTWVATNTLTKAAFLLTV
LSERPEHHSLAFRVGMFALELQRPPASTKALEVKLAYQESEVAALLKKIPRGPSEMSTIRCRAEELREGT
LCDYRPVLPLMLASFIFDVLCAPVVSLTGSRPPSRNWTNEMPGDEELGFEAAVAALGMKTTVSEAEHPLL
CEGTRREKGDLALALMITYKDDQAKLKKILDKLLDRESQTHKPQTLSSFYSSSRPATANQRSPSKHGAPS
APGALQPLTSSSAGPAQPGNVAGAGPGPTEGFTEKNVPESSPHSPCEGLPPEAALTPRPEGKVPSRLALG
SRGGYNGRGWGSPGRPKKKHTGMASIDSSAPETTSDSSPTLSRRPLRGGWAPTSWGRGQDSDSISSSSSD
SLGSSSSSGSRRASASGGARAKTVDVGRCYKGRRPESHAPHVPNQPSEAAAHFYFELAKTVLIKAGGNSS
TSIFTHPSSSGGHQGPHRNLHLCAFEIGLYALGLHNFVSPNWLSRTYSSHVSWITGQAMEIGSAALTILV
ECWDGHLTPPEVASLADRASRARDSNMVRAAAELALSCLPHAHALNPNEIQRALVQCKEQDNLMLEKACM
AVEEAAKGGGVYPEVLFEVAHQWFWLYEETAGGSSTAREGATSCSGSGMRAAGEAGRGLPEGRGAPGTEP
VTVAAAAVTAAATVVPVISVGSSLYPGPGLGHGHSPGLHPYTALQPHLPCSPQYLTHPAHPAHPMPHMPR
PAVFPVPSSAYPQGVHPAFLGAQYPYSVTPPSLAATAVSFPVPSMAPITVHPYHTEPGLPLPTSVALSSV
HPASTFPAIQGASLPALTTQPSPLVSGGFPPPEEETHSQPVNPHSLHHLHAAYRVGMLALEMLGRRAHND
HPNNFSRSPPYTDDVKWLLGLAAKLGVNYVHQFCVGAAKGVLSPFVLQEIVMETLQRLNPIHAHNHLRAP
AFHQLVQRCQQAYMQYIHHRLIHLTPADYDDFVNAIRSARSAFCLTPMGMMQFNDILQNLKRSKQTKELW
QRVSLEITTFSP

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms Chromatograms
Sequencher program is needed, download here
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_027996
ORF Size 5496 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_027996.3, NP_082272.1
RefSeq Size 6094 bp
RefSeq ORF 5499 bp
Locus ID 268721
UniProt ID Q3UHH1
Cytogenetics 14 A3
MW 197.1 kDa
Summary Substrate recognition component of a SCF-like E3 ubiquitin-protein ligase complex that promotes target-directed microRNA degradation (TDMD), a process that mediates degradation of microRNAs (miRNAs) (PubMed:33184237). The SCF-like E3 ubiquitin-protein ligase complex acts by catalyzing ubiquitination and subsequent degradation of AGO proteins (AGO1, AGO2, AGO3 and/or AGO4), thereby exposing miRNAs for degradation (By similarity). Specifically recognizes and binds AGO proteins when they are engaged with a TDMD target (By similarity). May also acts as a regulator of axon guidance: specifically recognizes misfolded ROBO3 and promotes its ubiquitination and subsequent degradation (By similarity).[UniProtKB/Swiss-Prot Function]
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"NM_027996" in other vectors (2)
SKU Description Size Price
MC224962 Zswim8 (untagged) - Mouse RIKEN cDNA 2310021P13 gene (2310021P13Rik), (10ug) 10 ug
$1,694.00
MG215613 Zswim8 (tGFP-tagged) - Mouse RIKEN cDNA 2310021P13 gene (2310021P13Rik), (10ug) 10 ug
$1,739.00
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