Usp9x (NM_009481) Mouse Untagged Clone

CAT#: MC225357

Usp9x (untagged) - Mouse ubiquitin specific peptidase 9, X chromosome (Usp9x), (10ug)

SDS

  "NM_009481" in other vectors (2)

Reconstitution Protocol

USD 4,310.00

10 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

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Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Usp9x
Synonyms 5730589N07Rik; AA407302; AA407699; AL022658; AL022749; Dffrx; FAF-X; Fafl
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225357 representing NM_009481
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACAGCCACGACTCGTGGCTCTCCAGTTGGAGGGAATGACAACCAGGGCCAAGCCCCTGATGGACAGT
CTCAGCCCCCCCTCCAACAGAATCAGACTTCATCGCCTGATTCGTCCAATGAAAATTCCCCTGCAACTCC
TCCTGATGAGCAAGGTCAAGGTGATGCTCCTCCACAGATTGAAGATGAGGAACCTGCATTTCCACACACT
GACTTGGCAAAGTTAGATGATATGATCAACAGGCCTCGATGGGTTGTTCCAGTTTTGCCGAAAGGGGAAT
TAGAAGTGCTTTTAGAAGCTGCTATTGATCTTAGTAAGAAAGGCCTTGATGTTAAAAGTGAAGCATGTCA
GCGATTTTTCCGAGATGGGCTAACGATCTCATTTACAAAAATCCTGACAGATGAAGCAGTGAGTGGCTGG
AAGTTTGAAATTCACAGATGCATTATTAACAATACTCATCGCCTGGTGGAGCTATGTGTGGCTAAGTTAG
CCCAAGACTGGTTTCCACTTCTAGAACTTCTTGCCATGGCCTTAAATCCTCATTGCAAATTCCATATCTA
CAATGGTACACGTCCCTGCGAGTCAGTGTCCTCAAGTGTTCAGTTGCCTGAAGATGAACTCTTTGCTCGT
TCTCCAGACCCTCGATCACCAAAAGGTTGGCTAGTGGATCTCCTCAACAAGTTTGGCACTTTAAATGGAT
TCCAGATACTGCACGATCGTTTTATTAATGGATCAGCATTAAACGTTCAGATAATTGCAGCCCTTATTAA
ACCATTTGGACAGTGCTATGAGTTTCTTACTCTTCACACAGTGAAAAAGTACTTTCTTCCAATAATAGAA
ATGGTTCCACAGTTTTTAGAAAACTTAACTGATGAAGAGCTGAAGAAAGAAGCAAAGAATGAAGCCAAAA
ATGATGCTCTTTCAATGATTATTAAATCATTGAAGAATTTAGCTTCGCGGGTTCCTGGACAAGAAGAAAC
TGTAAAAAACTTAGAAATATTTAGGTTAAAAATGATACTTAGATTGTTGCAAATTTCTTCTTTCAATGGA
AAGATGAATGCACTGAATGAGGTTAATAAGGTGATTTCCAGTGTGTCATACTATACCCATCGGCATGGCA
GTTCTGAGGATGAAGAGTGGCTTACAGCAGAGAGGATGGCTGAATGGATACAGCAGAACAATATTTTATC
CATAGTTTTACGAGATAGCCTTCATCAACCACAGTATGTAGAGAAACTAGAAAAGATTCTTCGCTTTGTC
ATAAAAGAAAAAGCTCTGACCTTGCAAGATCTTGATAATATCTGGGCAGCACAGGCAGGGAAACATGAAG
CCATTGTAAAGAATGTACATGATCTACTGGCCAAATTGGCATGGGATTTTTCTCCTGAACAACTTGATCA
TCTTTTTGATTGCTTTAAGGCCAGTTGGACAAATGCAAGTAAAAAGCAACGTGAAAAGCTCCTTGAGCTG
ATTCGTCGTCTTGCAGAAGATGATAAAGATGGTGTGATGGCACATAAAGTATTGAACCTTCTGTGGAATC
TAGCTCACAGTGATGATGTGCCTGTAGATATCATGGATTTGGCTCTCAGTGCTCACATCAAAATACTAGA
TTATAGTTGCTCCCAGGACCGGGACACCCAAAAGATCCAGTGGATTGATCGCTTCATAGAAGAACTTCGC
ACAAATGACAAATGGGTCATTCCTGCACTGAAACAAATTAGAGAAATTTGTAGTTTGTTTGGTGAAGCAC
CTCAAAATTTGAGTCAAAGTCAGCGAAGTCCCCATGTATTTTATCGCCATGACTTAATCAATCAACTTCA
GCACAATCATGCCCTAGTTACTTTGGTAGCAGAAAACCTTGCAACTTACATGGAAAGCATGAGAATGTAT
GGCAGAGACAATGAAGACTATGACCCACAAACTGTGAGACTGGGAAGTAGATATAGTCATGTTCAAGAAG
TCCAAGAACGGCTTAACTTTCTTAGGTTTTTATTGAAGGATGGCCAGCTGTGGCTGTGTGCTCCACAGGC
AAAACAAATATGGAAGTGCTTAGCAGAGAATGCGGTTTATCTTTGTGATCGTGAAGCCTGTTTTAAGTGG
TATTCCAAATTAATGGGAGACGAACCTGACTTAGATCCTGATATCAATAAGGACTTCTTTGAAAGTAATG
TGCTTCAGCTTGATCCTTCCCTGTTAACTGAAAATGGGATGAAGTGTTTTGAGAGATTCTTCAAAGCTGT
GAATTGTCGAGAAGGAAAACTAGTAGCAAAAAGAAGAGCCTACATGATGGATGATTTGGAATTGATAGGA
TTAGACTATCTTTGGAGAGTTGTAATTCAGAGTAATGATGATATTGCCTGCCGAGCTATTGATCTCCTTA
AAGAGATATACACAAACCTTGGTCCAAGGCTGCAGGTCAATCAGGTGGTGATCCATGAAGACTTCATTCA
GTCTTGCTTTGATCGTTTGAAAGCCTCTTATGACACATTGTGTGTTTTGGATGGTGACAAAGACAGTATT
AATTGTGCAAGACAGGAAGCTGTTCGAATGGTCCGAGTGTTAACTGTTCTAAGAGAATATATAAATGAAT
GTGACAGTGATTATCATGAAGAAAGAACAATTTTGCCTATGTCAAGAGCTTTCCGTGGTAAACACCTCTC
TTTTATAGTTCGATTTCCAAACCAGGGCAGGCAAGTAGATGACTTGGAGGTTTGGTCTCATACAAATGAT
ACCATTGGTTCAGTTCGAAGATGTATACTCAATCGTATTAAAGCCAATGTAGCTCATACAAAAATTGAAC
TCTTTGTGGGTGGTGAGCTTATTGATCCTGGAGATGACCGAAAGTTGATTGGACAATTAAACCTAAAAGA
TAAATCACTAATTACAGCCAAACTTACACAAATAAGCTCCAATATGCCTTCAAGTCCTGATAGCTCCTCT
GATTCCTCAACTGGATCTCCTGGAAATCATGGTAATCATTACAGTGATGGCCCCAATCCAGAAGTGGAAA
GTTGTTTGCCTGGAGTGATAATGTCACTTCATCCCAGATACATCTCTTTCCTTTGGCAAGTTGCAGACTT
AGGGAGCAGCCTAAATATGCCACCTCTTAGAGATGGAGCAAGAGTGCTTATGAAACTTATGCCGCCAGAT
AGTACGACAATAGAAAAGTTAAGAGCTATTTGTTTGGACCATGCCAAACTTGGAGAAAGCAGCCTTAGTC
CATCTCTTGACTCACTTTTCTTTGGTCCTTCAGCCTCACAAGTGCTATACCTAACAGAGGTAGTCTATGC
CTTGTTAATGCCCGCTGGTGCACCCTTGACTGATGATTCCTCGGATTTTCAGTTTCACTTCTTGAAAAGT
GGTGGTCTGCCCCTTGTCCTGAGTATGCTAACCAGAAATAACTTCCTACCAAATGCAGATATGGAAACTC
GAAGGGGTGCCTACCTCAATGCTCTTAAAATAGCCAAACTGTTACTAACTGCCATTGGCTATGGCCATGT
TCGTGCTGTGGCAGAAGCTTGTCAACCAGGTGTAGAAGGCGTGAATCCTATGACATCGGTCAACCAAGTA
ACTCATGATCAAGCAGTGGTGCTACAAAGTGCCCTTCAGAGCATTCCTAACCCATCATCTGAATGCATGC
TTAGAAACGTGTCTGTTCGCCTTGCTCAGCAGATTTCTGATGAGGCTTCAAGATATATGCCTGATATTTG
TGTAATTAGAGCTATACAAAAAATTATTTGGACATCAGGATGTGGAGGATTACAGCTGGTATTCAGCCCA
AATGAAGAAGTGACAAAAATTTATGAGAAGACCAATGCAGGCAATGAGCCAGACCTCGAAGATGAACAGG
TTTGCTGTGAAGCATTGGAGGTGATGACACTGTGTTTCGCCTTGATTCCAACAGCCTTAGATGCTCTAAG
TAAAGAAAAAGCTTGGCAGACATTTATTATTGACTTACTGTTGCACTGTCACAGCAAAACTGTTCGTCAA
GTGGCACAGGAACAATTCTTCTTAATGTGCACCAGATGTTGCATGGGGCACAGGCCTCTACTTTTCTTCA
TTACGCTGCTCTTTACTGTTTTGGGGAGCACAGCCAGAGAGAGGGCTAAACACTCAGGCGACTACTTTAC
TCTTTTAAGACATCTTCTTAATTACGCCTACAACAGTAACATTAATGTGCCCAATGCTGAAGTTCTTCTA
AATAATGAAATTGATTGGCTTAAAAGAATTAGGGATGATGTTAAAAGGACAGGTGAAACAGGTGTTGAGG
AGACAATCTTAGAAGGACACCTTGGGGTTACAAAGGAGCTACTGGCTTTTCAGACTCCTGAGAAAAAGTT
TCATATTGGTTGTGAAAAGGGAGGTGCTAATCTCATTAAAGAATTAATCGACGACTTCATCTTTCCCGCA
TCCAATGTTTACCTGCAGTATATGAGAAATGGAGAACTCCCTGCTGAGCAGGCCATTCCTGTGTGTGGTT
CACCAGCCACAATTAATGCTGGTTTTGAGTTACTTGTGGCATTAGCTGTTGGCTGTGTGAGGAACCTCAA
ACAGATAGTAGATTCTTTGACTGAAATGTATTACATTGGTACAGCAATAACTACTTGTGAAGCACTTACT
GAGTGGGAATACCTGCCACCCGTTGGACCCCGTCCACCAAAAGGATTTGTGGGGCTGAAAAATGCTGGTG
CTACTTGTTACATGAACTCTGTGATCCAGCAACTCTATATGATCCCCTCTATCAGGAATGGTATTCTTGC
CATAGAAGGCACAGGTAGTGATGTAGATGATGATATGTCTGGGGATGAGAAGCAGGACAACGAGAGCAAT
GTTGATCCCAGGGATGATGTGTTTGGATATCCTCAACAATTTGAAGACAAACCACCACTGAGTAAAACAG
AAGATAGGAAAGAGTACAATATTGGTGTTCTAAGACACCTTCAGGTTATCTTTGGCCATTTAGCTGCTTC
TCGACTACAGTACTATGTGCCTAGAGGATTTTGGAAACAGTTCAGGCTTTGGGGTGAGCCTGTCAATCTT
CGTGAACAACATGATGCTTTAGAGTTCTTTAATTCTTTGGTGGATAGTTTAGATGAAGCTTTAAAAGCCT
TAGGGCATCCAGCTATGCTAAGTAAAGTCTTGGGAGGTTCCTTTGCTGATCAGAAAATTTGCCAAGGCTG
CCCACATAGGTACGAATGTGAAGAATCTTTTACGACTCTGAATGTAGACATTAGAAACCACCAAAATCTT
CTGGATTCTTTGGAACAGTATGTCAAAGGAGACTTACTAGAAGGAGCAAATGCTTATCATTGTGAAAAAT
GCAATAAAAAGGTTGATACTGTAAAGCGCTTGCTAATTAAAAAATTGCCTCCTGTTCTTGCTATCCAACT
AAAACGATTCGATTATGACTGGGAAAGAGAATGTGCAATCAAGTTCAATGATTACTTTGAATTTCCTCGA
GAGTTAGACATGGAACCTTACACAGTGGCAGGTGTTGCTAAACTGGAGGGAGATAATGTCAACCCAGAAA
GTCAGCTGATACAACAGAATGAGCAGTCTGAAAGCGAGAAAGCAGGAAGCACAAAATACAGACTTGTGGG
TGTGCTTGTGCACAGTGGTCAAGCAAGTGGCGGACATTACTATTCTTACATCATTCAGAGGAATGGAGGG
GATGGTGAAAAAAATCGTTGGTATAAATTTGATGATGGAGATGTAACGGAATGTAAAATGGATGACGATG
AAGAAATGAAAAACCAGTGTTTTGGGGGAGAGTACATGGGAGAAGTATTTGATCACATGATGAAGCGCAT
GTCGTACAGGCGTCAGAAAAGATGGTGGAATGCATATATACTTTTTTATGAACGAATGGACACAATAGGT
CATGATGATGAGGTGATAAGATACATATCAGAGATTGCTATCACCACAAGGCCCCATCAGATTGTCATGC
CATCCGCCATTGAAAGAAGTGTTCGGAAGCAGAATGTTCAGTTCATGCACAACCGAATGCAGTACAGTCT
GGAATATTTTCAGTTTATGAAAAAGCTACTGACATGTAATGGTGTTTACTTAAACCCTCCTCCAGGGCAA
GATCACCTGTCTCCTGAAGCAGAAGAAATCACTATGATTAGTATTCAGCTTGCTGCTAGGTTCCTTTTTA
CTACAGGATTTCACACAAAGAAAATAGTCCGAGGATCTGCCAGTGATTGGTATGATGCATTGTGTATTCT
CCTGCGTCACAGCAAGAACGTGCGGTTTTGGTTTGCTCACAATGTCCTTTTTAATGTTTCAAATCGATTC
TCTGAGTACCTTTTGGAATGCCCTAGTGCAGAAGTGAGAGGTGCATTTGCAAAGCTCATAGTTTTCATTG
CACATTTTTCCTTACAAGACGGGCCTTGTCCTTCACCTTTTGCATCTCCTGGACCTTCTAGTCAGGCTTA
TGACAACTTAAGTTTGAGTGACCACTTACTAAGAGCAGTACTAAATCTCTTGCGGAGGGAGGTTTCAGAG
CATGGACGTCATTTACAGCAGTATTTCAACTTGTTCGTAATGTATGCCAATTTAGGAGTGGCAGAGAAAA
CACAGCTGCTCAAACTGAGTGTACCTGCTACCTTTATGCTTGTGTCCTTAGATGAAGGTCCTGGCCCTCC
AATTAAATATCAGTATGCTGAATTAGGCAAATTATACTCAGTAGTGTCACAGCTCATCCGCTGTTGCAAT
GTCTCTTCAAGAATGCAGTCTTCGATCAATGGTAATCCTTCTCTTCCAAATCCTTTTGGTGATCCTAACT
TATCACAACCTATAATGCCAATTCAACAAAATGTGGTAGACATTTTATTTGTGAGAACAAGTTATGTGAA
GAAAATTATTGAAGACTGCAGTAACTCTGATGAGACCGTCAAATTGCTTCGCTTTTGCTGCTGGGAGAAT
CCTCAGTTCTCATCTACTGTCCTCAGTGAACTTCTTTGGCAGGTTGCATATTCTTATACTTATGAACTCC
GGCCCTATTTGGATCTGCTTTTACAAATCTTACTGATTGAAGACTCTTGGCAGACTCACAGAATTCATAA
TGCCCTTAAAGGAATTCCAGATGACCGAGATGGGCTGTTTGACACAATTCAGCGTTCTAAGAATCACTAT
CAAAAAAGAGCATACCAGTGTATAAAATGTATGGTAGCCCTCTTTAGCAGTTGTCCTGTTGCTTACCAAA
TCCTGCAGGGCAATGGAGATCTTAAAAGGAAATGGACCTGGGCAGTGGAGTGGCTTGGAGATGAACTTGA
AAGAAGACCATACACTGGCAATCCTCAGTACACTTACAACAATTGGTCTCCTCCAGTGCAAAGCAATGAA
ACATCAAATGGTTATTTCTTAGAGAGATCACACAGCGCTAGGATGACACTTGCAAAAGCTTGTGAACTCT
GTCCTGAGGAGGAACCAGATGACCAAGATGCCCCAGATGAGCATGAATCACCTCCACCAGAAGATGCTCC
TTTATACCCTCATTCCCCTGGATCTCAATATCAGCAGAATAACCATGTGCATGGACAGCCATATACAGGC
CCAGCAGCACATCACATGAACAACCCTCAGAGAACTGGCCAACGAGCACAAGAAAATTATGAAGGCGGTG
AAGAAGTGTCCCCTCCTCAGACCAAGGATCAGTGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_009481
ORF Size 7665 bp
Insert Size 7665
OTI Disclaimer Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Reference Data
RefSeq NM_009481.2, NP_033507.2
RefSeq Size 11903
RefSeq ORF 7665
Locus ID 22284

Other Versions

SKU Description Size Price
MR226439 Usp9x (Myc-DDK-tagged) - Mouse ubiquitin specific peptidase 9, X chromosome (Usp9x). Note: ORF is codon optimized
    • 10 ug

USD 2,680.00

MG226439 Usp9x (GFP-tagged) - Mouse ubiquitin specific peptidase 9 X chromosome (Usp9x), (10ug). Note: ORF is codon optimized
    • 10 ug

USD 2,950.00

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