Tnxb (NM_031176) Mouse Untagged Clone

CAT#: MC229766

Tnxb (untagged) - Mouse tenascin XB (Tnxb)



  "NM_031176" in other vectors (1)

CNY 30,020.00


货期*
11周

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Synonyms Tn-mhc; Tnx
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC229766 representing NM_031176
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCAGCTCAGTGCACCCCGTCTATTCTGACCATCCTGGTGTTGCTTGGCTTAGCCAGAGCAGGCCCAT
TCTCTCCTCGGTCTAATGTGACACTTCCGGCCCCACGGCCCCCTCCCAAGCCCGGTGGTCCTTCTTCTCA
GCTGTACGAGCATACTGTGGAAGGAGGAGAGAAGCAGGTGGTGTTCACCCATCGCATTAACCTGCCCCCG
TCAGCCGGCTGCGGCTGTCCCCCGGGCTCTGAGCCCCCGGTGCCTGCTTCAGAGGTGCAGGCCCTGAGGG
TCCGCCTGGAGATCCTGGAGGAGCTGGTAAAAGGGCTTAAGGAGCACTGCACAGGAGGATGCTGTCCCAC
TGCGGCCCAAGCTGGCACAGGCCAGACTGACGTGCGCAGCCTCTGCAGCCTCCACGGTGTCTTTGACCTG
AGCCGCTGCGCCTGTTCCTGTGAGCCTGGCTGGGGTGGACCCACCTGCTCAGACCCTACGGACACAAAGA
CGCCCACCTCATCGCCGCCCTCCAAGTCCTGTCCCGAAGACTGCAACGACCAGGGACGCTGCGTCCGAGG
ACGCTGCGTGTGCTTCCCCGGCTACAGTGGCCCCAGCTGTAGCTGGCCCTCTTGCCCTGGAGATTGTCAG
GGGCGCGGGCGCTGCGTGAAGGGCGTGTGCGTGTGTCGCGCGGGCTTCTCAGGCCCTGACTGCAGCCAGC
GCTCTTGCCCTCGCAACTGCAACCAGAGAGGACGCTGCGAGGAAGGACGCTGCGTGTGTGACCCCGGCTA
CTCCGGTGAGGACTGTGGGGTGCGGAGCTGTCCCAGGGGATGCAGCCAAAGAGGCCGCTGCGAGAACGGC
CTCTGCGTGTGCAACCCCGGCTACTCTGGCGAGGACTGTGGGGTGCGGAACTGTCCCAGGGGCTGCAGCC
AGAGGGGTCGCTGCGAGGACGGCCGCTGTGTGTGCGATCCCGGCTATAGTGGCGAAGATTGCAGCATGAG
GACCTGCCCATGGGACTGTGGCGACGGAGGGCGCTGCGTGGACGGTCGCTGCGTGTGCTGGCCCGGGTAC
TCGGGCGAAGACTGTAGCACGCGGACGTGCCCGCGTGACTGCCGTGGCCGGGGCCGCTGCGAGGACGGGG
AATGTATCTGTGACGCAGGCTACAGTGGCGACGACTGCGGTGTGCGGAGCTGCCCCGGGGACTGTAACCA
AAGGGGCCACTGTGAGGATGGCCGCTGCGTGTGCTGGCCCGGGTATACTGGAGCGGACTGTAGCACGCGC
GCCTGCCCACGGGACTGCAGGGGCCGCGGGCGCTGCGAGGATGGCGTGTGCGTGTGCCATGCGGGCTACA
GCGGCGAGGACTGCGGGGTGCGCAGCTGCCCCGGGGACTGTCGCGGCCGTGGGAACTGCGAGAGCGGCCG
CTGCGTGTGCTGGCCTGGGTACACAGGCCGAGACTGTGGCACGCGTGCCTGCCCCGGTGACTGTCGTGGA
CGCGGGCGCTGCGTGGACGGCCGCTGCGTGTGCAATCCGGGCTTCACTGGCGAGGACTGCGGGAGCCGTC
GGTGTCCTGGGGACTGTCGCGGACACGGCCACTGCGAGAACGGCGTGTGCGTGTGCGCTGTGGGCTACTC
TGGCGACGACTGCAGCACTCGCAGCTGTCCCAGCGACTGCAGAGGCCGCGGCCAGTGCCTGAATGGGCTC
TGCGAGTGCGACGAAGGCTACTCGGGTGAGGACTGTGGCATAAGACGGTGTCCCCGCGATTGCAGCCAGC
ACGGCGTGTGTCAGGATGGCTTGTGCATGTGCCACGCAGGCTATGCGGGCGAAGACTGCAGCATTCGCAC
CTGCCCGGCCGACTGTCGCCGGCGTGGCCGCTGTGAGGACGGGCGCTGTGTGTGCAACCCAGGCTACACC
GGGCCCGCATGTGCCACTCGAACCTGTCCAGCTGATTGTCGTGGCCGTGGGCGCTGCGTGCAGGGAGTGT
GCATGTGCTACGTTGGCTACAGCGGTGAGGACTGTGGACAGGAAGAGCCTCCTGCTAGTGCCTGCCCTGG
GGGCTGTGGGCCGCGGGAACTGTGCCGCGCCGGACAATGCGTGTGTGTTGAGGGCTTTCGAGGCCCAGAC
TGTGCCATCCAGACGTGCCCAGGTGACTGTCGCAGCAGGGGAGAGTGTATCCAGGGCAGATGCGTCTGCC
AAGAAGGCTACGCTGGGGACGACTGCGGGGAAGAGATACCAGCCATCCAGAACATGAGGATGCATCTTCT
AGAGGAGACAACAGTCCGGACAGAGTGGACACGAGCTCCCGGTCCTGTGGATGCCTATGAAATCCAGTTT
ATCCCCATGACCGAGGGGGTGAGTCCACCATTCACAGCTCGGGTGCCCAGCTCTGCCTCAGCCTATGACC
AGCGAGGACTGGCGCCTGGACAGGACTACCAGGTCACTGTTCGTGCTCTACGAGGGACCAGCTGGGGTCC
TCCTGCCTCTAAGACCATCACTACCATGATCGATGGTCCTCAGGACCTCCGGGTGGTAGCTGTGACCCCG
ACCACACTGGATCTTAGCTGGCTGCGCCCCCAGGCTGAGGTGGACCGATTTGTGGTGTCCTATGTCAGTG
CTGGAAACCAAAGGGTGCGACTGGAAGTTCCCCCTGAGGCAGACAGGACTCAGCTAACCGATCTGATGCC
TGGTGTGGAGTATGTGGTGACTGTCACTGCAGAAAGAGGCCATGCAGTCAGCTACCCAGCTTCTATCAGG
GCGAATACAGACAGGGCTCAGGAACAGCCTGGGAAGCCATCAGTCCAGCCACGCCTGGGTGAACTGACAG
TGACAGGCCTGACCTCTGATTCCCTGCTCCTGCACTGGACTGTCCCAGAGGGGGAGTTTGACTCCTTCCT
GATCCAGTACAAGGACAAAGACGGGCCCCAGGCGATATCCGTGGAGGGACCCCAGCGTTCTACACCCATC
TCAGGCTTGGAACCAGGACGCAAGTACAAATTTATCCTGTATGGACTCATCGGCAAGAAGAGGCATGGCC
CACTTATGGCTGAAGCCAAGATCTTGATTCAGAGTGACCCTGACCCAGGATCCCCACCCCGCCTGGGAGA
GCTATGGGTGACAGACCCCACTCCACACTCATTGCACCTCTCCTGGACTGTTCTCGGAGGCCAGTTCGAC
TCCTTCGTGGTCCAGTACAGAGACAAGGAAGGCCAGCCCCGTGTGGTACCTGTGGAGGGGCCTGATCGCT
CAGTGGTGATCTCCCCACTGGACCCCAATCGCAAGTACAGGTTCACTCTGTTTGGGATTGCCAATAAGAA
GCGGTACGGGCCCCTTACTGCTGATGGCACTACTGCTGCAGAGACGAAAGAGGAGTCCTCAGAGCCGCCC
CGCCTCGGCGAACTGACTGTGACTGGTGTGACCCCAGACTCCCTGCGCCTGTCCTGGACAGTGGCCCGGG
GTCCCTTCGACTCCTTTGTAATCCTTTACAAGGATGCACAGGGCCAGCCCCAGAGTGTACCCATCGAAGG
TGATGAGAATGAGGTCACTGTCCCCGGCCTGGAGTCCAACAGGAAGTATAAGATGAACCTCTACGGGCTT
CGTGGCAGGCAGCGTGTGGGGCCGGTATCAGTGGTGGCCAAAACTGCCCCACCAGATGTTGTAGACCAGC
CCCTCAGCCCCCCAGAGCCCAGCACAGAGGCCCCAGAGCCCCCCGAGAAGCCACTCCTGAGAGAGCTGAT
CGTGACAGACACCACACCCAACTCCCTGAGCCTCTCCTGGACAGTCTCCGAGGGACAGTTTGACCAGTTC
GTGATCCAGTACAAGAACGGGGATGGGCAGCCCAAGGTGGTGCGGGTGCCAGGACACGAGGACCAGGTCA
CCATCTCCGGCCTGGAGCCAGACCACAAGTATAAGATGAACCTGTATGGCATCCATAGTGGCCAGCGTGT
GGGCCCCGTGTCTGTTGTTGGTGTGACAGCTGCAGAGGAAGAACCCCCCAGCCCCACAGAGCCCAGCACA
GAGGCGCCAGAACCCACTGAGGAGCCGCTCCTGGGAGAGCTGACAGTGACAGGATCGTCCCCAGACTCCC
TGAGCCTCTCCTGGACCGTCCCCCAGGGAGACTTTGACTCCTTCACTGTCCAGTACAAGAGCAGTGATGG
GCGGCCCCAGGTGATGCGTGTCGGGGGCCAGGAGAGGGAGGTCATCGTGAGAGACCTGGATCCTGGGCAC
AAATACAAGATGAACCTGTATGGACTCCATGAGGGGCATCGTGTGGGCCCTGTGTCCACTGTGGGCACAA
CCGACAAACAACCAGAAGAAAAGCCCCCCCTTGAGCCACGCCTGGAGGAGTTGACAGTGACTGGTGTAAC
CCCCAATTCTGTGAGCCTCTCGTGGATAGTTCCTGAGGGACAGTTTGACTCCTTCGTGGTCCAGTACCAG
GACAGGGATGGGCAGCCCCGGGAGGTACCACTGACAGCAGAACAGCGTGAGGTCACTGTCCTTGACTTGG
ACCCTGCAAGAATATACAAAATGAACTTCTACGGGCTACACGGTAGACGACGTGTGGGCCCCCTCTCCGT
GTCAGCAATGACAGCACCAGCTCCAGCCACCGAGGCCTCCAAGCTGCTCCCAGAACCACGACTGGGGGAA
CTAACAGTGACAGATGTGACCCCGGACTCAGTGGGCCTCCTGTGGACTGTCCCTGAGGGTGAATTCGACT
CCTTCACGGTCCAGTACAAGGACAGGGATGGCCAGCCCCACGTGGTGTCTGTGGCAGCAGACCTACGGGA
GGTCACCATCCCAGGCCTGGAGCCCTCTCGCAAGTACAAGTTCCTGCTCTTTGGGGTCCAAGATGGGAAA
AGACGCAGCCAGGTCTCTGTAGAGGCGAAGACAGCTACCCATGATGACACCAGCCCAGGGGCCCCTCCCC
GCCTTGGAGAGCTGTGGGTGACGGATCCTACCACGGACTCTCTGCGCCTATCCTGGACAGTTCCCGAGGG
CCACTTTGACTCTTTTGTGGTCCAGTTCAAGGACAAAAGTGGGCCCAGGGTGGTGCCAGTAAAGGGTCAA
GAGCGGACAGCCACTATCACGGCCCTGGATGCTGGCCGCAAGTACAGATTCCTCCTCTATGGGCTTCTGG
GAAGGAAACGCTTTGGCCCCCTCACTGCAGAGGGCATAACAGAGCCCACGAATGCTGCGGACCACACAAA
ATCTCGACTGGGAGAGGAACTGCGGGTGACTGGTGTGACTCAAAACTCCGTGGACCTCTCCTGGACAGTC
TCCGAGGGCCAGTTTGACTCCTTTGTGGTCCAGTACAAGGACAGGGATGGGCAGTCCCAGGTGGTGCCTG
TGGACGGAAGCCATAGAGAGGTTAGAGTCTCTGGTCTAGACCCAGGTCGCAGGTATAAGCTGCTACTCTA
CGGCCTCCGAGACAGCAAGCGTGTGGGTCCCCTTTCAGTCATTGCTGTGACCGACCCCAGAGAAACAACA
GAAGCTTGGACAGAGGTCCCCACAACTTCAACTCCTGCAGCTGTGCCCCGCCTCGGGGAGCTGAGAGTGG
AGGAAGCCACGCCTCACAGCCTGCATCTCTCCTGGGTGGTGACTGAGGGAGAATTTAACTCCTTCGAGGT
CCAGTACACTGACAGAGATGGGCAACTCAGAGTGGCCAGTACAGAGGGTGACCAGACTGACATTACCCTT
ACTGGCCTGGAATCGAACCACAGATACCTGATAACCCTATATGGCTTCCATGATGGGCAGCCTGTAGGCT
CTGCTCAAATTGAGGCCCTGACAGTGCCGTGGGAGGAAGAAGAGGAGGAAGAGGAGTCCACAGAGCCACC
CACCATGACTCCTGAGCCCAGGCCACAACTGGGAGAGCTGACCGTGACAGATGCCACCCCTGACTCTCTG
AGCCTTTCCTGGACAGTCCCCGAGGGACAGTTTGACCAGTTCGTGATCCAGTACAAGAACGGGGATGGGC
AGCCCAAGGTGGTGCGGGTGCCAGGGCATGAGGACCAGGTCACCATCTCTGGCCTGGAGCCAGACCACAA
GTACAAGTTGAACCTGTATGGCATCCACAGTGGTCAGCGTTTTGGCCCCGTGTCTACTGTTGGGGTGACA
GCTGCAGTGGAAGAGCCCCCCAGCCCCACAGAGCCCAGCATAGAGGCCCCAGAGCCCACTGAGGAGCCAC
TCCTGGGAGAGCTGACAGTGACAGGATCGTCCCCAGACTCTCTGAGCCTCTCCTGGACCGTTCCCCAGGG
AGACTTTGATTCCTTCACTGTCCAGTACAAGGACAGTGATGGGCGGCCCCAGGTGATGCGTGTCGGGGGC
CAGGAGAGGGAGGTCATCGTGAGAGACCTGGATCCTGGGCGCAAGTACAAGATGAACCTGTATGGGCTCC
ATGAGGGGCGTCGTGTGGGTCCCGTGTCGACTGTGGGTGTGACTGCCTCTCTGACCACAGAGCCCCCCAT
AGAGCCCCGCCTGGGAGAGCTGGCTGCAGTAGAAGTGACTTCCAGTACAGTGCACCTGTCCTGGACTGTG
GCCCAGGGCCCCTTCGACTCCTTCCTGGTCCAGTACAAGGACACACAGGGGCAGCCCCAGATGGTGCCTG
TGAGTGGAGACCTGGGTGAGGTCACCGTCTCAGGTTTGGAGCCAGCCCGAAAGTACAAGTTTCTACTCTT
TGGACTCAAGGATGGGAAGCGCCATGGCCCTGTCTCCACAGAAGCAAAGACTGTCTCTGATGCAAAGCTG
CTTCCTCGTCTTGGGGAGCTCACCGTGACAGACACGACCCAAAACTCCGTGGGTCTCTCCTGGACTGTTC
CTGAGGGTGAATTCGACTCTTTCTTAGTCCAGTACAAGAACAGGGGAGGGCAGGTCCAGGTCGTGCCTGC
AGCAGCAGACCAACGTGAGGTCACCATCTCCAGCCTGGAGCCCAATAGAAAATACAGGTTCCTGCTCTTC
GGCCTCATAGGCCTCAAACGGCTGGGGCCTGTCTCCGTGGAGGGCACCACGGCTCCCGTGGAGAAGACAC
CACAGCCCCGCCTCGGTGAACTGTCAGTGACAGAGGAGACCTCTGACTCCATGCACCTCTCTTGGTCTGT
GGCCCAGGGTCCCTTTGACTCCTTCCTGGTCCAGTACAAGGACAGGGATGGGCAGCTCCAGACGGTGTCC
TTGGCTGCAGACCAGCGAGAGGTCACCATAGAGGGTCTACAGCCAGGCAGGAAATACAAGTTCCTGCTCT
ATGGGCTCACTGGAGGGAAGCGCCTGGGACCCATCTCTGCCTTGGGAGTGACAGCCTCAGAAGTTGACAT
ATCAGCCCCAGACCACACTGAGCCCCCTCATGCTCCCGGCCTGGGGACGCTGGCAGTGACAGAGGCAACC
CCAGACTCCCTGCGACTCTCCTGGGCTGTGGCTCGTGGCCCCTTTGACTCCTTTGTGGTCCAGTACCAGG
ACACAGAGAATGAAACCCAGGCCCTGCTTGTTGATGGAGACCAGGACAAAGTCCTCATCTCAGGCCTGGA
ACCCAAAACTTCCTACAAGTTCTTCCTCTATGGCCTCCGTGAAGGGACACGCCACGGACCTGTGTCTGTA
GAGGGCACCACAGATCCAGTTCCTGCTGGTCAGGGCCCAGGGGACCCCGGGCCCCGCCTGTCCCAGCTCT
CAGTTTCAGATGTGACCACCAGTTCTCTGCGGCTAAACTGGGAAGCCCCGCTTGGGGCCTTTGACTCTTT
CCTGCTACGCTTTGGGGTCCCCCTACTGAGTACCCTGGAGCAGAATCCTCGCACTCTGCAACAGCGAGAG
CTTATGGTGCCAGGCGTGCGGCGATCCGCCATGCTCCGGGACCTGCGTCCTGGGACCCTGTATAGCCTTA
CTCTGTATGGGCTGCGTGGGCCACACAAGGCAGACAGCATCCAGGGCACTGCCCGCACACTCAGCCCAGT
TCTGGAGAGCCCCCGGGACCTGCAATTCAGCGACATCGGGGAAACATCAGCCAAAGTCAAATGGGTGCCG
CCAACGTCCAGGGTGGACAGCTTCAAAATCTCCTACCAGCTAGCAGATGGAGGAGAGCCACAAAGTGTGC
AGGTGGATGGCCGGACCCAGACCCAGATCCTCCAAGGGCTGATTCCAGACACTCGCTATGAGGTGACTGT
GGTCTCCGTCCGTGGCTTTGAGGAAAGCGAGCCTCTCACAGGCTTCCTCACCACAGTGCCTGATGGTCCC
ACCCAGCTACGGGCATTGAACTTGACTGACGGATCTGCCCTTCTACACTGGAAACCCCCCCACAAACCAG
TGGACAAATATGACGTCGAGGTCGAATCCCCTGGGGCCCCACCCCTTCAGGCCTCAGCACCTGGCAGCGC
TGTGGACTACCCACTGACTGACCTGGCACTCGACACCAATTACACAGCCACCGTGCGTGGTCTCCGGGGT
CCTAACTTCACCTCCCCAGCCAGCATAACCTTCACCACAGGGTTAAAGCCCCCCCAGGACTTGGAGGCCA
AGGAAGTGACTCCTCGCACGGCCCTGCTCACTTGGACTGAGCCTGAAGTCCCACCCACAGGCTACCTGCT
CAGCTTTGACACCCCTGGAGGACAGATTCAGGAAATCCTGCTTCCAGCAGGAACCACCTCGCACAGGCTT
CTGCGCCTCTTCCCCTCCACCTTCTACAGTGCCCAGCTGCGGGCCATCTGGGGCGAGAGCCTTACACCTC
CCGTGCTCACTTCCTTTACTACTGGTGGGCTGCGGATCCCCTTCCCCCGGGACTGTGGGGAGGAGCTGAA
GAATGGGCCCAGTGCCTCAAAGACCACCACCATCTTCCTCAATGGCAACCGTGAGCGGCCTTTGGATGTG
TTCTGTGACATGGAGACTGATGGAGGTGGTTGGCTGGTGTTCCAGCGCCGCATGGATGGACAGACGGACT
TCTGGAGAGACTGGGAGGAGTACGCCCATGGTTTTGGGAACATTTCCGGGGAATTCTGGCTGGGCAACGA
GGCCCTGCACAGCCTAACACAGGCTGGAGACTATTCTCTGCGTGTGGACCTGCGGGCCGGAAAGGAAGCC
GTGTTCGCCCAGTATGACTTCTTCCGTGTAGACTCAGCAAAGGAGAACTACCGCCTACACCTTGAGGGCT
ACCATGGGACTGCAGGCGACTCTATGAGCTACCACAGTGGCAGTGTCTTTTCTGCCCGTGATCGAGACCC
CAACAACTTGCTCATCTCTTGCGCTGTCTCTTATCGTGGGGCTTGGTGGTACAGGAACTGTCACTACGCC
AACCTCAATGGGCTCTATGGGAGCACAGTGGATCACCAGGGAGTGAGCTGGTACCACTGGAAGGGCTTCG
AGTTCTCTGTGCCCTTCACGGAAATGAAGCTGCGACCCAGAAACTTCCAGGTCCCCACCAGGGGCACCTG
A


AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC
TGGATTACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-RsrII     
ACCN NM_031176
Insert Size 9381 bp
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).
OTI Annotation Clone contains native stop codon, and expresses the complete ORF without any c-terminal tag.
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_031176.2, NP_112453.2
RefSeq Size 9569 bp
RefSeq ORF 9381 bp
Locus ID 81877
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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