Prune2 (NM_181348) Mouse Untagged Clone

CAT#: MC225458

Prune2 (untagged) - Mouse prune homolog 2 (Drosophila) (Prune2), (10ug)



  "NM_181348" in other vectors (2)

CNY 49,500.00


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 6330414G02Rik; A230083H22Rik; A330102H22Rik; Bmcc1; mKIAA0367
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225458 representing NM_181348
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGAAGAATTTTTGCAACGCGCCAAATCTAAACTGGATCGAAGTAAACAATTGGAACAGGTCCACGCAG
TTATTGGACCTAAGTCATGTGACCTGGATTCTCTCATTTCTGCCTTCACATATGCATACTTTCTGGACAA
GGTCAGTCCTCCCGGGGTCCTCTGCTTGCCAGTGCTGAATATCCCAAGAACTGAATTCAACTACTTCACA
GAGACAAGGTTTATTTTAGAAGAGCTGAACATCCCTGAATCATTCCACATATTCCGAGATGAGATTAACC
TGCATCAGCTGAACGATGAAGGGAAACTGTCGATAACGCTCGTGGGCAGCCACGTCCTGGGGAGTGAGGA
CAGAACTTTGGAATCGGCAGTTGTCAGAGTCATTAACCCCGGAGAGCAGAGTGATGGTGAGCTGGGGTTC
CCGGAGACTTCCTCCTCTCTGGTGCTGAAGGAGCTCCTGCGTGAGGCTCCAGAACTCATCACCCAGCAGC
TGGCACATCTCCTCAGAGGCAGCATCCTGTTCACGTGGATGAGTATGGATCCTGAGCTCCCGGAGAAGCA
GGAGGAAATCCTCTCCATCCTGGAAGAACAGTTTCCCAACCTCCCTCCGAGGGATGATATCATCAACGTG
CTGCAAGAGAGTCAGCTCAGTGCTCAGGGTTTAAGTCTTGAACAAACAATGCTGAAAGATCTAAAGGAGC
TGTCAGACGGTGAAATAAAAGTGGCCATCAGCACCGTGAACATGACCCTGGAGGACTACCTGCTTCACGG
CAACATCACCAGTGATTTAAAAGCCTTCACAGACAAGTTCGGCTTTGACGTCCTCATTCTGATCTCAAGC
TTCACATGGGAGGAACAGCAGAGGCAGCAGATCGCCGTGTACTCCCAGAACCTGGAACTGTGCAGCCAGA
TTTGCTGTGAGCTAGAAGAAAGTCAGAACCCTTGCCTGGAACTGGAGCCCTTCGAATGTGGCTGTGATGA
GATCCTGGTATACCAGCAGGAAGACCCTTCTGTGACCTCCGACCAGGTGTTTCTTCTTCTTAAGGAAGTC
ATCAATAGGAGGTGTGCAGAGATGGTCTCTAACAGTCGGACATCCTCAACAGAAGCCGTGGCAGGCAGCG
CCCCGCTGTCCCAGGGCTCTTCCGGGATTATGGAATTGTATGGATCTGACATAGAGCCACAGCCCAGCTC
TGTGAATTTCATAGAAAACCCCCCAGAGCTCAACGATTCTAACCAAGCTCAGGCGGATGGCAACATAGAC
CTGGTTAGCCCTGACAGTGGGTTGGCCACCATCAGAAGCAGTCGCTCGTCCAAGGAAAGCTCCGTCTTCC
TCAGTGACGACAGCCCCGTGGGAGACGGTGGTGCGCCTCACCATAGCCTTCTCCCAGGATTTGACTCCTA
CAGCCCCATTCCTGAAGGGATAGTTGCGGAGGAGCATGCTCACTCCGGGGAACACAGTGAACACTTTGAC
CTCTTCAACTTTGATTCAGCGCCCATAGCTTCAGAGCAGTCCCAGCCGTCTTCCCACTCTGCAGACTACT
CGCCAGAAGACGACTTCCCCAACAGCGATTCATCAGAAGGGAACCTCTCTGCCGGGCCTAAGGGGCTTGG
TGAGATGGGGATCAACATGTCCAATTACTCCTCTAGTTCTCTTTTGTCAGAGGCTGGTAAAGACAGCCTT
GTGGAATTTGATGAAGAGTTTATCCAGCGACAAGAAAGCTCAGGGGATAACTCTGAAAGAAATTTAAGCC
TGACATGTTTTGCGGGAGAGGAGCCTTCTTCCCCTGAAAGGCTGAAGAATCCTGGAAAGATGATCCCACC
AACACCTATGAACAGCTTTGTGGAAATCTCACCATCAAATGAGGAGCCAACTCCACTCTATCCTGAAGAT
ATAATCCAAAATGCAATTGACACCGGACATCTGGGCCCACCTCAGGCCCGTGCACGGTGCAGAAGCTGGT
GGGGTGGCTTGGAGATTGACTCTAAAAACGTTGTAGATACATGGAACGCCAGTGAACAAGAATCTGTCTT
CCAGAGCCCTGAACCATGGAAAGATCCTAAGCCTGAGCCAGTTGAGAGGAGAACCTCAGATTCCACATTC
CAACCAAAGAGTCTTGAATTCTCAAAGTCAGATCCTTGGGAATCTGAGTTTGGACAGCCTGAACTGGGCA
ACAAAGAAGCCCAGGACCAGAAGGAGGAAAGCTTGCAATACCAGCACTTGCCTACAGTAAGGCCACATTT
GACAGATGCCTCTCCTCATGGGACAAACCACTTGATAGAGGACTTTGCTGCTTTGTGGCATTCAGGACAC
TCACCAACAACAATGCCTGAGCCCTGGGGAAACCCCACCGATGCTGGTGAAGCTGCAGTTACGATGTCCT
TCCCCACCTGGGGTGCATTTGATAAAGAAGAAGATAATGCTGACACATTAAAGAATACTTGGAATCTCCA
TCCCACTAACAACGAGACACCTTCAGGGCAGGAACCAAGTGAATGGGCTATGGGCCAAAGTGGGTTTTCA
TTCCCTGCAGCAGACCTACTTGACAATCCCCTCATTGAGGTAAATAAAGATGCAGCTCCAGAAATCTGGG
GCAAGAACAACAGCTCCAAGGATACCAGTCTTACGTCTGGAAGTCCCACTTCAGATCTGGGTCAAACGTG
GAATAATTCTAAGCTACCAGGGGAAGACCAGAATGGCTTGGTGGATCCTAAAGCTACAGGGAAGGTATAT
GAGAAGGAAGGGTCCTGGAGCCTCTTTGAGGAGAGTGCTAAGAAAAGAGGGGCTGATGTTTTAGCTCCTT
GGGAAGATTCCTTCTTGTCCTATAAATGTTCTGATTACAGTGCATCCAACATAGGAGAAGATTCAGTCCC
ATCTCCATTAGACACCAACTACTCCACCTCTGACTCTTACACATCACCAACATATGCTGGGGATGAAAAA
GAAATAGCAAACAAGCCAGTTGACAAAGATAATGGTTTTGAGGCAAAAGATGCTGAATTTCCTGCAGAGG
GGCTTGAGGTTCTTGCAACATCATCACAGCAGTCTCAGAGAAATCGAATTGGTTCTGGTCCTGGGAATCT
AGACATGTGGGCATTGCCTCACACAGAAGATAAGCCTGAAGGAAATGACGCACATCACCCAGATAGCGAT
GCGCTCAAGACGGAGCACGCAGAAGACAAAAATGCTTCCATGGAGGATGACGTGAGGGAAAGCAGCCCGT
CCAGTTACGATGACCCTAGCATGATGCGACTGTACGAGGCAAACCGGCAGCTCACCCTTCTACACAGCAA
CACCAACTCACGCCAGGCAGCCCCTGACAGCCTTGACACATGGAACCGAGTGACTCTGGAGGACACGCAG
TCCACTGCAACGATCTCGGACATGGATAATGACTTGGATTGGGATGACTGCAGTGGGGGCGTGGCGATCA
GTGGGGATGGTCAAGCAGAAGGTTACATAGCTGCAAACAGTGAACCTGAAACCCGGTTCTCAGTGAAGCA
GCTGGAACCATGGGGTACAGAACATCAGGAAGCAAATCAGGTAGACTGGGATCTCTCTGCCTCTGCTGAG
CCCACAGGGGATCCTGGTCCCAGTGAATACCAGACCCTAAATGAGAAAACTGGGCAGTTAATTGCAAACA
GTATTTGGGATTCTGTCATGGGAGATAAAAATATGCCATCATTCAGATTACCTAGCCCACCAAATACTGT
AGATATGGAACACGGCACTTGGCCTTCTGAAAGTCCCAGGCACTCAAATGGTAAGGACAGCCACATGTTA
GAAGCCTCTAGACTCAGTGAGTCGGGAGGGCTTACGTCTCAACCTGTCAACCAGGACACGTGGGGAGACT
CCCAAGGTGACACAGCATCCTCGGTGACCGGACTGGCAAGTCCAGAACACTTTGCACAGTCAGATCCATG
GACAGGCCATACTTATGGGCAGAGTGAAAGTGAGATTGAAGGCCTGGTGGCCTCTGATTGTGAGCATCTT
GACAAGGAGGCAGCGCTAGGCTCTGGAGTGAATGGTGCCCCGTGGGCTTTTGGAAAAAAGCCCAGGGACC
AGGAATTCTCTTCTTCAGATGCATTTGAACACCAAGACATCTCCAGTGCATCAGGCAAAATCAGCTCTCT
TTCAGTCACCTCCAGTCCTCAGAGTGAGGAACCAGGGGAGGCCTTAGAAGTCGAGAAGGAGCCTTTCATT
CTAGACTCCCTTGCTGTGCAAACAGAGACATTCACATGGGATTTGCAAAGCAAAGACACCCATGAAGAAT
CTCTAGTGGATCATAGAAATTTAGGTGAAGCCAACACAACATTGGATAGGATTAATCCAATGAAAAACAG
GCCCTTATCTGGAATGGAACTTGAGAAAACTGAAGCCTGTACCATTCTGAAGCCAGAAAGAGCAAATGGA
AAACTACTTTATGAATCTTCTCAAGACTTTGGTGTTTGGGATGGCCCGATGGATAGTGATGTGTGGGATA
GTCATATAAGTTATGAGACAGCTATGAATTCTACAGGTCAGAGAACTGAGGAAAGATCTCTAGAAGCCCT
TTCACCAGGAAACTATGACAGAGACAGCCTCTCTAGTGGGTGTACGCATTCCAGTGCATCAAGTCCTGAC
CTACATGATTCCTCAGTAGCCTTGTCCTCCTGGACTTACGGACCCAGTGCTGAACATCAGAAAGAGAATC
ATGATGATGCGAACAAACAGATTCACCAAGAATCAGAACTATTTACCACCGAAGCCCATGTAGATGTCAT
TACTGAAATGAAGGACTTTGTAGAAAACAGGGAGGATGGCTTTGGAAAGATGTCCAATCAGGAAGATCCT
CAATTCCCAGAGATTCCAAATGATCCCTTCAACAGTGGTCCCTCATCCTCTTCATCCAGCCTTGGAGCAG
ATAAATATTCAGAATATTCTCATGCATATCAGGAAGGGGATCTAACGACTAAACGTCAAGAGGAAAATGA
ACTTGGTTTTCTGGAAATTGTGGAGCCAGAGGGTACCAGGATCATATCCACAAGCTCAGGTTCTGGCAAT
GACAGTGGGGGTGACGAAGAGTTGCTAGAGAAGGAGCTCCATTTGGCCACAGTTGCTCAGAGTGAAGCTG
GGGCTTGCACTTCATTGCATGAACCTGCGTTCTCGGCCACAGAGCATTCCAAGCCTGAGTTTTCTGTCTT
TGTGGGTAGTTTGGAGTCAATAGAGAAAGAGAACAAGTCAAGCCCGTTCAGTGACAGTCAACAGAGCAGC
CCTGGTCAGTGGATTTTGTCACCACTCATGCAGGCTGACACACAGGACACATGTAAGGAGGAGACCAGAG
CTGCAGAAACGGGGACAATGGATACCACGTGGCATGGATCTGCCAGCACGGAAGCTAAGAATGGGGACCC
TGACAAATTGGAAATGCTTGGCTTCTCAGCTGACAGCACTGAGTGGTGGAACGCTGGGGCACAGGAAGGG
AGAGCAAACGCCGGTATGTCTGCAGAGGAGTTGTCTAACTCAGAGGGTGAGCTAGAGCCTACTTCTCCAG
TGTTCCAGAACGCTGGTCCGTGGAGCTTACCCATTCAGAATGATAGTGAACCTGTGGACACAGGCAGCAC
CAATCCTTTCCGTGGTAAACTAAAGTCACCCGTCCTAGATAGTCATGGAGACAAGTCACAGGAGAAACTT
TGGAACATTCAACCTAAGCAGCTGGATTCAGATGCCAATCAACTCAGCCAGCTTGTGATCCTGGACCAAA
TGAAGGACAAAGATTCTGGACAGCAAACAGCCATGTCTCCTGCTGCTGGTGATCTTCCTGCAGAAACTCT
CACCCAAGGGCAGGGCCGGGAATCTATGCTGTCTGTCTGGGACCGTGCAGAACCAGCATTAACTCACAGA
GATGAAAATGGATGTGTTAGCACTGGGGTTTCACCCACTGAGTGCCAACAAGAGAACCAGTGGGAACCAG
AAAAACCCTATCTCAGCCACGTGACACATTCAAGCACTCCCACAGAAAATGCCCTCGAGAGCAATGCCCC
CACACAACTGATGAGGAAGCTGGACTCTGATTGGAATAGCCCCAGCCCCAGCGAACCCCAACATAACTTT
GTTCCAGATATTTTACATGGCAACTTCGAAGAGGGTGGGCAGCTGGCCTCGGCGTCACCTGATTTGTGGA
TGGATGTCAAGCAACCCTTCAGTTTTAAAGTAGATAGCGAGAATCCTGATATATTGACTCACTGTGACCA
TGACAGCAACTCTCAGGCATCCAGCAGCCCTGACGTGTGCCACGATTCTGAAGGGGAGCAAAAGATGGAG
AAGCATACTGCTGTTTACCTGGGACTTGAAGTGGAACCCAGTGAGTTTTCTCTCACCGAGCCAAACATGA
ATGATGAACCAACTTGGGAACCTGAGCAGGAAAGTCTCCCACACAATTCAGAACTCCATTCCGAACACGC
AATGCCCTTGCCTCCAATCGACAGTCAGAATGATATAAATAACTCATCTAAGCCTGCCTCTTCAAGAAGT
TCCCCAGAACCCTCTGATATGCGCGGAGACAACAACACAAGTGTAACATCGATGGAAGAAGACACCAACC
CAGAGGTAGAAGCAGTGGACAGCGTGACGATCCCAGGTCACTTCCCCAGAAGTGAAGACGCTGACACTTT
TGAAGCTCACCAAGAGGTCAGTGTGGAAGTCGACGACTCTTGGGTGTCAAAAGACCTTTGTCCTGAAAGT
CAGACAGGCACTAGAGCTCTGCTTGACTGTGAGCAACCGTTTGCTTCCGAGAGCCCTGCTGTACTTACGG
ACATCTTCCTAACCTCAGACACCTGCCTGGATGTAAGCGAAGCTGCCTTGGATCACAGTTTCAGTGATGC
CTCCGGCCTCAACACTTCCACAGGCACTATAGACGACATGAGTAAGCTGACTCTATCGGAAGGCCATCCC
GAAACACCAGTTGACGGGGATGCAGGGAAGCAAGATGTCTGTTCATCTGAAGCTTCCTGGGGTGATTTTG
AATATGATGCAATGGGTCAGAATATTGACGAAGAGCTGATGAGAGAGCCTGAACACTTCCTCTATGGTGG
TGATCTTCCGTCAGAGGAAAGCGCGCTGAAGCAATCACTGACACCATACACACCCCCCTTTGATTTGTCC
TATCTCACGGAACCTACTGGATGCACTGAAACTGCACAGGGAGCTGAGTCTCCAGGTGATGAATCTCTGG
GAAGTGACGCGGCAGAGATGTTGCTTTCTGCTCTTCCAGATCACAGGGAGGAAGACAAGGCTGAGACCAA
CATCAGGAAACCTAGATACCAGATGACTGTGTTGCATATTCATGAAGACCCTGAGGCTCTTTCATCACCT
GTGGGAGGAACAGGTTCCAATAATGAGTCATCTCCATCAAACATTGACTGGGAAATAGAAACAGATAATT
CAGATTCACCAGCAGGTGGCGACATGAAACCACCAAACGGCAAGGAGATACTGGAGTTAGAAGAAGATGA
GAAAGTAATTCCCACGAAAGGGCCAAAGCAAACAGAATTAGAATACAAAGAAGAAAAACAGCCAGAGCAA
AGTGAAGACCATCAGGTACTAGCTGTGGACTACATCCTTGTAAGCCATGAAAAAGATTCACCATTGAAAC
CAGAGGCCAGGGAAGCAAGAGAAAACATACCCGAATTGGAACAATTATCCATAGGTTCCAGAGAAACAGG
GCTACCAGAGACTCAGTTATCAGGCACCCCAGACACATGTCAGTCTGAGTTTTTAAATGATGTCAAAGTT
CATTCTGCAGAGAGAATGTCTTCGTCTTCCAACCACGAGAGTGCATCTCTTGAAAACCCTGCACAAGACC
AGAGTTGGATGGTCTTGAGCCATAGTGAGGTTGGTGACCCGCCTACAGAAACCAGGGACTCGGGGCCTGA
GTCTCCTGGTAGAACTCCGGAGCCGTTCTTGAGTCTCAGTTTGGACAAGGGCCCCAAGTCCCAGGTTCTG
GAAAGAAATAAGCCTCTAAATTCTTTAGCACTAGAGGAAGTTGCTGGTTTGAGCAGCCAATCAAGGAACA
TCGAGAGACAAGGTCAAGCTGGTCTAGATGCAGTTCCAACCCAGGCGGCCACCCACGACAATGAATGGGA
AATGCTTTCGCCACAGCTCTCCCGGAAAAACAGGAACCCTCCACAGGAAATGGAAGAAGAGACACAGTGC
CCTGAGCCTGGACCCAGAAAGCCAAGACTGAAAGGACCCCCGTCAGAGGATGAAGGAATGGATATCCACT
TCGAGGAGGGAGTGCTGAGTCCCAGTGCCGCAGACATGAGGCCCGAACCTCCCAATTCTCTGGATCTCAA
TGGCAGTCACCCTAGAAGAATCAAGCTCACAGCCCCAAATATCAACCTCTCTCTGGACCAAAGTGAAGGA
TCTATTCTCTCTGATGATAACCTAGACAGTCCGGATGAGATTGACATCAATGTGGATGAACTCGATACCC
CTGATGAAGCAGACTCTTTTGAATATACTAACCATGAAGATCCCACGGCCAACAAAAGCTCTGGTCAAGA
GTCAGAGTCTATTCCAGAATATACGGCTGAAGAGGAGCGAGAAGACAACCGGCTGTGGAGGACGGTGGTC
ATCGGGGAGCAGGAGCAACGGATTGACATGAAGGTCATTGAACCCTACAGGAGAGTCATTTCTCACGGAG
GATACTATGGGGACGGTCTGAATGCCATCATTGTGTTTGCTGCCTGCTTTCTGCCAGACAGCAGCCGGGC
GGATTACCACTATGTCATGGAAAACCTTTTCCTATATGTAATAAGTACCTTAGAGCTGATGGTTGCTGAA
GACTACATGATCGTGTACTTAAATGGTGCAACCCCAAGGCGGAAGATGCCAGGACTAGGTTGGATGAAGA
AATGCTACCAGATGATTGACAGACGGTTGCGCAAGAATTTGAAGTCATTCATCATTGTTCACCCATCTTG
GTTCATCAGGACAATCTTAGCAGTGACTCGGCCTTTTATAAGCTCTAAATTCAGCAGTAAAATTAAATAT
GTGACTAGCTTATCTGAGCTCAGTGGCCTGATCCCCATGGACTGCATCCACATTCCAGAGAGCATCATCA
AGTATGATGAAGAGAAATCTTTTAAGAGAAGTGTGAGACTGGATGAAGAACTGAGGGAGGCATCCGAAGC
AGCTAAAACTAGCTGCCTTTACAATGATCCAGAAATGTCTTCTATGGAAAAGGACATTGACATGAAGCTG
AAGGAGAAGCCGTAG


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_181348
Insert Size 9255 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).
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_181348.4, NP_851993.3
RefSeq Size 12512 bp
RefSeq ORF 9255 bp
Locus ID 353211
UniProt ID Q52KR3
Gene Summary May play an important role in regulating differentiation, survival and aggressiveness of the tumor cells.[UniProtKB/Swiss-Prot Function]
*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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