Flg2 (NM_001013804) Mouse Untagged Clone

CAT#: MC225291

Flg2 (untagged) - Mouse filaggrin family member 2 (Flg2), (10ug)

Datasheet

  "NM_001013804" in other vectors (2)

Reconstitution Protocol

USD 3,990.00

10 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

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Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Flg2
Synonyms EG229574
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225291 representing NM_001013804
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCATATCTCTTAAGAAGTGTTGTCACCATCATTGATGTATTCTACAAATATACCAAGCAAGATGAAG
AATGCGGCACACTGAGCAAGGATGAGCTAAAGGAACTGCTGGAGAAGGAGTTCCGGCCAATTCTGAAGAA
TCCAGATGATCCAGACACAGTAGATGTCATCATGCATATGTTGGATCGAGATCATGACCGAAGACTAGAC
TTTACTGAGTTTATTCTGATGATATTCAAACTGGCTCTGGCCTGCAACAAGGTTCTTGGGAAAGAATACT
GTAAAGCTTCAGGGTCAAAGAAGCATAGGCGTGGCCATCAACACCAAGAGGAAGAAAGTGAAACAGAAGA
GGAAGAGGAGACACCAAGACAGAAATCAGGTTTCAGATTTTCAAGTTGGAGTGAGGGAGAGGAGCATGGA
CATAGTTCTGGGGGCTCACGGGGACCTGCAAAACATAGACGTGGGTCCAACTCTAAGAGGTTGGAAAGGC
AAGATGAATTATCCAGCTCAGAGGAATCAAGGAAAAAACACCATGGGTCTATCTTTGGTCACTCTTGGAG
TAGTAACAAAGAGAAAGATGGTTCCAGATCTGAAGAGCTAGGAGAAAAAGGAGACAAGTCATATGATAGC
CCCTCTAGAGAATCTGAGGAAGAGTATGAGTCTGGATATAGGTTAAACCACCAGGGAAGGGAAGGTCATA
GTGGATTGTCATGTGGATTGGAGAAGAACAAATATGAGTTAAATTACATTCAATTAAGAAAGGGTGGAGA
ACAAAAGCTTGGGTATAATACTTCAAGTTCAGGAAACAGTAAGATACAAAGCCATGTATATGGTTTTAGC
AATTCTAGTGGATGTTGCAGACCAAAAAATGCTTCAAGTTCTTGTCAGGCAAGTAGATCACAGGGACAAG
GAAATCAGTCTTGCCGTACCCAGTCAAACTGTCAATCAGGAACTAGTGGAGGACAAGGATATGGGTGTGT
CTCAGAAGGTCAGTCCTCTAGATGTTGTCAACCTAAACCTAGATCCTGTAGCCAGTCTTCTAGTCAGAGA
GGGTATGGATCTAAACAATGTGGTCAACCACAGAACTGTGGAAGACAACAAAGAATGGGTTCAAGTCACT
CTTCTTGCTGTGGACCATATGGGTCTGGAGCAACTCAATCTTCTGGTTGTGGCCAACAGAGAATGAGTTC
CTGTGGACATTCTTCAAGCTCTCATCAAAAGGGGTGTAGTTCAAATGGATTTTCCAAAGGTGATCAGCGT
GCATCTGGTTCGGGGCACTCATCCTGCTGTGAACAACATGGAACAAACTCAAGTCAGTCCTCTGGCTTTA
AACAACATGGACATGAATCAGGTCAGTCTTGCTGTGGCCAACATGGTACTGCATCAAGTCAATCCTCAGG
TTATAGTCAACATAGGGTTGGCTCAGGGCAGTCATGTCACTATGGGCAGCATGGGTCCAGTTCTGGTCAG
TCATCTAGCTCTGGGCGTCATGGATCTGGCTCAGGTCAGTCATCTAGCTCTAGGCATAACAGGTCAGGCT
CAAGTCAGTCATCTGGCCTTGAGGAGCATGGGTCCAGTTCTCATCAGTCACATAGTTCTGGGCATCATGG
ATCTGGATCACGTCAGTCATCTGGGTCTGAGCAGCATGGTGCTGTCTCAGGTCAGTCATCTGGCTCTGGG
AAGCATGAGACTGGACCCAGTCAGTCATCTAGTTCTGGGCATCATGGTTCTGGCTCTCAGCAGCATGGGG
GTGGCTCAGGCCAGTCAACTGGCTTTGGGGAGCATGAGTCGAGTTCTGGGCACTCATCTAGCTCTGGCCA
ACACAGGTCAGGCTCCCGTCACTCATCTGGCTCTGGGAAGCATGAGTCTGGACGCAGTCAGTCATCTGGT
TCTGGGCATCATGGTTCTGGCTCTCAGCAGCATGGGGGAGGTTCAGGAAACTCAACTGGCTTTGGGGAGC
ATGGATCCAGTTCTCATCCACTGCCTAGTTCTGGTCAAAATGAATCTAGCTCAGGTCAGTCTTCCAGGTC
TGAGCGGCATGGGACAGGCTCAGGTCAGTCATCTGGCTTTGGGCAACATGGGTCAGGTTCTCATCAGTCA
TCTAGCTCTGGGCATAATGAATATGGCTCAGGTCAAACATCTAGCTCTTGGCCGCATGGGAAAGGCTCAG
GTCAGGAATCTGGCTATGGAGAGCAGGAATCTGGACATGGTCAGTCTTCTAGCTCATGGCAACATGGGAC
TGGCCCAGGTCAGTCATCAAGCAGTGAAGAGGAGGAATCTAGACCTGGTCAGTCTTCTAGCTCATGGCAA
CATGGGAAAGGCTCAGGTCAGGAATCTGGCTATGGAGAGCAGGAAGCTGGACATGGTCAGTCTTCTAGCT
CATGGCAGCATGGAACTGGTGCTGGCAACCAGTCATCTGGCTATGGAGAGCACAAGTCTGGACCAAGTCA
TTCATCTAGATCTTGGCACCATGGGACAGGCTCAGGTCAGTCATTGGGATTTGGACAGCATGGGAAGGGA
TCTCATCAGTCAGAAAGTTCTGGACATTATGAATCTGTCTCAGAACCATCCTCTAGTTCATGGCAGCATG
GGAATGGGTCAGGTGAGTCTTATGGATACGGAGAGCATGAATCTGGACATGGTCAGTCATCAAGTGCTTG
GAATCATGGAAATGAATCAGGTCAGTCTAATGGATATGGAGAGCATGAATCTGGACATGGTCAGTCATCA
AGTGCTTGGAATCATGGAAATGAATCAGGTCAGTCTAATGGCTTTGGGGAGAATGAATCAGGACGAGATC
AGGAGGGATATCAACAGAGAGAGTCTTTTCATGGCCAACATAGACATCCGCTATCCCAACATGAACAACA
CTCACAGTTTGGATATGGTAGATCTCCAAGATCACCAGTACACCCTGAGTCCAGTGAGGGTGAGGAACAC
TCAGTAGTCCCACGGAGATATTCTGGATATGGTCACGGTCAGGGTCAGGCAGGACATCAACAGAGAGAGT
CAGGGTATGGCCAACGGGGCAGACCTCAAGGGCCCTCTCAGGACAGCAGTAGACAGCCTCAGGCCGGTCA
TGGACAGCCCTCACAGTCTGGCTATGGCAGATCTCCAAGGAGATCACAAGTCCACCCTGAGTACAGCGAG
GGTGAGGCACACTCAGAAGTCTCACAGAGACATTCTGGATCCAGTCACTGTCACTGTCACTGTCATGGTC
AGGCAAGACATCAACAGAGAGAGTCTGTGCATGGCCAACGGGGCAGACCTCAAGGGCCCTCTCAGGACAG
CAGTAGACATCCTCAGGCCGGCCCTGGACAGCCCTCACAGTCTGGCTCTCGCAGATCTCCAAGGAGCCAA
CCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATTCTGGATCCGGTC
ACGGTCACGGTCAGGGTCAGGGTCAGGCAGGACACCAACAGAGAGAGTCTGTGCATGGCCAACAGGGCAG
ACCTCAAGGGCCCTCTCAGGACAGCAGTAGACAGCCTCAGGCCGGCCAGGGACAGCCCTCACAGTCTGGC
TCTGGCAGATCTCCAAGGAGATCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTCC
CACAGAGACATTCTGGATCCGGTCACGGTCACGGTCAGGGTCAGGGTCAGGGTCAGGCAGGACATCAACA
GAGAGAGTCTGTGCATGGCCAACGGAGCAGACCTCAAGGGCCCTTTCAGGACAGCAGTAGACAGCCTCAG
GCCGGCCAGGGACAGCCCTCACAGTCTGGCTCTGGCAGATCTCCAAGGAGATCACCAGTCCACCCTGAGT
CCAGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATTCTGGATCCGGTCACGGTCACGGTCAGGG
TCAGGGTCAGGCAGGACACCAACAGAGAGAGTCTGTGCATGGCCAACCAGTCAGACCAGAAGTGCCCACT
CAGGACAGCAGTAGACAACCTCAGGCCGGCCAGGGACAGCCCTCACAGTCTGGCTCTGGCAGATCTCCAA
GGAGATCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTTCCACAGAGAAATTCTGA
ATCCTGTCACTGTCACTGTCATGATCAGGCAGGACATCAACAGAGAGAGTCTGTGCATGGCCAACGGGGC
AGACCTCAAGGGCCCTCTCAGGACAGCAGTAGACATCCTCAGGCCGGCCCTGGACAGCCCTCACAGTCTG
GCTCTCGCAGATCTCCAAGGAGCTCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGT
CCCACAGAGACATTCTGGATCCGGTCACGGTCACGGTCAGGGTCAGGGTCAGGCAGGACATCAACAGAGA
GAGTCTGTGCATGGCCAACGGGGCAGACCTCAAGGACCCACTCAGGACAGCAGTAGACAGCCTCAGGCCG
GCCAGGGACAGCCCTCACAGTCTGGCTCTGGCAGATCTCCAAGGAGATCACCAGTCCACCCTGAGTCCAG
TGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATTCTGGATCCGGTCACGGTCACGGTCACGGTCAG
GGTCAGGGTCAGGCAGGACACCAACAGAGAGAGTCTGTGCATGGCCAACGGGGCAGACCTCAAGGGCCCT
CTCAGGACAGCAGTAGACAGCCTCAGGCCGGCCAGGGACAGCCCTCACAGTCAGGCTCTGGCAGATCTCC
AAGGAGATCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGATATTCT
GGATCCGGTCACGGTCACGGTCAGGGTCAGGCAGGACATCAACAGAGAGAGTCTGTGCATGGCCAACGAG
GCAGACCTCAAGGGCCCTCTCAGGACAGCAGTAGACAGCCTCAGGCCGGCCAGGGACAGCCCTCACAGTC
TGGCTCTGGCAGATCTCCAAGGAGATCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTA
ATCCCACAGAGACATTCTGGATCCGGTCACAGTCACGGTCAGGGTCAGGTTCATGCAGAACATCAACAGA
GAGAGTCTGTGCATGGCCAACGGGGCAGACCTCAAGGGCCCTCTCAGGACAGCAGTAGACAGCCTCAGGC
CGGCCAGGGACAGCCCTCACTGTCTGGCTCTGGCAGATCTCCTAGGAGATCACCAGTCCACCCTGAGTCC
AGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATTCACATTCTGAATCCGGTCACGGTCATGGTC
AGGGTCAGGGTCAGGCAGGACACCAACAGAGAGAGTCTGTGCATGGCCAACGGGGCAGACCTCAAGGGCC
CTCTCAGGACAGCAGTAGACAGCCTCAGGCCGGCCAGGGACAGCCCTCACAGTCTGGCTCTGGTAGATCT
CCAGGGAGATCACCAGTCCACCCTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATT
CTGAATCCGGTCACGGTCATGGTCAGGGTCAGGGTCAGGCAGGACACCAACAGAGAGAGTCTGTGCATGG
GCAACGGGGCAGACCTCAAGGGCCCTCTCAGGACAGCAGTAGACAACCTCAGGCCGGCCAGGGACAGCCC
TCACAGTCTGGCTCTGGCAGATCTCCAAGGAGATCACCAGTCCACCCTGAGTCTAGTGAGGGTGAGGAAC
ACTCAGTAGTCCCACAGAGACATTCTGGATCCGGTCACGGTCACGGTCAGGGTCAGGGTCAGGCAGGACA
TCAACAGAGAGAGTCTGTGCATGGCCAACCGGTCAGACCTCAAGGGCCCTCTCAGGACAGCAGTAGTCAG
CCTCAGGCCAGCCAGGGACAGCCCTCACAGTCTGGCTCTGGCAGATCTCCAAGGAGATCACCAGTCCACC
CTGAGTCCAGTGAGGGTGAGGAACACTCAGTAGTCCCACAGAGACATTCTGGATCCGGTCACGGTCACGG
TCAGGGTCAGGGTCAGGCAGGACATCAACAGAGAGAGTCTTTGCATGGCCAACGGGGCAGATCCCAAAGT
CCTTTTCATCCATCACATAGTATCCATTGGCAATCAAAGTGTACCATAAGCAAAAAATCTAGTAGACTTT
CTGGCCATTATGGAAGAAATCATTTTCAATCAACCATTAGTGGTAACCAGTATGATTCCAGTCAATCCTC
GAGACATGGCAGCTATGGGCCTCAAGACTATGACTATGGTCAGTCTGGGTATGGACCTTCTGGAAGGTTG
AGAAGTAACAGCCAGAGTTCTATTCCTTTCAGTTCTGCACATAGAGCAACACATATGGAAGTCTTACCTT
GTGGACAGTCTTTCTCTCCTTCTGATCATGTAGGTACCAAAGCAAATGAACAAATTGGAGAGCTAGTTTT
TAAATACAGAGAGTCAGAAACAGGTCCTGACCAGTCAGTTGATTATTACAATCTTACTGAGTCCAATAGT
ACAACTAGAGGGCATGAGTGTAGTCATGGCCATTCTGTAGTAGTACCTGAACATTCAGATGACAGTGATT
TCAATTATGGTCACAGTTATAATGGTAAACAACAAATTTGTCAGAGCCAGCCAACTGTCCAGTCTTGTTT
TGATGATAGCCAATACATATTATTTCAGAAACATTTAGAATCCCCTTCATTTGGAAATCAGTCTGGATTC
AGCCCTAATGAAAGGCAATTATATACCTGTAACGAATCGATCGATAGCTATCATCTGTCAAGTGATAGCA
ACAATAGAAATCAAATATATTCTTCCAATAACTCTTTTCCCAACCTATACTGCATTGGAACTGAACAGTG
TATATATTTACCAAGTGCAACCATATTGGGTGAGGGAACAGAAGGACAGGAGCCTGGATATACCCAACCA
GGGACCATCTGTAAATATAATCAATTTTTAGATGGCAGGAAGAGTAGAACCAGAGGTAACCATGAAACGG
GGAAAATGAAGTCAGGTTCTGCCTACTTAGATAGCAATACTCCGCTATATACATATGTCCAAGAACAGAA
ATCCTACTACTTTGAATGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001013804
Insert Size 7089 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 cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones.
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.
Reference Data
RefSeq NM_001013804.1, NP_001013826.1
RefSeq Size 7755 bp
RefSeq ORF 7089 bp
Locus ID 229574
Cytogenetics 3 F2.1

Other Versions

SKU Description Size Price
MR220288 Flg2 (Myc-DDK-tagged) - Mouse filaggrin family member 2 (Flg2). Note: ORF is codon optimized
    • 10 ug

USD 2,480.00

MG220288 Flg2 (GFP-tagged) - Mouse filaggrin family member 2 (Flg2), (10ug). Note: ORF is codon optimized
    • 10 ug

USD 2,730.00

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