Flg2 (NM_001013804) Mouse Untagged Clone
CAT#: MC225291
Flg2 (untagged) - Mouse filaggrin family member 2 (Flg2), (10ug)
"NM_001013804" in other vectors (2)
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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 |
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