Frem2 (NM_172862) Mouse Untagged Clone
CAT#: MC225465
Frem2 (untagged) - Mouse Fras1 related extracellular matrix protein 2 (Frem2), (10ug)
CNY 50,730.00
货期*
12周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Synonyms | 6030440P17Rik; 8430406N05Rik; b2b1562Clo; Gm409; my; ne; nv1 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225465 representing NM_172862
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCCAGCCGTGCGCGCAGGACAGCCAAGTTCTCCAGCTTCCAGCCGATACTCGCACAGTCGCCTAGGC TGCTGCTGCTGCTGCTGCTCCTGTCACTGGTAAGCTACGTCTCCACACAGGCTGCTGGCCCCGGTGCAGC ACTTCAGTCCCTGGGTCTCTCCGGGACTTCGGGAGTCCCTACAGAGGAAGCTATAGTGGTGGCAAACCGC GGGCTCCGTGTGCCCTTCGGTCGCGAAGTCTGGCTGGATCCGTTGCGTGACTTGGTGCTGCAGGTGCAGC CAGGAGACCGCTGCACAGTGACCGTGTTAGACAACGACGCGCTGGCCCAGCGGCCGGGCCACTTGAGTCC CAAGCGTTTTGCGTGCGACTATGGCCCGGGTGAGGTGCGCTACTCGCACCTGGGTGCTCGCAGCCCTTCC CGCGACCGCGTCCGCCTGCAGCTGCGCTACGATGCTCCAGGAGGGGCGATAGTCCTGCCACTGGCACTAG AGGTGGAAGTGGTCTTCACCCAGCTGGAGATTGTGACTCGGAATTTACCTCTGGTCGTGGAAGAACTGCT AGGGACCAGTAATGCCTTGGACGATCGGAGCTTAGAGTTCGCCTACCAGCCTGAGACCGAGGAGTGCCGC GTGGGCATCTTGTCAGGTCTGAGCGCTTTGCCTCGTTACGGAGAACTCCTTCACTACCCACAGGTCCAGG GAGGGGCCGGAGATAGAGGGACCTCTAAGACCCTTTTGATGGACTGCAAAGCATTCCAGGAGCTGGGAGT CCGCTACCGCCACACAGCCCCCAGCCGCTCGCCTAACAGGGACTGGCTGCCTATGGTGGTCGAGCTGCAT TCGCGAGGGGCTCCAGAGGGCAGCCCGGCTCTAAAACGCGAACACTTCCAGGTGCTTGTGAGGATTCGAG GAGGAGCGGAGAACACTGCACCCAAGCCCAGTTTCGTGGCCATGATGATGATGGAGGTGGACCAGTTTGT ACTGACTGCTCTCACTCCAGACATGCTAGCAGCCGAGGATGCTGAATCCGACCCAGACCTTTTGATTTTC AACCTCACCTCTGCCTTCCAGCCTGGGCAGGGCTACCTGGTGAGCACGGATGACAGAAGCCTGCCTCTCT CCTCCTTTACACAGCGGGATTTGCGCCTGCTGAAGATTGCCTACCAGCCTCCCTCTGAAGACTCGGATCA GGAGCGTCTGTTTGAACTAGAGCTGGAGATAGTGGACCCTGAAGGAGCAGCCTCAGACCCTTTCGCCTTC ATGGTGGTGGTGAAACCCATGAACACACTGGCTCCCGTGGTCACACGAAACACTGGCCTTATTCTCTATG AGGGTCAATATCGGCCGCTCACGGGTCCCATAGGCAGTGGACCCCAGAACTTGGTCATCAGTGATGAAGA TGACCTAGAAGCTGTGAGGCTGGAGGTGGTGGCTGGGCTCCGGCATGGCCACCTTGTTATTCTGGGTTCT CCCAGTAGCGACTCTGCTCCCAAGACCTTCACAGTGGCGGAGCTGGCGGCTGGCCAGGTTGTGTATCAGC ATGATGACAAAGACGGTTCACTGAGTGACAACTTGGTGCTGCGCATGTCCGATGGAGGAGGCAGGCACCA GGTCCAGTTCCTGTTCCCTATCACTTTAGTGCCTGTGGATGACCAGCCGCCGGTCCTGAACGCCAACACT GGGCTGACAGTGGCTGAGGGGGAAACTGTGCCTATCCCACCCTTGACTCTCAGTGCAACCGATATAGATT CAGATGACTCTCAGCTGGTTTTTGTCCTGTTGCCACCCTTCTCAAGCTTGGGGCACCTGCTTCTCCGCCA AAGGCATGTCCCCCAGGAAGAGCAGGGTCTGTGGCAGAAGCAAGGGTCATTTTACGAGCGAACGGTGACA GAGTGGCGGCAACAGGATATAACAGAGGGGAAGCTCTTCTATAGGCACTCGGGGCCCCACAGCCCTGGGC CGGTGATGGACCAGTTCATGTTTAGAGTCCAAGACAATCATGATCCCCCTAACCAGTCTGGGATCCAGAG GTTTGTAATACGCATTCATCCCGTGGACCGTCTCCCTCCAGAACTGGGCAGTGGCTGTCCCCTTCGGATG GTGGTACAGGAATCCCAGCTCACACCACTGAGGAAAAGGTGGCTGCACTACACTGACCTGGACACAGATG ACCGAGAGTTACAGTACACAGTGACCCAGCCTCCCACGGACACAGATGAGAACCACTCGCCGGCTCCACT GGGCACGTTGGTCTTCACTGATAATCCCTCAGTGGTGGTGAGCCATTTTACCCAAGCCCAGGTCAATCAT CATAAAATTGCTTACAGGCCCCCAGGGCAGGAGCTAGGAGTCGCAGCCCGAGTGGCTCAGTTCCAGTTCC AAGTAGAGGATCGAGCTGGGAATGTGGCTCCTGGCACCTTCACCCTTTACCTGCAGCCTGTGGATAACCA GCCCCCCGAGATTGTCAACACTGGCTTCACCGTTGAGGAGAAGGGCCACCACATCCTGCGTGAGACCGAG CTGCATGTGAGTGATGTTGACACGGATGTGACCCACATCTCGTTCACTCTCACACAGGCCCCCAAACACG GCCACATGCAAATATCTGGACGGCCACTGCATGTAGGCGGACAATTCCACTTGGAGGACATAAAGCATGG CAGAATTTCCTACTGGAATAGCGGGGATGAGTCTTTGACTGACAGCTGCTCCCTGGAGGTCAGCGACAGA CACCATGTGGTGCCAATCACTCTCAGAGTGAACGTTCGGCCAGGGGACCGTGAAGGTCCTATGTCAGTCC TTCCTGCTGGTACTCTGGAGTCCTATCTAGACGTCTTAGAGAATGGGGCTACTGAAGTCACTGCCAATAT CATTAAGGGGGCCTATCAGGGTACCGATGATTTGATGCTGACCTTCCTGTTAGAAGGCCCACCCTCCTAT GGGGAAATCTTAGTCAACGGAGCTCCAGCTGAGCAGTTCACCCAGAGGGACATCCTGGAGGGCTCTGTTG TCTACGCTCACACCAGTGGTGAGATTGGCCTGTTGCCCAAAGCTGACTCTTTTAACCTGAGTCTATCAGC TATGTCTCAAGAATGGAGAATCGGTAGCAGCATCGTTCAAGGCGTCACTGTGTGGGTGACCATCCTCCCC GTGGACAGCCAAGCCCCTGAGATTTCTCTTGGTGAACAGTTTGTAGTGCTGGAAGGTGACAAGAGTGTGA TAAGCCTGACCCACCTAAGTGCTGAGGACATGGACTCCCTGAAGGATGACCTCTTGTGCACAATAGTCAT TCAGCCAACCTCAGGCTATGTAGAGAACATTTCTCCAGCACCAGGCTCAGAGAAATCAAGAGCCGGGGTT GCCATAAGTGCCTTCACGCTGAAGGATCTCAGGCAAGGACACATTAACTATGTCCAGAGTGTCCACAGAG GAGTGGAGCCTGTCGAAGACCGCTTTATATTCCGTTGTTCTGACGGTATTAACTTCTCTGAGAGACAGAT ATTCCCCATTGTCATCATTCCTACCAATGACGAGCAGCCAGAAATGTTCATGAGGGAATTCATGGTGATG GAAGGCATGAGTCTGGTGGTCAACAGACTCATCCTCAACGCTGCTGATGCCGACATTCCCAGGGATGATC TAACGTTTACTATTACCCGGTTTCCAACTCACGGTCATGTCATGAACCAGTTAATCAATGGTACAGTGTT GGTTGAAAGCTTCACCCTGGATCAGATTATAGAGAGTTCCAGCATTATTTATGAGCACGATGACTCTGAG ACACAAGAGGACAGTTTTGTGATTAAACTGACAGATGGCAAGCACTCCGTGGAGAAGATGGTCCTCATTG TGGTCATCCCTGTTGATGACGAGACACCCAGAATGACCATCAATAATGGGCTAGAAATAGAAATTGGGGA AACCAAAGTTATCAACAACAAAGTCCTAATGGCAACCGATCTAGACTCTGATGACAAATCACTGGTTTAT ATTATCCGTTATGGACCAGGGCATGGCTTGTTACAGAGACAAAAACCTCTAGGTGCCTTTGAAAATATCA CTCTAGGCATGAATTTTACCCAGGACGAAGTGGACAGGAACTTGATTCAATATGTCCACTTTGGGCAAGA AGGTATTCGAGACCTGATTAAATTCGATGTGACAGATGGAACAAATGCTCTTATAGATCGCTACTTTTAC GTGACTATTGGAAGTGTTGACATTGTCTTCCCTGATGTGGTAAGTAAGGGCGTGTCCTTGAAAGAAGGTG GCAAAGTCACTCTGACAACGGATCTGCTGAGCACAAGTGACTTGAACAGCCCTGATGAGAACTTAGTTTT CACCATTACCAGGGCTCCTATGAGAGGTCACTTGGAGTGCACGGATCGAAGGGGACTGTCCATCACTTCT TTCACTCAGCTCCAGCTGGCTGGTAACAAAATCTACTACATACACACGGCTGAGGATGAGGTCAAAATGG ACAGCTTCGAGTTTCAAGTCACCGATGGGCGGAACCCTGTCTTCCGAACTTTCCGGATCTCAATCAGTGA CGTAGACAACAAAAAGCCAGTGGTCACCATCCACAACCTGGTGGTCAGTGAAAGTGAAAGTAAGCTGATC ACCCCCTTTGAACTCACTGTGGAGGACAGAGATACCCCTGACAGGCTCCTAAAATTCATTGTCACCCAGG TCCCTGTTCACGGTCACCTCCTCTTCAACAATACCAGATCTGTCATGGTTTTCACCAAGCAAGACTTGAA TGAAAACTTAATCAGCTACAAACACGATGGCACAGAATCCACGGAAGACAGCTTCTCCTTCACCGTGACT GACGGCACCCACTCGGACTTCTATGTTTTTCCTGATACAGTGTTTGAAACCAGGAGACCTCAAGTGATGA AAATCCAGGTGTTACCTGTTGACAACAGTGTCCCCCAAATTGTGGTGAACAAAGGAGCTTCTACCCTTCG TACCCTGGCCACTGGCCATTTAGGGTTCATGATCACAAGCAAAATACTCAAAGTGGAGGACAGAGACAGC CTGCATTTTTCTCTCAGGTTCATTGTGACAGAAGCCCCCCAACATGGCTACCTTCTCAACCTGGGCCAAG GAAACCACAGTGTCACACAGTTCACCCAAGCTGACATTGATGACATGAAAATATGCTATGTCTTGAGAGA GAGAGCAAATGCCACAAGTGATATGTTCCATTTCATAGTGGAAGATGACGGTGGAAACAGGTTAACCAAC CAGCATTTTCGACTGAATTGGGCGTGGATCTCCTTTGAAAAAGAGTATTACTTGATCAACGAAGACTCCA AATTTCTAGATATTGTTCTTACACGCAGAGGATACTTGGGAGAAACTTCATTTATAAGTATCGGCACCAG GGATGGGACTGCGGAAAAAGACAGAGACTTCAAGGGTAAAGCTCAGAAACAGGTACAGTTCAACCCCGGC CAGACCAGGGCCTCGTGGAGAGTGCGCATCCTGAGCGACGGGGAACACGAGCACTCGGAGACCTTCCAAG TGGTTCTCTCGGAGCCTGTGCTGGCAATCCTGGAGTTCCCCACAGTGACTACAGTGGAGATCATCGACCC AGGAGACGAATCAACCGTGTTCATTCCCCAGTCTGAGTACTCTGTTGAAGAAGATGTGGGTGAGCTGTTC ATTCCCATCAGGAGAAGTGGAGACATCAGCCGGGAGCTGATGGTGATCTGCTACACACAGCAAGGGACAG CCACCAGCACTGTGCGGACGTCCGTGCTCTCTTACTCTGACTACATCTCCAGGCCCGAGGACCACAGCAG CGTGATCCGCTTTGACAAAGACGAACGAGAGAAAATGTGTCGTATTTTGGTAATTGATGACTCTTTGTAC GAAGAGGAGGAGACTTTCCAGGTCCTTTTGAGCATGCCCATGGGCGGGAGGATCGGTGACAAGTTTCCAG GAGCCAATGTGACCATCCTCACAGACAGGGATGATGAGCCTGCCTTCTACTTTGGGGACACCCAGTACTC CGTGGATGAGAGTGCCGGCTACGTGGAGCTGCAGGTGTGGAGGACGGGGACCGACCTCTCTAAGCCTTCC AGTGTCACAGTGAGGTCCCGGAAAACAGAATCCCTCTCTGCAGATGCTGGAACAGACTATGTGGGAATCA GTCGCAATTTAGATTTTGCGCCTGGCGTCAACATGCAGACTGTTCGAGTGGTCATTCTGGATGACCTTGG ACGACCAATACTGGAGGGAATTGAGAAGTTTGAACTGGTACTTCGAATGCCTATGAACGCTGCCCTTGGG GAGCCCAGCAAGGCCACCGTGTCCATAAATGACTCTGCCTCAGACTTGCCTAAAATGCAATTCAAAGAGA GAGTGTACACTTGCAACGAGAATGACGGGCGTGTAGTGGCCATGATCTACAGGAGCGGTGACATCCAGCA CAGGTCTTCTGTGAGATGTTACACGAGGCAGGGGTCTGCGCAGGTGATGATGGACTTCGAGGAACGCCCA AATACCGATGTTTCCACTGTCACATTCCTCCCTGGTGAGATGGAGAAGCCGTGTGTCCTCGAGCTGATGG ATGATGCTGTCTATGAGGATGTAGAGGAGCTGCGCCTGGTACTTGGCACGCCTCAGGGCAGCTCTGCCTT TGGAGCTGCAGTGGGCGAGCAGAACGAAACCCTGATAAAGATCCAGGATGAGGCTGACAAAGCTGTTATC AAATTTGGAGAAACCAAATTTAGTGTCACTGAGCCCAGCAGACCAGGAGAGTCGGTGGTTGTCAAAATCC CGGTCATCCGTCAAGGAGACACTTCAAAGGTCTCCATCGTGAGAGTCCACACCAAGGATGGCTCGGCTAC CTCCGGAGAGGATTATCACCCTGTGTCAGAAGAAATCGAGTTTAAGGAGGGAGAAACCCAACACACTGTT GAAATTGAAGTAATCTTCGACGGGGTGAGAGAGATGAGGGAGGCCTTCACTGTTCACCTAAAACCAGATG AAAATATGGTGGCAGAGACACAGGCAACCAAGGCCATTGTATATATAGAAGAAATCCACAGCATGGCAGA TGTCACCTTTCCTTCTGTCCCTCACATTGTGTCCTTGCTGATATACGATGATCCCTCCAAAGGCAGAGAG GACACTGGACCTGTGTCTGGCTACCCGGTTGTCTGCATTACGGCCTGCAACCCCAAATATCCAGACTATG AGAAAACAGGCTCTATTTGTGCCAGTGAGAACATCAACGACACTTTGACCCGATACAGATGGCTGATCAG CGCTCCCGCTGGCCCTGACGGTGTGACCAGCCCCATGAGAGAGGTCGACTTCGACACCTTCTTCACATCA TCCAAAATGATTACATTAGACTCCATATACTTTCAGCCTGGCTCCCGGGTCCAATGTGCGGCCCGAGCAG TGAACACCAATGGGAATGAAGGCCTGGAACTAATGAGCCCCATCGTTACCATCGGCAGAGAGGAAGGTCT CTGTCAGCCCCGTGTGCCTGGGGTAGTGGGGGCAGAGCCATTCTCCGCTAAGTTGCGCTACACTGGCCCA GAGGACCCAGACTTTGCCAACCTCATCAAACTCACTGTCACTATGCCGCACATAGACGGCATGCTCCCTG CCATCTCCACAAGAGAGCTGTCCAACTTTGAGCTGACCCTCAGCCCTGACGGCACGAGAGTTGGGAATCA CAAATGCTCCAACCTGCTGGACTACAATGAAGTAAAGACCCACCATGGCTTCCTGACCAACGCCACAAAG AACCCAGAGGTCATTGGAGAGACCTATCCTTACCAGTACAGTGTGCCGGTCAGGGGTTCCAGCACCTTAC GCTTCTACCGAAACCTGAACCTGGAAGCATGTCTGTGGGAGTTTGTCAGCTACTATGACATGACGGAGCT CCTGGCTGACTGTGGAGGAACCATCGGGACCGATGGCCAGGTCCTCAACCTCGTGCAGTCCTACGTGACC CTTCGAGTTCCTCTGTACGTTTCCTACGTGTTCCACTCCCCCGTGGGCGTGGGCGGCTGGCAGCATTTCG ACTTGAAGTCAGAGCTCCGACTCACATTCGTGTACGACACTGCCATCTTGTGGAACCATGGGATCGGCAG CCCCCCGGAAGCTGAGCTGCAAGGCTCTCTTTACCCAACCAGCATGCGCATTGGTGAGGAGGGACGCCTG GCTGTGAACTTCAAAACAGAGGCTCAGTTCCATGGCTTGTTTGTGCTGTCCCATCCTGCTTCCTTTACCA GCTCACTGATCGTGTCAGCTGACCATCCGGGCCTCACATTTTCCCTCCGCCTTATACGGAGTGAACCAAC CTACAATCAGCCAGTCCAGCAGTGGAGTTTCGTGTCAGACTTTGCGGTCCGTGACTACTCGGGCACCTAC ACAGTAAAGTTGGTACCCTGCACCACTCCATCCAACCAGGAGTACCGTCTGCCAGTCACCTGCAACCCCA GAGAGCCTGTCACCTTTGACCTTGACATTCGATTCCAACAGGTCAGCGATCCCGTGGCGACTGAGTTCAG CCTGAACACCCACATGTATCTGCTGTCTAAGAAGAATCTCTGGTTGTCTGATGGGTCCATGGGATTTGGG CAGGAAAGCGACGTGGCTTTTGCAGAAGGGGATGTGATTTATGGCCGTGTCATGGTCGATCCTGTCCAGA ACCTCGGTGACTCCTTTTACTGCAGCATTGAGAAGGTGTTCTTATGCACGGGGGATGACGGCTACGTGCC CAAGTACAGCCCAGCGAATGCGGAATATGGCTGCCTGGCTGATTCTCCTTCACTCTTACATAGATTCAAA ATCGTGGATAAGGCTCAGCCAGAGACACAAGCCACCAGCTTTGGAGATGTCCTGTTTAACGCCAAACTGG CAGTGGATGACCCTGAAGCTGTTCTCTTAGTGAATCAGCCTGGATCCGATGGTTTTAAAGTAGACTCAAC ACCACTCTTTCAGGTTGCCTTGGGCCGAGAGTGGTACATACACACAATCTATACGGTAAAGTCTAAGGAC AACACCCATCGAGGCATTGGCAAGAGGAGCCTGGAGTACCAGTATCACTCAGTGGTGCATCCCGGACCAC CGCAGGCAACCACCAAGAGCTGGAAGAAGAGAGCAGTCAGGAGCACGCCCTCCCTCGCAGGGGAGATCGG TGCTGAGAACAACCGGGGAACAAACATCCAACATATCTCCCTGAACCGCCGTGGCAAGAGGCAGGTCCCC CACGGAAGAATTCCTCCTGACGGCATCCTGCCCTGGGAGCTCAATAGTCCCAGCTCTGAAGTGAGCCTTG TCACTGTCCTGGGAGGCCTCACGGTGGGCTTGCTCACAGTCTGCCTGGCTGTGGCTGCGGCCGTCATGTG CAGGAACAGGAGCACTAAGGGCAAGGATACTCCAAAGGGCTCTGGAAGCACTGAGCCCATGATGTCCCCG CAGAGCCACTACAACGACAGCTCGGAGGTGTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_172862 |
Insert Size | 9483 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_172862.3, NP_766450.2 |
RefSeq Size | 12368 bp |
RefSeq ORF | 9483 bp |
Locus ID | 242022 |
UniProt ID | Q6NVD0 |
Gene Summary | Extracellular matrix protein required for maintenance of the integrity of the skin epithelium and for maintenance of renal epithelia. May be required for epidermal adhesion.[UniProtKB/Swiss-Prot Function] |
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