Zfp106 (NM_011743) Mouse Untagged Clone
CAT#: MC225003
Zfp106 (untagged) - Mouse zinc finger protein 106 (Zfp106), (10ug)
CNY 30,210.00
货期*
8周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Synonyms | Cd-1; D2Dcr28; H3a; Sh3bp3; sirm; zfp-106; Znf106 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225003 representing NM_011743
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGTACGAGAACGAAAATGCATATTGTGCCACATCGTGTATGGCTCAAAAAAGGAGATGGATGAACACA TGCGAAGCATGTTGCATCACAGGGAACTTGAGAACCTGAAGGGCAGGGACATTAGTCATGAGTGCCGAGT GTGCCGGGTCACAGAAGTGGGTCTCTCTGCATATGCAAAGCACATTTCTGGCCAGTTGCACAAAGATAAT GTTGATGCCCAGGAAAGAGAAGATGATGGAAAGGAAGAGGAAGAGGAAGAGTATTTTGATAAGGAACTTG TTCAGTTAATACAAGAAAGAAAAGAACAAAGTCGACAAGATGAACCTCCCAGTAACAGCCAAGAAGTAAA CTCAGATGACAGGCAGCCCCAGTGGAGACGAGAAGACCGAATCCCTTACCAAGACAGAGAGAGCTATAGT CAGCCACCAAGACACCATCGTGGACCCCCACAGAGAGACTGGAAATGGGAAAAGGATGGCTTTAATAGTA CTAGAAAAAACAGCTTTCCACATTCTTTGAGGAATAGTGGTGGACCAAGAGGAAGTTCTGTCTGGCATAA AGGTGCTACAAGAGGCTCTTCAACTTGGTTCCTTAATCATAGCAATTCTGGAGGAGGCTGGCATTCAAAC AATGGGATGGTAGATTGGAATTATAATGGTACAGGAAGGAATTCCAGTTGGCATTCTGAAGGAACAGGTG GCTTTCCCAGCTGGCACATGAACAACAGTAACGGAAACTGGAAATCCAGTGTACGTAGTACGAATAGCTG GAATTACAATGGCCCTGGAGACAAATTTCAACAAGGCAGAAACAGAAATCCTAACTATCAAATGGAAGAC ATGACCAAGATGTGGAACAAGAAATCTAATAAGCCAAGCAAGTACAGTCAGGAGAGATGCAAGTGGCAGA GGCAAGACAGGGACAAAGCTGCCAAGTACAGGAGTCCTCCTGAGGGATACGCAAGCGATACGTTTCCTTC AGAAGGCTTACTTGAGTTCAATTTTGAACAGCGAGAAAGTCAAACCACTAAACAAACAGACACGGCAGCC TCAAAAATTAATGGAAAAAATGGCACCAAAGCAAGGGACAAGTTCCGCCGCTGGACACCTTACCCTTCCC AGAAGACTCTAGATTTACAGTCAGCCCTGAAAGAAGTCATTGGCAGCAAGTCAGACACACTAGAGAAGCC TCTCTTTAATTTTAGCTTAATAACTGCAGGACTGCGCAAACCAGTTGATAAAACAAGTAATCCTCCAGTG ATAAAAACACAAAAAGCAGGACCTCCTGGATCTCCCAGTCACAAAGCCATTTCTGATGGCACTGCTTTCT GTGAGGTGCCAAGAGCTTGCCCCATTACCGAGCAATCTGAGCCACATCAGAAGTCAAATAAGATTCCATT ACTGAAATCCCCACTCCTTCCACTTCCAACCCCTAAATCAGGTCCTCATAAGCAAAATTTAAAGAACCGC TCAAAAAATAAGGAGACAAAGTCCTTTCCTTCTGGAGATCACTCACATCTCCTGAACACTTCTACTTTAG AAGGTAGCCATGGTTCTTCCTACACATCCAAATCACGCGGTTTATGTCCTCGTGTTTTAAAGGAGAATAA AACTGTATCAGGCACTCAAAAAGAACCTGACGAGAAGTTAAATAGCACATCACAGAAAGCCCAAGACACA GTGCTACAGTGTCCCAAAACACTGCAGAATCCACTCCCTACCACACCCAAAAGGACGGAGAACGATGCAA AAGAAAGTAGTGTAGAAGAGTCTGCCAAAGACTCTCTGAGCATCGAGTCTCAGCCACACTCAGCTGGAAA CAGTGCCATGACATCTGATGCAGAAAACCATGGCATAAAAAGTGAAGGTGTGGCTTCACTGACCACAGAG GTTGTGTCCTGCAGCACTCACACCGTGGATAAGGAACAAGGGAGCCAGATCCCAGGAACACCCGAGAACC TCTCCGCCTCCCCATGTAATTCCACAGTTCTCCAGAAAGAGGCTGAGGTACAAGTGTCAGCAGCGACCAG TCCACACTCTGGCTTACTGCTAAACTTGAAGACCTCTCTAGAAGATGCGCAGGACAACAACCTTGTTAAA TCTGATGGACCTTTTGAAACTGAGAGCTTTGAGGACACTAGCCTGGATGCAGAGCTTCAAAAACCTGATC TCAATAATCAGCCCCCAGGCACGCTTCTTCCCGAACTAAGTAAACTTGGTTTTCCCGCCTCGCTCCAGAG AGATCTAAGCCGACACATCAGTTTGAAGTCCAAAACAGGAACACATCTCCCAGAGCCAAACCTCAATAGC GCTCGACGAATTCGCAATGTTAGTGGCCATAGAAAGAATGAAACAGAAAAGGAATCTGGGCTTAAGCCAA CCCTACGACAGATTCTAAATGCATCAAGGAGAAATGTCAACTGGGAACAGGTCATTCAGCAAGTAACCAA GAAAAAGCAAGAGCTGGGCAAAGGCTTACCCAGGTTTGGCATAGAAATGGTACCTTTGGTTCAAAATGAA CAGGAAGTCTTGGATTTAGATGAAGAGCCTGATCTGTCCAGTCTGGAAGGATTCCAGTGGGAAGGAGTTT CCATTCCCTCATCCTCTGGCTTGGCAAGAAAGCGAAGTCTTTCTGAAAGCAGCGTGGTCATGGACAGGGC TCCTGTGTATAGCTTCTTTACTGGGGAGGGTACTGGTAAAGAAAATGAAGCCCAGCAGAGTCCTTCACCT AATACTGCCCTGAGTGCTGCCCAGAGTCAGAAGACAGCCATGTATCTTGAACAGGAAGTGGCCCCTCTGA CTCCCTCTGTCGGAACAGGTGAAAGGGTTGGAAACATTCCTACCCAGCGGCGACATAGTGCACAGTTACC GTCTGGTCACATAATGCCTGTCATGCATTCAGCCCGAGACCTGCACAGCCAGGAGAGGTCTACCCCACTG TCAGAGCGCCATGCCCAGGAGAGCACTGGAGAAGGAAACTCACTCACATCAAATGCATCTTCAGGTCATG CAGTCTCCAGCTTAGCAGATGCAGCCACTGACAGCAGCTGTACCTCTGGTGCTGAGCAAACCGATGGTCA CAGTATTAGAAAGAAGCGAAGAGCCACCGGGGATGGATCTTCCCCTGAACTACCAAGTCTTGAGAGAAAA AATAAACGAAGGAAAATTAAAGGGAAGAAAGAACGTTCTCAGGTTGACCAGCTATTAACTATTTCCTTAA GAGAGGAAGAACTGAGCAAGTCTCTGCAGTGCATGGACAACAAGCTCCTGCAGGCGCGGGCAGCACTGCA GACAGCGTACGTTGAAGTTCAGAGGCTACTCGTGCTTAAGCAGCAGATAACTGTGGAGATGAGTGCACTG AGGACTCACAGAATACAGATTCTACAAGGATTGCAAGAAACATATGAACCTCCTGAGCACCCAGACCAGG CTCCCTGTAGCCTCATATCACGAGAACAAAGGAACAGCCGATCTCAGACATCTTTTGAGACAGCTCTGCT GCCTGCACCCTTTTTCCCGGGGTTTCTGGATCCACCTCCTTCCCATGCATCTCTACCATCCTCTGGAAAC CCTCTCCAAATAACCACGTGTACTTTACAAGCCCATGGCACTGCCCCTGATTCATCGGTTCAGATTAAAC AAGAGCCCATGTCTCCTGAACAAGAGGGGAATATGAATGCTTTGCCACAAGGCTGTGCTTCCAATGTGTC CAAGGAATTACTGCAAACTAATAGAGTGGTCGATGACGGCTCTTCAGTTTACCCAGCCATCCCTGCAGTG ATAGCATCAGAGTCAACAGAGAACTGCCAGGAGGTTAGCAAAGATCTGAATTTTTCTGTGGAGCAAGGAA ATTCCAGAAGCAAAGGAAACTCTCCCTCTTGCCAGTCTCCTGATCTTCCTGGCATAAACAGAGGTGAAGA GACAGCCAAAGGCAGCAGTGGATCTGAAGCCTGCAGCAGTTCTTTTCTGAGATTGTCTTTCACTCCCGAA ACGCCTGCAGAGAAGGAAACTCAGTCTCCAGCTGACCAGCCTGAGCAGCAGGCAGAATCCACACTGGCAT CAGCTGAAACTAGAGGTAGCAAGAAGAAGAAGAAACTTCGGAAGAAGAAGACGCTTCGGGCCACTCATGT TCCTGAGAACAGTGACACAGAGCAGGATGTGTTCACGGCTAAGCCTGCAAGGAAGGTCAAAACTGCAAAG GCAGCTAAAGGGGCGAAAGTGACAACCAGCCAGACTGGTCAGGAGCAAGGAACTGCCAGAGATGAGCCAG ACAGCGATTCTTCTCTGGAAGTCCTGGAAGTCACAAATCCTCAGTTAGAAGTAGTTGCCATTGATACTTC TGAATCGGGAGACGAGAAACCTGACAGTCCATCGAAAAAAGATGCCTGGATCGCTGCAGAACAGAACCCC ATAGAAACTTCTCGTTCTGGTTGTGATGAGGTTAGCTCTACCAGTGAGCTTGGCACCCGCTACAAGGATG GTGTTCCTGTGAGTGTGGCGGAAACCCAGACGGTGATCTCCATCAAAGCATCTAAGCACTCTTCAGAAAT ATCTTCAGAGCCGGGAGATGATGAGGAGCCTACAGAAGGAAGCTTCGAAGGACACCAGGCTGCAGTGAAT GCAATTCAGATATTTGGAAACTTCCTGTATACTTGTTCAGCAGACACAACTGTCCGGGTTTATAATCTGG TGAGTCGAAAGTGTGTTGGTGTCTTTGAGGGACACACTTCCAAAGTGAACTGCCTTCTTGTCACTCACAC CTCTGGGAAGAGTTCTGTCCTCTACACGGGTTCCAGTGACCACACCATCCGCTGCTACAATATTAAGACC CGAGAGTGTATGGAACAGTTACAGCTGGAAGACCGTGTCCTCTGCCTTCATAATAGATGGCGAACCCTCT ATGCTGGACTAGCAAATGGCACTGTGGTCACATTCGACATAAAGAACAACAAGCGACAGGAGATCTTTGA ATGCCATGGCCCTCGGGCAGTCAGCTGCCTCGCAACAGCTCAGGAAGGTGCCCGAAAACTGCTGGTTGTA GGATCTTACGACTGCACCATTAGTGTTCGTGATGCACGGAACGGACTGCTGCTCCGAACCCTGGAGGGCC ACAGCAAGACTGTTCTGTGCATGAAGGTAGTGAATGACCTTGTGTTCAGTGGCTCCAGCGACCAGTCGGT GCATGCTCACAACATCCATACTGGGGAGCTTGTGCGCATCTATAAAGGCCACAACCATGCAGTCACTGTG GTGAATATTCTGGGGAAAGTGATGGTGACTGCTTGCCTGGACAAGTTTGTTCGTGTCTATGAGTTACAGT CCCATGATCGACTGCAAGTTTATGGAGGGCACAAAGACATGATTATGTGTATGACCATCCATAAGAGTGT GATTTACACTGGCTGTTATGATGGCAGCATCCAGGCTGTGAGGCTCAATCTGATGCAGAATTACCGCTGT TGGTGGTATGGCTGTACTCTGATATTTGGCGTTGTGGATCACTTGAAACAACACTTGCTGACTGACCACA CCAATCCCAACTTCCAGACGCTGAAGTGTCGATGGAGGAACTGCGATGCCTTTTTTACAGCCAGGAAAGG ATCCAAGCAGGACGTTGCAGGACATATTGAACGCCACGCTGAAGATGACAGCAAAATAGATTCATGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_011743 |
Insert Size | 5667 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. |
Reference Data | |
RefSeq | NM_011743.2, NP_035873.2 |
RefSeq Size | 9100 bp |
RefSeq ORF | 5667 bp |
Locus ID | 20402 |
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