Ankhd1 (NM_175375) Mouse Untagged Clone
CAT#: MC225354
Ankhd1 (untagged) - Mouse ankyrin repeat and KH domain containing 1 (Ankhd1), (10ug)
"NM_175375" in other vectors (2)
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Ankhd1 |
Synonyms | 1110004O12Rik; 4933432B13Rik; 9130019P20Rik; A530027J04Rik; A630021B20Rik; AA571404 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225354 representing NM_175375
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCTGACGGACAGCGGGGGCGGCGGCACCTCCTTTGAGGAGGATTTGGACTCCGTAGCTCCGCGATCCG CCCCAGCTGGGGCCTCGGAGCCGCCTCCGCCGGGAGGGGTCGGGCTGGGAATCCGCACCGTGAGGCTCTT TGGGGAGGCTGGGCCCGCGCCGGGAGTCGGTGGCGGCGGCGGCGGCGGCGGCGGCAGCAGCAGCAGCAGC AGCGCGGGCGGAGGGGACGCAGCGCTGGATTTCAAGTTGGCCGCTGCTGTGCTGAGGACGGGCGGCGGAG GTGGTGCCTCTGGGAGCGACGAGGACGAGGTGTCCGAGGTAGAATCATTTATTTTGGACCAAGAAGATTT GGATAACCCAGTCCTTAAAACATCAGAGATATTCTTATCAAGTACAGCAGAAGGAGCAGATTTGCGCACA GTGGATCCAGAGACCCAAGCGAGACTGGAAGCATTGCTAGAAGCAGCAGGAATTGGCAAATTGTCAACTG CTGATGGTAAAGCTTTTGCAGATCCTGAAGTACTCCGGAGACTGACATCCTCAGTTAGCTGTGCCCTGGA TGAAGCCGCTGCTGCACTGACACGGATGAGAGCAGAGAACACACACAGTACAGGACAAGTGGATACTCGC AGTCTGGCAGAAGCTTGTTCAGATGGAGATGTGAATGCTGTTCGTAAATTACTAGATGAAGGCAGAAGTG TAAATGAACATACAGAAGAAGGAGAAAGCCTGCTGTGTTTGGCTTGTTCAGCAGGATATTATGAACTAGC ACAAGTACTACTAGCTATGCATGCTAATGTTGAAGATAGAGGGAATAAAGGAGATATAACTCCTTTGATG GCAGCTTCTAGTGGAGGTTATTTAGATATTGTGAAATTATTACTTCTTCATGATGCAGATGTCAACTCCC AGTCGGCAACAGGGAACACTGCACTGACTTATGCTTGTGCTGGAGGATTTATTGACATTGTAAAAGTGCT TCTTAATGAGGGTGCGAATATAGAAGACCATAATGAAAATGGACACACTCCCCTAATGGAAGCAGCCAGT GCCGGTCATGTAGAAGTTGCCAGAGTTCTTCTAGATCACGGTGCAGGCATCAACACTCATTCTAATGAGT TTAAAGAAAGTGCTCTGACACTTGCCTGCTACAAAGGCCATTTGGATATGGTTCGATTTTTGCTTGAAGC TGGTGCAGATCAAGAGCACAAAACCGATGAGATGCACACTGCCTTAATGGAAGCTTGCATGGATGGACAT GTAGAGGTGGCACGTTTGCTTTTAGACAGTGGTGCTCAGGTGAATATGCCTGCGGATTCCTTTGAGTCTC CATTGACTCTAGCTGCCTGTGGTGGACATGTTGAATTAGCAGCACTGCTTATTGAAAGAGGAGCAAATCT TGAAGAAGTTAATGACGAAGGATACACGCCTTTGATGGAAGCTGCTCGAGAAGGACATGAAGAGATGGTG GCACTTCTATTGGCACAAGGTGCAAATATAAATGCCCAGACAGAAGAAACTCAAGAAACTGCTCTTACCT TGGCTTGCTGTGGAGGCTTTTCTGAAGTTGCAGATTTCTTGATTAAGGCAGGGGCTGACATAGAACTTGG CTGTTCTACACCTCTCATGGAGGCTTCTCAGGAGGGACACCTGGAGTTGGTTAAATATTTGTTGGCTGCT GGTGCTAATGTGCATGCTACCACAGCTACAGGAGACACAGCTCTAACCTATGCTTGTGAAAATGGACATA CAGATGTTGCAGATGTTCTACTTCAAGCAGGGGCCCATTTAGAACATGAATCTGAAGGTGGAAGAACACC TTTGATGAAAGCTGCAAGAGCGGGTCATTTGTGCACTGTTCAGTTTCTTATTAGCAAAGGTGCCAATGTG AATAGGGCTACAGCCAATAATGATCACACAGTAGTGTCACTGGCATGTGCAGGAGGCCATTTGGCAGTGG TTGAACTGCTCTTGGCTCATGGAGCTGACCCTACTCATCGACTCAAGGATGGATCAACAATGCTTATTGA AGCTGCAAAAGGTGGCCATACTAATGTTGTTTCTTATCTGTTGGATTATCCAAATAATGTTCTGTCAGTT CCCACCACAGATGTATCTCAACTTACCTCTCCGTCACAAGATGAGTCTCAGGTTCCACGAGTACCCATAC ACACACTTGCCATGGTTGTGCCTCCCCAGGAACCTGACAGAACTTCCCAGGAGACATCTACTGCCCTTTT AGGAGTACAAAAAGGTGCATCCAAGCAGAAGTCCAGTTCTCTGCAGGTAGCAGATCAGGACCTACTGCCA CCTTTTCACCCATACCAGCCTTTGGAGTGCATAGTAGAAGAGACTGAAGGCAAGCTGAATGAACTGGGGC AAAGAATTAGTGCTATTGAAAAAGCACAGCTTAAGTCATTGGAGTTAATTCAAGGTGAGCCTCTAAACAA GGATAAGATAGAAGAACTTAAAAAGAACAGAGAAGAGCAAGTCCAGAAGAAGAAGAAAATACTGAAAGAA CTACAGAAGGTGGAAAGGCAGTTACAGATGAAAACACAGCAGCAATTTACCAAAGAATACTTGGAAACAA AAGGTCAGAGAGACACAGAGTCTCCACACCAGCAATGTTCTAATAGAGGAGTCTTCATGGCAGGGGAAGA AGATGGCAGTCTCCCACAGGATCACTCTTCAGAATCACCCCAGCTTGATACAGTCTTATTTAAGGATCAT GATATTGATGATAAGCAACAGTCTCCACCATCGGCAGAACAAATTGACTTTGTCCCAGTCCAGCCTCTAT CATCTCCACAATGTAACTTTTTCAGTGACTTAGGTTCTAATGGGACAAATTCTCTTGTGCTTCAGAAAGT ATCAGGTAACCAGCAGATTGTAGGACAGCCTCAGATTGCGATTGCTGGACATGAGCAGGGGCTATTAGTT CAAGAGCCAGATGGACTCATGGTTGCAACTCCAGCCCAGACGCTTACCGACACTCTTGATGACCTGATAG CAGCTGTGAGTACCAGAGTGCCTGTTGGTTCAAACAATCCCTCTCAGACCACAGAATGTCCTACACCTGA ATCCTGTTATCAGACTCCAAGCAATATGGCTACCCCATCCACTCCACCTGTGTATCCTTCGGTTGACATT GATGCACATACGGAAAGCAATCATGACACAGCTTTAACACTGGCCTGTGCAGGTGGTCATGAAGAACTCG TATCTGTTCTCATTGCTCGGGATGCTAAAATTGAGCATAGAGACAAAAAAGGTTTTACCCCACTGATCCT GGCGGCAACAGCAGGGCATGTTGGAGTTGTTGAAATCCTTTTGGATAAAGGTGGAGATATAGAGGCACAA TCTGAACGAACTAAAGATACTCCACTTTCTTTGGCATGTTCTGGTGGACGGCAGGAGGTGGTAGATTTGC TGCTGGCCCGAGGAGCCAATAAAGAACATAGGAATGTGTCTGATTATACACCACTGAGTCTGGCTGCATC TGGAGGATACGTGAATATTATTAAGATTTTACTTAATGCTGGGGCAGAAATTAATTCAAGGACTGGAAGT AAACTAGGTATTTCTCCATTGATGTTGGCTGCAATGAATGGACATGTTCCCGCAGTGAAATTGCTGCTTG ATATGGGTTCAGACATTAATGCTCAGATAGAGACCAACCGGAACACAGCTCTCACCCTGGCCTGTTTCCA GGGTCGAGCAGAAGTAGTGAGTTTGCTTTTGGACCGCAAAGCCAATGTTGAACACAGGGCAAAGACTGGT CTTACACCCTTGATGGAAGCAGCTTCTGGAGGATATGCAGAGGTTGGAAGAGTTCTCCTTGATAAAGGAG CAGATGTCAATGCACCTCCTGTGCCTTCCTCAAGAGACACTGCTTTAACCATAGCAGCAGACAAAGGCCA CTACAAATTCTGTGAGCTCCTGATTAACAGGGGAGCACATATTGATGTTCGTAACAAGAAGGGAAATACA CCACTTTGGCTGGCATCCAATGGTGGTCATTTTGATGTAGTACAATTGCTAGTGCAAGCAGGTGCTGATG TGGATGCAGCAGACAACCGAAAAATCACACCTCTTATGTCAGCATTTCGCAAGGGTCATGTAAAAGTTGT TCAGTATTTGGTGAAGGAAGTCAGTCAGTTTCCATCTGATATAGAATGCATGAGATACATAGCAACAATT ACAGATAAGGAACTGCTGAAGAAGTGTCACCAATGTGTTGAGACAATTGTGAAGGCTAAAGATCAGCAGG CTGCAGAAGCAAATAAAAATGCAAGCATTCTCCTAAAAGAGCTGGATCTAGAAAAGTCAAGAGAAGAGAG CAGAAAGCAAGCTCTTGCTGCTAAAAGAGAGAAGCGAAAAGAAAAGAGGAAAAAGAAAAAAGAGGAACAG AAAAGGAAACAGGAAGATGAGGAGAACAAACCTAAGGAGAATTCAGAACAACCAGAGGGTGAAGATGAAG AGAATGATGAAGATGTGGAGCAAGAAATTCCCATAGAGCCTCCGAGTGCAACCACCACTACTACAATTGG AATCTCTGCTACATCTACCACGTTTACAAATGTATTTGGCAAAAAAAGAGCCAATGTAGTGACAACCCCC AGCACCAATCGGAAAAATAAGAAGAATAAGACAAAAGAGTCCCCTCCCACAGCGCATTTAATTTTACCTG AGCCACATATATCTTTAGCACAACAAAAAGCAGATAAAAATAAAATAAATGGAGAGCCTAGAGGTGGCGG CGCAGGTGGAAATAGTGACTCGGATAACATAGATAGCACAGACTGCAACAGTGAGAGCAGCAGTGGTGGG AAGAGCCAAGAGTTCAGTTTCCCTGTGGATGTGAATCCCGCCAGTGACAAGAGGTGCTCCACAGTTGTCA GTTCTCAAGAGGAAAAGGCAGTTACCACCACTTCCAAGACTCAGACACGCCTTGATGGTGAAGTAAATTC CATGTCAACAAGCTACAAATCTTTGCCATTAAGTTCTCCAACCATGAAACTGAATCTCACTAGTCCTAAA AGGGGTCAAAAAAGAGAAGAAGGGTGGAAAGAAGTTGTTAGAAGGTCAAAGAAATTATCTGTTCCAGCCT CAGTGGTGTCGAGAATAATGGGAAGAGGAGGATGCAACATTACAGCAATACAAGATGTTACTGGTGCCCA TATTGATGTGGATAAACAAAAAGATAAGAATGGAGAGAGAATGATTACAATAAGGGGTGGTACAGAATCA ACAAGATATGCAGTTCAACTTATCAATGCACTTATTCAAGATCCTGCAAAGGAACTAGAAGACTTGATTC CTAAAAACCATATCAGGACACCTGCCAGCACCAAGTCCATTCATACAAACTTCTCATCTGGAGTAGGCAC CACAGCAACTTCCAGCAAGAATGCATTTCCCTTGGGTGCTCCAGCTCTTGTGACATCACAGGCAACAACA TTATCTACGTTCCAGCCCACTAATAAACTTAGTAAGAACGTGCCAACAAATGTACGCTCTCCTTTCCCGG TGTCTCTTCCCTTAGCTTATCCTCATCCTCATTTTGCTCTCTTGGCTGCTCAAACTATGCAACAGATTCG GCATCCTCGCTTACCTATGGCACAATTTGGAGGAACCTTCTCACCTTCACCTAACACCTGGGGACCATTC CCCGTGAGACCTGTGAATCCTGGGAATACTAGTAGTTCTCCAAAGCATAATAATACAGCCCGTCTACCTA ATCAGAATGGGCCTGTTTTACCATCAGAATCTCCTGGACTGGCTACTACCGGTTGTCCTATCACTGTCTC TTCTGTAGTTGCTGCCAGTCAGCAACTATGCATGACTAATTCCCGGACTCCTTCATCCGTCAGAAAGCAG TTGTTTGCTTGTGTGCCTAAGACCAGTCCTCCAGCAACAGTGATTTCCTCCGTGACAAGCACTAGTAGTT CCTTGCCTTCTGTGTCTTCCACATCTATCACTAGTGGACACGTTACCACCACATTTATGCCTGCACCTAC TCAAGTACCACTTTCTTCACAAAAGGTGGAGTCTTTCTCTGTCATACCGCCTCCCAAAGAGAAAGTGTCC ACACAGGACCAGCCCTTGACAAACCTATGTACACCATCTCCAGCAGCTACCAGTTGTAATAGCTCTGCCA GCAACACCTCAGGAGCTCCAGAGGCTCATCCATCCAGTACCCCTCCTCCTCCTCCGGGTAATACACAAGA GGAGGGACAGCCGTCCAAGGCATCTGATTTAAGTCCTGTGTCAATGCCTTTTGCCTCGAACTCAGAAACT GCTCCATTGACTTTGGCATCACCCAGATTGGTTGCTGCTGATAATCGGGACACTGGTAGTTTACCTCAGT TAACTGTACCGGCACCTCGAGTTTCTCATCGAATGCAGCCCAGAGGTTCTTTTTACTCAGTGGTACCAAA TGCAACTATGCACCAGGATCCCCAGTCAATTTTTGTTACCAATCCAGTTCCTTTAACACCACCTCAAGGT CCACCGGCTGCAGTGCAGCTTTCCTCAGCTGTGAACATTATGAATGGTTCTCAAGTGCACATAAACCCAG CAAATAAGTCTTTGCAACCAACATTCGGCCCAGCCACACTTTTTAATCACTTCAGTAGTCTTTTTGATAG TGGTCAGGTGCCAGCTAACCAAGGGTGGGGAGATGGACCTCTGCCCTCAAGAGTTGCTGCAGATGCCTCT TTCACTGTTCAGTCAGCTTTCCTGAGTAACTCTGTACTTGGACACTTGGAAAATGTGCACCCTGACAACT CCAAAGCACCTGGCTTCAGACCACCGTCACAGAGAGTTTCCACTAGTCCAGTTGGGTTGCCATCTATTGA CCCATCAGGCAATTCCCCATCTGCTGCTGCTCCTCTGACAAGTTTCTCTGGCATACCAGGGACAAGAGTT TTTCTGCAAGGGCCAGCACCTGTCGGCACTCCTAGTTTCAACAGACAACATTTTTCTCCCCACCCTTGGA CAAGCGCCTCAAACACATGTGACTCTCCTATTCCATCTGTTTCTTCGGGATCATCTTCACCTCTTTCAGC CACTTCAGCACCTCCAACATTGGGCCAACAACCAAAAGGAAACAGTGCCAGTCAGGATCGAAAGATACCT CCTCCCATTGGAACAGAGAGGCTGGCCAGGATTCGGCAAGGAGGCTCTGTTGCACAAGCACCTGTAGGGA CCAGTTTTGTTGCTCCTGTTGGACACGGTGGGATCTGGTCATTTGGTGTCAATGCTATGTCAGAAGGCTT ATCAGGTTGGTCACAATCTGTTATAGGAAACCATCCAATGCATCAACAGTTATCAGACCCAAGCACATTC TCCCAGCATCAGCCAATGGAGAGAGATGATTCAGGAATGGTAGCTCCCACTAACATTTTTCACCAGCCAA TGGGCCTGCCGATTTCCATGTATGGAGGCACCATTATACCCTCTCACCCTCAGCTTGCTGACGTTCCAGG GGGCCCACTGTTCAATGGACTTCACAACCCAGATCCTGCTTGGAATCCTATGATAAAAGTTATCCAGAAT TCAGCTGAATGCACTGAAGCCCAGCAGATTTGGCCTGGCACGTGGGCACCTCATATTGGAAACATGCATC TCAAATATGTCAACTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_175375 |
Insert Size | 7647 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_175375.3, NP_780584.2 |
RefSeq Size | 8251 bp |
RefSeq ORF | 7647 bp |
Locus ID | 108857 |
Cytogenetics | 18 B2 |
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