ANKRD11 (NM_001256182) Human Untagged Clone
CAT#: SC332314
ANKRD11 (untagged) - Homo sapiens ankyrin repeat domain 11 (ANKRD11), transcript variant 1
CNY 34,300.00
货期*
14周
规格
Product images
经常一起买 (4)
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | ANCO-1; ANCO1; LZ16; T13 |
Vector | pCMV6-Entry |
Sequence Data |
>SC332314 representing NM_001256182.
Blue=Insert sequence Red=Cloning site Green=Tag(s) ATGCCCAAGGGTGGGTGCCCTAAAGCACCACAGCAGGAAGAGCTTCCCCTCAGCAGCGACATGGTGGAG AAGCAGACTGGGAAAAAGGATAAAGATAAAGTTTCTCTAACCAAGACCCCAAAACTGGAGCGTGGCGAT GGCGGGAAGGAGGTGAGGGAGCGAGCCAGCAAGCGGAAGCTGCCCTTCACCGCGGGCGCCAATGGGGAG CAGAAGGACTCGGACACAGAGAAGCAGGGCCCTGAGCGGAAGAGGATTAAGAAGGAGCCTGTCACCCGG AAGGCCGGGCTGCTGTTTGGCATGGGGCTGTCTGGAATCCGAGCCGGCTACCCCCTCTCCGAGCGCCAG CAGGTGGCCCTTCTCATGCAGATGACGGCCGAGGAGTCTGCCAACAGCCCAGTGGACACAACACCAAAG CACCCCTCCCAGTCTACAGTGTGTCAGAAGGGAACGCCCAACTCTGCCTCAAAAACCAAAGATAAAGTG AACAAGAGAAACGAGCGTGGAGAGACCCGCCTGCACCGAGCCGCCATCCGCGGGGACGCCCGGCGCATC AAAGAGCTCATCAGCGAGGGGGCAGACGTCAACGTCAAGGACTTCGCAGGCTGGACGGCGCTGCACGAG GCCTGTAACCGGGGCTACTACGACGTCGCGAAGCAGCTGCTGGCTGCAGGTGCGGAGGTGAACACCAAG GGCCTAGATGACGACACGCCTTTGCACGACGCTGCCAACAACGGGCACTACAAGGTGGTGAAGCTGCTG CTGCGGTACGGAGGGAACCCGCAGCAGAGCAACAGGAAAGGCGAGACGCCGCTGAAAGTGGCCAACTCC CCCACGATGGTGAACCTCCTGTTAGGCAAAGGCACTTACACTTCCAGCGAGGAGAGCTCGACGGAGAGC TCAGAAGAGGAAGACGCACCATCCTTCGCACCTTCCAGTTCAGTCGACGGCAACAACACGGACTCCGAG TTCGAAAAAGGCCTCAAGCACAAGGCCAAGAACCCAGAGCCACAGAAGGCCACGGCCCCCGTCAAGGAC GAGTATGAGTTTGATGAGGACGACGAGCAGGACAGGGTTCCTCCGGTGGACGACAAGCACCTATTGAAA AAGGACTACAGAAAAGAAACGAAATCCAATAGTTTTATCTCTATACCCAAAATGGAGGTTAAAAGTTAC ACTAAAAATAACACGATTGCACCAAAGAAAGCGTCCCATCGTATCCTGTCAGACACGTCGGACGAGGAG GACGCGAGTGTCACCGTGGGGACAGGAGAGAAGCTGAGACTCTCGGCACATACGATATTGCCTGGTAGT AAGACACGAGAGCCTTCTAATGCCAAGCAGCAGAAGGAAAAAAATAAAGTGAAAAAGAAGCGAAAGAAA GAAACAAAAGGCAGAGAGGTTCGCTTCGGAAAGCGGAGCGACAAGTTCTGCTCCTCGGAGTCGGAGAGC GAGTCCTCAGAGAGTGGGGAGGATGACAGGGACTCTCTGGGGAGCTCTGGCTGCCTCAAGGGGTCCCCG CTGGTGCTGAAGGACCCCTCCCTGTTCAGCTCCCTCTCTGCCTCCTCCACCTCGTCTCACGGGAGCTCT GCCGCCCAGAAGCAGAACCCCAGCCACACAGACCAGCACACCAAGCACTGGCGGACAGACAATTGGAAA ACCATTTCTTCCCCGGCTTGGTCAGAGGTCAGTTCTTTATCAGACTCCACAAGGACGAGACTGACAAGC GAGTCTGACTACTCCTCTGAGGGCTCCAGTGTGGAATCGCTGAAGCCAGTGAGGAAGAGGCAGGAGCAC AGGAAGCGAGCCTCCCTGTCGGAGAAGAAGAGCCCCTTCCTGTCCAGCGCGGAGGGCGCTGTCCCCAAA CTGGACAAGGAGGGGAAAGTTGTCAAAAAACATAAAACAAAACACAAACACAAAAACAAGGAGAAGGGA CAGTGTTCCATCAGCCAAGAGCTGAAGTTGAAAAGTTTTACTTACGAATATGAGGACTCCAAGCAGAAG TCAGATAAGGCTATACTGTTAGAGAATGATCTTTCCACTGAAAACAAGCTAAAAGTGTTAAAGCACGAT CGCGACCACTTTAAAAAAGAAGAGAAACTTAGCAAAATGAAATTAGAAGAAAAAGAATGGCTCTTTAAA GATGAAAAATCACTGAAGAGAATCAAAGACACAAACAAAGACATCAGCAGGTCTTTCCGAGAAGAGAAA GACCGTTCGAATAAAGCAGAAAAGGAGAGATCGCTGAAGGAAAAGTCTCCGAAAGAAGAAAAACTGAGA CTGTACAAAGAGGAGAGAAAGAAGAAATCAAAAGACCGGCCCTCAAAATTAGAGAAGAAGAATGATTTA AAAGAGGACAAAATTTCAAAAGAGAAGGAGAAGATTTTTAAAGAAGATAAAGAAAAACTCAAAAAAGAA AAGGTTTATAGGGAAGATTCTGCTTTTGACGAATATTGTAACAAAAATCAGTTTCTGGAGAATGAAGAC ACCAAATTTAGCCTTTCTGACGATCAGCGAGATCGGTGGTTTTCTGACTTGTCCGATTCATCCTTTGAT TTCAAAGGGGAGGACAGCTGGGACTCGCCAGTGACAGACTACAGGGACATGAAGAGCGACTCTGTGGCC AAGCTCATCTTGGAGACGGTGAAGGAGGACAGCAAGGAGAGGAGGCGGGACAGCCGGGCCCGGGAGAAG CGAGACTACAGAGAGCCCTTCTTCCGAAAGAAGGACAGGGACTATTTGGATAAAAACTCTGAGAAGAGG AAAGAGCAGACCGAAAAGCATAAAAGTGTCCCTGGCTACCTTTCGGAAAAGGACAAGAAGAGGAGAGAG TCCGCAGAGGCCGGGCGGGACAGAAAGGACGCCCTGGAGAGCTGCAAGGAGCGCAGGGACGGCAGGGCC AAGCCCGAGGAGGCGCACCGGGAGGAGCTGAAGGAGTGTGGCTGCGAGAGTGGCTTCAAGGACAAGTCC GACGGCGACTTTGGGAAGGGCCTGGAGCCGTGGGAACGGCACCACCCAGCACGAGAGAAGGAGAAGAAG GATGGCCCCGATAAGGAAAGGAAGGAGAAGACAAAACCAGAAAGATACAAAGAGAAATCCAGTGACAAG GACAAAAGTGAGAAATCAATCCTGGAAAAATGTCAGAAGGACAAAGAATTTGATAAATGTTTTAAAGAG AAAAAAGATACCAAGGAAAAACATAAAGACACACATGGCAAAGACAAAGAAAGGAAAGCGTCTCTCGAC CAAGGGAAAGAGAAGAAGGAGAAGGCTTTCCCTGGGATCATCTCAGAAGACTTCTCTGAAAAAAAAGAT GACAAGAAAGGCAAAGAGAAAAGCTGGTACATCGCAGACATCTTCACAGATGAGAGTGAGGACGACAGA GACAGCTGCATGGGGAGCGGGTTCAAGATGGGAGAGGCCAGCGACTTGCCGAGGACGGACGGCCTCCAG GAGAAGGAGGAAGGACGGGAGGCCTATGCCTCCGACAGACACAGGAAGTCTTCTGACAAGCAGCACCCT GAGAGGCAGAAGGACAAGGAGCCCAGAGACAGGAGAAAGGACCGAGGGGCTGCCGACGCGGGGAGAGAC AAAAAAGAGAAAGTCTTTGAAAAGCACAAGGAGAAGAAGGATAAAGAGTCCACAGAAAAGTACAAGGAC AGGAAGGACAGAGCCTCAGTGGACTCCACGCAAGATAAGAAAAATAAACAGAAGCTCCCCGAGAAGGCT GAAAAGAAGCACGCTGCCGAAGACAAGGCTAAAAGCAAACACAAAGAGAAGTCGGACAAAGAACATTCC AAGGAGAGGAAGTCCTCGAGAAGTGCCGACGCGGAAAAAAGCCTGCTTGAAAAGTTGGAAGAAGAGGCT CTCCATGAGTACAGAGAAGACTCCAACGATAAAATCAGCGAGGTCTCCTCTGACAGCTTCACGGACCGA GGGCAGGAGCCGGGGCTGACTGCCTTCCTGGAGGTCTCTTTCACGGAGCCACCTGGAGACGACAAGCCG AGGGAGAGCGCCTGCCTCCCTGAGAAGCTGAAAGAGAAGGAGAGGCACAGACACTCCTCATCTTCATCC AAGAAGAGCCACGACCGAGAGCGAGCCAAGAAAGAGAAGGCCGAGAAGAAAGAGAAGGGCGAAGATTAC AAGGAGGGCGGTAGCAGGAAGGACTCCGGCCAGTACGAAAAGGACTTCCTGGAGGCGGATGCTTACGGA GTTTCTTACAACATGAAAGCTGACATAGAAGATGAGCTAGATAAAACCATTGAATTGTTTTCTACCGAA AAGAAAGATAAAAATGATTCCGAGAGAGAACCTTCCAAGAAAATAGAAAAGGAACTAAAGCCTTATGGA TCTAGTGCCATCAACATCCTAAAAGAGAAGAAGAAGAGAGAGAAACACAGGGAGAAATGGAGAGACGAG AAGGAGAGGCACCGGGACAGGCATGCGGATGGGCTGCTGCGGCATCACAGGGACGAGCTCCTGCGGCAT CACAGGGACGAGCAGAAGCCCGCCACCAGGGACAAGGACAGCCCGCCCCGCGTGCTCAAAGACAAGTCC AGGGACGAGGGCCCGAGGCTCGGCGATGCCAAACTGAAGGAGAAATTCAAGGACGGTGCAGAGAAAGAA AAGGGCGACCCAGTGAAGATGAGCAACGGGAATGATAAGGTAGCGCCATCCAAAGACCCAGGCAAGAAA GACGCCAGGCCCAGGGAGAAGCTCCTGGGGGACGGCGACCTGATGATGACCAGCTTCGAGAGGATGCTG TCCCAGAAGGACCTGGAGATCGAGGAGCGCCACAAGCGGCACAAGGAGAGGATGAAGCAAATGGAGAAG CTGAGGCACCGGTCCGGAGACCCCAAGCTCAAGGAGAAGGCGAAGCCGGCAGACGACGGGCGGAAGAAG GGTCTGGACATTCCTGCTAAGAAACCGCCGGGGCTGGACCCTCCATTTAAAGACAAAAAGCTCAAAGAG TCGACTCCTATTCCACCTGCCGCGGAAAATAAGCTACACCCAGCATCAGGTGCAGACTCCAAAGACTGG CTGGCAGGCCCTCACATGAAAGAGGTCCTGCCTGCGTCCCCCAGGCCTGACCAGAGCCGGCCCACTGGC GTGCCCACCCCTACGTCGGTGCTATCCTGCCCCAGCTACGAGGAGGTGATGCACACGCCCAGGACCCCG TCCTGCAGCGCCGATGACTACGCGGACCTCGTGTTCGACTGCGCCGACTCGCAGCACTCCACGCCCGTG CCCACCGCTCCCACCAGCGCCTGCTCCCCCTCCTTTTTCGACAGGTTCTCCGTGGCTTCAAGTGGGCTT TCGGAAAACGCCAGCCAGGCTCCTGCCAGGCCTCTCTCCACAAACCTTTACCGCTCGGTCTCTGTCGAC ATTAGGAGGACCCCCGAGGAAGAATTCAGCGTCGGAGACAAGCTCTTCAGGCAGCAGAGCGTTCCTGCT GCCTCCAGCTACGACTCTCCCATGCCACCCTCGATGGAAGACAGGGCGCCCCTGCCCCCGGTTCCCGCG GAGAAGTTTGCCTGCTTGTCGCCAGGGTACTACTCCCCAGACTATGGCCTCCCGTCGCCCAAAGTCGAC GCTTTGCACTGCCCACCGGCTGCCGTTGTCACTGTCACCCCGTCTCCAGAGGGCGTCTTCTCAAGTTTA CAAGCAAAACCTTCCCCTTCCCCCAGAGCCGAGCTGCTGGTTCCTTCCCTCGAAGGGGCCCTTCCCCCG GACCTGGACACCTCCGAGGACCAGCAGGCGACGGCCGCCATCATCCCCCCGGAGCCCAGCTACCTGGAG CCGCTGGACGAGGGTCCCTTCAGCGCCGTCATCACCGAGGAGCCCGTTGAGTGGGCCCACCCCTCCGAG CAGGCGCTTGCCTCTAGCCTGATCGGGGGCACCTCTGAAAACCCTGTGAGCTGGCCTGTGGGCTCGGAC CTCCTGCTGAAGTCTCCACAGAGATTCCCCGAGTCCCCAAAGCGTTTCTGCCCCGCGGACCCCCTCCAC TCTGCCGCCCCAGGGCCCTTCAGCGCCTCGGAGGCGCCGTACCCCGCCCCTCCCGCCTCTCCTGCCCCG TACGCTCTGCCCGTCGCTGAGCCGGGGCTGGAGGACGTCAAGGACGGAGTGGACGCCGTCCCCGCCGCC ATCTCCACCTCAGAGGCGGCTCCCTACGCCCCTCCCTCCGGGCTGGAGTCCTTCTTCAGCAACTGCAAG TCACTTCCGGAAGCCCCGCTGGACGTGGCCCCCGAGCCCGCCTGTGTAGCCGCTGTGGCTCAGGTGGAG GCTCTGGGGCCCCTGGAAAATAGCTTCCTGGACGGCAGCCGCGGCCTGTCTCACCTCGGCCAGGTGGAG CCGGTGCCCTGGGCGGACGCCTTCGCCGGCCCCGAGGACGACCTGGACCTGGGGCCCTTCTCCCTGCCG GAGCTTCCCCTGCAGACTAAAGATGCCGCAGATGGTGAAGCGGAACCCGTGGAAGAAAGTCTTGCTCCT CCAGAAGAGATGCCTCCAGGGGCCCCCGGGGTCATAAACGGTGGGGATGTTTCCACCGTAGTGGCTGAG GAGCCGCCGGCACTGCCTCCTGACCAGGCCTCCACCCGGCTCCCTGCAGAGCTCGAGCCTGAGCCCTCA GGGGAGCCAAAGCTGGACGTGGCTCTAGAAGCTGCGGTGGAGGCGGAGACGGTGCCGGAAGAGAGGGCC CGTGGGGATCCGGACTCCAGCGTGGAGCCCGCGCCCGTTCCCCCAGAACAGCGCCCACTGGGGAGCGGA GACCAGGGGGCTGAGGCTGAAGGCCCCCCCGCCGCGTCCCTCTGTGCCCCTGACGGCCCCGCCCCGAAC ACTGTGGCACAAGCTCAGGCCGCAGACGGTGCCGGCCCCGAGGACGACACTGAGGCCTCCCGTGCCGCC GCCCCAGCCGAAGGCCCTCCTGGCGGCATCCAGCCGGAAGCCGCAGAACCAAAACCCACGGCCGAAGCC CCGAAGGCCCCCCGAGTGGAGGAGATCCCTCAGCGCATGACCAGGAACCGGGCGCAGATGCTCGCGAAC CAGAGCAAGCAGGGCCCGCCCCCCTCCGAGAAGGAGTGCGCCCCCACCCCTGCCCCGGTCACCAGGGCC AAGGCCCGCGGCTCCGAGGACGACGACGCCCAGGCCCAGCATCCGCGCAAACGCCGCTTTCAGCGCTCC ACCCAGCAGCTGCAGCAGCAGCTGAACACGTCCACGCAGCAGACGCGGGAGGTGATCCAGCAGACGCTG GCCGCCATCGTGGACGCCATCAAGCTGGATGCCATCGAGCCCTACCACAGCGACAGGGCCAACCCCTAC TTCGAATACCTGCAGATCAGGAAGAAGATCGAGGAGAAGCGCAAGATCCTGTGCTGTATCACGCCGCAG GCGCCCCAGTGCTACGCCGAGTACGTCACCTACACGGGCTCCTACCTCCTGGACGGCAAGCCGCTCAGC AAGCTCCACATCCCCGTGATCGCACCCCCTCCCTCCCTGGCGGAGCCCCTGAAGGAGCTGTTCAGGCAG CAGGAGGCCGTCCGGGGAAAGCTGCGTCTACAGCACAGCATCGAGCGGGAGAAGCTGATCGTATCCTGT GAGCAGGAGATTCTGCGGGTTCACTGCCGGGCGGCCAGGACCATCGCCAACCAGGCAGTGCCATTCAGC GCCTGCACGATGCTGCTGGACTCCGAGGTCTACAACATGCCCCTGGAGAGCCAGGGTGACGAGAACAAG TCAGTGCGCGACCGTTTCAACGCCCGCCAGTTCATCTCCTGGCTCCAGGACGTGGATGACAAGTATGAC CGCATGAAGACTTGCCTCCTCATGCGGCAGCAGCACGAGGCCGCGGCCCTGAACGCCGTGCAGAGGATG GAGTGGCAGCTGAAGGTGCAGGAACTGGACCCCGCCGGGCACAAGTCCCTGTGCGTGAACGAGGTGCCC TCCTTCTACGTGCCCATGGTCGACGTCAACGACGACTTTGTATTGTTGCCGGCATGA |
Restriction Sites | SgfI-MluI |
ACCN | NM_001256182 |
Insert Size | 7992 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_001256182.1 |
RefSeq Size | 9381 bp |
RefSeq ORF | 7992 bp |
Locus ID | 29123 |
UniProt ID | Q6UB99 |
MW | 297.9 kDa |
Gene Summary | This locus encodes an ankryin repeat domain-containing protein. The encoded protein inhibits ligand-dependent activation of transcription. Mutations in this gene have been associated with KBG syndrome, which is characterized by macrodontia, distinctive craniofacial features, short stature, skeletal anomalies, global developmental delay, seizures and intellectual disability. Alternatively spliced transcript variants have been described. Related pseudogenes exist on chromosomes 2 and X. [provided by RefSeq, Jan 2012] Transcript Variant: This variant (1) represents the longest transcript. Variants 1, 2 and 3 encode the same protein. |
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