AKAP11 (NM_016248) Human Untagged Clone
| Product Data | |
| Type | Human Untagged Clone |
|---|---|
| Target Symbol | AKAP11 |
| Synonyms | AKAP-11; AKAP220; PPP1R44; PRKA11 |
| Vector | pCMV6-Entry |
| E. coli Selection | Kanamycin (25 ug/mL) |
| Mammalian Cell Selection | Neomycin |
| Sequence Data |
Fully Sequenced ORF
>SC309762 representing NM_016248.
Blue=Insert sequence Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGGCGACTTTCAGAAACAATCACATGAAGACTAAAGCATCTGTCAGAAAAAGCTTCAGTGAAGATGTG TTCCAGTCTGTAAAGTCTTTATTGCAGAGTCAGAAGGAACTATGCAGTGTAACAGCAGAGGACTGTTTA CAGCAGGATGAGCATGCCAATTTAACTGAGGTCACATTTCTGGGTTTTAATGAAGAGACAGATGCTGCT CATATACAGGATTTAGCTGCAGTTTCTTTGGAACTTCCAGATATTCTGAATTCACTCCACTTCTGCAGT CTAAATGAAAATGAAATTATTTGTATGAAGAATATAAATAAACCATTAGATATAAGCAGTGATCCTCTA AATCAGAGTCATCCTTCTGGAATGCTTTGTGTCATGAGAGTGTCACCTACATCACCAAGACTTAGGATT GATTTTATCTTTAGTCTCCTAAGTAAATATGCTACTGGTATAAGGTACACCTTGGACACATTCTTGCAT CAGAAGCACCAACTTGAGACCACTGATGAAGATGATGATGATACTAACCAGTCTGTGTCATCCATAGAG GATGACTTTGTCACTGCTTTTGAGCACTTAGAAGAGGAAGAGACTTCAAAGCCATACAATGATGGAATG AACATTACTGTGCTAAGGAGCCAGTGTGATGCTGCTTCCCAGACGGTTACTGGTCATCATTTAGAAACC CATGATTTAAAGATTCTCATTAGCTCTGGACAGCAGAAGTCATTGGCTAAACCCTCAACTTCCTCAGTG AATGTCCTGGGACATAAAGAACTACCTTCTGTGAAAACTTCAGTCACAACATCAATTTCAGAGCCTTGG ACCCAAAGGAGTTTCTATAGGTCATCTAATGCTTCAGATAAAGATAGTGATTTACAGAAAACATTTTTT TCGTCTTCTCCTGCCTACTCATCTGAATCAGAATGTTCAAGTCCAAGTCCTGTTATTTTCTTGGATGAA GAGGGATATCAAAAAAGCTTAAAAGCAAAACTTGAGCTGCCTAAAATTCCTGTGATGAAAGATGATATA GAGGATTCAGACTCAGAAGTAAGTGAATTTTTTGATAGTTTTGATCAGTTTGATGAACTAGAACAAACT TTAGAGACTTGCCTGTTTAACAAAGATCCCGTCATAGGGAAGTCATCGCAGAGGAAAGGGCACAAACAT GGAAAGTCATGTATGAATCCTCAAAAATTCAAGTTTGATCGTCCAGCTCTCCCAGCTAATGTTAGAAAG CCAACTCCTCGTAAACCAGAATCTCCATATGGTAACCTGTGTGATGCTCCGGATTCTCCTCGCCCAGTG AAGGCATCAAGGGAAGATAGTGGTTTATTTAGTCCTATTCGATCCTCTGCTTTTAGTCCTCTTGGAGGC TGTACTCCAGCTGAATGTTTTTGCCAAACAGATATTGGTGGAGATAGGATTCATGAAAATCATGATTCT GTTTATTACACCTATGAAGACTATGCAAAAAGCATTTCATGTGAAGTACTAGGCTCAGTTCTTCGTACC CACCATACTAATACCCTATCAAATATTAACAGTATTAAACATGGAGAAAATAAAACTGTAACTTTTAAG CATGGAAACCTTGATCAAAAAAATAAATCTAAAAATAAATCCTTAATGATTAAAGATAGCATTCAAAAA TTTGCAGCAGATCTTGTGGAAAAAAGTTTTGGCAGTGCATTTAAAGACTTACAGAAAGGAGTCTCTTCA TGTACCAATGCTTTGTACCACTTAGCCATCAAATTGACATCATCTGTTTTGCAGATGGCATTTGATGAG CTGAGAAGGCAGCGTGCATTTTCACTAAAAGAACGTGCCATTAGTGGCCTGGCTAACTTTTTGGTGAGT GAAGCTTTATCAAATGCCTTAAAAGATTTACAGTATGTAAAGAAGCAGATATTCACAAACACAGTTGCT AGGTTTGCTGCAGATCTTGCTGAAGAGCTTGTTTTTGAAGGCATCATGGAGGTGTGTCAGTTTTCATAT CCTCAAACGCCTGCATCTCCACAGTGTGGGTCGTTTGACTTTGAAGACAAAGTAGTGAAGTTGTATGCA AAAGATTTGTCTGAATCTGTAATACAGGAAGCATTCATTGAGCTATCACAAGTTGATGTGACCTTTACA ACAAAGGCAGCAGTTAGTGTCTCTACGGATAATATCAAGTATGTGAGTGCAGAAAGTGTAGTGCCATCG ACACAGGCTGTCACGTTTTCCCCTTCTTTTCACAATCAAGCAATTATGGTGACAAAACCAGTGCAGGAA TATAAAAAGGAATACACAGTGCAGCAGGCCTTGTTTTGTACTTCTGGAATTGTTACTTCTATACCGGTG CCCTTGGCAGGAAGTGCCCTTCTCCCATATCATATTTCATCTACTGCATGTCAGGCCAAGGCTCATCTG TCATCTGATGATAGTAATTCAAATGGTGATTCTGCCCAAGTGCATATTGCCACAAAAAACAGAGAAGAA AAAGCAGCTTGTCTCAGAAATATTTGTTTACCTTCAGAACACAATCCAGGTAATCAGAATGATTTTAAA CCAACTAATGACGATATTGAAATGCAGAGTTCCTCAAAATTACCAAATGATCCTGCAATTATTAGCAAC TTTTCTGCAGCAGTGGTGCATACGATAGTAAATGAAACTTTAGAGTCAATGACATCATTGGAAGTTACA AAAATGGTTGATGAACGTACAGATTATTTAACTAAATCTTTAAAGGAGAAAACCCCTCCATTTTCCCAC TGTGATCAGGCAGTGCTGCAATGCAGTGAAGCTAGTAGCAATAAGGACATGTTTGCTGACCGGTTATCT AAATCTATTATTAAACATTCCATAGATAAGAGCAAATCAGTGATCCCAAATATAGATAAAAATGCAGTA TACAAGGAAAGCTTGCCTGTTTCTGGAGAAGAATCACAGTTGACACCAGAAAAGTCTCCCAAATTTCCT GACTCTCAGAATCAGTTAACTCACTGCTCACTTTCAGCTGCAAAGGATTGTGTTCCAGAATGTAAAGTT TCTATGGTTCATGGATCCTCCCTAGAGACACTGCCATCTTGTCCAGCTGTGACAGGTCAGAAATCTGAC TTGAAGGAATCTGCTAAGGATCAACCACTGAAAAAGCATAACTTGAATAGTACATCACTTGAGGCCTTG TCTTTTGGACAGGAAAACCCCTTTCCTCATTCACATACTTTCTCATCTACAGCACTTACCTGTGTAGAT GGTTTGCATGTGGAAGATAAACAGAAAGTCAGAGACAGAAATGTAATACCTGATACTCCTCCATCAACT CCTCTAGTACCATCCCGGGCTAGTTCTGAATGGGATATCAAGAAGTTAACTAAAAAGCTCAAGGGAGAA TTAGCCAAAGAGTTTGCACCTGCTACACCACCTTCTACTCCACACAACTCATCTGTTGGTAGTTTGTCT GAGAATGAACAAAATACTATAGAAAAAGAAGAGTTCATGTTGAAACTCATGCGATCTCTTTCTGAAGAA GTTGAGAGTAGTGAAAGTGGAGAGCTCCCAGAAGTGGATGTGAAGTCGGAGCACTCAGGGAAGAAGGTT CAGTTTGCAGAAGCATTAGCTACACACATCCTTTCTCTTGCAACTGAAATGGCAGCTTCCCATTTAGAT AACAAAATAATTCAAGAACCCAAGGTTAAAAACCCTTGCTTAAATGTGCAAAGTCAAAGAAGTGTGTCG CCTACTTTTTTAAACCCCTCAGACGAAAATTTGAAAACATTATGCAATTTTGCGGGTGATCTGGCAGCA GAAGTCATTACAGAAGCTGAGAAAATAGCAAAAGTCCGAAATTGTATGCTTTTCAAGCAAAAGAAGAAC AGTTGTTATGCTGATGGTGACGAAGATTATAAAGTAGAAGAGAAGTTGGATATAGAGGCTGTAGTGCAC CCAAGAGAAGTGGATCCGTTTATTCTTTCATTACCACCAAGTTCTTGTATGTCAGGTCTGATGTATAAG TATCCCAGCTGTGAAAGTGTGACAGATGAATATGCAGGTCACCTTATTCAGATACTAAAACAGGAAGGT GGTAATAGTGAGTTGATAATGGATCAGTATGCCAATAGGCTTGCCTACCGATCTGTTAAATCAGGATTA CAGGAAGCAGCTAAGACAACCAAAGTGCAGTGCAACTCAAGAATGTTCCCTGTGCCAAGTTCACAAGTG AAAACAAACAAGGAACTGTTAATGTTTTCAAACAAAGAGCACCACCAAGAAGCAGACAAAAAGAGACAA AGTAAAAGAAATGAAGGTTACTTTTGTAAAAATCAAACTTGTGAAAGGACCCTGGATCCATATAGAAAT GAGGTCTCCCAACTGTATAGTTTTTCAACCTCTCTGGTTCACAGCATAACAAAAGATGCTAAGGAAGAG TTGACAGCCTCTCTAGTTGGCCTACCAAAATCCTTAACAGATTCTTGCTTGTTTGAAAAATCTGGATAT GAAGAAGATAATGAGTGTCACGTTACACCAGAATTGCCTAAGTCTCTTCAGCCTTCCTCACAAAATCAC AGGTTTTACCACAGCACTGGCAGTTTAAATGGATATGGTTGTGGAGACAATGTTGTTCAAGCTGTAGAA CAGTATGCCAAAAAAGTAGTGGATGACACTCTAGAGCTAACTCTAGGATCTACAGTGTTCCGAGTGTCT GAGACCACAAAATCAGCAGACAGGGTCACTTATGCAGAAAAGTTGTCACCTCTTACAGGTCAAGCTTGC AGATACTGTGACCTTAAAGAACTCCACAATTGCACTGGAAATTCATCTCAGCACTTTTTCAGACAGGGT TCTCTCGCCAGTAGTAAGCCAGCTTCTAATCCAAAATTTAGCAGCCGCTATCAGAAATCTAGGATTTTT CATCTCAGTGTCCCTCAGATTCATGTTAATCTTGATAAGAAGGCAGTGCTTGCTGAGAAGATAGTTGCT GAAGCCATTGAAAAAGCTGAGCGAGAGCTGAGCAGTACCAGCCTGGCAGCCGACAGTGGGATCGGACAG GAGGGTGCCAGCTTTGCTGAAAGCCTTGCCACAGAAACCATGACAGCAGCTGTCACAAATGTTGGGCAT GCTGTTAGCAGTTCAAAAGAAATAGAAGACTTTCAGTCAACCGAGTCTGTCAGTAGCCAGCAGATGAAC CTCAGTATTGGTGATGACAGCACTGGTAGCTGGTCCAATTTAAGTTTTGAAGATGAACACCAAGATGAA AGCAGCAGTTTTCATCATCTAAGTGAAAGTAATGGTAACAGCAGTAGCTGGAGCAGTCTTGGTTTAGAA GGAGATTTGTATGAGGACAATTTATCCTTTCCAACATCAGACAGTGATGGACCAGATGATAAAGATGAA GAGCATGAGGACGAAGTAGAAGGTTTGGGGCAAGATGGAAAGACACTGCTAATTACGAATATTGACATG GAGCCATGCACGGTAGACCCCCAGCTAAGGATTATTCTTCAGTGGCTCATTGCCTCTGAGGCTGAAGTT GCAGAACTTTATTTTCATGACTCTGCAAATAAGGAGTTTATGCTACTTTCAAAACAATTACAAGAGAAA GGATGGAAAGTGGGAGACCTCCTGCAGGCTGTGCTTCAATACTATGAAGTGATGGAAAAAGCTTCCAGT GAGGAGAGATGCAAGTCGCTGTTTGATTGGCTCTTGGAAAATGCATAG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGAT TACAAGGATGACGACGATAAGGTTTAAACGGCCGGC |
| Restriction Sites | SgfI-MluI |
| ACCN | NM_016248 |
| Insert Size | 5706 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). |
| OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
| 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 Method | 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. |
| Shipping | Ambient |
| Reference Data | |
| RefSeq | NM_016248.3 |
| RefSeq Size | 9926 bp |
| RefSeq ORF | 5706 bp |
| Locus ID | 11215 |
| UniProt ID | Q9UKA4 |
| Cytogenetics | 13q14.11 |
| Protein Families | Druggable Genome |
| MW | 210.5 kDa |
| Summary | The A-kinase anchor proteins (AKAPs) are a group of structurally diverse proteins, which have the common function of binding to the regulatory subunit of protein kinase A (PKA) and confining the holoenzyme to discrete locations within the cell. This gene encodes a member of the AKAP family. The encoded protein is expressed at high levels throughout spermatogenesis and in mature sperm. It binds the RI and RII subunits of PKA in testis. It may serve a function in cell cycle control of both somatic cells and germ cells in addition to its putative role in spermatogenesis and sperm function. [provided by RefSeq, Jul 2008] |
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