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ALPK2 (NM_052947) Human Untagged Clone

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SKU
SC323571
ALPK2 (untagged)-Kinase deficient mutant (K1718M) of Human alpha-kinase 2 (ALPK2)

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Datasheet SDS
NM_052947 in other vectors (5)
Reconstitution Protocol
$1,625.00
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Specifications
Product Data
Type Human Untagged Clone
Target Symbol ALPK2
Synonyms HAK
Vector pCMV6-XL5
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
Fully Sequenced ORF
>NCBI ORF sequence for NM_052947, the custom clone sequence may differ by one or more nucleotides


ATGAAAGACTCCGAAGGGCCCCAGAGGCCCCCGCTGTGTTTTTTATCTACATTGCTTTCCCAGAAGGTTC
CTGAGAAGTCAGACGCTGTGCTTCGCTGCATAATATCTGGTCAGCCCAAGCCAGAGGTAACTTGGTATAA
GAATGGTCAGGCCATCGATGGGAGTGGCATTATTTCCAACTATGAATTCTTTGAGAATCAGTATATTCAT
GTGTTACATCTCTCTTGCTGTACCAAAAATGATGCTGCTGTCTATCAAATCTCGGCTAAAAACTCTTTTG
GAATGATCTGTTGTTCTGCTTCCGTTGAGGTTGAGTGCTCATCAGAGAACCCACAATTGTCTCCTAACCT
GGAAGATGACAGGGACAGGGGTTGGAAACATGAAACAGGGACACATGAAGAAGAAAGGGCAAATCAGATT
GATGAGAAGGAACATCCTTATAAGGAAGAAGAAAGCATCTCCCCGGGCACTCCCAGGTCAGCTGACTCCT
CCCCCTCCAAATCCAACCATTCACTCTCCCTCCAGTCATTGGGCAATCTTGACATTAGTGTGTCCAGTTC
TGAAAATCCTTTGGGTGTTAAAGGAACAAGGCACACTGGAGAGGCTTATGATCCAAGTAACACAGAAGAA
ATTGCAAATGGGTTGCTTTTTCTTAATTCAAGTCATATTTATGAAAAACAAGACAGATGTTGCCACAAGA
CAGTGCATTCCATGGCATCAAAGTTCACGGATGGTGACCTGAACAATGATGGTCCTCATGATGAAGGCTT
ACGCTCTAGTCAGCAAAATCCCAAAGTACAGAAATACATTAGCTTCAGCCTCCCGCTATCTGAGGCAACT
GCACACATTTACCCAGGTGACAGTGCCGTGGCCAACAAACAACCCAGCCCACAGCTTTCCAGTGAAGACT
CTGACAGTGACTATGAACTTTGCCCAGAGATAACCCTAACCTACACCGAGGAGTTTTCAGATGATGACCT
GGAGTATCTGGAATGTTCTGATGTTATGACGGATTACTCTAATGCAGTTTGGCAAAGGAACCTGCTGGGG
ACTGAGCATGTTTTTTTATTAGAAAGCGATGACGAAGAGATGGAATTCGGTGAGCATTGCCTGGGTGGGT
GTGAGCATTTCCTCAGTGGAATGGGTTGTGGGTCTCGGGTGTCGGGTGACGCTGGGCCTATGGTTGCCAC
TGCTGGCTTCTGTGGTCATCACTCACAACCCCAAGAAGTTGGGGTGAGGAGCAGCAGAGTCTCCAAGCAC
GGTCCCTCATCCCCACAAACAGGGATGACTCTCATTTTGGGACCTCACCAGGATGGAACGTCTTCAGTGA
CAGAACAGGGGAGATATAAACTCCCCACTGCTCCCGAGGCTGCTGAAAATGATTATCCAGGAATTCAAGG
AGAAACCAGAGACAGCCACCAAGCAAGAGAGGAATTTGCCAGTGACAATCTGCTCAACATGGATGAATCA
GTAAGAGAGACAGAGATGAAGCTCTTGTCTGGTGAGTCAGAAAACTCAGGGATGAGCCAGTGTTGGGAGA
CGGCAGCTGACAAGAGAGTGGGGGGAAAGGACTTATGGAGCAAGAGGGGTTCAAGGAAATCTGCCAGGGT
GAGGCAGCCGGGAATGAAGGGAAATCCCAAGAAGCCGAATGCCAACCTGAGAGAAAGTACAACAGAAGGT
ACCCTTCATCTCTGCTCTGCCAAAGAATCTGCTGAGCCCCCACTAACCCAGAGTGATAAAAGAGAGACTT
CTCACACCACAGCAGCAGCGACTGGTCGGAGTTCCCATGCTGATGCAAGAGAATGTGCTATTTCAACCCA
GGCAGAGCAAGAAGCAAAAACCCTTCAAACTTCAACAGACTCAGTCTCCAAAGAAGGCAACACAAATTGC
AAGGGAGAAGGCATGCAAGTTAATACTCTATTTGAAACAAGCCAGGTTCCAGACTGGAGTGATCCTCCTC
AGGTACAAGTTCAGGAAACAGTCAGAGAGACAATCTCTTGCAGCCAGATGCCAGCTTTCTCAGAGCCTGC
TGGGGAGGAGTCCCCATTCACTGGGACCACAACAATTTCCTTCTCAAACTTAGGAGGGGTCCACAAGGAA
AATGCATCATTAGCTCAACACTCGGAGGTCAAACCCTGTACCTGTGGTCCACAGCATGAAGAAAAACAAG
ACAGAGATGGCAACATACCTGACAATTTCAGGGAAGACCTAAAATATGAGCAGAGCATCTCAGAAGCCAA
TGATGAGACTATGTCCCCAGGTGTGTTCTCAAGGCATCTCCCCAAGGATGCTCGTGCTGACTTCAGGGAG
CCTGTGGCTGTCTCTGTTGCTTCCCCTGAACCCACAGATACTGCCCTCACCCTGGAAAATGTGTGTGATG
AGCCAAGGGACAGAGAAGCAGTGTGTGCAATGGAGTGTTTTGAGGCTGGTGACCAAGGAACGTGTTTTGA
TACCATAGATTCTCTTGTTGGGAGACCAGTTGATAAATATTCGCCTCAAGAAATTTGCTCTGTAGATACG
GAACTGGCAGAAGGTCAAAACAAAGTATCTGATTTATGTTCTTCTAATGACAAGACACTGGAAGTCTTTT
TTCAGACACAAGTGTCTGAGACTTCAGTGTCTACGTGCAAAAGCAGCAAGGACGGCAACTCAGTCATGTC
CCCTCTTTTTACCAGTACTTTCACCTTGAACATTTCACACACAGCTAGTGAAGGTGCCACAGGAGAAAAT
CTAGCCAAGGTGGAGAATTCCACCTACCCACTGGCCTCCACAGTACATGCTGGCCAGGAGCAGCCAAGCC
CCAGCAACTCAGGAGGGCTTGATGAAACACAGCTCCTTTCTTCTGAGAACAATCCTTTAGTGCAATTTAA
AGAAGGAGGTGACAAGAGCCCCAGTCCTAGTGCCGCAGACACCACAGCCACACCAGCCAGTTATAGTTCA
ATTGTGAGTTTTCCTTGGGAGAAGCCAACAACATTAACTGCTAATAATGAGTGCTTTCAAGCGACCAGGG
AGACTGAGGACACATCAACTGTTACCATTGCCACCGAAGTCCACCCAGCCAAATACCTTGCTGTGTCAAT
TCCTGAGGACAAGCATGCAGGTGGCACTGAGGAGAGGTTCCCTCGTGCATCCCATGAAAAGGTTTCCCAA
TTTCCTTCCCAAGTGCAGTTGGATCATATTTTAAGTGGTGCTACCATCAAATCTACAAAAGAGCTACTTT
GCAGGGCACCCAGTGTGCCAGGAGTCCCACACCATGTCCTGCAGCTCCCAGAGGGAGAGGGTTTCTGCAG
TAATTCCCCTCTTCAGGTTGATAACCTGTCTGGAGATAAGAGCCAGACTGTGGACAGAGCAGACTTTAGG
AGCTATGAAGAGAATTTCCAAGAAAGAGGAAGTGAAACAAAGCAGGGGGTCCAGCAGCAGAGCCTGTCCC
AGCAGGGTTCTCTTTCTGCACCTGATTTCCAACAAAGTTTGCCTACGACATCTGCTGCACAAGAGGAAAG
AAACTTGGTGCCCACGGCCCACTCACCCGCAAGCTCTAGGGAAGGAGCAGGGCAGCGCTCAGGTTGGGGG
ACGAGGGTCTCCGTGGTGGCTGAAACTGCTGGGGAAGAAGACAGTCAGGCTCTGAGCAACGTTCCATCTC
TCTCTGATATCCTTTTGGAAGAGTCTAAAGAATATAGACCTGGAAATTGGGAGGCAGGCAACAAGCTGAA
GATTATAACTCTAGAGGCTTCCGCTTCTGAAATCTGGCCACCACGACAACTGACAAATTCTGAGAGCAAG
GCATCAGACGGTGGTCTCATAATTCCTGACAAGGTCTGGGCTGTACCTGATAGTCTAAAGGCAGATGCTG
TTGTGCCTGAATTGGCCCCCTCTGAAATAGCAGCATTGGCTCACAGTCCAGAGGATGCTGAGTCAGCCCT
TGCTGATAGCAGAGAAAGCCATAAAGGCGAAGAGCCCACCATCAGTGTACATTGGAGAAGTCTTTCTTCC
CGGGGTTTCAGCCAACCCAGACTCCTGGAGTCATCCGTGGACCCTGTAGATGAAAAGGAGTTATCTGTCA
CAGATTCACTGTCAGCGGCTTCTGAAACTGGAGGGAAGGAAAATGTTAACAATGTGAGTCAAGACCAGGA
GGAAAAACAACTCAAGATGGATCACACTGCCTTCTTTAAAAAGTTTCTGACCTGCCCTAAAATCCTAGAG
TCCTCTGTAGATCCCATTGATGAGATAAGTGTGATAGAGTACACCAGGGCTGGAAAACCAGAGCCCTCTG
AAACCACACCACAGGGCGCCAGAGAAGGGGGTCAATCAAATGACGGAAACATGGGCCACGAAGCGGAAAT
CCAGCCGGCCATTTTGCAAGTTCCATGTCTCCAGGGAACCATTCTGAGTGAAAATAGAATCAGCAGAAGC
CAAGAAGGCAGTATGAAGCAGGAGGCTGAACAAATTCAACCTGAGGAGGCAAAAACTGCCATTTGGCAAG
TCCTGCAACCCAGCGAAGGCGGTGAAAGAATTCCAAGTGGATGTAGCATAGGCCAAATACAAGAAAGCAG
TGATGGGAGCTTAGGGGAGGCTGAGCAAAGCAAAAAGGACAAAGCAGAATTGATTTCCCCCACTTCACCT
CTTTCTAGTTGTCTTCCAATAATGACTCACGCTTCTCTTGGGGTTGACACGCACAACTCCACAGGCCAAA
TTCATGACGTCCCTGAAAATGACATAGTTGAGCCCAGAAAGCGTCAGTATGTGTTTCCTGTTTCACAGAA
AAGGGGAACTATTGAGAATGAGCGTGGGAAACCTTTGCCCTCTTCTCCTGATCTTACCAGGTTCCCTTGT
ACTTCATCTCCTGAAGGAAATGTCACAGACTTTTTGATAAGCCACAAAATGGAGGAACCTAAAATAGAGG
TGCTTCAAATTGGGGAAACCAAACCCCCAAGCTCATCTAGCTCCTCAGCGAAGACCTTGGCATTTATTTC
AGGAGAACGTGAGTTAGAGAAAGCCCCTAAATTACTGCAGGATCCATGTCAAAAGGGCACCCTGGGCTGT
GCGAAAAAGTCCAGGGAGAGAGAGAAGTCCCTGGAAGCCCGAGCAGGCAAATCGCCAGGGACCCTCACAG
CAGTGACGGGGTCAGAGGAGGTCAAGAGGAAGCCAGAAGCCCCAGGCAGTGGACATTTAGCTGAGGGAGT
AAAGAAGAAAATTTTGTCCAGGGTGGCAGCACTGAGGCTGAAACTGGAAGAAAAGGAAAATATCAGAAAG
AACTCAGCCTTTCTTAAAAAGATGCCCAAACTCGAAACATCATTATCACACACAGAAGAGAAACAAGACC
CAAAAAAGCCATCTTGCAAAAGAGAAGGAAGAGCTCCAGTATTACTGAAAAAGATCCAAGCTGAGATGTT
CCCTGAACACTCTGGAAATGTAAAATTAAGCTGCCAATTTGCAGAAATTCATGAAGATTCTACTATCTGC
TGGACAAAAGATTCAAAGTCCATAGCCCAAGTGCAGAGAAGTGCAGGGGACAACTCCACTGTTTCCTTTG
CCATCGTGCAAGCCAGTCCGAAGGACCAGGGACTCTATTACTGCTGCATCAAGAACAGCTACGGAAAAGT
GACTGCTGAATTTAACCTCACAGCTGAAGTTCTCAAACAGCTGTCAAGTCGCCAGGATACTAAAGGATGT
GAAGAGATTGAATTCAGCCAACTCATCTTCAAAGAAGACTTCCTCCATGACAGCTACTTTGGGGGCCGCC
TGCGTGGTCAGATCGCCACGGAGGAGCTGCACTTTGGAGAAGGGGTTCACCGCAAAGCCTTCCGCAGCAC
AGTGATGCACGGCCTCATGCCTGTCTTCAAACCTGGCCATGCCTGTGTGCTTAAGGTGCACAATGCCATT
GCCTATGGGACCAGAAATAATGATGAGCTCATCCAAAGGAACTACAAACTCGCTGCCCAGGAATGCTATG
TTCAAAATACTGCCAGGTATTATGCCAAGATCTACGCTGCTGAAGCACAGCCTCTGGAAGGCTTTGGAGA
AGTACCTGAGATCATTCCTATTTTTCTTATCCATCGGCCTGAGAACAATATCCCGTATGCTACAGTGGAG
GAGGAGCTGATTGGAGAATTTGTGAAGTATTCCATCAGGGATGGGAAAGAAATAAACTTCTTGAGAAGAG
AATCAGAAGCTGGTCAGAAATGTTGCACCTTCCAGCACTGGGTGTACCAGAAAACAAGTGGCTGCCTCCT
GGTGACGGACATGCAAGGTGTAGGAATGAAGCTAACTGACGTTGGCATAGCAACGCTGGCTAAAGGGTAC
AAGGGATTTAAAGGCAACTGTTCCATGACCTTCATTGATCAGTTTAAAGCACTACACCAGTGTAACAAGT
ATTGCAAAATGCTGGGACTGAAATCCCTTCAAAACAACAACCAGAAACAGAAGCAGCCGAGCATTGGGAA
AAGCAAAGTTCAAACAAACTCTATGACAATAAAGAAGGCAGGGCCTGAGACCCCAGGCGAAAAGAAAACC
TAA

5' Read Nucleotide Sequence
>OriGene 5' read for mutant NM_052947 unedited
ACGGCCCCGTTGAAGCAATGGGCGGTAGGCGTGTACGGGGGGAGGTCTATATAAGCAGAGCTCGTTTAGT
GAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGCGAATTCGGCACCAGGCCGGGAATGAA
GGGAAATCCCAAGAAGCCGAATGCCAACCTGAGAGAAAGTACAACAGAAGGTACCCTTCATCTCTGCTCT
GCCAAAGAATCTGCTGAGCCCCCACTAACCCAGAGTGATAAAAGAGAGACTTCTCACACCACAGCAGCAG
CGACTGGTCGGAGTTCCCATGCTGATGCAAAGAGAATGTGCTATTTCAACCCAGGCAGAGCAAGAGGCAA
AAACCCTTCAAACTTTCAACAGACTCCAGTCCTCAAAAAGGGCACCACAAATTGCAGGGAAAAAGGCATG
CAAGTTATTCCTCTATTGGAAACAAGCCAGGTTCCAGACGGAATGGATCCTCCTCAGGTACAGGTTCAGG
AACAGTTCAAAAAAACAATCTCTTGCAGCCGGATGCCACCTTTTCAAAACCCTGGTGGGGAGAATTCCCC
TTTCATGGAACCCAACAATTTCCTTTCTAAACTTAGAAAGGGGCCCACGGAAAAATGCTATATACCTCAC
ACTCAGGGTCACACTGTGCCCGTTGGGCCCAGATGTGAAAATCACACACAGAGTGGCATACCCGGTAAAT
TTCGGGGAACACTATATGTGCGCAGAGCCTCTAGACCCTATGAGACACTGTCCCCCCGTGTGTCTAGCGC
TCTCACAAAGCTCTCTGATCATGAGAACTTGTGTCTCTTGTTCCCGGAACCAAATAGCTGCCTTCTGAGA
TGTGTAGACACGAGTCACACCGTGCTCATGTGTGTATGCGTACAGACAGGTGTTACTCACATCCTGTGAC
CTTAGATATCCCACATCTCCTAGGCATTGCAGAAGGG
Kinase Domain Sequence
>SC323571 kinase domain raw sequence. By performing BLASTX analysis with this sequence against NCBI refernce protein database, you can confirm the presence of the kinase-deficient mutation
TCRGCAGRCTGACTTTGGAGAGGGGTTCACCGCAAGCCTTCCGCAGCACAGTGATGCACGGCCTCATGCC
TGTCTTCAAACCTGGCCATGCCTGTGTGCTTATGGTGCACAATGCCATTGCCTATGGGACCAGAAATAAT
GATGAGCTCATCCAAAGGAACTACAAACTCGCTGCCCAGGAATGCTATGTTCAAAATACTGCCAGGTATT
ATGCCAAGATCTACGCTGCTGAAGCACAGCCTCTGGAAGGCTTTG
Restriction Sites Please inquire
ACCN NM_052947
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 kinase-deficient mutant clone was generated by created by site-directed mutagenesis from the corresponding wild-type clone. See details in "Application of active and kinase-deficient kinome collection for identification of kinases regulating hedgehog signaling." Cell. 2008 May p536-548.
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_052947.2, NP_443179.2
RefSeq Size 6496 bp
RefSeq ORF 5802 bp
Locus ID 115701
UniProt ID Q86TB3
Cytogenetics 18q21.31-q21.32
Protein Families Druggable Genome, Protein Kinase
Summary Kinase that recognizes phosphorylation sites in which the surrounding peptides have an alpha-helical conformation.[UniProtKB/Swiss-Prot Function]
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"NM_052947" in other vectors (5)
SKU Description Size Price
RC215838 ALPK2 (Myc-DDK-tagged)-Human alpha-kinase 2 (ALPK2) 10 ug
$1,791.00
RC215838L1 Lenti ORF clone of Human alpha-kinase 2 (ALPK2), Myc-DDK-tagged 10 ug
$2,091.00
RG215838 ALPK2 (tGFP-tagged) - Human alpha-kinase 2 (ALPK2) 10 ug
$1,991.00
SC309406 ALPK2 (untagged)-Human alpha-kinase 2 (ALPK2) 10 ug
$1,788.00
SC318712 ALPK2 (untagged)-Human alpha-kinase 2 (ALPK2) 10 ug
$1,971.00

Citations

*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.