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ANKRD17 (NM_032217) Human Untagged Clone

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SKU
SC309184
ANKRD17 (untagged)-Human ankyrin repeat domain 17 (ANKRD17), transcript variant 1

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Datasheet SDS
NM_032217 in other vectors (3)
Reconstitution Protocol
$2,364.00
4 Weeks*
Size
Bulk Requests & Clone Modifications

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Specifications
Product Data
Type Human Untagged Clone
Target Symbol ANKRD17
Synonyms GTAR; MASK2; NY-BR-16
Vector pCMV6 series
Sequence Data
Fully Sequenced ORF
>NCBI ORF sequence for NM_032217, the custom clone sequence may differ by one or more nucleotides
ATGGAGAAGGCGACGGTTCCGGTGGCGGCGGCGACGGCTGCAGAAGGAGAAGGGAGCCCC
CCGGCGGTGGCGGCTGTGGCGGGCCCCCCCGCGGCGGCGGAGGTCGGCGGCGGCGTTGGC
GGCAGCAGCAGAGCTCGCTCGGCCTCGTCTCCTCGTGGGATGGTGCGAGTCTGCGACCTG
CTCCTGAAGAAGAAGCCGCCGCAGCAGCAGCACCACAAGGCCAAGCGTAACCGGACTTGC
CGACCCCCCAGCAGCAGCGAAAGCAGCAGCGACAGCGACAACAGCGGCGGCGGTGGAGGC
GGCGGTGGAGGCGGAGGTGGCGGCGGCGGCACCAGCAGTAACAACAGCGAGGAAGAAGAG
GACGACGACGACGAGGAAGAGGAGGTTTCTGAGGTGGAGTCTTTCATTTTGGATCAGGAT
GATTTGGAAAATCCAATGCTGGAAACAGCTTCCAAGTTGCTCTTATCAGGTACTGCTGAT
GGTGCAGACCTCAGGACAGTAGATCCAGAAACACAGGCTAGACTGGAAGCTTTACTAGAA
GCTGCAGGAATAGGAAAATTGTCCACGGCTGATGGTAAAGCCTTTGCAGATCCTGAAGTA
CTTCGGAGGTTGACATCGTCTGTTAGTTGTGCGTTGGATGAAGCTGCTGCTGCACTTACC
CGTATGAGAGCTGAAAGCACAGCAAATGCAGGGCAGTCGGACAACCGCAGTTTGGCAGAA
GCCTGTTCAGAAGGAGATGTAAATGCTGTGCGAAAGTTACTCATTGAAGGGCGAAGTGTA
AATGAACACACAGAGGAAGGGGAGAGCCTCCTTTGTTTAGCTTGTTCTGCTGGATACTAT
GAGCTTGCACAGGTTTTGTTGGCAATGCATGCAAATGTGGAAGATAGGGGAATCAAAGGT
GACATTACACCTTTAATGGCTGCTGCTAATGGAGGACATGTCAAAATTGTGAAGTTGCTG
CTAGCTCATAAAGCAGATGTTAATGCACAGTCTTCAACAGGCAATACAGCACTTACATAT
GCTTGTGCTGGAGGCTATGTAGATGTTGTAAAGGTGCTCTTGGAATCCGGTGCTAGTATT
GAGGACCATAATGAAAATGGTCATACCCCTCTTATGGAAGCTGGAAGTGCTGGACATGTG
GAAGTAGCCAGATTGCTGCTAGAAAATGGGGCTGGCATTAATACGCATTCTAATGAATTT
AAAGAGAGTGCCCTTACCTTAGCTTGTTACAAAGGACACTTAGAGATGGTGCGATTTCTT
TTGGAAGCAGGCGCGGATCAAGAGCATAAAACAGATGAAATGCACACTGCTCTGATGGAG
GCTTGCATGGATGGCCATGTTGAAGTAGCTAGGTTACTTCTTGACAGCGGTGCCCAAGTG
AACATGCCTGCTGATTCATTTGAGTCACCATTAACTTTGGCTGCATGTGGTGGGCATGTG
GAACTTGCGGCTTTACTTATTGAAAGAGGAGCTAGCCTGGAAGAGGTCAATGATGAAGGT
TATACACCATTGATGGAAGCAGCTCGAGAAGGACATGAAGAAATGGTGGCATTACTTCTT
GGTCAAGGAGCAAATATCAATGCACAGACAGAAGAAACTCAAGAAACTGCCTTGACTCTG
GCTTGCTGTGGAGGCTTTCTGGAAGTGGCAGACTTTCTAATTAAGGCAGGAGCCGATATA
GAACTAGGGTGTTCTACCCCTTTAATGGAAGCTGCTCAAGAGGGTCATTTGGAGTTAGTT
AAATACTTATTAGCTGCAGGAGCTAACGTTCATGCAACAACAGCAACAGGGGATACAGCA
CTAACATATGCCTGTGAAAATGGTCATACTGATGTAGCAGATGTCTTACTTCAGGCAGGC
GCAGATCTGGAACATGAATCTGAAGGTGGAAGAACTCCTTTAATGAAAGCTGCAAGAGCT
GGTCATGTTTGTACTGTTCAGTTCTTAATTAGTAAAGGAGCGAATGTGAATAGAACCACA
GCTAATAATGACCATACTGTACTGTCCCTGGCTTGTGCAGGGGGTCATCTGGCAGTGGTG
GAACTACTTTTGGCTCATGGGGCAGATCCTACTCACCGTTTGAAAGATGGCTCAACTATG
TTGATAGAAGCAGCAAAAGGTGGCCATACAAGTGTTGTTTGCTATCTCTTGGATTATCCT
AATAACTTGCTTTCAGCCCCTCCACCAGATGTCACTCAGTTAACTCCCCCATCCCACGAT
TTAAATAGGGCTCCTCGTGTACCAGTTCAAGCACTGCCCATGGTTGTTCCACCTCAGGAG
CCTGACAAACCACCTGCCAATGTTGCCACCACTCTTCCCATCAGGAATAAAGCTGCTTCT
AAACAAAAGTCCAGCAGCCATTTGCCAGCAAACAGCCAGGATGTACAGGGTTACATCACC
AATCAGTCTCCAGAGAGCATTGTAGAAGAGGCTCAGGGAAAGTTAACAGAACTGGAACAG
AGGATAAAAGAAGCCATAGAAAAGAATGCACAGCTGCAGTCCTTGGAACTGGCTCATGCT
GACCAACTTACCAAGGAGAAGATCGAGGAGCTCAACAAAACAAGGGAGGAACAAATTCAG
AAGAAACAAAAGATTTTGGAGGAACTACAGAAAGTAGAACGAGAGTTACAACTGAAAACT
CAGCAGCAGCTAAAAAAGCAGTATCTAGAGGTTAAAGCTCAAAGAATTCAACTTCAGCAA
CAGCAGCAACAGTCTTGCCAACACCTGGGATTACTAACTCCTGTTGGAGTTGGAGAGCAG
CTTTCTGAGGGAGACTATGCACGGTTACAGCAAGTGGATCCTGTTTTACTTAAAGATGAA
CCCCAGCAGACTGCTGCTCAGATGGGTTTTGCGCCAATCCAGCCTCTGGCGATGCCTCAA
GCTTTGCCTCTGGCGGCAGGTCCCTTGCCTCCAGGGTCCATCGCAAATCTTACAGAACTG
CAAGGAGTGATAGTTGGACAGCCAGTACTGGGCCAAGCACAGTTGGCAGGGCTGGGGCAA
GGAATTCTGACAGAAACACAACAAGGGTTAATGGTAGCCAGCCCTGCTCAGACCCTCAAT
GACACGCTGGATGACATCATGGCAGCAGTCAGTGGAAGAGCATCTGCAATGTCAAACACT
CCTACCCACAGTATTGCTGCATCCATTTCCCAACCTCAGACTCCAACTCCAAGTCCTATC
ATCTCTCCTTCAGCCATGCTTCCTATCTACCCTGCCATTGATATTGATGCACAGACTGAG
AGTAATCATGACACGGCGCTAACACTTGCCTGTGCTGGTGGCCACGAGGAACTGGTACAA
ACACTGCTAGAGAGAGGAGCTAGTATAGAGCACCGAGACAAGAAAGGTTTTACTCCACTC
ATCTTGGCTGCCACAGCTGGTCATGTTGGTGTTGTGGAAATATTGCTGGACAATGGTGCA
GACATTGAAGCCCAGTCTGAAAGAACCAAGGACACACCACTCTCCTTGGCTTGTTCTGGG
GGAAGACAGGAGGTGGTGGAGCTATTGTTAGCTCGAGGGGCAAATAAAGAGCACAGGAAT
GTTTCTGATTACACACCTCTAAGTCTGGCTGCTTCTGGTGGCTATGTGAACATCATCAAA
ATATTACTAAATGCAGGAGCTGAGATTAACTCTAGAACTGGTAGCAAATTGGGCATCTCT
CCTCTGATGTTAGCAGCTATGAATGGGCATACAGCTGCTGTTAAGCTCCTGTTAGACATG
GGCTCTGACATAAATGCTCAGATAGAAACCAATCGGAACACTGCCCTTACTTTAGCCTGC
TTCCAAGGAAGAACTGAAGTGGTTAGTCTTCTGCTTGATAGAAAAGCAAATGTTGAACAC
AGAGCTAAGACTGGTCTCACACCACTAATGGAAGCTGCCTCTGGTGGATATGCGGAGGTG
GGCCGAGTTCTTTTGGATAAAGGTGCTGATGTTAATGCCCCTCCAGTTCCCTCCTCAAGA
GATACAGCTTTAACCATAGCAGCAGATAAAGGGCATTACAAATTCTGTGAGCTTCTTATT
GGCAGGGGAGCTCATATTGATGTACGTAACAAGAAGGGGAACACTCCATTGTGGCTAGCA
GCAAATGGTGGACACCTCGATGTGGTTCAGTTACTGGTGCAAGCAGGTGCAGATGTGGAT
GCAGCAGATAACCGCAAGATAACTCCTCTTATGGCAGCATTTAGAAAGGGTCATGTGAAG
GTGGTGCGCTACTTAGTCAAAGAAGTCAATCAGTTTCCATCAGATTCTGAATGTATGAGA
TACATAGCAACCATCACTGATAAGGAGATGCTGAAGAAGTGTCATCTTTGTATGGAGTCA
ATAGTACAAGCCAAAGATAGACAGGCTGCTGAAGCAAACAAAAACGCCAGCATTTTGTTA
GAGGAGTTAGACTTGGAAAAGTTAAGGGAAGAAAGTCGGAGGCTGGCTTTGGCTGCGAAA
AGAGAAAAAAGAAAAGAGAAGAGAAGGAAGAAAAAGGAAGAACAAAGAAGGAAACTAGAA
GAAATTGAAGCCAAAAATAAAGAGAACTTTGAACTCCAAGCTGCTCAAGAAAAAGAAAAG
CTTAAAGTTGAAGATGAGCCTGAAGTCTTGACAGAACCTCCAAGTGCCACAACCACTACT
ACCATAGGTATATCTGCAACCTGGACAACTTTGGCAGGTTCTCATGGTAAAAGAAATAAT
ACCATAACTACAACCAGTTCAAAGAGGAAAAACAGGAAAAATAAAATTACTCCAGAAAAC
GTTCAAATTATATTTGATGATCCACTACCAATTTCATACAGTCAGCCAGAGAAGGTGAAT
GGAGAGTCCAAGAGCAGCAGTACCAGCGAGAGTGGGGACAGTGATAACATGAGGATTTCC
AGCTGCAGCGATGAAAGTAGTAACAGCAACAGCAGTCGTAAGAGTGACAATCATTCACCA
GCTGTGGTCACTACCACTGTGAGCAGCAAAAAGCAGCCATCAGTTCTTGTTACATTTCCA
AAGGAAGAGAGAAAATCTGTTTCTGGCAAGGCTTCAATAAAATTGTCAGAAACTATCAGT
GAAGGGACCAGTAATTCTCTATCTACTTGTACAAAATCTGGTCCATCTCCCCTTTCTTCT
CCAAATGGGAAGTTAACAGTAGCAAGTCCTAAGCGTGGGCAAAAGAGGGAAGAAGGATGG
AAAGAAGTTGTAAGAAGGTCAAAGAAAGTATCTGTTCCATCAACTGTGATATCCAGAGTG
ATTGGAAGAGGAGGCTGTAATATCAATGCTATTCGGGAGTTTACTGGTGCACACATAGAT
ATTGATAAACAGAAAGACAAGACTGGAGACCGGATAATCACTATAAGGGGTGGCACTGAA
TCAACAAGACAAGCAACTCAATTGATTAATGCTTTGATCAAGGATCCAGACAAAGAAATT
GATGAACTTATTCCAAAGAATCGTTTGAAAAGCTCCTCAGCAAATTCCAAAATAGGGTCA
TCAGCACCTACCACCACTGCTGCTAACACTTCCTTAATGGGAATTAAAATGACAACTGTA
GCTCTGTCATCAACATCTCAAACTGCCACAGCACTCACTGTGCCTGCAATTTCTTCTGCA
TCCACTCACAAAACCATTAAGAACCCAGTGAATAATGTGAGGCCTGGTTTTCCAGTTTCT
CTTCCATTAGCATATCCTCCTCCACAGTTTGCACATGCTTTGCTTGCTGCTCAGACTTTC
CAGCAGATCCGTCCACCAAGGTTGCCCATGACCCACTTTGGAGGTACTTTTCCACCAGCT
CAATCCACTTGGGGTCCGTTTCCTGTCAGGCCTTTGAGCCCTGCCAGAGCTACTAACTCG
CCTAAGCCTCACATGGTGCCTCGCCATAGCAATCAGAATAGCAGTGGTTCTCAGGTGAAT
TCAGCAGGTTCTTTAACTTCAAGCCCAACAACTACAACCAGTTCATCAGCTTCAACGGTG
CCTGGTACATCTACAAATGGCAGTCCAAGTTCACCTTCTGTCCGAAGGCAGCTTTTTGTC
ACAGTTGTGAAGACATCCAATGCCACCACAACAACAGTCACAACCACGGCAAGCAACAAC
AACACTGCACCCACAAATGCCACATATCCTATGCCTACTGCCAAAGAACACTATCCAGTA
TCATCCCCATCTTCCCCATCACCACCAGCCCAGCCAGGAGGGGTTTCTAGAAACAGCCCT
TTGGATTGTGGATCAGCATCTCCAAATAAAGTGGCATCTTCCTCCGAACAGGAAGCAGGT
AGTCCACCAGTAGTAGAAACAACAAACACTAGACCTCCAAACAGCAGCAGTTCTTCTGGG
AGTTCATCAGCTCATTCTAATCAGCAACAACCTCCGGGATCTGTTTCTCAGGAACCAAGA
CCACCTCTTCAGCAGTCTCAGGTTCCTCCCCCGGAAGTTAGAATGACTGTTCCTCCTTTA
GCAACAAGTTCTGCTCCAGTGGCGGTGCCTTCTACTGCCCCAGTGACTTACCCTATGCCT
CAGACACCAATGGGATGCCCCCAGCCTACTCCTAAAATGGAAACCCCTGCTATTAGACCA
CCCCCTCATGGCACAACTGCCCCTCACAAGAATTCAGCTTCAGTGCAAAATTCATCTGTT
GCAGTCCTCAGTGTCAATCACATTAAAAGACCTCACAGTGTTCCCTCTTCTGTCCAGCTA
CCTTCGACCTTAAGTACACAAAGTGCTTGTCAGAATTCAGTACATCCAGCAAATAAGCCT
ATTGCTCCCAATTTCAGTGCCCCCTTACCATTTGGGCCCTTTAGCACATTGTTTGAAAAC
AGCCCTACTTCTGCTCATGCCTTCTGGGGAGGATCTGTTGTTTCATCTCAGTCAACACCA
GAATCTATGCTATCAGGAAAATCCTCATATTTGCCAAATTCAGATCCTTTACATCAGTCT
GATACTTCCAAAGCTCCAGGTTTTAGACCACCATTACAGAGACCTGCTCCAAGTCCCTCA
GGTATTGTCAATATGGACTCGCCATATGGTTCTGTAACACCTTCTTCAACACATTTGGGA
AACTTTGCTTCAAACATTTCAGGAGGTCAGATGTACGGACCTGGGGCACCCCTTGGAGGA
GCACCCGCAGCTGCTAACTTTAACAGACAACATTTTTCCCCGCTTAGTTTGTTGACTCCG
TGTTCATCAGCATCAAATGATTCTTCTGCACAGTCAGTATCCTCGGGAGTTCGTGCACCA
TCTCCTGCCCCATCATCAGTACCGTTAGGGTCAGAAAAGCCCAGCAATGTGTCTCAGGAC
AGGAAAGTTCCAGTCCCTATTGGGACTGAACGTTCTGCACGTATCAGGCAAACTGGAACG
TCAGCTCCATCTGTTATTGGGAGCAATTTGTCTACATCAGTAGGACATAGTGGCATCTGG
TCCTTTGAAGGGATTGGTGGCAATCAAGACAAAGTAGACTGGTGTAACCCTGGGATGGGA
AATCCTATGATCCACAGACCGATGTCTGACCCAGGAGTATTTTCACAACATCAAGCAATG
GAGCGAGATAGTACAGGAATTGTAACTCCTTCTGGTACATTCCATCAGCATGTTCCTGCA
GGCTACATGGACTTTCCTAAAGTTGGGGGTATGCCTTTTTCTGTGTATGGGAATGCAATG
ATTCCTCCAGTAGCACCTATCCCTGATGGTGCTGGAGGACCCATATTTAATGGCCCTCAT
GCTGCAGACCCTTCTTGGAACTCACTGATAAAGATGGTTTCCAGCTCCACGGAAAATAAT
GGCCCTCAAACGGTGTGGACTGGACCCTGGGCACCTCACATGAACAGTGTGCATATGAAC
CAGCTTGGCTGA
Restriction Sites Please inquire
ACCN NM_032217
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_032217.3, NP_115593.3
RefSeq Size 9390 bp
RefSeq ORF 7812 bp
Locus ID 26057
UniProt ID O75179
Cytogenetics 4q13.3
Domains ANK, KH
Summary The protein encoded by this gene belongs to the family of ankyrin repeat-containing proteins, and contains two distinct arrays of ankyrin repeats in its amino-terminal region, one with 15 ankyrin repeats, and the other with 10 ankyrin repeats. It also contains a nuclear export signal, nuclear localization signal, and a cyclin-binding RXL motif. Localization of this protein to the nucleus has been shown experimentally, and interactions between this protein and cyclin-dependent kinase 2 have been observed. It has been suggested that this protein plays a role in both DNA replication and in both anti-viral and anti-bacterial innate immune pathways. Alternative splicing results in multiple transcript variants encoding different isoforms. [provided by RefSeq, Dec 2015]
Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (a).
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cDNA Clone Resources
"NM_032217" in other vectors (3)
SKU Description Size Price
RC224961 ANKRD17 (Myc-DDK-tagged)-Human ankyrin repeat domain 17 (ANKRD17), transcript variant 1 10 ug
$2,148.00
RC224961L1 Lenti ORF clone of Human ankyrin repeat domain 17 (ANKRD17), transcript variant 1, Myc-DDK-tagged 10 ug
$2,448.00
RG224961 ANKRD17 (tGFP-tagged) - Human ankyrin repeat domain 17 (ANKRD17), transcript variant 1 10 ug
$2,348.00

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.