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PCNX1 (NM_014982) Human Untagged Clone

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SKU
SC124142
PCNX (untagged)-Human pecanex homolog (Drosophila) (PCNX)

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Datasheet SDS
NM_014982 in other vectors (2)
Reconstitution Protocol
$3,429.00
11 Weeks*
Size
Bulk Requests & Clone Modifications

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Specifications
Product Data
Type Human Untagged Clone
Target Symbol PCNX1
Synonyms PCNX; PCNXL1; pecanex
Vector pCMV6-XL4
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
Fully Sequenced ORF
>NCBI ORF sequence for NM_014982, the custom clone sequence may differ by one or more nucleotides


ATGGGGTCGCAGACGCTGCAGATCCTCCGACAGGGGGTGTGGGCCGCGCTCAGCGGGGGCTGGTACTACG
ACCCGCACCAGGCCACCTTCGTGAACGCGCTGCACCTCTACCTGTGGCTCTTTCTGCTGGGCCTGCCCTT
CACCCTCTACATGGCCCTTCCTTCTACCATGATTATAGTAGCAGTTTATTGTCCTGTGATAGCTGCTGTT
TTCATTGTTCTGAAGATGGTCAACTATCGACTACACAGAGCACTTGATGCTGGAGAAGTTGTAGATAGGA
CTGCAAATGAGTTCACGGATCAGCGAACCAAAGCTGAACAAGGCAACTGTTCAACCAGGAGAAAAGACAG
CAATGGACCGAGTGATCCTGGTGGAGGGATTGAAATGTCTGAGTTCATCCGAGAGGCCACACCCCCAGTT
GGTTGCAGTTCCAGAAATTCTTATGCCGGTCTAGATCCAAGCAACCAGATTGGATCTGGTTCCTCGCGTC
TTGGAACAGCAGCAACTATTAAAGGAGATACAGACACTGCTAAGACTTCTGATGATATCAGTTTAAGTCT
GGGCCAAAGTTCTAGTCTTTGTAAGGAAGGAAGTGAAGAACAAGATTTGGCAGCTGATCGGAAGCTCTTT
CGTCTTGTCTCCAATGACTCCTTCATCTCTATTCAGCCTTCCTTATCCTCTTGTGGACAGGACTTGCCAA
GGGACTTCAGTGACAAAGTGAACCTGCCAAGTCATAACCACCACCACCATGTTGATCAGTCTCTGTCCAG
CGCCTGTGACACAGAAGTAGCTTCTCTTGTACCTTTACACTCACACTCTTATAGAAAAGACCACCGGCCG
CGAGGTGTACCACGGACTTCTAGCTCTGCTGTGGCTTTTCCAGACACTTCACTGAATGATTTTCCCCTTT
ATCAGCAAAGACGTGGATTAGATCCAGTTAGTGAGTTAGAATCTTCCAAGCCTCTTTCTGGATCCAAAGA
ATCCTTGGTGGAAAATTCTGGTTTATCTGGGGAATTTCAGCTTGCTGGTGACTTGAAAATCAATACTTCT
CAGCCACCCACAAAAAGTGGGAAGAGCAAACCTTTGAAAGCAGAGAAAAGCATGGACAGCTTGAGGAGCC
TGAGCACACGGAGTAGTGGGTCAACAGAAAGCTACTGCAGTGGAACGGACCGGGACACTAACAGTACTGT
CAGCAGCTATAAAAGTGAGCAGACCAGCTCAACTCACATAGAGAGCATCCTGTCAGAGCATGAGGAGTCT
CCTAAAGCAGGAACAAAAAGTGGGAGGAAGAAAGAGTGCTGTGCAGGCCCAGAGGAGAAGAATAGCTGTG
CCAGTGACAAAAGGACTAGCAGTGAAAAGATTGCTATGGAAGCGAGTACCAACAGTGGGGTTCACGAGGC
CAAGGACCCCACCCCCTCTGATGAGATGCACAACCAGAGAGGTCTCAGCACCTCTGCATCTGAAGAAGCC
AATAAAAATCCCCATGCAAATGAATTTACTTCCCAAGGGGACAGACCACCTGGGAACACTGCAGAAAACA
AAGAAGAGAAGAGTGATAAGTCAGCTGTTTCTGTGGATTCCAAAGTGCGTAAAGATGTTGGTGGAAAGCA
AAAGGAAGGGGATGTTCGACCTAAATCTTCTAGCGTAATCCATCGGACAGCTTCTGCCCACAAGTCAGGC
AGGAGACGCACAGGAAAAAAACGGGCTAGCAGTTTTGATTCAAGCCGGCATAGGGACTATGTTTGCTTTC
GAGGTGTTTCTGGTACCAAGCCACACAGTGCTATATTTTGTCATGACGAAGACTCTAGTGATCAGAGTGA
CTTGAGTAGAGCATCAAGTGTTCAGTCTGCTCACCAGTTCAGCAGTGATAGCTCTTCTAGCACCACTTCT
CATTCCTGTCAGTCTCCTGAGGGCAGATACAGTGCTCTAAAGACCAAACACACTCATAAAGAAAGGGGCA
CAGACTCTGAACACACACACAAAGCTCATTTGGTTCCTGAAGGAACCAGCAAAAAGCGTGCAACACGACG
GACTTCTAGCACAAATAGTGCCAAGACTCGTGCCCGAGTGTTGAGCCTGGACAGTGGCACAGTAGCATGT
TTGAATGACTCAAACAGGTTAATGGCACCTGAAAGTATAAAGCCCTTAACCACTTCAAAATCAGATCTTG
AGGCCAAAGAGGGAGAGGTGCTAGATGAGCTATCTTTATTAGGACGGGCTTCCCAGTTAGAGACAGTCAC
TCGATCTAGGAATAGCTTGCCAAACCAGGTTGCATTTCCTGAAGGGGAAGAGCAAGATGCAGTCAGTGGA
GCAGCACAAGCCAGCGAGGAGGCAGTGTCATTTCGCCGTGAACGCAGCACATTTAGGCGCCAGGCAGTAC
GGCGCCGGCACAATGCAGGGAGTAACCCTACCCCTCCTACATTGCTCATCGGATCACCCCTAAGCCTTCA
AGATGGTCAGCAAGGCCAGCAGTCCACAGCCCAGGTCAAAGTCCAGTCCCGCCCCCCTTCCCAGGCTGCA
GTGCTCAGTGCTAGTGCCTCCTTGCTGGTGAGAAATGGGAGTGTCCACTTAGAAGCATCACATGACAATG
CATCTGCTGTAGGCGGTAGCAGTTTGCACGATGAACTTGGTAAGTTCTCTTCTACGCTGTATGAGACTGG
TGGCTGTGATATGTCACTTGTGAATTTTGAACCAGCAGCAAGAAGAGCATCCAATATCTGTGACACAGAT
TCTCATGTATCCAGTTCTACCTCAGTTCGATTTTATCCACATGATGTGCTCTCTCTCCCACAGATTCGAT
TGAATAGACTATTGACCATTGATACAGATTTGTTGGAGCAACAGGACATTGATCTAAGCCCTGACTTGGC
AGCTACTTACGGCCCAACAGAAGAAGCTGCCCAAAAGGTTAAACACTATTATCGCTTTTGGATCCTACCC
CAGCTGTGGATTGGCATTAACTTTGACAGACTCACACTTTTGGCCCTGTTTGATAGAAATCGTGAGATCC
TGGAAAATGTGTTAGCTGTCATCCTGGCTATTCTCGTGGCCTTTTTGGGATCTATTCTTCTCATACAAGG
ATTCTTCAGAGATATCTGGGTCTTCCAGTTCTGCCTCGTCATAGCCAGCTGTCAATACTCACTGCTTAAG
AGTGTTCAACCAGATTCTTCTTCTCCCAGACATGGTCATAATCGTATCATTGCCTACAGTAGACCAGTTT
ATTTCTGCATATGTTGCGGTCTTATTTGGCTCTTGGATTATGGTAGCAGAAACCTGACTGCAACCAAGTT
CAAATTATATGGAATAACTTTCACCAATCCACTGGTGTTTATATCAGCCAGGGATTTAGTTATAGTGTTT
ACACTCTGTTTCCCAATAGTGTTTTTCATTGGTCTCCTGCCTCAGGTGAATACATTTGTAATGTACCTTT
GTGAACAATTGGATATTCATATTTTTGGTGGTAATGCCACTACAAGCCTGCTTGCAGCACTTTACAGTTT
TATCTGTAGCATTGTTGCAGTAGCCTTATTGTATGGATTATGTTATGGGGCTTTAAAGGATTCTTGGGAT
GGCCAGCATATTCCAGTACTTTTCTCCATTTTTTGTGGTTTATTAGTGGCAGTGTCTTACCATCTCAGCC
GACAAAGCAGTGATCCATCTGTACTTTTCTCTTTAGTGCAATCCAAGATTTTTCCAAAAACGGAAGAGAA
AAATCCAGAAGACCCTCTATCTGAAGTAAAAGATCCACTGCCTGAAAAACTTAGAAATTCTGTTAGTGAG
CGATTACAGTCTGACCTGGTAGTATGCATTGTAATTGGTGTGCTGTATTTTGCTATTCATGTAAGCACAG
TCTTCACAGTATTGCAGCCTGCCCTCAAGTATGTGTTGTATACATTGGTTGGCTTTGTGGGTTTTGTAAC
CCATTATGTGCTGCCTCAAGTTAGAAAACAGCTACCATGGCACTGTTTCTCTCATCCTCTGCTAAAGACA
CTAGAGTATAATCAGTATGAAGTTCGAAATGCAGCCACTATGATGTGGTTTGAGAAACTTCATGTGTGGC
TTCTTTTTGTGGAGAAGAATATAATCTATCCATTGATTGTTCTCAATGAACTGAGCAGCAGTGCAGAGAC
AATTGCTAGTCCAAAGAAACTGAATACAGAATTAGGTGCTTTAATGATCACTGTTGCTGGTTTGAAGTTG
CTACGATCCTCTTTTAGCAGCCCTACATATCAGTATGTTACAGTCATCTTTACTGTGCTGTTTTTCAAAT
TTGACTATGAAGCTTTTTCAGAGACCATGCTGTTGGATCTCTTCTTTATGTCCATACTCTTCAACAAGCT
TTGGGAACTACTTTATAAATTGCAGTTTGTGTATACCTATATTGCCCCATGGCAGATCACATGGGGTTCT
GCTTTCCATGCTTTTGCTCAGCCTTTTGCAGTGCCTCATTCAGCCATGCTGTTTATTCAGGCTGCTGTCT
CGGCCTTCTTCTCTACTCCACTGAACCCCTTTCTGGGAAGTGCAATATTCATCACTTCATATGTCCGACC
TGTGAAATTCTGGGAGAGAGACTATAACACAAAACGAGTGGATCATTCAAATACCAGATTGGCTTCCCAG
CTTGATAGAAATCCAGGATCAGATGACAACAATCTGAATTCCATCTTTTATGAGCATTTAACTAGATCCC
TACAGCACAGCCTCTGTGGTGATTTGCTACTAGGACGGTGGGGAAACTACAGTACAGGGGACTGTTTCAT
CCTTGCCTCTGACTATCTCAATGCATTAGTACACCTTATAGAGATAGGCAATGGTCTGGTCACTTTTCAG
CTGCGGGGACTTGAATTCAGAGGTACCTACTGTCAACAACGGGAAGTGGAGGCCATTACTGAAGGTGTAG
AGGAAGATGAAGGATTTTGCTGTTGTGAACCTGGCCATATTCCTCACATGCTTTCATTTAATGCTGCATT
TAGCCAGCGATGGCTAGCTTGGGAAGTGATAGTCACAAAGTACATTCTGGAGGGTTATAGCATCACTGAT
AACAGTGCTGCTTCTATGCTTCAAGTCTTTGATCTTCGGAAAGTACTCACCACTTACTATGTCAAGGGTA
TCATTTATTATGTTACGACCTCGTCTAAGCTAGAGGAGTGGCTAGCTAATGAGACAATGCAGGAAGGACT
TCGTCTGTGTGCTGATCGCAATTATGTCGATGTGGACCCGACCTTTAATCCAAACATTGATGAAGACTAT
GACCACCGACTGGCAGGCATATCTAGGGAGAGTTTCTGTGTGATTTACCTCAACTGGATAGAGTACTGCT
CTTCCCGAAGAGCAAAGCCTGTGGATGTGGACAAAGATTCATCCCTAGTGACTCTCTGTTATGGACTCTG
TGTTCTGGGACGGAGAGCTTTGGGGACTGCATCCCATCATATGTCCAGTAATTTAGAGTCATTCCTCTAT
GGATTGCATGCCCTATTTAAAGGAGATTTCCGTATTTCTTCAATTCGAGATGAATGGATCTTTGCTGACA
TGGAATTGCTAAGAAAAGTAGTAGTCCCTGGGATCCGTATGTCCATTAAACTTCATCAGGATCATTTTAC
TTCTCCAGATGAATATGATGACCCTACTGTGCTCTATGAAGCCATAGTATCTCATGAGAAGAACCTCGTA
ATAGCCCATGAAGGGGACCCTGCATGGCGGAGTGCAGTACTTGCCAACTCTCCCTCCTTGCTTGCTCTGC
GGCATGTCATGGATGATGGCACCAATGAATATAAAATCATCATGCTCAACAGACGCTACCTGAGCTTCAG
GGTCATTAAAGTGAATAAGGAATGTGTCCGAGGTCTTTGGGCAGGGCAACAGCAGGAGCTTGTTTTTCTA
CGTAACCGTAACCCAGAGAGAGGTAGCATCCAAAATGCAAAGCAAGCCCTGAGAAACATGATAAACTCAT
CTTGTGATCAACCTATTGGCTACCCAATCTTTGTCTCACCCCTGACAACTTCTTACTCTGACAGCCACGA
ACAGCTTAAAGACATTCTTGGGGGTCCTATCAGCTTGGGAAATATCAGGAACTTCATAGTGTCAACCTGG
CACAGGCTTAGGAAAGGTTGCGGAGCTGGATGTAACAGTGGTGGCAATATTGAAGATTCTGATACTGGAG
GTGGGACTTCCTGCACTGGTAACAATGCAACAACTGCCAACAATCCCCACAGCAACGTGACCCAGGGAAG
CATTGGAAATCCTGGGCAGGGATCAGGAACTGGACTCCACCCACCTGTCACATCTTATCCTCCAACACTA
GGCACTAGCCACAGCTCTCACTCTGTGCAGTCGGGCCTGGTCAGACAGTCTCCTGCCCGGGCCTCAGTAG
CCAGCCAGTCTTCCTACTGCTATAGCAGCCGGCATTCATCCCTCCGGATGTCCACCACTGGGTTTGTGCC
TTGTCGGCGCTCTTCTACTAGTCAGATATCGCTTCGAAACTTGCCATCATCCATCCAATCCCGACTGTCG
ATGGTGAACCAAATGGAACCCTCAGGTCAGAGCGGCCTGGCCTGTGTGCAGCACGGCCTGCCTTCCTCCA
GCAGCTCCAGCCAAAGCATCCCAGCCTGCAAACATCACACTCTCGTGGGCTTTCTTGCGACAGAGGGAGG
TCAGAGCAGTGCCACTGATGCACAGCCAGGCAACACCTTAAGTCCTGCCAACAATTCACACTCCAGAAAG
GCAGAAGTGATTTACAGAGTCCAAATTGTGGATCCCAGTCAAATTCTGGAAGGGATCAACCTGTCTAAAA
GGAAAGAGCTACAGTGGCCTGATGAAGGAATCCGGTTAAAAGCTGGGAGAAATAGCTGGAAAGACTGGAG
TCCGCAGGAGGGCATGGAAGGCCATGTGATTCACCGATGGGTGCCTTGCAGCAGAGATCCAGGTACCAGA
TCCCACATCGACAAGGCAGTGCTTCTGGTCCAGATTGATGATAAATATGTGACTGTAATTGAAACTGGGG
TACTAGAACTTGGGGCTGAAGTGTGA

5' Read Nucleotide Sequence
>OriGene 5' read for NM_014982 unedited
NGTACGTCAAAATTTGTAAACGACTCACTATAGGGCGGCCGCGAATTCGCACGAGCTCGT
TTGCTGCCTCCTCCTCCTCCTGCAGCAGCACCAGCGACCGCCGAAGCGCCGGCTCGCTCA
CCCGGAGCTCCGGAGGTGGATAGACGGGGCAGCTGCAGGCTCCGGCGACCGAGGCCGAGC
TGGGGCCGGGGCGGGGACGGCGGCGGCGGCGGCGGCGACGGCGGCGGCGCCGGCTGGGGA
TGGGGTCGCAGACGCTGCAGATCCTCCGACAGGGGGTGTGGGCCGCGCTCAGCGGGGGCT
GGTACTACGACCCGCACCAGGCCACCTTCGTGAACGCGCTGCACCTCTACCTGTGGCTCT
TTCTGCTGGGCCTGCCCTTCACCCTCTACATGGCCCTTCCTTCTACCATGATTATAGTAG
CAGTTTATTGTCCTGTGATAGCTGCTGTTTTCATTGTTCTGAAGATGGTCAACTATCGAC
TACACAGAGCACTTGATGCTGGAGAAGTTGTAGATAGGACTGCAAATGAGTTCACGGATC
AGCGAACCAAAGCTGAACAAGGCAACTGTTCAACCAGGAGAAAAGACAGCAATGGACCGA
GTGATCCTGGTGGAGGGATTGAAATGTCTGAGTTCATCCGAGAGGCCACACCCCCAGTTG
GTTGCAGTTCCAGAAATTCTTATGCCGGTCTAGATCCAAGCAACCAGATTGGATCTGGTT
CCTCGGGTTTTGGAACAGCAGCAACTATTAAAGGAGATACAGACACTGCTAAGACTTCTG
ATGATATCAGGTTCAAGTCGGGCCCAAAATTCTAGCCTCTGGAAGGAAAGGAATGGAAGC
AACACGATTTGGCCACTGATTCGGAACCTCTTTCGTCTGTGCTT
Restriction Sites NotI-NotI
ACCN NM_014982
Insert Size 8000 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

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).
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_014982.1, NP_055797.1
RefSeq Size 12936 bp
RefSeq ORF 12936 bp
Locus ID 22990
UniProt ID Q96RV3
Cytogenetics 14q24.2
Domains Pecanex_C
Protein Families Transmembrane
Summary This gene encodes an evolutionarily conserved transmembrane protein similar to the pecanex protein in Drosophila. The fly protein is a component of the Notch signaling pathway, which functions in several developmental processes. [provided by RefSeq, Jul 2016]
Transcript Variant: This transcript represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.
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cDNA Clone Resources
"NM_014982" in other vectors (2)
SKU Description Size Price
RC223084 PCNX (Myc-DDK-tagged)-Human pecanex homolog (Drosophila) (PCNX) 10 ug
$1,932.00
RG223084 PCNX (tGFP-tagged) - Human pecanex homolog (Drosophila) (PCNX) 10 ug
$2,132.00

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.