Pcnx (NM_018814) Mouse Untagged Clone
CAT#: MC225285
Pcnx (untagged) - Mouse pecanex homolog (Drosophila) (Pcnx), (10ug)
"NM_018814" in other vectors (2)
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Other products for "Pcnx"
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Pcnx |
Synonyms | 2900024E21Rik; 3526401J03Rik; AF096286; AI327143; AI413187; Pcnx1; Pcnxl1 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225285 representing NM_018814
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGGGTCGCAGACGCTGCAGATCCTCCGGCAGGGGGTGTGGGCCGCGCTCAGCGGCGGCTGGTACTACG ACCCGCACCAGGCCACCTTCGTGAACGCGCTCCACCTCTACCTGTGGCTCTTTCTGCTCGGCCTGCCCTT CACGCTTTACATGGCCCTTCCCTCCTCGATGATTATAGTAGCAGTGTATTGTCCTGTGGTAGCTGCTGTT TTCATTATTTTGAAGATGGTCAACTATCGACTCCACAGAGCACTTGATGCCGGGGAAATTGTAGATAGGA GTGCAAAGGAGTTCACAGATCAGCGAGCCAAAGCCGAACAAGGCAACTGTTCAACAAGGAGGAAGGACAG CAACGGTCCAAGTGACCCTGGAGGAGGGATTGAGATGTCAGAATTCATTCGGGAGGCCACACCTCCGGTT GGCTGCAGTTCAAGAAATTCTTATGCTGGTCTAGACCCAAGCAATCAGATTGGATCTGGATCCTCTCGAC TTGGAACAGCAGCAACTATTAAAGGAGACACGGACACTGCTAAGACCTCTGATGACATAAGTTTGAGTCT GGGCCAGAGTTCTAGTCTTTGTAAAGAAGGAAGTGAAGAACAAGATTTGGCGACTGATCGCAAGCTCTTC CGCCTGGTCTCCAATGATTCCTTCATTTCTATTCAGCCATCCTTGTCCTCTTGTGGACAGGATTTACCAA GGGACTTCAGTGACAAAGTGAGCCTGCCAAGTCATAGCCAGCACCACCGTGTTGATCAGTCACTGTGCAG TGCCTGTGACACAGAAGTGGCTTCTCTTGTACCTTTACATTCGCACTCTTATAGGAAGGAGCACCGACCA CGAGGAGTGCCACGGACTTCCAGCTCTGCCGTGGCTTTTCCTGACGCATCACTGAGTGGCCTCCCTCTTT ATCAGCAGCAGCAGAGACGGGGGTTAGACCCTGTTACTGAGTTAGACTCATCTAAGCCTCACTCAGGCAC TCGAGAGTCCTCAGCGGGCAAGTCCTGCCCTCCGGCACAGTCTCAGCCTGCTGCTGACAGAAGAAAAAGT AGCTCCCAGCCACCTACAAAGTGTGGGAAGAGCAGGGCGCTGAATGCGGAAAAGAGTGTGGACAGTCTCA GGAGCCTGAGCACGCGGAGTAGCGGGTCCACCGAGAGCTACTGCAGTGGGACCGACAGGGACACCAACAG CACCCTCAGCAGCTATAAAAGTGAGCAGACCAGCTCCACTCACATCGAGAGCATCTTGTCTGAGCATGAG GAATCTCCTAAAGTGGGAGACAAGAGTGCCCGGAAGAGAGAGTGCGGTGCTGACTCAGTGGAAGAGAGGA GCCATCGGGCTGATGACCGAAGGACTAGCAGTGACAAGACTGCCCCAGAGGGAAACACACCTGCTGGGCC TCCCGAGGCTCCAGATGCTCAGGCATCTGAGGAGATGGCTGACCAGGCTGCTCCCAGCAGCTCTGCATCA GAAGATGCCAATAAAAACCCCCATGCAAATGAGTTTACTGTGCCTGGCGACAGGCCGCCTGAGCAGAGTG CAGAGAGCAAAGAGGAGCAGAGCGAGAAGCCCAGCCTGGCCACCGACTCCAGAGTTTGTAAAGACGATGG TGGGAAGCAGAAGGAAGGAGATGTCCGGCCCAAATCCTCCAGCTTAATCCACCGGACAACTTCTGCCCAC AAGCCAGGCAGGAGGCGCACAGGAAAGAAACGGGCCAGCAGTTTTGATTCTAGTCGCCATAGGGACTATG TTTCCTTTCGAGGAGTCTCTGGAACCAAGCCGCACAGTGCTGTATTTGGTCATGACGAGGATTCTAGTGA TCAAAGCGACTTGAGCAGAGCTCCCAGTATTCATTCGGCTCACCAGTTCAGCAGCGACAGCTCTTCCAGT GCCACGTCTCATTCCTGCCAGTCTCCCGAGGGCAAATACGGTGCCCTCAAGACCAAACATGGCCATAGGG ACCGGGGCACAGACTCAGACCACACGCACAGAGCTCATCCAGGCCCTGAGGGAACCACCAAAAAGAGGGC CTCTCGGAGGACTTCCAGCACAAGTAGTGCCAAGACGCGGGCTCGGGTGCTGAGCTTGGATAGTGGCACT GTGGCCTGTTTGAATGACTCAAACAGGCTGCTGGCACCGGACAGTATGAAGCCCTTAACCACTTCAAAGT CAGATCTTGAGGCCAAAGAGGGAGAGGTGCTGGATGAGCTGTCTTTACTGGGCCGGGCTTCCCAGCTAGA GACGGTCACACGCTCCAGGAATAGTTTGCCAAGCCAGGTTGCATTTCCTGAAGGGGAAGAGCAGGATGCA GCCACTGGAGCAGCACAGGCCAGCGAGGAGGCAGTGGCCTTTCGCCGTGAACGCAGCACATTTAGGCGCC AGGCAGTACGGCGCCGGCACAATGCAGGGAGTAACCCTACCCCTCCTACCTTGCTCATCGGATCGCCCCT AAGCCTTCAAGATGGTCAGCAAGGCCAGCAGTCCACAGCCCAGGTCAAGGTCCAGTCCCGCCCCCCATCC CAGGCTGCAGTGCTCAGTGCTAGTGCCTCCTTGCTGGTGAGAAAAGGGAGTGTCCACTTAGAAGCCTCAC ATGACCATGCATCTGCCGTAGGCGGTAGCAGTTTGCACGATGAACTTGGTAAGTTCTCGTCCACCCTCTA TGAGACGGGCGGCTGTGACATGTCACTGGTGAACTTCGAACCAGCAGCAAGAAGAGCGTCCAATATCTGT GACACGGATTCTCATGTATCAAGTTCTACCTCAGTTCGATTTTATCCACATGATATGCTTTCTCTCCCAC AGATTCGGTTGAATAGACTGTTGACCATTGACACAGATCTCTTGGAGCAGCAGGACATTGACCTAAGCCC TGACTTGGCAGCCACTTATGGCCCCACAGAAGAAGCTGCCCAAAAAGTTAAACACTATTACCGCTTTTGG GTCCTGCCCCAGCTGTGGATTGGCATCAACTTTGACAGACTCACTCTGTTGGCACTGTTTGATAGAAACC GTGAGATCCTGGAGAATATATTAGCTGTTGTCCTGGCTATTCTTGTGGCTTTTTTGGGGTCCATCCTTCT CATCCAAGGCTTCTTCAGAGACATCTGGGTGTTCCAGTTCTGCCTGGTGATCGCCAGCTGCCAGTACTCG CTACTCAAGAGTGTTCAGCCTGATTCTTCCTCTCCTAGACATGGTCATAATCGTATTATTGCCTACAGTA GACCAGTTTACTTCTGTTTATGTTGTGGTCTCATTTGGCTCTTGGATTATGGCAGCAGAAACCTAACCAC AAGCAAGTTCAAGTTATATGGAGTAACCTTCACCAACCCGCTGGTGCTTCTGTCGGCCAGGGACTTGGTT ATAGTGTTTACACTCTGTTTCCCAATAGTATTTTTCATTGGTCTCCTGCCTCAGGTGAACACGTTTGTAA TGTACCTTTGTGAACAATTGGATATCCATATCTTTGGTGGGAATGCCACCACCAGCCTGCTGGCAGCACT GTACAGTTTCCTGTGCAGCATTGTGGCCGTCGCCTTGCTGTATGGGTTGTGCTACGGAGCATTAAGGGAT TCCTGGGATGGCCAGCACGTTCCTGTGCTTTTCTCTGTCTTCTGTGGTTTGTTGGTGGCAGTGTCCTATC ACCTCAGCCGACAGAGCAGTGACCCGTCTGTGCTCTTCTCTTTGATGCAATCCAAGATTTTTCCCAAAGC TGACGAGAAGAACCCAGAAGACCCTCTGTCTGAGGTGAAAGACCCTCTCCCAGAGAAGCTCAGCAACTCT GTTAGTGAGCGCTTACAGTCCGACCTGGTAGTGTGTGTCATTATTGGTGTGCTGTATTTCGCTATTCATG TGAGCACAGTGTTCACGGCATTGCAGCCTGCTCTCAAGTACGTGCTGTACGCGCTGGTTGGTGTTGTGGG GCTTGTAACCCATTATGTGCTGCCTCAGGTGAGGAAGCAGCTCCCCTGGCACTGCTTCTCCCGGCCTCTG CTGAGGACAGCCGAGCACAGTCAGTATGAAGTCCGAAATGCAGCCACTATGATGTGGTTCGAAAAACTTC ATGTGTGGCTTCTTTTTGTGGAGAAGAATATCATCTATCCACTGATTGTCCTCAACGAGCTTAGCAGCAG TGCAGAGACAATTGCCAGCCCAAAGAAACTAGATACAGAGTTGGGTGCTTTGATGATTACCATCGCTGGC CTGAAGCTGCTACGCTCTTCCTTCAGCAGCCCCACGTACCAGTACATCACCGTCATCTTCACTGTGCTCT TTTTCAAGTTTGACTATGAAGCCTTCTCAGAGACGATGCTGCTGGACCTCTTCTTCATGTCCATCCTGTT CAGCAAGCTTTGGGAACTCCTCTACAAGCTGCAGTTCGTGTACACCTATGTCGCTCCCTGGCAGATCACG TGGGGCTCTGCGTTCCATGCTTTCGCTCAGCCCTTTGCAGTGCCCCACTCGGCCATGCTCTTTGTCCAGG CGATAGTGTCGGCCTTCTTCTCCACGCCACTAAACCCCTTCCTGGGCAGCGCCATATTCATCACTTCCTA TGTTAGGCCTGTCAAGTTCTGGGAGAGAGACTACAACACAAAACGTGTAGACCATTCAAATACCAGATTG GCTTCTCAGCTTGATAGAAATCCAGGGTCGGATGACAACAATTTGAATTCTATCTTCTATGAACACTTAA CCAGATCTCTGCAGCACAGTCTCTGTGGCGACCTGCTCCTAGGACGGTGGGGAAACTATAGTACTGGGGA CTGCTTCATCCTTGCCTCCGACTATCTCAACGCCTTAGTACACCTCATAGAGATAGGCAATGGCCTGGTC ACTTTCCAGCTGCGGGGACTTGAATTCAGAGGTACCTACTGTCAGCAGCGGGAAGTGGAAGCCATCACTG AAGGAGTAGAAGAAGACGAAGGGTTTTGCTGTTGTGAGCCTGGCCATGTTCCGCACGTGCTGTCCTTTAA CGCTGCGTTTGGGCAGCGCTGGCTGGCCTGGGAAGTGGTTGTCACTAAGTACATTCTAGAGGGCTATAGC ATCACTGACAACAGTGCTGCTTCCATGCTCCAAGTCTTTGACCTTCGCCGAGTTCTTACCACCTACTATG TCAAGGGTATCATTTACTATGTCACAACCTCCTCCAAGTTGGAGGAGTGGCTGGCGAATGAGACAATGCA GGAAGGATTGCGTCTGTGTGCAGACCGGAACTACGTTGACGTGGACCCAACTTTTAACCCAAACATTGAT GAGGACTATGACCACCGGCTGGCAGGCATATCTCGGGAGAGCTTCTGTGTGATTTACCTCAGCTGGATAG AGTACTGCTCTTCCCGGAGAGCAAAGCCACTTGATGTAGATAAAGATTCATCTCTGGTGACTCTTTGTTA TGGACTCTGTGTTCTGGGACGAAGAGCTTTGGGAACAGCCTCCCACCATATGTCCAGTAACCTGGAGTCC TTCCTCTATGGATTGCATGCCCTGTTTAAAGGGGACTTCCGGATTTCTTCAGTCCGAGACGAGTGGATCT TCGCTGACATGGAGCTGCTGAGGAAAGTCGTGGTGCCTGGAATCCGTATGTCCATTAAACTCCACCAGGA TCATTTCACATCCCCAGATGAGTATGACGACCCCACTGTGCTCTACGAAGCCATCGTCTCTCACGAGAAG AACCTTGTGATAGCCCACGAAGGCGACCCTGCGTGGCGGAGTGCAGTCCTTGCCAACTCTCCCTCCTTGT TGGCTCTGCGGCATGTCATGGATGACGGCACCAACGAGTACAAGATCATCATGCTCAACCGGCGCTACCT GAGCTTCAGGGTCATCAAGGTGAACAAGGAATGTGTCCGAGGGCTCTGGGCAGGACAGCAACAGGAGCTC GTTTTTCTCCGGAACCGGAACCCAGAGAGAGGCAGCATCCAGAATGCCAAGCAGGCACTGCGAAACATGA TAAACTCGTCTTGTGATCAGCCTATTGGCTACCCGATCTTCGTGTCGCCCCTCACAACGTCTTACTCTGA CAGCCATGACCAACTCAAAGAAATTCTTGGGGGACCAATCAGCTTGGGAAACATCCGGAACTTCATAGTG TCCACCTGGCACAGGCTAAGGAAAGGCTGTGGAGCTGGCTGTAACAGTGGTGGCAATATTGAAGATTCTG ACACTGGAGGTGGGACTTCCTGTCCTGGTAACAGTGCAGTCACTGCCAGTGATCCCCACAACAATGTGTC CCAAGGAAGCACTGGACACCCGGGACAGGGAGCAGGATCCGGACTCCACCCGCCCACCACATCGTATCCT CCAACACTAGGCACCAGCCACAGTGCCCACTCGGTACAGTCCAGTCTGGTCAGACAGTCACCGGCACGCG CCTCCATGGCCAGCCAGTCTTCCTACTGCTACAGCAGCCGCCATTCATCCCTCCGCATGTCCACCACGGG CTTTGTGCCCTGCCGGCGCTCCTCCACCAGCCAGATATCTCTTCGGAACTTGCCATCATCCATCCAGTCC CGCCTCTCCATGGTGAACCAGATGGAAGCTGCCAGCCAGGGGGGCATGGGCTGTGTGCAGCACGGCCTGC CCTCCTCCAGCAGCTCCAGCCAGAGCATCCCGGCCTGCAAGCATCACACCCTCGTAGCCTTCCTGGGGGC AGAGGGCGGTCAGGGCAGTGCCACAGAGGCCCAGCCAGGCAACACCTCAAGTCCTGCCAACATTTCCCAT GCCAGAAAGGGGGAAGTGATTTACAGAGTCCAGATTGTGGATCTCAGTCAGATTCTGGAAGGAATCAACG TGTCAAAGAGGAAGGAGCTGCACTGGCCTGATGAAGGAATTCGGTTAAAAGCTGGGAGGAACAGCTGGAA AGACTGGAGTCCACAGGAGGGCATGGAAGGCCATGTGGTTCACCGATGGGTGCCTTGCAGCAGAGACCCA AGTACAAGGTCCCACATCGACAAGACAGTGCTTCTCGTTCAGATCGATGATAAATACGTGACTATAATTG AAACCGGGGTACTAGAACTGGGGGCCGAAGTGTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_018814 |
Insert Size | 7035 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_018814.3, NP_061284.2 |
RefSeq Size | 12139 bp |
RefSeq ORF | 7035 bp |
Locus ID | 54604 |
UniProt ID | Q9QYC1 |
Cytogenetics | 12 D1 |
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