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PTPN23 cDNA ORF clone, Homo sapiens (human)

Gene Symbol PTPN23
Entrez Gene ID 25930
Full Name protein tyrosine phosphatase, non-receptor type 23
Synonyms HD-PTP, HDPTP, PTP-TD14
General protein information
Preferred Names
tyrosine-protein phosphatase non-receptor type 23
Names
tyrosine-protein phosphatase non-receptor type 23
protein tyrosine phosphatase TD14
His-domain protein tyrosine phosphatase
his domain-containing protein tyrosine phosphatase
NP_056281.1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

3

3p21.3

Summary lac of sum
Disorder MIM:

606584


mRNA and Protein(s)

mRNA Protein Name
XM_005265031 XP_005265088 tyrosine-protein phosphatase non-receptor type 23 isoform X1
NM_015466 NP_056281 tyrosine-protein phosphatase non-receptor type 23 isoform 1
NM_001304482 NP_001291411 tyrosine-protein phosphatase non-receptor type 23 isoform 2


Homo sapiens (human) PTPN23 NP_056281.1
Pan troglodytes (chimpanzee) PTPN23 XP_003950151.1
Macaca mulatta (Rhesus monkey) PTPN23 XP_001100428.2
Bos taurus (cattle) PTPN23 NP_001193455.1
Mus musculus (house mouse) Ptpn23 NP_001074512.1
Rattus norvegicus (Norway rat) Ptpn23 NP_476552.2
Gallus gallus (chicken) PTPN23 XP_003640718.2
Danio rerio (zebrafish) ptpn23a NP_001189436.1
Xenopus (Silurana) tropicalis (western clawed frog) ptpn23 NP_001136289.2


GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following PTPN23 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PTPN23 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu66641 XM_005265031 PREDICTED: Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu29995 NM_015466 Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu37155 NM_001304482 Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone 40% OFF
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.


CloneID OHu66641
Clone ID Related Accession (Same CDS sequence) XM_005265031
Accession Version XM_005265031.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4881bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product tyrosine-protein phosphatase non-receptor type 23 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_022517.19) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:530372232. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
ATGGAGGCCG TGCCCCGCAT GCCCATGATC TGGCTGGACC TGAAGGAGGC CGGTGACTTT 
CACTTCCAGC CAGCTGTGAA GAAGTTTGTC CTGAAGAATT ATGGAGAGAA CCCAGAAGCC
TACAATGAAG AACTGAAGAA GCTGGAGTTG CTCAGACAGA ATGCTGTCCG TGTCCCACGA
GACTTTGAGG GCTGTAGTGT CCTCCGCAAG TACCTCGGCC AGCTTCATTA CCTGCAGAGT
CGGGTCCCCA TGGGCTCGGG CCAGGAGGCC GCTGTCCCTG TCACCTGGAC AGAGATCTTC
TCAGGCAAGT CTGTGGCCCA TGAGGACATC AAGTACGAGC AGGCCTGTAT TCTCTACAAC
CTTGGAGCGC TGCACTCCAT GCTGGGGGCC ATGGACAAGC GGGTGTCTGA GGAGTGCGCA
GCCGGCGCCT TCGCCTACCT ACGGGAGCAC TTCCCTCAAG CCTACAGCGT CGACATGAGC
CGCCAGATCC TTACGCTCAA CGTCAACCTC ATGCTGGGCC AGGCTCAGGA GTGCCTCCTG
GAGAAGTCGA TGTTGGACAA CAGGAAGAGC TTTCTGGTGG CCCGCATCAG TGCACAGGTG
GTAGATTACT ACAAGGAGGC ATGCCGGGCC TTGGAGAACC CCGACACTGC CTCACTGCTG
GGCCGGATCC AGAAGGACTG GAAGAAACTT GTGCAGATGA AGATCTACTA CTTCGCAGCC
GTGGCTCATC TGCACATGGG AAAGCAGGCC GAGGAGCAGC AGAAGTTCGG GGAGCGGGTT
GCATACTTCC AGAGCGCCCT GGACAAGCTC AATGAAGCCA TCAAGTTGGC CAAGGGCCAG
CCTGACACTG TGCAAGACGC GCTTCGCTTC ACTATGGATG TCATTGGGGG AAAGTACAAT
TCTGCCAAGA AGGACAACGA CTTCATTTAC CATGAGGCTG TCCCAGCATT GGACACTCTT
CAGCCTGTAA AAGGAGCCCC CTTGGTGAAG CCCTTGCCAG TGAACCCCAC AGACCCAGCT
GTTACAGGCC CTGACATCTT TGCCAAACTG GTACCCATGG CTGCCCACGA GGCCTCGTCA
CTGTACAGTG AGGAGAAGGC CAAGCTGCTC CGGGAGATGA TGGCCAAGAT TGAGGACAAG
AATGAGGTCC TGGACCAGTT CATGGATTCA ATGCAGTTGG ATCCCGAGAC GGTGGACAAC
CTTGATGCCT ACAGCCACAT CCCACCCCAG CTCATGGAGA AGTGCGCGGC TCTCAGCGTC
CGGCCCGACA CTGTCAGGAA CCTTGTACAG TCCATGCAAG TGCTGTCAGG TGTGTTCACG
GATGTGGAGG CTTCCCTGAA GGACATCAGA GATCTGTTGG AGGAGGATGA GCTGCTAGAG
CAGAAGTTTC AGGAGGCGGT GGGCCAGGCA GGGGCCATCT CCATCACCTC CAAGGCTGAG
CTGGCAGAGG TGAGGCGAGA ATGGGCCAAG TACATGGAAG TCCATGAGAA GGCCTCCTTC
ACCAACAGTG AGCTGCACCG TGCCATGAAC CTGCACGTCG GCAACCTGCG CCTGCTCAGC
GGGCCGCTTG ACCAGGTCCG GGCTGCCCTG CCCACACCGG CCCTCTCCCC AGAGGACAAG
GCCGTGCTGC AAAACCTAAA GCGCATCCTG GCTAAGGTGC AGGAGATGCG GGACCAGCGC
GTGTCCCTGG AGCAGCAGCT GCGTGAGCTT ATCCAGAAAG ATGACATCAC TGCCTCGCTG
GTCACCACAG ACCACTCAGA GATGAAGAAG TTGTTCGAGG AGCAGCTGAA AAAGTATGAC
CAGCTGAAGG TGTACCTGGA GCAGAACCTG GCCGCCCAGG ACCGTGTCCT CTGTGCACTG
ACAGAGGCCA ACGTGCAGTA CGCAGCCGTG CGGCGGGTAC TCAGCGACTT GGACCAAAAG
TGGAACTCCA CGCTGCAGAC CCTGGTGGCC TCGTATGAAG CCTATGAGGA CCTGATGAAG
AAGTCGCAGG AGGGCAGGGA CTTCTACGCA GATCTGGAGA GCAAGGTGGC TGCTCTGCTG
GAGCGCACGC AGTCCACCTG CCAGGCCCGC GAGGCTGCCC GCCAGCAGCT CCTGGACAGG
GAGCTGAAGA AGAAGCCGCC GCCACGGCCC ACAGCCCCAA AGCCGCTGCT GCCCCGCAGG
GAGGAGAGTG AGGCAGTGGA AGCAGGAGAC CCCCCTGAGG AGCTGCGCAG CCTCCCCCCT
GACATGGTGG CTGGCCCACG ACTGCCTGAC ACCTTCCTGG GAAGTGCCAC CCCGCTCCAC
TTTCCTCCCA GCCCCTTCCC CAGCTCCACA GGCCCAGGAC CCCACTATCT CTCAGGCCCC
TTGCCCCCTG GTACCTACTC GGGCCCCACC CAGCTGATAC AGCCCAGGGC CCCAGGGCCC
CATGCAATGC CCGTAGCACC TGGGCCTGCC CTCTACCCAG CCCCTGCCTA CACACCGGAG
CTGGGCCTTG TGCCCCGATC CTCCCCACAG CATGGCGTGG TGAGCAGTCC CTATGTGGGG
GTAGGGCCGG CCCCACCAGT TGCAGGTCTC CCCTCGGCCC CACCTCCTCA ATTCTCAGGC
CCCGAGTTGG CCATGGCGGT TCGGCCAGCC ACCACCACAG TAGATAGCAT CCAGGCGCCC
ATCCCCAGCC ACACAGCCCC ACGGCCAAAC CCCACCCCTG CTCCTCCCCC GCCCTGCTTC
CCTGTGCCCC CACCGCAGCC ACTGCCCACG CCTTACACCT ACCCTGCAGG GGCTAAGCAA
CCCATCCCGG CACAGCACCA CTTCTCTTCT GGGATCCCCG CAGGTTTTCC AGCCCCAAGG
ATTGGGCCCC AGCCCCAGCC CCATCCTCAG CCCCATCCTT CACAAGCGTT TGGGCCTCAG
CCCCCACAGC AGCCCCTTCC ACTCCAGCAT CCACATCTCT TCCCACCCCA GGCCCCAGGA
CTCCTACCCC CACAATCCCC CTACCCCTAT GCCCCTCAGC CTGGGGTCCT GGGGCAGCCG
CCACCCCCCC TACACACCCA GCTCTACCCA GGTCCCGCTC AAGACCCTCT GCCAGCCCAC
TCAGGGGCTC TGCCTTTCCC CAGCCCTGGG CCCCCTCAGC CTCCCCATCC CCCACTGGCA
TATGGTCCTG CCCCTTCTAC CAGACCCATG GGCCCCCAGG CAGCCCCTCT TACCATTCGA
GGGCCCTCGT CTGCTGGCCA GTCCACCCCT AGTCCCCACC TGGTGCCTTC ACCTGCCCCA
TCTCCAGGGC CTGGTCCGGT ACCCCCTCGC CCCCCAGCAG CAGAACCACC CCCTTGCCTG
CGCCGAGGCG CCGCAGCTGC AGACCTGCTC TCCTCCAGCC CGGAGAGCCA GCATGGCGGC
ACTCAGTCTC CTGGGGGTGG GCAGCCCCTG CTGCAGCCCA CCAAGGTGGA TGCAGCTGAG
GGTCGTCGGC CGCAGGCCCT GCGGCTGATT GAGCGGGACC CCTATGAGCA TCCTGAGAGG
CTGCGGCAGT TGCAGCAGGA GCTGGAGGCC TTTCGGGGTC AGCTGGGGGA TGTGGGAGCT
CTGGACACTG TCTGGCGAGA GCTGCAAGAT GCGCAGGAAC ATGATGCCCG AGGCCGTTCC
ATCGCCATTG CCCGCTGCTA CTCACTGAAG AACCGGCACC AGGATGTCAT GCCCTATGAC
AGTAACCGTG TGGTGCTGCG CTCAGGCAAG GATGACTACA TCAATGCCAG CTGCGTGGAG
GGGCTCTCCC CATACTGCCC CCCGCTAGTG GCAACCCAGG CCCCACTGCC TGGCACAGCT
GCTGACTTCT GGCTCATGGT CCATGAGCAG AAAGTGTCAG TCATTGTCAT GCTGGTTTCT
GAGGCTGAGA TGGAGAAGCA AAAAGTGGCA CGCTACTTCC CCACCGAGAG GGGCCAGCCC
ATGGTGCACG GTGCCCTGAG CCTGGCATTG AGCAGCGTCC GCAGCACCGA AACCCATGTG
GAGCGCGTGC TGAGCCTGCA GTTCCGAGAC CAGAGCCTCA AGCGCTCTCT TGTGCACCTG
CACTTCCCCA CTTGGCCTGA GTTAGGCCTG CCCGACAGCC CCAGCAACTT GCTGCGCTTC
ATCCAGGAGG TGCACGCACA TTACCTGCAT CAGCGGCCGC TGCACACGCC CATCATTGTG
CACTGCAGCT CTGGTGTGGG CCGCACGGGA GCCTTTGCAC TGCTCTATGC AGCTGTGCAG
GAGGTGGAGG CTGGGAACGG AATCCCTGAG CTGCCTCAGC TGGTGCGGCG CATGCGGCAG
CAGAGAAAGC ACATGCTGCA GGAGAAGCTG CACCTCAGGT TCTGCTATGA GGCAGTGGTG
AGACACGTGG AGCAGGTCCT GCAGCGCCAT GGTGTGCCTC CTCCATGCAA ACCCTTGGCC
AGTGCAAGCA TCAGCCAGAA GAACCACCTT CCTCAGGACT CCCAGGACCT GGTCCTCGGT
GGGGATGTGC CCATCAGCTC CATCCAGGCC ACCATTGCCA AGCTCAGCAT TCGGCCTCCT
GGGGGGTTGG AGTCCCCGGT TGCCAGCTTG CCAGGCCCTG CAGAGCCCCC AGGCCTCCCG
CCAGCCAGCC TCCCAGAGTC TACCCCAATC CCATCTTCCT CCCCGCCCCC CCTTTCCTCC
CCACTACCTG AGGCTCCCCA GCCTAAGGAG GAGCCGCCAG TGCCTGAAGC CCCCAGCTCG
GGGCCCCCCT CCTCCTCCCT GGAATTGCTG GCCTCCTTGA CCCCAGAGGC CTTCTCCCTG
GACAGCTCCC TGCGGGGCAA ACAGCGGATG AGCAAGCATA ACTTTCTGCA GGCCCATAAC
GGGCAAGGGC TGCGGGCCAC CCGGCCCTCT GACGACCCCC TCAGCCTTCT GGATCCACTC
TGGACACTCA ACAAGACCTG A

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_005265088.2
CDS97..4977
Misc Feature(1)100..1137(+)
Misc Feature(2)469..1092(+)
Misc Feature(3)1150..2166(+)
Misc Feature(4)1297..2166(+)
Misc Feature(5)1399..2109(+)
Misc Feature(6)3724..4416(+)
Misc Feature(7)3724..4413(+)
Misc Feature(8)4135..4263(+)
Translation

Target ORF information:

RefSeq Version XM_005265031
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005265031

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
ATGGAGGCCG TGCCCCGCAT GCCCATGATC TGGCTGGACC TGAAGGAGGC CGGTGACTTT 
CACTTCCAGC CAGCTGTGAA GAAGTTTGTC CTGAAGAATT ATGGAGAGAA CCCAGAAGCC
TACAATGAAG AACTGAAGAA GCTGGAGTTG CTCAGACAGA ATGCTGTCCG TGTCCCACGA
GACTTTGAGG GCTGTAGTGT CCTCCGCAAG TACCTCGGCC AGCTTCATTA CCTGCAGAGT
CGGGTCCCCA TGGGCTCGGG CCAGGAGGCC GCTGTCCCTG TCACCTGGAC AGAGATCTTC
TCAGGCAAGT CTGTGGCCCA TGAGGACATC AAGTACGAGC AGGCCTGTAT TCTCTACAAC
CTTGGAGCGC TGCACTCCAT GCTGGGGGCC ATGGACAAGC GGGTGTCTGA GGAGTGCGCA
GCCGGCGCCT TCGCCTACCT ACGGGAGCAC TTCCCTCAAG CCTACAGCGT CGACATGAGC
CGCCAGATCC TTACGCTCAA CGTCAACCTC ATGCTGGGCC AGGCTCAGGA GTGCCTCCTG
GAGAAGTCGA TGTTGGACAA CAGGAAGAGC TTTCTGGTGG CCCGCATCAG TGCACAGGTG
GTAGATTACT ACAAGGAGGC ATGCCGGGCC TTGGAGAACC CCGACACTGC CTCACTGCTG
GGCCGGATCC AGAAGGACTG GAAGAAACTT GTGCAGATGA AGATCTACTA CTTCGCAGCC
GTGGCTCATC TGCACATGGG AAAGCAGGCC GAGGAGCAGC AGAAGTTCGG GGAGCGGGTT
GCATACTTCC AGAGCGCCCT GGACAAGCTC AATGAAGCCA TCAAGTTGGC CAAGGGCCAG
CCTGACACTG TGCAAGACGC GCTTCGCTTC ACTATGGATG TCATTGGGGG AAAGTACAAT
TCTGCCAAGA AGGACAACGA CTTCATTTAC CATGAGGCTG TCCCAGCATT GGACACTCTT
CAGCCTGTAA AAGGAGCCCC CTTGGTGAAG CCCTTGCCAG TGAACCCCAC AGACCCAGCT
GTTACAGGCC CTGACATCTT TGCCAAACTG GTACCCATGG CTGCCCACGA GGCCTCGTCA
CTGTACAGTG AGGAGAAGGC CAAGCTGCTC CGGGAGATGA TGGCCAAGAT TGAGGACAAG
AATGAGGTCC TGGACCAGTT CATGGATTCA ATGCAGTTGG ATCCCGAGAC GGTGGACAAC
CTTGATGCCT ACAGCCACAT CCCACCCCAG CTCATGGAGA AGTGCGCGGC TCTCAGCGTC
CGGCCCGACA CTGTCAGGAA CCTTGTACAG TCCATGCAAG TGCTGTCAGG TGTGTTCACG
GATGTGGAGG CTTCCCTGAA GGACATCAGA GATCTGTTGG AGGAGGATGA GCTGCTAGAG
CAGAAGTTTC AGGAGGCGGT GGGCCAGGCA GGGGCCATCT CCATCACCTC CAAGGCTGAG
CTGGCAGAGG TGAGGCGAGA ATGGGCCAAG TACATGGAAG TCCATGAGAA GGCCTCCTTC
ACCAACAGTG AGCTGCACCG TGCCATGAAC CTGCACGTCG GCAACCTGCG CCTGCTCAGC
GGGCCGCTTG ACCAGGTCCG GGCTGCCCTG CCCACACCGG CCCTCTCCCC AGAGGACAAG
GCCGTGCTGC AAAACCTAAA GCGCATCCTG GCTAAGGTGC AGGAGATGCG GGACCAGCGC
GTGTCCCTGG AGCAGCAGCT GCGTGAGCTT ATCCAGAAAG ATGACATCAC TGCCTCGCTG
GTCACCACAG ACCACTCAGA GATGAAGAAG TTGTTCGAGG AGCAGCTGAA AAAGTATGAC
CAGCTGAAGG TGTACCTGGA GCAGAACCTG GCCGCCCAGG ACCGTGTCCT CTGTGCACTG
ACAGAGGCCA ACGTGCAGTA CGCAGCCGTG CGGCGGGTAC TCAGCGACTT GGACCAAAAG
TGGAACTCCA CGCTGCAGAC CCTGGTGGCC TCGTATGAAG CCTATGAGGA CCTGATGAAG
AAGTCGCAGG AGGGCAGGGA CTTCTACGCA GATCTGGAGA GCAAGGTGGC TGCTCTGCTG
GAGCGCACGC AGTCCACCTG CCAGGCCCGC GAGGCTGCCC GCCAGCAGCT CCTGGACAGG
GAGCTGAAGA AGAAGCCGCC GCCACGGCCC ACAGCCCCAA AGCCGCTGCT GCCCCGCAGG
GAGGAGAGTG AGGCAGTGGA AGCAGGAGAC CCCCCTGAGG AGCTGCGCAG CCTCCCCCCT
GACATGGTGG CTGGCCCACG ACTGCCTGAC ACCTTCCTGG GAAGTGCCAC CCCGCTCCAC
TTTCCTCCCA GCCCCTTCCC CAGCTCCACA GGCCCAGGAC CCCACTATCT CTCAGGCCCC
TTGCCCCCTG GTACCTACTC GGGCCCCACC CAGCTGATAC AGCCCAGGGC CCCAGGGCCC
CATGCAATGC CCGTAGCACC TGGGCCTGCC CTCTACCCAG CCCCTGCCTA CACACCGGAG
CTGGGCCTTG TGCCCCGATC CTCCCCACAG CATGGCGTGG TGAGCAGTCC CTATGTGGGG
GTAGGGCCGG CCCCACCAGT TGCAGGTCTC CCCTCGGCCC CACCTCCTCA ATTCTCAGGC
CCCGAGTTGG CCATGGCGGT TCGGCCAGCC ACCACCACAG TAGATAGCAT CCAGGCGCCC
ATCCCCAGCC ACACAGCCCC ACGGCCAAAC CCCACCCCTG CTCCTCCCCC GCCCTGCTTC
CCTGTGCCCC CACCGCAGCC ACTGCCCACG CCTTACACCT ACCCTGCAGG GGCTAAGCAA
CCCATCCCGG CACAGCACCA CTTCTCTTCT GGGATCCCCG CAGGTTTTCC AGCCCCAAGG
ATTGGGCCCC AGCCCCAGCC CCATCCTCAG CCCCATCCTT CACAAGCGTT TGGGCCTCAG
CCCCCACAGC AGCCCCTTCC ACTCCAGCAT CCACATCTCT TCCCACCCCA GGCCCCAGGA
CTCCTACCCC CACAATCCCC CTACCCCTAT GCCCCTCAGC CTGGGGTCCT GGGGCAGCCG
CCACCCCCCC TACACACCCA GCTCTACCCA GGTCCCGCTC AAGACCCTCT GCCAGCCCAC
TCAGGGGCTC TGCCTTTCCC CAGCCCTGGG CCCCCTCAGC CTCCCCATCC CCCACTGGCA
TATGGTCCTG CCCCTTCTAC CAGACCCATG GGCCCCCAGG CAGCCCCTCT TACCATTCGA
GGGCCCTCGT CTGCTGGCCA GTCCACCCCT AGTCCCCACC TGGTGCCTTC ACCTGCCCCA
TCTCCAGGGC CTGGTCCGGT ACCCCCTCGC CCCCCAGCAG CAGAACCACC CCCTTGCCTG
CGCCGAGGCG CCGCAGCTGC AGACCTGCTC TCCTCCAGCC CGGAGAGCCA GCATGGCGGC
ACTCAGTCTC CTGGGGGTGG GCAGCCCCTG CTGCAGCCCA CCAAGGTGGA TGCAGCTGAG
GGTCGTCGGC CGCAGGCCCT GCGGCTGATT GAGCGGGACC CCTATGAGCA TCCTGAGAGG
CTGCGGCAGT TGCAGCAGGA GCTGGAGGCC TTTCGGGGTC AGCTGGGGGA TGTGGGAGCT
CTGGACACTG TCTGGCGAGA GCTGCAAGAT GCGCAGGAAC ATGATGCCCG AGGCCGTTCC
ATCGCCATTG CCCGCTGCTA CTCACTGAAG AACCGGCACC AGGATGTCAT GCCCTATGAC
AGTAACCGTG TGGTGCTGCG CTCAGGCAAG GATGACTACA TCAATGCCAG CTGCGTGGAG
GGGCTCTCCC CATACTGCCC CCCGCTAGTG GCAACCCAGG CCCCACTGCC TGGCACAGCT
GCTGACTTCT GGCTCATGGT CCATGAGCAG AAAGTGTCAG TCATTGTCAT GCTGGTTTCT
GAGGCTGAGA TGGAGAAGCA AAAAGTGGCA CGCTACTTCC CCACCGAGAG GGGCCAGCCC
ATGGTGCACG GTGCCCTGAG CCTGGCATTG AGCAGCGTCC GCAGCACCGA AACCCATGTG
GAGCGCGTGC TGAGCCTGCA GTTCCGAGAC CAGAGCCTCA AGCGCTCTCT TGTGCACCTG
CACTTCCCCA CTTGGCCTGA GTTAGGCCTG CCCGACAGCC CCAGCAACTT GCTGCGCTTC
ATCCAGGAGG TGCACGCACA TTACCTGCAT CAGCGGCCGC TGCACACGCC CATCATTGTG
CACTGCAGCT CTGGTGTGGG CCGCACGGGA GCCTTTGCAC TGCTCTATGC AGCTGTGCAG
GAGGTGGAGG CTGGGAACGG AATCCCTGAG CTGCCTCAGC TGGTGCGGCG CATGCGGCAG
CAGAGAAAGC ACATGCTGCA GGAGAAGCTG CACCTCAGGT TCTGCTATGA GGCAGTGGTG
AGACACGTGG AGCAGGTCCT GCAGCGCCAT GGTGTGCCTC CTCCATGCAA ACCCTTGGCC
AGTGCAAGCA TCAGCCAGAA GAACCACCTT CCTCAGGACT CCCAGGACCT GGTCCTCGGT
GGGGATGTGC CCATCAGCTC CATCCAGGCC ACCATTGCCA AGCTCAGCAT TCGGCCTCCT
GGGGGGTTGG AGTCCCCGGT TGCCAGCTTG CCAGGCCCTG CAGAGCCCCC AGGCCTCCCG
CCAGCCAGCC TCCCAGAGTC TACCCCAATC CCATCTTCCT CCCCGCCCCC CCTTTCCTCC
CCACTACCTG AGGCTCCCCA GCCTAAGGAG GAGCCGCCAG TGCCTGAAGC CCCCAGCTCG
GGGCCCCCCT CCTCCTCCCT GGAATTGCTG GCCTCCTTGA CCCCAGAGGC CTTCTCCCTG
GACAGCTCCC TGCGGGGCAA ACAGCGGATG AGCAAGCATA ACTTTCTGCA GGCCCATAAC
GGGCAAGGGC TGCGGGCCAC CCGGCCCTCT GACGACCCCC TCAGCCTTCT GGATCCACTC
TGGACACTCA ACAAGACCTG A

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu29995
Clone ID Related Accession (Same CDS sequence) NM_015466
Accession Version NM_015466.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product tyrosine-protein phosphatase non-receptor type 23 isoform 1
Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB040904.2, AF290614.1 and BU173747.1. On Jan 28, 2015 this sequence version replaced gi:110681717. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF290614.1, AB025194.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
ATGGAGGCCG TGCCCCGCAT GCCCATGATC TGGCTGGACC TGAAGGAGGC CGGTGACTTT 
CACTTCCAGC CAGCTGTGAA GAAGTTTGTC CTGAAGAATT ATGGAGAGAA CCCAGAAGCC
TACAATGAAG AACTGAAGAA GCTGGAGTTG CTCAGACAGA ATGCTGTCCG TGTCCCACGA
GACTTTGAGG GCTGTAGTGT CCTCCGCAAG TACCTCGGCC AGCTTCATTA CCTGCAGAGT
CGGGTCCCCA TGGGCTCGGG CCAGGAGGCC GCTGTCCCTG TCACCTGGAC AGAGATCTTC
TCAGGCAAGT CTGTGGCCCA TGAGGACATC AAGTACGAGC AGGCCTGTAT TCTCTACAAC
CTTGGAGCGC TGCACTCCAT GCTGGGGGCC ATGGACAAGC GGGTGTCTGA GGAGGGCATG
AAGGTCTCCT GTACCCATTT CCAGTGCGCA GCCGGCGCCT TCGCCTACCT ACGGGAGCAC
TTCCCTCAAG CCTACAGCGT CGACATGAGC CGCCAGATCC TTACGCTCAA CGTCAACCTC
ATGCTGGGCC AGGCTCAGGA GTGCCTCCTG GAGAAGTCGA TGTTGGACAA CAGGAAGAGC
TTTCTGGTGG CCCGCATCAG TGCACAGGTG GTAGATTACT ACAAGGAGGC ATGCCGGGCC
TTGGAGAACC CCGACACTGC CTCACTGCTG GGCCGGATCC AGAAGGACTG GAAGAAACTT
GTGCAGATGA AGATCTACTA CTTCGCAGCC GTGGCTCATC TGCACATGGG AAAGCAGGCC
GAGGAGCAGC AGAAGTTCGG GGAGCGGGTT GCATACTTCC AGAGCGCCCT GGACAAGCTC
AATGAAGCCA TCAAGTTGGC CAAGGGCCAG CCTGACACTG TGCAAGACGC GCTTCGCTTC
ACTATGGATG TCATTGGGGG AAAGTACAAT TCTGCCAAGA AGGACAACGA CTTCATTTAC
CATGAGGCTG TCCCAGCATT GGACACTCTT CAGCCTGTAA AAGGAGCCCC CTTGGTGAAG
CCCTTGCCAG TGAACCCCAC AGACCCAGCT GTTACAGGCC CTGACATCTT TGCCAAACTG
GTACCCATGG CTGCCCACGA GGCCTCGTCA CTGTACAGTG AGGAGAAGGC CAAGCTGCTC
CGGGAGATGA TGGCCAAGAT TGAGGACAAG AATGAGGTCC TGGACCAGTT CATGGATTCA
ATGCAGTTGG ATCCCGAGAC GGTGGACAAC CTTGATGCCT ACAGCCACAT CCCACCCCAG
CTCATGGAGA AGTGCGCGGC TCTCAGCGTC CGGCCCGACA CTGTCAGGAA CCTTGTACAG
TCCATGCAAG TGCTGTCAGG TGTGTTCACG GATGTGGAGG CTTCCCTGAA GGACATCAGA
GATCTGTTGG AGGAGGATGA GCTGCTAGAG CAGAAGTTTC AGGAGGCGGT GGGCCAGGCA
GGGGCCATCT CCATCACCTC CAAGGCTGAG CTGGCAGAGG TGAGGCGAGA ATGGGCCAAG
TACATGGAAG TCCATGAGAA GGCCTCCTTC ACCAACAGTG AGCTGCACCG TGCCATGAAC
CTGCACGTCG GCAACCTGCG CCTGCTCAGC GGGCCGCTTG ACCAGGTCCG GGCTGCCCTG
CCCACACCGG CCCTCTCCCC AGAGGACAAG GCCGTGCTGC AAAACCTAAA GCGCATCCTG
GCTAAGGTGC AGGAGATGCG GGACCAGCGC GTGTCCCTGG AGCAGCAGCT GCGTGAGCTT
ATCCAGAAAG ATGACATCAC TGCCTCGCTG GTCACCACAG ACCACTCAGA GATGAAGAAG
TTGTTCGAGG AGCAGCTGAA AAAGTATGAC CAGCTGAAGG TGTACCTGGA GCAGAACCTG
GCCGCCCAGG ACCGTGTCCT CTGTGCACTG ACAGAGGCCA ACGTGCAGTA CGCAGCCGTG
CGGCGGGTAC TCAGCGACTT GGACCAAAAG TGGAACTCCA CGCTGCAGAC CCTGGTGGCC
TCGTATGAAG CCTATGAGGA CCTGATGAAG AAGTCGCAGG AGGGCAGGGA CTTCTACGCA
GATCTGGAGA GCAAGGTGGC TGCTCTGCTG GAGCGCACGC AGTCCACCTG CCAGGCCCGC
GAGGCTGCCC GCCAGCAGCT CCTGGACAGG GAGCTGAAGA AGAAGCCGCC GCCACGGCCC
ACAGCCCCAA AGCCGCTGCT GCCCCGCAGG GAGGAGAGTG AGGCAGTGGA AGCAGGAGAC
CCCCCTGAGG AGCTGCGCAG CCTCCCCCCT GACATGGTGG CTGGCCCACG ACTGCCTGAC
ACCTTCCTGG GAAGTGCCAC CCCGCTCCAC TTTCCTCCCA GCCCCTTCCC CAGCTCCACA
GGCCCAGGAC CCCACTATCT CTCAGGCCCC TTGCCCCCTG GTACCTACTC GGGCCCCACC
CAGCTGATAC AGCCCAGGGC CCCAGGGCCC CATGCAATGC CCGTAGCACC TGGGCCTGCC
CTCTACCCAG CCCCTGCCTA CACACCGGAG CTGGGCCTTG TGCCCCGATC CTCCCCACAG
CATGGCGTGG TGAGCAGTCC CTATGTGGGG GTAGGGCCGG CCCCACCAGT TGCAGGTCTC
CCCTCGGCCC CACCTCCTCA ATTCTCAGGC CCCGAGTTGG CCATGGCGGT TCGGCCAGCC
ACCACCACAG TAGATAGCAT CCAGGCGCCC ATCCCCAGCC ACACAGCCCC ACGGCCAAAC
CCCACCCCTG CTCCTCCCCC GCCCTGCTTC CCTGTGCCCC CACCGCAGCC ACTGCCCACG
CCTTACACCT ACCCTGCAGG GGCTAAGCAA CCCATCCCGG CACAGCACCA CTTCTCTTCT
GGGATCCCCG CAGGTTTTCC AGCCCCAAGG ATTGGGCCCC AGCCCCAGCC CCATCCTCAG
CCCCATCCTT CACAAGCGTT TGGGCCTCAG CCCCCACAGC AGCCCCTTCC ACTCCAGCAT
CCACATCTCT TCCCACCCCA GGCCCCAGGA CTCCTACCCC CACAATCCCC CTACCCCTAT
GCCCCTCAGC CTGGGGTCCT GGGGCAGCCG CCACCCCCCC TACACACCCA GCTCTACCCA
GGTCCCGCTC AAGACCCTCT GCCAGCCCAC TCAGGGGCTC TGCCTTTCCC CAGCCCTGGG
CCCCCTCAGC CTCCCCATCC CCCACTGGCA TATGGTCCTG CCCCTTCTAC CAGACCCATG
GGCCCCCAGG CAGCCCCTCT TACCATTCGA GGGCCCTCGT CTGCTGGCCA GTCCACCCCT
AGTCCCCACC TGGTGCCTTC ACCTGCCCCA TCTCCAGGGC CTGGTCCGGT ACCCCCTCGC
CCCCCAGCAG CAGAACCACC CCCTTGCCTG CGCCGAGGCG CCGCAGCTGC AGACCTGCTC
TCCTCCAGCC CGGAGAGCCA GCATGGCGGC ACTCAGTCTC CTGGGGGTGG GCAGCCCCTG
CTGCAGCCCA CCAAGGTGGA TGCAGCTGAG GGTCGTCGGC CGCAGGCCCT GCGGCTGATT
GAGCGGGACC CCTATGAGCA TCCTGAGAGG CTGCGGCAGT TGCAGCAGGA GCTGGAGGCC
TTTCGGGGTC AGCTGGGGGA TGTGGGAGCT CTGGACACTG TCTGGCGAGA GCTGCAAGAT
GCGCAGGAAC ATGATGCCCG AGGCCGTTCC ATCGCCATTG CCCGCTGCTA CTCACTGAAG
AACCGGCACC AGGATGTCAT GCCCTATGAC AGTAACCGTG TGGTGCTGCG CTCAGGCAAG
GATGACTACA TCAATGCCAG CTGCGTGGAG GGGCTCTCCC CATACTGCCC CCCGCTAGTG
GCAACCCAGG CCCCACTGCC TGGCACAGCT GCTGACTTCT GGCTCATGGT CCATGAGCAG
AAAGTGTCAG TCATTGTCAT GCTGGTTTCT GAGGCTGAGA TGGAGAAGCA AAAAGTGGCA
CGCTACTTCC CCACCGAGAG GGGCCAGCCC ATGGTGCACG GTGCCCTGAG CCTGGCATTG
AGCAGCGTCC GCAGCACCGA AACCCATGTG GAGCGCGTGC TGAGCCTGCA GTTCCGAGAC
CAGAGCCTCA AGCGCTCTCT TGTGCACCTG CACTTCCCCA CTTGGCCTGA GTTAGGCCTG
CCCGACAGCC CCAGCAACTT GCTGCGCTTC ATCCAGGAGG TGCACGCACA TTACCTGCAT
CAGCGGCCGC TGCACACGCC CATCATTGTG CACTGCAGCT CTGGTGTGGG CCGCACGGGA
GCCTTTGCAC TGCTCTATGC AGCTGTGCAG GAGGTGGAGG CTGGGAACGG AATCCCTGAG
CTGCCTCAGC TGGTGCGGCG CATGCGGCAG CAGAGAAAGC ACATGCTGCA GGAGAAGCTG
CACCTCAGGT TCTGCTATGA GGCAGTGGTG AGACACGTGG AGCAGGTCCT GCAGCGCCAT
GGTGTGCCTC CTCCATGCAA ACCCTTGGCC AGTGCAAGCA TCAGCCAGAA GAACCACCTT
CCTCAGGACT CCCAGGACCT GGTCCTCGGT GGGGATGTGC CCATCAGCTC CATCCAGGCC
ACCATTGCCA AGCTCAGCAT TCGGCCTCCT GGGGGGTTGG AGTCCCCGGT TGCCAGCTTG
CCAGGCCCTG CAGAGCCCCC AGGCCTCCCG CCAGCCAGCC TCCCAGAGTC TACCCCAATC
CCATCTTCCT CCCCGCCCCC CCTTTCCTCC CCACTACCTG AGGCTCCCCA GCCTAAGGAG
GAGCCGCCAG TGCCTGAAGC CCCCAGCTCG GGGCCCCCCT CCTCCTCCCT GGAATTGCTG
GCCTCCTTGA CCCCAGAGGC CTTCTCCCTG GACAGCTCCC TGCGGGGCAA ACAGCGGATG
AGCAAGCATA ACTTTCTGCA GGCCCATAAC GGGCAAGGGC TGCGGGCCAC CCGGCCCTCT
GACGACCCCC TCAGCCTTCT GGATCCACTC TGGACACTCA ACAAGACCTG A

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_056281.1
CDS116..5026
Misc Feature(1)119..1186(+)
Misc Feature(2)488..1141(+)
Misc Feature(3)863..964(+)
Misc Feature(4)1199..2215(+)
Misc Feature(5)1235..1336(+)
Misc Feature(6)1346..2215(+)
Misc Feature(7)1448..2158(+)
Misc Feature(8)2423..3505(+)
Misc Feature(9)2972..3007(+)
Misc Feature(10)3476..3478(+)
Misc Feature(11)3482..3484(+)
Misc Feature(12)3491..3493(+)
Misc Feature(13)3773..4465(+)
Misc Feature(14)3773..4462(+)
Misc Feature(15)4184..4312(+)
Exon (1)1..199
Gene:PTPN23
Gene Synonym:
Exon (2)200..274
Gene:PTPN23
Gene Synonym:
Exon (3)275..402
Gene:PTPN23
Gene Synonym:
Exon (4)403..479
Gene:PTPN23
Gene Synonym:
Exon (5)480..529
Gene:PTPN23
Gene Synonym:
Exon (6)530..661
Gene:PTPN23
Gene Synonym:
Exon (7)662..742
Gene:PTPN23
Gene Synonym:
Exon (8)743..874
Gene:PTPN23
Gene Synonym:
Exon (9)875..922
Gene:PTPN23
Gene Synonym:
Exon (10)923..979
Gene:PTPN23
Gene Synonym:
Exon (11)980..1038
Gene:PTPN23
Gene Synonym:
Exon (12)1039..1118
Gene:PTPN23
Gene Synonym:
Exon (13)1119..1233
Gene:PTPN23
Gene Synonym:
Exon (14)1234..1299
Gene:PTPN23
Gene Synonym:
Exon (15)1300..1445
Gene:PTPN23
Gene Synonym:
Exon (16)1446..1757
Gene:PTPN23
Gene Synonym:
Exon (17)1758..1912
Gene:PTPN23
Gene Synonym:
Exon (18)1913..2064
Gene:PTPN23
Gene Synonym:
Exon (19)2065..2244
Gene:PTPN23
Gene Synonym:
Exon (20)2245..4003
Gene:PTPN23
Gene Synonym:
Exon (21)4004..4188
Gene:PTPN23
Gene Synonym:
Exon (22)4189..4293
Gene:PTPN23
Gene Synonym:
Exon (23)4294..4432
Gene:PTPN23
Gene Synonym:
Exon (24)4433..4546
Gene:PTPN23
Gene Synonym:
Exon (25)4547..5282
Gene:PTPN23
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_015466
Organism Homo sapiens (human)
Definition Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_015466

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
ATGGAGGCCG TGCCCCGCAT GCCCATGATC TGGCTGGACC TGAAGGAGGC CGGTGACTTT 
CACTTCCAGC CAGCTGTGAA GAAGTTTGTC CTGAAGAATT ATGGAGAGAA CCCAGAAGCC
TACAATGAAG AACTGAAGAA GCTGGAGTTG CTCAGACAGA ATGCTGTCCG TGTCCCACGA
GACTTTGAGG GCTGTAGTGT CCTCCGCAAG TACCTCGGCC AGCTTCATTA CCTGCAGAGT
CGGGTCCCCA TGGGCTCGGG CCAGGAGGCC GCTGTCCCTG TCACCTGGAC AGAGATCTTC
TCAGGCAAGT CTGTGGCCCA TGAGGACATC AAGTACGAGC AGGCCTGTAT TCTCTACAAC
CTTGGAGCGC TGCACTCCAT GCTGGGGGCC ATGGACAAGC GGGTGTCTGA GGAGGGCATG
AAGGTCTCCT GTACCCATTT CCAGTGCGCA GCCGGCGCCT TCGCCTACCT ACGGGAGCAC
TTCCCTCAAG CCTACAGCGT CGACATGAGC CGCCAGATCC TTACGCTCAA CGTCAACCTC
ATGCTGGGCC AGGCTCAGGA GTGCCTCCTG GAGAAGTCGA TGTTGGACAA CAGGAAGAGC
TTTCTGGTGG CCCGCATCAG TGCACAGGTG GTAGATTACT ACAAGGAGGC ATGCCGGGCC
TTGGAGAACC CCGACACTGC CTCACTGCTG GGCCGGATCC AGAAGGACTG GAAGAAACTT
GTGCAGATGA AGATCTACTA CTTCGCAGCC GTGGCTCATC TGCACATGGG AAAGCAGGCC
GAGGAGCAGC AGAAGTTCGG GGAGCGGGTT GCATACTTCC AGAGCGCCCT GGACAAGCTC
AATGAAGCCA TCAAGTTGGC CAAGGGCCAG CCTGACACTG TGCAAGACGC GCTTCGCTTC
ACTATGGATG TCATTGGGGG AAAGTACAAT TCTGCCAAGA AGGACAACGA CTTCATTTAC
CATGAGGCTG TCCCAGCATT GGACACTCTT CAGCCTGTAA AAGGAGCCCC CTTGGTGAAG
CCCTTGCCAG TGAACCCCAC AGACCCAGCT GTTACAGGCC CTGACATCTT TGCCAAACTG
GTACCCATGG CTGCCCACGA GGCCTCGTCA CTGTACAGTG AGGAGAAGGC CAAGCTGCTC
CGGGAGATGA TGGCCAAGAT TGAGGACAAG AATGAGGTCC TGGACCAGTT CATGGATTCA
ATGCAGTTGG ATCCCGAGAC GGTGGACAAC CTTGATGCCT ACAGCCACAT CCCACCCCAG
CTCATGGAGA AGTGCGCGGC TCTCAGCGTC CGGCCCGACA CTGTCAGGAA CCTTGTACAG
TCCATGCAAG TGCTGTCAGG TGTGTTCACG GATGTGGAGG CTTCCCTGAA GGACATCAGA
GATCTGTTGG AGGAGGATGA GCTGCTAGAG CAGAAGTTTC AGGAGGCGGT GGGCCAGGCA
GGGGCCATCT CCATCACCTC CAAGGCTGAG CTGGCAGAGG TGAGGCGAGA ATGGGCCAAG
TACATGGAAG TCCATGAGAA GGCCTCCTTC ACCAACAGTG AGCTGCACCG TGCCATGAAC
CTGCACGTCG GCAACCTGCG CCTGCTCAGC GGGCCGCTTG ACCAGGTCCG GGCTGCCCTG
CCCACACCGG CCCTCTCCCC AGAGGACAAG GCCGTGCTGC AAAACCTAAA GCGCATCCTG
GCTAAGGTGC AGGAGATGCG GGACCAGCGC GTGTCCCTGG AGCAGCAGCT GCGTGAGCTT
ATCCAGAAAG ATGACATCAC TGCCTCGCTG GTCACCACAG ACCACTCAGA GATGAAGAAG
TTGTTCGAGG AGCAGCTGAA AAAGTATGAC CAGCTGAAGG TGTACCTGGA GCAGAACCTG
GCCGCCCAGG ACCGTGTCCT CTGTGCACTG ACAGAGGCCA ACGTGCAGTA CGCAGCCGTG
CGGCGGGTAC TCAGCGACTT GGACCAAAAG TGGAACTCCA CGCTGCAGAC CCTGGTGGCC
TCGTATGAAG CCTATGAGGA CCTGATGAAG AAGTCGCAGG AGGGCAGGGA CTTCTACGCA
GATCTGGAGA GCAAGGTGGC TGCTCTGCTG GAGCGCACGC AGTCCACCTG CCAGGCCCGC
GAGGCTGCCC GCCAGCAGCT CCTGGACAGG GAGCTGAAGA AGAAGCCGCC GCCACGGCCC
ACAGCCCCAA AGCCGCTGCT GCCCCGCAGG GAGGAGAGTG AGGCAGTGGA AGCAGGAGAC
CCCCCTGAGG AGCTGCGCAG CCTCCCCCCT GACATGGTGG CTGGCCCACG ACTGCCTGAC
ACCTTCCTGG GAAGTGCCAC CCCGCTCCAC TTTCCTCCCA GCCCCTTCCC CAGCTCCACA
GGCCCAGGAC CCCACTATCT CTCAGGCCCC TTGCCCCCTG GTACCTACTC GGGCCCCACC
CAGCTGATAC AGCCCAGGGC CCCAGGGCCC CATGCAATGC CCGTAGCACC TGGGCCTGCC
CTCTACCCAG CCCCTGCCTA CACACCGGAG CTGGGCCTTG TGCCCCGATC CTCCCCACAG
CATGGCGTGG TGAGCAGTCC CTATGTGGGG GTAGGGCCGG CCCCACCAGT TGCAGGTCTC
CCCTCGGCCC CACCTCCTCA ATTCTCAGGC CCCGAGTTGG CCATGGCGGT TCGGCCAGCC
ACCACCACAG TAGATAGCAT CCAGGCGCCC ATCCCCAGCC ACACAGCCCC ACGGCCAAAC
CCCACCCCTG CTCCTCCCCC GCCCTGCTTC CCTGTGCCCC CACCGCAGCC ACTGCCCACG
CCTTACACCT ACCCTGCAGG GGCTAAGCAA CCCATCCCGG CACAGCACCA CTTCTCTTCT
GGGATCCCCG CAGGTTTTCC AGCCCCAAGG ATTGGGCCCC AGCCCCAGCC CCATCCTCAG
CCCCATCCTT CACAAGCGTT TGGGCCTCAG CCCCCACAGC AGCCCCTTCC ACTCCAGCAT
CCACATCTCT TCCCACCCCA GGCCCCAGGA CTCCTACCCC CACAATCCCC CTACCCCTAT
GCCCCTCAGC CTGGGGTCCT GGGGCAGCCG CCACCCCCCC TACACACCCA GCTCTACCCA
GGTCCCGCTC AAGACCCTCT GCCAGCCCAC TCAGGGGCTC TGCCTTTCCC CAGCCCTGGG
CCCCCTCAGC CTCCCCATCC CCCACTGGCA TATGGTCCTG CCCCTTCTAC CAGACCCATG
GGCCCCCAGG CAGCCCCTCT TACCATTCGA GGGCCCTCGT CTGCTGGCCA GTCCACCCCT
AGTCCCCACC TGGTGCCTTC ACCTGCCCCA TCTCCAGGGC CTGGTCCGGT ACCCCCTCGC
CCCCCAGCAG CAGAACCACC CCCTTGCCTG CGCCGAGGCG CCGCAGCTGC AGACCTGCTC
TCCTCCAGCC CGGAGAGCCA GCATGGCGGC ACTCAGTCTC CTGGGGGTGG GCAGCCCCTG
CTGCAGCCCA CCAAGGTGGA TGCAGCTGAG GGTCGTCGGC CGCAGGCCCT GCGGCTGATT
GAGCGGGACC CCTATGAGCA TCCTGAGAGG CTGCGGCAGT TGCAGCAGGA GCTGGAGGCC
TTTCGGGGTC AGCTGGGGGA TGTGGGAGCT CTGGACACTG TCTGGCGAGA GCTGCAAGAT
GCGCAGGAAC ATGATGCCCG AGGCCGTTCC ATCGCCATTG CCCGCTGCTA CTCACTGAAG
AACCGGCACC AGGATGTCAT GCCCTATGAC AGTAACCGTG TGGTGCTGCG CTCAGGCAAG
GATGACTACA TCAATGCCAG CTGCGTGGAG GGGCTCTCCC CATACTGCCC CCCGCTAGTG
GCAACCCAGG CCCCACTGCC TGGCACAGCT GCTGACTTCT GGCTCATGGT CCATGAGCAG
AAAGTGTCAG TCATTGTCAT GCTGGTTTCT GAGGCTGAGA TGGAGAAGCA AAAAGTGGCA
CGCTACTTCC CCACCGAGAG GGGCCAGCCC ATGGTGCACG GTGCCCTGAG CCTGGCATTG
AGCAGCGTCC GCAGCACCGA AACCCATGTG GAGCGCGTGC TGAGCCTGCA GTTCCGAGAC
CAGAGCCTCA AGCGCTCTCT TGTGCACCTG CACTTCCCCA CTTGGCCTGA GTTAGGCCTG
CCCGACAGCC CCAGCAACTT GCTGCGCTTC ATCCAGGAGG TGCACGCACA TTACCTGCAT
CAGCGGCCGC TGCACACGCC CATCATTGTG CACTGCAGCT CTGGTGTGGG CCGCACGGGA
GCCTTTGCAC TGCTCTATGC AGCTGTGCAG GAGGTGGAGG CTGGGAACGG AATCCCTGAG
CTGCCTCAGC TGGTGCGGCG CATGCGGCAG CAGAGAAAGC ACATGCTGCA GGAGAAGCTG
CACCTCAGGT TCTGCTATGA GGCAGTGGTG AGACACGTGG AGCAGGTCCT GCAGCGCCAT
GGTGTGCCTC CTCCATGCAA ACCCTTGGCC AGTGCAAGCA TCAGCCAGAA GAACCACCTT
CCTCAGGACT CCCAGGACCT GGTCCTCGGT GGGGATGTGC CCATCAGCTC CATCCAGGCC
ACCATTGCCA AGCTCAGCAT TCGGCCTCCT GGGGGGTTGG AGTCCCCGGT TGCCAGCTTG
CCAGGCCCTG CAGAGCCCCC AGGCCTCCCG CCAGCCAGCC TCCCAGAGTC TACCCCAATC
CCATCTTCCT CCCCGCCCCC CCTTTCCTCC CCACTACCTG AGGCTCCCCA GCCTAAGGAG
GAGCCGCCAG TGCCTGAAGC CCCCAGCTCG GGGCCCCCCT CCTCCTCCCT GGAATTGCTG
GCCTCCTTGA CCCCAGAGGC CTTCTCCCTG GACAGCTCCC TGCGGGGCAA ACAGCGGATG
AGCAAGCATA ACTTTCTGCA GGCCCATAAC GGGCAAGGGC TGCGGGCCAC CCGGCCCTCT
GACGACCCCC TCAGCCTTCT GGATCCACTC TGGACACTCA ACAAGACCTG A

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu37155
Clone ID Related Accession (Same CDS sequence) NM_001304482
Accession Version NM_001304482.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product tyrosine-protein phosphatase non-receptor type 23 isoform 2
Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB040904.2, AK299906.1, AF290614.1 and BU173747.1. On Jan 29, 2015 this sequence version replaced gi:530372236. Transcript Variant: This variant (2) lacks an alternate exon in its 5' UTR and uses a downstream start codon compared to variant 1. It encodes isoform 2 which has a shorter N-terminus compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK299906.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
ATGCTGGGGG CCATGGACAA GCGGGTGTCT GAGGAGGGCA TGAAGGTCTC CTGTACCCAT 
TTCCAGTGCG CAGCCGGCGC CTTCGCCTAC CTACGGGAGC ACTTCCCTCA AGCCTACAGC
GTCGACATGA GCCGCCAGAT CCTTACGCTC AACGTCAACC TCATGCTGGG CCAGGCTCAG
GAGTGCCTCC TGGAGAAGTC GATGTTGGAC AACAGGAAGA GCTTTCTGGT GGCCCGCATC
AGTGCACAGG TGGTAGATTA CTACAAGGAG GCATGCCGGG CCTTGGAGAA CCCCGACACT
GCCTCACTGC TGGGCCGGAT CCAGAAGGAC TGGAAGAAAC TTGTGCAGAT GAAGATCTAC
TACTTCGCAG CCGTGGCTCA TCTGCACATG GGAAAGCAGG CCGAGGAGCA GCAGAAGTTC
GGGGAGCGGG TTGCATACTT CCAGAGCGCC CTGGACAAGC TCAATGAAGC CATCAAGTTG
GCCAAGGGCC AGCCTGACAC TGTGCAAGAC GCGCTTCGCT TCACTATGGA TGTCATTGGG
GGAAAGTACA ATTCTGCCAA GAAGGACAAC GACTTCATTT ACCATGAGGC TGTCCCAGCA
TTGGACACTC TTCAGCCTGT AAAAGGAGCC CCCTTGGTGA AGCCCTTGCC AGTGAACCCC
ACAGACCCAG CTGTTACAGG CCCTGACATC TTTGCCAAAC TGGTACCCAT GGCTGCCCAC
GAGGCCTCGT CACTGTACAG TGAGGAGAAG GCCAAGCTGC TCCGGGAGAT GATGGCCAAG
ATTGAGGACA AGAATGAGGT CCTGGACCAG TTCATGGATT CAATGCAGTT GGATCCCGAG
ACGGTGGACA ACCTTGATGC CTACAGCCAC ATCCCACCCC AGCTCATGGA GAAGTGCGCG
GCTCTCAGCG TCCGGCCCGA CACTGTCAGG AACCTTGTAC AGTCCATGCA AGTGCTGTCA
GGTGTGTTCA CGGATGTGGA GGCTTCCCTG AAGGACATCA GAGATCTGTT GGAGGAGGAT
GAGCTGCTAG AGCAGAAGTT TCAGGAGGCG GTGGGCCAGG CAGGGGCCAT CTCCATCACC
TCCAAGGCTG AGCTGGCAGA GGTGAGGCGA GAATGGGCCA AGTACATGGA AGTCCATGAG
AAGGCCTCCT TCACCAACAG TGAGCTGCAC CGTGCCATGA ACCTGCACGT CGGCAACCTG
CGCCTGCTCA GCGGGCCGCT TGACCAGGTC CGGGCTGCCC TGCCCACACC GGCCCTCTCC
CCAGAGGACA AGGCCGTGCT GCAAAACCTA AAGCGCATCC TGGCTAAGGT GCAGGAGATG
CGGGACCAGC GCGTGTCCCT GGAGCAGCAG CTGCGTGAGC TTATCCAGAA AGATGACATC
ACTGCCTCGC TGGTCACCAC AGACCACTCA GAGATGAAGA AGTTGTTCGA GGAGCAGCTG
AAAAAGTATG ACCAGCTGAA GGTGTACCTG GAGCAGAACC TGGCCGCCCA GGACCGTGTC
CTCTGTGCAC TGACAGAGGC CAACGTGCAG TACGCAGCCG TGCGGCGGGT ACTCAGCGAC
TTGGACCAAA AGTGGAACTC CACGCTGCAG ACCCTGGTGG CCTCGTATGA AGCCTATGAG
GACCTGATGA AGAAGTCGCA GGAGGGCAGG GACTTCTACG CAGATCTGGA GAGCAAGGTG
GCTGCTCTGC TGGAGCGCAC GCAGTCCACC TGCCAGGCCC GCGAGGCTGC CCGCCAGCAG
CTCCTGGACA GGGAGCTGAA GAAGAAGCCG CCGCCACGGC CCACAGCCCC AAAGCCGCTG
CTGCCCCGCA GGGAGGAGAG TGAGGCAGTG GAAGCAGGAG ACCCCCCTGA GGAGCTGCGC
AGCCTCCCCC CTGACATGGT GGCTGGCCCA CGACTGCCTG ACACCTTCCT GGGAAGTGCC
ACCCCGCTCC ACTTTCCTCC CAGCCCCTTC CCCAGCTCCA CAGGCCCAGG ACCCCACTAT
CTCTCAGGCC CCTTGCCCCC TGGTACCTAC TCGGGCCCCA CCCAGCTGAT ACAGCCCAGG
GCCCCAGGGC CCCATGCAAT GCCCGTAGCA CCTGGGCCTG CCCTCTACCC AGCCCCTGCC
TACACACCGG AGCTGGGCCT TGTGCCCCGA TCCTCCCCAC AGCATGGCGT GGTGAGCAGT
CCCTATGTGG GGGTAGGGCC GGCCCCACCA GTTGCAGGTC TCCCCTCGGC CCCACCTCCT
CAATTCTCAG GCCCCGAGTT GGCCATGGCG GTTCGGCCAG CCACCACCAC AGTAGATAGC
ATCCAGGCGC CCATCCCCAG CCACACAGCC CCACGGCCAA ACCCCACCCC TGCTCCTCCC
CCGCCCTGCT TCCCTGTGCC CCCACCGCAG CCACTGCCCA CGCCTTACAC CTACCCTGCA
GGGGCTAAGC AACCCATCCC GGCACAGCAC CACTTCTCTT CTGGGATCCC CGCAGGTTTT
CCAGCCCCAA GGATTGGGCC CCAGCCCCAG CCCCATCCTC AGCCCCATCC TTCACAAGCG
TTTGGGCCTC AGCCCCCACA GCAGCCCCTT CCACTCCAGC ATCCACATCT CTTCCCACCC
CAGGCCCCAG GACTCCTACC CCCACAATCC CCCTACCCCT ATGCCCCTCA GCCTGGGGTC
CTGGGGCAGC CGCCACCCCC CCTACACACC CAGCTCTACC CAGGTCCCGC TCAAGACCCT
CTGCCAGCCC ACTCAGGGGC TCTGCCTTTC CCCAGCCCTG GGCCCCCTCA GCCTCCCCAT
CCCCCACTGG CATATGGTCC TGCCCCTTCT ACCAGACCCA TGGGCCCCCA GGCAGCCCCT
CTTACCATTC GAGGGCCCTC GTCTGCTGGC CAGTCCACCC CTAGTCCCCA CCTGGTGCCT
TCACCTGCCC CATCTCCAGG GCCTGGTCCG GTACCCCCTC GCCCCCCAGC AGCAGAACCA
CCCCCTTGCC TGCGCCGAGG CGCCGCAGCT GCAGACCTGC TCTCCTCCAG CCCGGAGAGC
CAGCATGGCG GCACTCAGTC TCCTGGGGGT GGGCAGCCCC TGCTGCAGCC CACCAAGGTG
GATGCAGCTG AGGGTCGTCG GCCGCAGGCC CTGCGGCTGA TTGAGCGGGA CCCCTATGAG
CATCCTGAGA GGCTGCGGCA GTTGCAGCAG GAGCTGGAGG CCTTTCGGGG TCAGCTGGGG
GATGTGGGAG CTCTGGACAC TGTCTGGCGA GAGCTGCAAG ATGCGCAGGA ACATGATGCC
CGAGGCCGTT CCATCGCCAT TGCCCGCTGC TACTCACTGA AGAACCGGCA CCAGGATGTC
ATGCCCTATG ACAGTAACCG TGTGGTGCTG CGCTCAGGCA AGGATGACTA CATCAATGCC
AGCTGCGTGG AGGGGCTCTC CCCATACTGC CCCCCGCTAG TGGCAACCCA GGCCCCACTG
CCTGGCACAG CTGCTGACTT CTGGCTCATG GTCCATGAGC AGAAAGTGTC AGTCATTGTC
ATGCTGGTTT CTGAGGCTGA GATGGAGAAG CAAAAAGTGG CACGCTACTT CCCCACCGAG
AGGGGCCAGC CCATGGTGCA CGGTGCCCTG AGCCTGGCAT TGAGCAGCGT CCGCAGCACC
GAAACCCATG TGGAGCGCGT GCTGAGCCTG CAGTTCCGAG ACCAGAGCCT CAAGCGCTCT
CTTGTGCACC TGCACTTCCC CACTTGGCCT GAGTTAGGCC TGCCCGACAG CCCCAGCAAC
TTGCTGCGCT TCATCCAGGA GGTGCACGCA CATTACCTGC ATCAGCGGCC GCTGCACACG
CCCATCATTG TGCACTGCAG CTCTGGTGTG GGCCGCACGG GAGCCTTTGC ACTGCTCTAT
GCAGCTGTGC AGGAGGTGGA GGCTGGGAAC GGAATCCCTG AGCTGCCTCA GCTGGTGCGG
CGCATGCGGC AGCAGAGAAA GCACATGCTG CAGGAGAAGC TGCACCTCAG GTTCTGCTAT
GAGGCAGTGG TGAGACACGT GGAGCAGGTC CTGCAGCGCC ATGGTGTGCC TCCTCCATGC
AAACCCTTGG CCAGTGCAAG CATCAGCCAG AAGAACCACC TTCCTCAGGA CTCCCAGGAC
CTGGTCCTCG GTGGGGATGT GCCCATCAGC TCCATCCAGG CCACCATTGC CAAGCTCAGC
ATTCGGCCTC CTGGGGGGTT GGAGTCCCCG GTTGCCAGCT TGCCAGGCCC TGCAGAGCCC
CCAGGCCTCC CGCCAGCCAG CCTCCCAGAG TCTACCCCAA TCCCATCTTC CTCCCCGCCC
CCCCTTTCCT CCCCACTACC TGAGGCTCCC CAGCCTAAGG AGGAGCCGCC AGTGCCTGAA
GCCCCCAGCT CGGGGCCCCC CTCCTCCTCC CTGGAATTGC TGGCCTCCTT GACCCCAGAG
GCCTTCTCCC TGGACAGCTC CCTGCGGGGC AAACAGCGGA TGAGCAAGCA TAACTTTCTG
CAGGCCCATA ACGGGCAAGG GCTGCGGGCC ACCCGGCCCT CTGACGACCC CCTCAGCCTT
CTGGATCCAC TCTGGACACT CAACAAGACC TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001291411.1
CDS366..4898
Misc Feature(1)249..251(+)
Misc Feature(2)366..1058(+)
Misc Feature(3)369..1013(+)
Misc Feature(4)1071..2087(+)
Misc Feature(5)1218..2087(+)
Misc Feature(6)1320..2030(+)
Misc Feature(7)3645..4337(+)
Misc Feature(8)3645..4334(+)
Misc Feature(9)4056..4184(+)
Exon (1)1..199
Gene:PTPN23
Gene Synonym:
Exon (2)200..274
Gene:PTPN23
Gene Synonym:
Exon (3)275..351
Gene:PTPN23
Gene Synonym:
Exon (4)352..401
Gene:PTPN23
Gene Synonym:
Exon (5)402..533
Gene:PTPN23
Gene Synonym:
Exon (6)534..614
Gene:PTPN23
Gene Synonym:
Exon (7)615..746
Gene:PTPN23
Gene Synonym:
Exon (8)747..794
Gene:PTPN23
Gene Synonym:
Exon (9)795..851
Gene:PTPN23
Gene Synonym:
Exon (10)852..910
Gene:PTPN23
Gene Synonym:
Exon (11)911..990
Gene:PTPN23
Gene Synonym:
Exon (12)991..1105
Gene:PTPN23
Gene Synonym:
Exon (13)1106..1171
Gene:PTPN23
Gene Synonym:
Exon (14)1172..1317
Gene:PTPN23
Gene Synonym:
Exon (15)1318..1629
Gene:PTPN23
Gene Synonym:
Exon (16)1630..1784
Gene:PTPN23
Gene Synonym:
Exon (17)1785..1936
Gene:PTPN23
Gene Synonym:
Exon (18)1937..2116
Gene:PTPN23
Gene Synonym:
Exon (19)2117..3875
Gene:PTPN23
Gene Synonym:
Exon (20)3876..4060
Gene:PTPN23
Gene Synonym:
Exon (21)4061..4165
Gene:PTPN23
Gene Synonym:
Exon (22)4166..4304
Gene:PTPN23
Gene Synonym:
Exon (23)4305..4418
Gene:PTPN23
Gene Synonym:
Exon (24)4419..5154
Gene:PTPN23
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001304482
Organism Homo sapiens (human)
Definition Homo sapiens protein tyrosine phosphatase, non-receptor type 23 (PTPN23), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001304482

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
ATGCTGGGGG CCATGGACAA GCGGGTGTCT GAGGAGGGCA TGAAGGTCTC CTGTACCCAT 
TTCCAGTGCG CAGCCGGCGC CTTCGCCTAC CTACGGGAGC ACTTCCCTCA AGCCTACAGC
GTCGACATGA GCCGCCAGAT CCTTACGCTC AACGTCAACC TCATGCTGGG CCAGGCTCAG
GAGTGCCTCC TGGAGAAGTC GATGTTGGAC AACAGGAAGA GCTTTCTGGT GGCCCGCATC
AGTGCACAGG TGGTAGATTA CTACAAGGAG GCATGCCGGG CCTTGGAGAA CCCCGACACT
GCCTCACTGC TGGGCCGGAT CCAGAAGGAC TGGAAGAAAC TTGTGCAGAT GAAGATCTAC
TACTTCGCAG CCGTGGCTCA TCTGCACATG GGAAAGCAGG CCGAGGAGCA GCAGAAGTTC
GGGGAGCGGG TTGCATACTT CCAGAGCGCC CTGGACAAGC TCAATGAAGC CATCAAGTTG
GCCAAGGGCC AGCCTGACAC TGTGCAAGAC GCGCTTCGCT TCACTATGGA TGTCATTGGG
GGAAAGTACA ATTCTGCCAA GAAGGACAAC GACTTCATTT ACCATGAGGC TGTCCCAGCA
TTGGACACTC TTCAGCCTGT AAAAGGAGCC CCCTTGGTGA AGCCCTTGCC AGTGAACCCC
ACAGACCCAG CTGTTACAGG CCCTGACATC TTTGCCAAAC TGGTACCCAT GGCTGCCCAC
GAGGCCTCGT CACTGTACAG TGAGGAGAAG GCCAAGCTGC TCCGGGAGAT GATGGCCAAG
ATTGAGGACA AGAATGAGGT CCTGGACCAG TTCATGGATT CAATGCAGTT GGATCCCGAG
ACGGTGGACA ACCTTGATGC CTACAGCCAC ATCCCACCCC AGCTCATGGA GAAGTGCGCG
GCTCTCAGCG TCCGGCCCGA CACTGTCAGG AACCTTGTAC AGTCCATGCA AGTGCTGTCA
GGTGTGTTCA CGGATGTGGA GGCTTCCCTG AAGGACATCA GAGATCTGTT GGAGGAGGAT
GAGCTGCTAG AGCAGAAGTT TCAGGAGGCG GTGGGCCAGG CAGGGGCCAT CTCCATCACC
TCCAAGGCTG AGCTGGCAGA GGTGAGGCGA GAATGGGCCA AGTACATGGA AGTCCATGAG
AAGGCCTCCT TCACCAACAG TGAGCTGCAC CGTGCCATGA ACCTGCACGT CGGCAACCTG
CGCCTGCTCA GCGGGCCGCT TGACCAGGTC CGGGCTGCCC TGCCCACACC GGCCCTCTCC
CCAGAGGACA AGGCCGTGCT GCAAAACCTA AAGCGCATCC TGGCTAAGGT GCAGGAGATG
CGGGACCAGC GCGTGTCCCT GGAGCAGCAG CTGCGTGAGC TTATCCAGAA AGATGACATC
ACTGCCTCGC TGGTCACCAC AGACCACTCA GAGATGAAGA AGTTGTTCGA GGAGCAGCTG
AAAAAGTATG ACCAGCTGAA GGTGTACCTG GAGCAGAACC TGGCCGCCCA GGACCGTGTC
CTCTGTGCAC TGACAGAGGC CAACGTGCAG TACGCAGCCG TGCGGCGGGT ACTCAGCGAC
TTGGACCAAA AGTGGAACTC CACGCTGCAG ACCCTGGTGG CCTCGTATGA AGCCTATGAG
GACCTGATGA AGAAGTCGCA GGAGGGCAGG GACTTCTACG CAGATCTGGA GAGCAAGGTG
GCTGCTCTGC TGGAGCGCAC GCAGTCCACC TGCCAGGCCC GCGAGGCTGC CCGCCAGCAG
CTCCTGGACA GGGAGCTGAA GAAGAAGCCG CCGCCACGGC CCACAGCCCC AAAGCCGCTG
CTGCCCCGCA GGGAGGAGAG TGAGGCAGTG GAAGCAGGAG ACCCCCCTGA GGAGCTGCGC
AGCCTCCCCC CTGACATGGT GGCTGGCCCA CGACTGCCTG ACACCTTCCT GGGAAGTGCC
ACCCCGCTCC ACTTTCCTCC CAGCCCCTTC CCCAGCTCCA CAGGCCCAGG ACCCCACTAT
CTCTCAGGCC CCTTGCCCCC TGGTACCTAC TCGGGCCCCA CCCAGCTGAT ACAGCCCAGG
GCCCCAGGGC CCCATGCAAT GCCCGTAGCA CCTGGGCCTG CCCTCTACCC AGCCCCTGCC
TACACACCGG AGCTGGGCCT TGTGCCCCGA TCCTCCCCAC AGCATGGCGT GGTGAGCAGT
CCCTATGTGG GGGTAGGGCC GGCCCCACCA GTTGCAGGTC TCCCCTCGGC CCCACCTCCT
CAATTCTCAG GCCCCGAGTT GGCCATGGCG GTTCGGCCAG CCACCACCAC AGTAGATAGC
ATCCAGGCGC CCATCCCCAG CCACACAGCC CCACGGCCAA ACCCCACCCC TGCTCCTCCC
CCGCCCTGCT TCCCTGTGCC CCCACCGCAG CCACTGCCCA CGCCTTACAC CTACCCTGCA
GGGGCTAAGC AACCCATCCC GGCACAGCAC CACTTCTCTT CTGGGATCCC CGCAGGTTTT
CCAGCCCCAA GGATTGGGCC CCAGCCCCAG CCCCATCCTC AGCCCCATCC TTCACAAGCG
TTTGGGCCTC AGCCCCCACA GCAGCCCCTT CCACTCCAGC ATCCACATCT CTTCCCACCC
CAGGCCCCAG GACTCCTACC CCCACAATCC CCCTACCCCT ATGCCCCTCA GCCTGGGGTC
CTGGGGCAGC CGCCACCCCC CCTACACACC CAGCTCTACC CAGGTCCCGC TCAAGACCCT
CTGCCAGCCC ACTCAGGGGC TCTGCCTTTC CCCAGCCCTG GGCCCCCTCA GCCTCCCCAT
CCCCCACTGG CATATGGTCC TGCCCCTTCT ACCAGACCCA TGGGCCCCCA GGCAGCCCCT
CTTACCATTC GAGGGCCCTC GTCTGCTGGC CAGTCCACCC CTAGTCCCCA CCTGGTGCCT
TCACCTGCCC CATCTCCAGG GCCTGGTCCG GTACCCCCTC GCCCCCCAGC AGCAGAACCA
CCCCCTTGCC TGCGCCGAGG CGCCGCAGCT GCAGACCTGC TCTCCTCCAG CCCGGAGAGC
CAGCATGGCG GCACTCAGTC TCCTGGGGGT GGGCAGCCCC TGCTGCAGCC CACCAAGGTG
GATGCAGCTG AGGGTCGTCG GCCGCAGGCC CTGCGGCTGA TTGAGCGGGA CCCCTATGAG
CATCCTGAGA GGCTGCGGCA GTTGCAGCAG GAGCTGGAGG CCTTTCGGGG TCAGCTGGGG
GATGTGGGAG CTCTGGACAC TGTCTGGCGA GAGCTGCAAG ATGCGCAGGA ACATGATGCC
CGAGGCCGTT CCATCGCCAT TGCCCGCTGC TACTCACTGA AGAACCGGCA CCAGGATGTC
ATGCCCTATG ACAGTAACCG TGTGGTGCTG CGCTCAGGCA AGGATGACTA CATCAATGCC
AGCTGCGTGG AGGGGCTCTC CCCATACTGC CCCCCGCTAG TGGCAACCCA GGCCCCACTG
CCTGGCACAG CTGCTGACTT CTGGCTCATG GTCCATGAGC AGAAAGTGTC AGTCATTGTC
ATGCTGGTTT CTGAGGCTGA GATGGAGAAG CAAAAAGTGG CACGCTACTT CCCCACCGAG
AGGGGCCAGC CCATGGTGCA CGGTGCCCTG AGCCTGGCAT TGAGCAGCGT CCGCAGCACC
GAAACCCATG TGGAGCGCGT GCTGAGCCTG CAGTTCCGAG ACCAGAGCCT CAAGCGCTCT
CTTGTGCACC TGCACTTCCC CACTTGGCCT GAGTTAGGCC TGCCCGACAG CCCCAGCAAC
TTGCTGCGCT TCATCCAGGA GGTGCACGCA CATTACCTGC ATCAGCGGCC GCTGCACACG
CCCATCATTG TGCACTGCAG CTCTGGTGTG GGCCGCACGG GAGCCTTTGC ACTGCTCTAT
GCAGCTGTGC AGGAGGTGGA GGCTGGGAAC GGAATCCCTG AGCTGCCTCA GCTGGTGCGG
CGCATGCGGC AGCAGAGAAA GCACATGCTG CAGGAGAAGC TGCACCTCAG GTTCTGCTAT
GAGGCAGTGG TGAGACACGT GGAGCAGGTC CTGCAGCGCC ATGGTGTGCC TCCTCCATGC
AAACCCTTGG CCAGTGCAAG CATCAGCCAG AAGAACCACC TTCCTCAGGA CTCCCAGGAC
CTGGTCCTCG GTGGGGATGT GCCCATCAGC TCCATCCAGG CCACCATTGC CAAGCTCAGC
ATTCGGCCTC CTGGGGGGTT GGAGTCCCCG GTTGCCAGCT TGCCAGGCCC TGCAGAGCCC
CCAGGCCTCC CGCCAGCCAG CCTCCCAGAG TCTACCCCAA TCCCATCTTC CTCCCCGCCC
CCCCTTTCCT CCCCACTACC TGAGGCTCCC CAGCCTAAGG AGGAGCCGCC AGTGCCTGAA
GCCCCCAGCT CGGGGCCCCC CTCCTCCTCC CTGGAATTGC TGGCCTCCTT GACCCCAGAG
GCCTTCTCCC TGGACAGCTC CCTGCGGGGC AAACAGCGGA TGAGCAAGCA TAACTTTCTG
CAGGCCCATA ACGGGCAAGG GCTGCGGGCC ACCCGGCCCT CTGACGACCC CCTCAGCCTT
CTGGATCCAC TCTGGACACT CAACAAGACC TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

 
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