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igf1r cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Summary

Gene Symbol igf1r
Entrez Gene ID 100329112
Full Name insulin like growth factor 1 receptor
Synonyms XTK2,igf-1r,xIGF-1R,xIGFR,xigf1r
General protein information
Preferred Names

insulin like growth factor 1 receptor

Names

insulin-like growth factor 1 receptor
Gene Type protein-coding
Organism Xenopus tropicalis(tropical clawed frog)

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_002933305.4 XP_002933351.1 insulin-like growth factor 1 receptor

Pathways from BioSystems


Homologies


Pan troglodytes (chimpanzee) IGF1R XP_510613.2
Canis lupus familiaris (dog) IGF1R XP_545828.2
Mus musculus (house mouse) Igf1r NP_034643.2
Gallus gallus (chicken) IGF1R NP_990363.1
Bos taurus (cattle) IGF1R NP_001231541.1
Danio rerio (zebrafish) igf1ra NP_694500.1
Caenorhabditis elegans (roundworm) daf-2 NP_497650.4
Homo sapiens (human) IGF1R NP_000866.1
Rattus norvegicus (Norway rat) Igf1r NP_434694.1
Danio rerio (zebrafish) igf1rb NP_694501.1
Anopheles gambiae (African malaria mosquito) INR XP_320130.3
Xenopus tropicalis (tropical clawed frog) igf1r XP_002933351.1
IGF1R XP_001100407.1
Drosophila melanogaster (fruit fly) InR NP_001138093.1

Gene Ontology

The following igf1r gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the igf1r 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.

***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OXa07306 XM_002933305.4
Latest version!		 Xenopus tropicalis insulin like growth factor 1 receptor (igf1r), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $797.30
$1139.00

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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.

Reference Sequences (Refseq)


CloneID OXa07306
Clone ID Related Accession (Same CDS sequence) XM_002933305.4
Accession Version XM_002933305.4 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4089bp)
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
Insert Structure linear
Update Date 2016-09-08
Organism Xenopus tropicalis(tropical clawed frog)
Product insulin-like growth factor 1 receptor
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002933305.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
ATGAAGGCCG GATTGGTGCC TGCTTGTACG GCCTGGATCC CGGGGGTCCT CGTCCTCCTC 
CTTCTGTGCC TGGGACCGTC GGCTGGGAGA GTGTGTGGTC CAAACATGGA TATCCGAAAT 
GACGTCCGCG AACTTAAACA GCTGGAAGAT TGTGTGGTGA TTGAAGGCTA CCTGCAAATT 
CTGCTCATCT CAAATGCCAA GGCAGAGGAC TTCCGGAACC TTCGGTTCCC CAAACTGACC 
GTTATTACTG ACTATTTATT GCTTTTCCGG GTTTCTGGCT TGGTGAGTCT CAGCAATCTC 
TTTCCCAACC TCACTGTGAT CCGTGGCCGA GTCCTCTTCT ACAACTATGC CCTTGTTATT 
TTCGAGATGA CAGACCTGAA GGAGATTGGA TTGTACAACT TGCGTAATAT AACACGTGGT 
GCTGTCCGGA TTGAGAAGAA CTCTGAACTG TGTTACGTCT CCACGGTGGA CTGGTCACTC 
ATTCTGGATG CCGTCTACAA TAATTACATT GTTGGGAATA AGCCGCCAAA GGAATGTGTG 
GATTTGTGTC CTGGCGCTAG AGAGAAAATG CAAATTTGTG AAAAGTCATC CATAAATAAT 
GAATTTGCTG ACCGATGTTG GTCTGATGAA CACTGCCAAA AAGCGTGCCC CGGTGTTTGT 
GGGAAGCGAG CATGTACTGA TAACAAAGAA TGCTGTCATC CAGAATGCTT GGGCAGCTGC 
ATGGCACCCG ATAACGACAC GGCGTGTGTG GCCTGTCACC ACTACTTCTA CGAGGGCCGC 
TGTGTCCCCA CCTGCCCGCC TAACACCTAT AAATTTGAAG GGTGGCGCTG CATCACTCGG 
GAGGAATGTG CCAAGATGCA TATTGTGGTC AACAGTCTAA CTCCATTCAT CATTCACAAA 
GGAGAATGTG TTTACGAGTG CCCATCAGGA TTCATGCTAA ATGAAAGCCA GAGTATGACC 
TGCAGCCCCT GTGAGGGTCC CTGCCCCAAA GTCTGTGATG AAAAGATGAA AACTATTGAT 
TCTGTTACCT CAGCCCAAAT GCTCGAAGGA TGTACTGTGC TAAAGGGAAA CCTGCAACTA 
AATATCCGCA AAGGCCAAAA TATTGCTTCG GAGTTGGAGA ATTTCTTGGG TCTGATAGAG 
ACAGTCACCG GCTATGTCAA GATTCGGCAC TCCCATGCAC TGGTGTCTCT CTCTTTCCTG 
AAAAGTCTGC GCTATATCCT AGGAGAGGAG CAAATGCCTG GAAATTATTC CTTTTACGTC 
TTTGACAATA ACAACCTACA GCAGTTGTGG GACTGGTCGA AGCACAACCT CACTATCAAA 
GAGGGCAAAA TACGTTTTGC ATTCAACTCC AAGCTTTGCG CTTCTGAGAT TTACCGCATG 
GAGGAAGTAA CTGGAACGAA AGGGAGGCAG ACTGCAGAGG ACATCAGCCT TAGTACTAAT 
GGAAATATGG CTTCATGCGA GAGTCACGTC TTAAATTTCA CCTCCATAAT CACAAGTAAG 
AACCGGATTA AGTTTACATG GGAGCGCTAC AGGCCACCGG ATTACAGAGA CCTTATCAGC 
TTCACTGTCT ACTACAAAGA GGCACTCTTC CATAATGTAA CAGAGTATGA TGGTCAGGAT 
GCATGTGGAT CCAACAGCTG GAATATGGTT GATGTGGACC TCCCAGCCAG CAAGGAAAGT 
GACCCTGGAA TCCTCCTGCA GGGACTGAAG CCTTGGACAC AATATGCAAT CTATGTGAAG 
GCTATTACCT TGACCATGCT GGAGAGCCGT CATATTCATG GTGCCAAAAG CAAGATCATA 
TATATACGAA CAGATGCAGC AGTTCCTTCC ATCCCCCAAG ATGTGATCTC CGCATCCAAC 
TCGTCTTCTC AGCTGGTGGT GAAGTGGAAC TCACCCAGTC AACCAAATGG GAACCTCTCC 
TACTATATTG TGCGATGGCA GCAGCAGCCT CAGGACAGAC ACTTGTATCA GTACAACTAT 
TGCTTCAGAG ATAAAGTACC CAATCGGAAA TACGCCAATG GGACCATTGA TACTGAAGGT 
GTGACAGAGC TGACAAAGCC AGAAGGCAAC ACAGGAGAAA AGGGCCATTG CTGTGCCTGT 
CCTAAAACCG AGGCAGAGAA AAAAGCAGAA AAAGATGAAG CTGAATACAG AAAGGTTTTT 
GAAAATTTCC TCCACAATTC CATTTTTGTG CCAAGGCCCA ACCGTCGGCG TAGAGATGTC 
TTTGCTGTTG GGAACTCCAC ACAGACCAGT CACGGAAAGA ACACCACCGT AGAGGATTTC 
TCCAATTTCT CTGATTTTGA AAAAGAGGAT GTAGAATACC CATTCTACGA GACAAAGATT 
GACTACAAGC GGGAAAGGAC AGTGATCTCA AATTTGCAAC CATTTACCCT CTACCGTATA 
GATATTCATA GCTGCAACCA TGAGGCTGAG AAGCTTGGCT GCAGTGCTTC CAATTTTGTC 
TTTGCCCGAA CCATGCCGGC AGCTGGAGCT GATGATATTC CAGGGCATGT TAGCGCTAAA 
GAAGAAGATG ATGGCGTGGT CTTTCTAAAG TGGTATGAGC CCAAGAGACC AAATGGGCTA 
ATCCTGATGT ATGAGATAGA GTACAAGCAG CAAGGAGAAG TTCACAGGGA GTGTGTGTCT 
AGGCAGGACT TCCGGAAGAC TGGAGGCGCC AAACTCACAC GGCTTTCTCC CGGGAATTAC 
TCAGCACAGG TTCAGGCTAT CTCTTTATAT GGAAATGGTT CATGGACAGA ACCTGTCTCC 
TTCTGTGTAA AGCCAAAACC GGATGTGAGC AATAATATCC TGCAAATGGT TGTGGCTATT 
CCCCTCGCCT TTATTTTGCT GTTGGTGGGG ATCATCAGTA TTGGCTGCTT TGTTTCCAAG 
AAAAGAAACA GCAACCGACT TGGAAATGGT GTTCTCTATG CCTCTGTGAA CCCCGAGTAT 
TTCAGTGCAG CAGAAATGTA TGTGCCTGAT GAATGGGAGG TTCCTCGAGA GAAGATAACA 
ATGAACAGAG AGCTCGGGCA AGGTTCGTTC GGAATGGTAT ATGAGGGCAT TGCCAAAGGG 
GTGGTGAAGG ATGAAGCAGA GACAAGAGTT GCCATAAAGA CGGTCAATGA GTCTGCCAGC 
ATGCGGGAGA GAATTGAATT TCTGAATGAG GCTTCCGTCA TGAAGGAGTT CAACTGTCAC 
CACGTGGTGC GCTTATTAGG GGTCGTTTCT CAAGGTCAGC CGACGCTTGT CATCATGGAA 
TTAATGACTC GGGGAGACCT CAAAAGCTAC TTAAGATCTT TGCGACCAGA CACAGAGAGT 
AACTCCGGGC AGCCTCCTCC TTCCCTGAAG AAGATGATCC AGATGGCTGG AGAAATTGCA 
GATGGAATGG CGTACCTCAA TGCAAACAAG TTTGTTCACA GAGATCTGGC TGCTAGAAAC 
TGCATGGTAG CTGAGGATTT CACTGTTAAG ATTGGAGACT TTGGAATGAC GAGAGACATC 
TATGAGACAG ACTATTACAG AAAGGGGGGG AAAGGTCTTC TGCCTGTGCG TTGGATGTCC 
CCAGAATCCC TGAAGGATGG TGTTTTCACA ACTCACTCAG ATGTCTGGTC CTTTGGTGTT 
GTGTTATGGG AGATTGCCAC TCTTGCAGAG CAGCCTTACC AAGGGATGTC CAATGAGCAG 
GTTCTTCGCT TCGTTATGGA AGGAGGCCTT CTGGAGAAGC CCGATAACTG CCCTGACATG 
CTGTTTGAAC TAATGCGCAT GTGCTGGCAA TACAACCCCA AGATGAGACC TTCGTTCCTG 
GAGATCATTA GCAGTATCAA AGATGAACTT GACCCAGGCT TCAAAGAGGT GTCCTTTTTC 
TACAGTGAAG AAAACAAACC CCCAGACACA GAGGAGCTAG ATCTGGAGGC AGAGAACATG 
GAGAGCATTC CGTTGGATCC CTCATGTGCC CTGCAGACAT CTGAGCACCA TGCGGGACAT 
AAATCTGAAA ACGGCCCAGG TGTAGTGGTA CTTAGGGCAA GTTTTGACGA GAGGCAACCG 
TATGCACACA TGAATGGAGG GCGCAAAAAC GAGAGGGCAC TCCCTCTGCC CCAGTCCTCA 
GCCTGCTGA

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

RefSeq XP_002933351.1
CDS1743..5831
Misc Feature(1)1890..2228
Misc Feature(2)2268..2732
Misc Feature(3)2433..2573
Misc Feature(4)2790..3134
Misc Feature(5)3216..3554
Misc Feature(6)order(3519..3524,3528..3533)
Misc Feature(7)3567..>3701
Misc Feature(8)4242..4505
Misc Feature(9)order(4476..4481,4485..4490)
Misc Feature(10)4716..5546
Misc Feature(11)4737..5540
Misc Feature(12)order(4755..4757,4761..4769,4779..4781,4833..4835,4839..4841,4980..4982,4986..4988,4998..5000,5145..5147,5157..5162,5166..5168,5199..5201,5250..5258,5262..5267,5292..5294,5298..5300,5394..5396)
Misc Feature(13)order(4755..4757,4761..4769,4779..4781,4833..4835,4839..4841,4980..4982,4986..4988,4998..5000,5160..5162,5166..5168,5199..5201)
Misc Feature(14)order(5145..5147,5157..5159,5250..5258,5262..5267,5292..5294,5298..5300,5394..5396)
Misc Feature(15)5196..5273
Translation

Target ORF information:

RefSeq Version XM_002933305.4
Organism Xenopus tropicalis(tropical clawed frog)
Definition Xenopus tropicalis insulin like growth factor 1 receptor (igf1r), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_002933305.4

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
ATGAAGGCCG GATTGGTGCC TGCTTGTACG GCCTGGATCC CGGGGGTCCT CGTCCTCCTC 
CTTCTGTGCC TGGGACCGTC GGCTGGGAGA GTGTGTGGTC CAAACATGGA TATCCGAAAT 
GACGTCCGCG AACTTAAACA GCTGGAAGAT TGTGTGGTGA TTGAAGGCTA CCTGCAAATT 
CTGCTCATCT CAAATGCCAA GGCAGAGGAC TTCCGGAACC TTCGGTTCCC CAAACTGACC 
GTTATTACTG ACTATTTATT GCTTTTCCGG GTTTCTGGCT TGGTGAGTCT CAGCAATCTC 
TTTCCCAACC TCACTGTGAT CCGTGGCCGA GTCCTCTTCT ACAACTATGC CCTTGTTATT 
TTCGAGATGA CAGACCTGAA GGAGATTGGA TTGTACAACT TGCGTAATAT AACACGTGGT 
GCTGTCCGGA TTGAGAAGAA CTCTGAACTG TGTTACGTCT CCACGGTGGA CTGGTCACTC 
ATTCTGGATG CCGTCTACAA TAATTACATT GTTGGGAATA AGCCGCCAAA GGAATGTGTG 
GATTTGTGTC CTGGCGCTAG AGAGAAAATG CAAATTTGTG AAAAGTCATC CATAAATAAT 
GAATTTGCTG ACCGATGTTG GTCTGATGAA CACTGCCAAA AAGCGTGCCC CGGTGTTTGT 
GGGAAGCGAG CATGTACTGA TAACAAAGAA TGCTGTCATC CAGAATGCTT GGGCAGCTGC 
ATGGCACCCG ATAACGACAC GGCGTGTGTG GCCTGTCACC ACTACTTCTA CGAGGGCCGC 
TGTGTCCCCA CCTGCCCGCC TAACACCTAT AAATTTGAAG GGTGGCGCTG CATCACTCGG 
GAGGAATGTG CCAAGATGCA TATTGTGGTC AACAGTCTAA CTCCATTCAT CATTCACAAA 
GGAGAATGTG TTTACGAGTG CCCATCAGGA TTCATGCTAA ATGAAAGCCA GAGTATGACC 
TGCAGCCCCT GTGAGGGTCC CTGCCCCAAA GTCTGTGATG AAAAGATGAA AACTATTGAT 
TCTGTTACCT CAGCCCAAAT GCTCGAAGGA TGTACTGTGC TAAAGGGAAA CCTGCAACTA 
AATATCCGCA AAGGCCAAAA TATTGCTTCG GAGTTGGAGA ATTTCTTGGG TCTGATAGAG 
ACAGTCACCG GCTATGTCAA GATTCGGCAC TCCCATGCAC TGGTGTCTCT CTCTTTCCTG 
AAAAGTCTGC GCTATATCCT AGGAGAGGAG CAAATGCCTG GAAATTATTC CTTTTACGTC 
TTTGACAATA ACAACCTACA GCAGTTGTGG GACTGGTCGA AGCACAACCT CACTATCAAA 
GAGGGCAAAA TACGTTTTGC ATTCAACTCC AAGCTTTGCG CTTCTGAGAT TTACCGCATG 
GAGGAAGTAA CTGGAACGAA AGGGAGGCAG ACTGCAGAGG ACATCAGCCT TAGTACTAAT 
GGAAATATGG CTTCATGCGA GAGTCACGTC TTAAATTTCA CCTCCATAAT CACAAGTAAG 
AACCGGATTA AGTTTACATG GGAGCGCTAC AGGCCACCGG ATTACAGAGA CCTTATCAGC 
TTCACTGTCT ACTACAAAGA GGCACTCTTC CATAATGTAA CAGAGTATGA TGGTCAGGAT 
GCATGTGGAT CCAACAGCTG GAATATGGTT GATGTGGACC TCCCAGCCAG CAAGGAAAGT 
GACCCTGGAA TCCTCCTGCA GGGACTGAAG CCTTGGACAC AATATGCAAT CTATGTGAAG 
GCTATTACCT TGACCATGCT GGAGAGCCGT CATATTCATG GTGCCAAAAG CAAGATCATA 
TATATACGAA CAGATGCAGC AGTTCCTTCC ATCCCCCAAG ATGTGATCTC CGCATCCAAC 
TCGTCTTCTC AGCTGGTGGT GAAGTGGAAC TCACCCAGTC AACCAAATGG GAACCTCTCC 
TACTATATTG TGCGATGGCA GCAGCAGCCT CAGGACAGAC ACTTGTATCA GTACAACTAT 
TGCTTCAGAG ATAAAGTACC CAATCGGAAA TACGCCAATG GGACCATTGA TACTGAAGGT 
GTGACAGAGC TGACAAAGCC AGAAGGCAAC ACAGGAGAAA AGGGCCATTG CTGTGCCTGT 
CCTAAAACCG AGGCAGAGAA AAAAGCAGAA AAAGATGAAG CTGAATACAG AAAGGTTTTT 
GAAAATTTCC TCCACAATTC CATTTTTGTG CCAAGGCCCA ACCGTCGGCG TAGAGATGTC 
TTTGCTGTTG GGAACTCCAC ACAGACCAGT CACGGAAAGA ACACCACCGT AGAGGATTTC 
TCCAATTTCT CTGATTTTGA AAAAGAGGAT GTAGAATACC CATTCTACGA GACAAAGATT 
GACTACAAGC GGGAAAGGAC AGTGATCTCA AATTTGCAAC CATTTACCCT CTACCGTATA 
GATATTCATA GCTGCAACCA TGAGGCTGAG AAGCTTGGCT GCAGTGCTTC CAATTTTGTC 
TTTGCCCGAA CCATGCCGGC AGCTGGAGCT GATGATATTC CAGGGCATGT TAGCGCTAAA 
GAAGAAGATG ATGGCGTGGT CTTTCTAAAG TGGTATGAGC CCAAGAGACC AAATGGGCTA 
ATCCTGATGT ATGAGATAGA GTACAAGCAG CAAGGAGAAG TTCACAGGGA GTGTGTGTCT 
AGGCAGGACT TCCGGAAGAC TGGAGGCGCC AAACTCACAC GGCTTTCTCC CGGGAATTAC 
TCAGCACAGG TTCAGGCTAT CTCTTTATAT GGAAATGGTT CATGGACAGA ACCTGTCTCC 
TTCTGTGTAA AGCCAAAACC GGATGTGAGC AATAATATCC TGCAAATGGT TGTGGCTATT 
CCCCTCGCCT TTATTTTGCT GTTGGTGGGG ATCATCAGTA TTGGCTGCTT TGTTTCCAAG 
AAAAGAAACA GCAACCGACT TGGAAATGGT GTTCTCTATG CCTCTGTGAA CCCCGAGTAT 
TTCAGTGCAG CAGAAATGTA TGTGCCTGAT GAATGGGAGG TTCCTCGAGA GAAGATAACA 
ATGAACAGAG AGCTCGGGCA AGGTTCGTTC GGAATGGTAT ATGAGGGCAT TGCCAAAGGG 
GTGGTGAAGG ATGAAGCAGA GACAAGAGTT GCCATAAAGA CGGTCAATGA GTCTGCCAGC 
ATGCGGGAGA GAATTGAATT TCTGAATGAG GCTTCCGTCA TGAAGGAGTT CAACTGTCAC 
CACGTGGTGC GCTTATTAGG GGTCGTTTCT CAAGGTCAGC CGACGCTTGT CATCATGGAA 
TTAATGACTC GGGGAGACCT CAAAAGCTAC TTAAGATCTT TGCGACCAGA CACAGAGAGT 
AACTCCGGGC AGCCTCCTCC TTCCCTGAAG AAGATGATCC AGATGGCTGG AGAAATTGCA 
GATGGAATGG CGTACCTCAA TGCAAACAAG TTTGTTCACA GAGATCTGGC TGCTAGAAAC 
TGCATGGTAG CTGAGGATTT CACTGTTAAG ATTGGAGACT TTGGAATGAC GAGAGACATC 
TATGAGACAG ACTATTACAG AAAGGGGGGG AAAGGTCTTC TGCCTGTGCG TTGGATGTCC 
CCAGAATCCC TGAAGGATGG TGTTTTCACA ACTCACTCAG ATGTCTGGTC CTTTGGTGTT 
GTGTTATGGG AGATTGCCAC TCTTGCAGAG CAGCCTTACC AAGGGATGTC CAATGAGCAG 
GTTCTTCGCT TCGTTATGGA AGGAGGCCTT CTGGAGAAGC CCGATAACTG CCCTGACATG 
CTGTTTGAAC TAATGCGCAT GTGCTGGCAA TACAACCCCA AGATGAGACC TTCGTTCCTG 
GAGATCATTA GCAGTATCAA AGATGAACTT GACCCAGGCT TCAAAGAGGT GTCCTTTTTC 
TACAGTGAAG AAAACAAACC CCCAGACACA GAGGAGCTAG ATCTGGAGGC AGAGAACATG 
GAGAGCATTC CGTTGGATCC CTCATGTGCC CTGCAGACAT CTGAGCACCA TGCGGGACAT 
AAATCTGAAA ACGGCCCAGG TGTAGTGGTA CTTAGGGCAA GTTTTGACGA GAGGCAACCG 
TATGCACACA TGAATGGAGG GCGCAAAAAC GAGAGGGCAC TCCCTCTGCC CCAGTCCTCA 
GCCTGCTGA

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

PubMed