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LOC108648786 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Summary

Gene Symbol LOC108648786
Entrez Gene ID 108648786
Full Name interferon-induced very large GTPase 1-like
Gene Type protein-coding
Organism Xenopus tropicalis(tropical clawed frog)

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_018097194.1 XP_017952683.1 interferon-induced very large GTPase 1-like

Pathways from BioSystems


Gene Ontology

The following LOC108648786 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108648786 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 Accession No. Definition **Vector *Turnaround time Price (USD) Select
OXa46640 XM_018097194.1
Latest version!		 Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC108648786), mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $1021.30
$1459.00

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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 OXa46640
Clone ID Related Accession (Same CDS sequence) XM_018097194.1
Accession Version XM_018097194.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 5451bp)
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 2016-09-07
Organism Xenopus tropicalis(tropical clawed frog)
Product interferon-induced very large GTPase 1-like
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## ab initio :: 37% of CDS bases ##RefSeq-Attributes-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
4921
4981
5041
5101
5161
5221
5281
5341
5401
ATGGAGGGGC CAGCAACAGC ACAGGATTCG GTGACAGCTA TTGGGCAGGA AGAAGAAGCT 
ACTGGCCTAT CTGAGGAAGA AGAAAAAGGC ACCATTAAAG GCATGGAGGG GCCAGCAACA 
GCACAGGATT CAGTGACAGC TATTGGGCAG GAAGAAGCTA AGGACTTATC TGAAAAAGAA 
AACAAAGGCA CCATTAAAGA CATGGAGGGG CCAGCAACAG CACAGGATTC AGTGACGGCC 
ATTGGGCAGG AAGAAGAAGC TACTGGCCTA TTTGAGGAAG AAGAAAAAGG CACCGGCACA 
GATAGGGACA GCCCTGCAGC AGCAGGAGCA GAGGATATAG AGGGAACTCA TGTAAGGGAA 
GGAGAGGCTT CAGTCAAATC TTTGGAAGAA CAGACAGGGG AGAGGCGCTA TATCATCAGC 
ATGCTCCTGT GTGCAGGATA TGATGACCCA CCGCTGGGGG ACTTAGGGGT CCACGAAAGG 
AAGAGAGCCA TCCTGCGCAA CCTCCAAGCC GGGTTGCACG GGGGCTTCGG AATTGATGTG 
GACCCCCGCC TGCTCCAGCA TCTGTGCCAT CACACAGGTC ATGCTACTGG CAAACCCGCT 
GAAGGCACCA TTAAAGGCAT GGAGGGGCCA GCAACAGCAC AGGATTCAGA GACGGCTATT 
GGGCAGGAAG AAGAAGCTAC TGGCCTATCT GAGGAAGAAG AAAAAGAAAA CAGAAACACC 
CTGAATGAAA TGATAGAATC CTATAAAGAG TCTAAGCTCT CCCTGAGGGA CATCCTGGAC 
GTTGGGCAGG AGAATATAAA TGAAGTTGCC CCCCAGACTG TACAAGACCT GCCCTGGGCT 
CTCCTAAGGA AACTGATGGC GCTGGACAGG ACTGCAAGAA CTATTCAACT TGAGGATATT 
TCTGAGAATT CGGGGTCAGA CTCTGATAGT GTAGGGGAAG GAGAACATTT TCTACAAATG 
GATTCAATGG AAGATTCTGA TAGCACAGAA AAATATGTAT CTCAGAATTT GGGTTTTTAT 
AGTAAAGAGG ATAAATGTAA TTCCATTAAT CCATTAGACA GTCTGTGTGC TCTCTTGCAT 
TGCTCAGATA TGTTGTTACA GCAGAACATC TTATCCAAAA TGTCCCTTTG TCAGTTTGCT 
GTCCCACTGC TGCTCCCTGC TGGTGATGGC CCAGAATGCA CCTTCATGCT GTGGGCTATG 
AGAGACATTG TCAAGAGATG GAGACCCCAC ACTCTGGCAG ACAGTAAAGG ATTTGTAGAA 
GAAAACCTGG TTCAAGTAGA AATGCCATTG CTCTCCTTTG TGAGACTGGG GCAAAGCAAA 
TTATCCAAAT CTAAAATCCT CAACCAAGTG CTCAGCCCAG CTCAGCAGTA CCAGGACTTC 
TTTGTTCATG AAAATATGGA GGGTGGAAAT ATTAAAAGAG AAATCTCTGA TGGCCTAGTG 
GAAATCTCCT GGTTTTTACC TGCTGGAAGA ACAAATACTG ATATTTTCCC AGAACCTGTT 
GCTGTTACTA ATATGCGTGG AGACATCGAG TCTAACTGGA CCCAATTCCG CTTCCTAACC 
CAGGTCTCAT CAGCAGTGTT TGTATTTGCT GAGAGCATTA ATGAGAGAGA GTGTGAGCTA 
TTAGCCCAGT GTAGTAAATC CAACCCCAAC TTCTATTTCA TCATTACTCC TAGTGGCAAA 
GGTGTCAGTA AAGAGACTGT GAAATCCTTA AAAAAGAGTT CACTACATAT TGGAAAATCA 
CAAATACTAA TAAAAGACAA AAGAGCAAAT GATGCAAGGC TAGTGAGCAA TATACAAAGT 
ATAGTCAAGA AATTTTTAGA AAAAAATGAT AAGAGAGTAA AACTGGAAGA TTTATCAAAC 
ACAGCCACTG AACTTCAATT CAAAGTGGAT GAAAATTCCC AGGAATGTCA GAAAGCAAAG 
ACATATGCTG AAGAAATAAA TAAAGAGATA CAAGATGTGG TACAATATAA GAAAGAGACA 
ATGAAACTAC AAGGGGATCT GTGGAAGCAA GTGGCCCAGA TAGAGAAGGA ATTGTGCAGA 
ATGAGAAAAC AAGGGGATAA AAACCCAGAA GAATACCGAT CTCAGCTGAC CAAGAAACTT 
AACAAGTTAC ACAAGGAACA GAACCAGCAT TTCCTGCCTG ACTCTATGAG TAAGTTCATT 
TCTGCCATCA CACATTTGTC TCAAACTGAA AAACATTATT TTCTGAAATG GATGAAATTT 
GCACTTGACT CAGTGGCTAG AAACCGTCTT TCCATGCTAA AAGCAAAATA CAAGAAAACA 
TGTAACAATA AAGAAAATAA TCAAGACGAA CTAAAACAGT TAGATCAGCA ACTATCTGAC 
AGTTCTTTGG GAGTCGAACA TTTCCTACGT GAGATGGGGC AGTTTTATGA GGCAGAATGT 
TCCATGGTGA GTCAAGGCAA AATCAAACCA GATAACATAC AATTCTGTAA TCTCCCAGGA 
ATTGCTGCTG ATCTATTGCT GGATGGGTTC CCATTGGAGC TGATAGATGG AGATGCCTCT 
AATATCCCCC TACAGTGGGT AACTGATCTT TTGATTGAGT TGGATAAGAA GACAGGAGGG 
AAATGCAGAA TGAGAGTAAT CACAGTGCTG GGAGTGCAGA GCACAGGGAA ATCCACCCTC 
CTGAACACCA TGTTTGGGCT GCAGTTTTCA GTGTCCAGTG GGCGATGCAC ACGGGGAGCC 
TTTTTAACAT TGATTAAAGT GAAAAAAGAC TTCCTGAAGA ACCTGGGCTG TGAGTTTATT 
TTAGTGATTG ACACTGAAGG TCTGAAGGCT CCAGAACTGG CTTCTCTGGA GGGCAGCTAT 
GAACATGACA ATGAGTTGGC GACTCTAGTG GTTGGGCTCA GTGATATCAC TATAATCAAT 
ATGGCCATGG AGAATACAGC AGAAATGAAA GATACACTGC AGATTGTGGT TCATGCATTT 
CTCCGAATGA AGCAAATAGG GAAGAAACCC AACTGCCAGT TTGTGCATCA GAATGTGAGT 
GATGTTTCTG CTGATGATAA TAACATGAGG GACAGAAAGA AGCTCCTGGA GCAGCTGGAT 
GAGATGACAA GAACAGCAGC CAACATGGAA AAAAAAAATG GGTTTAACAG CTTTACTGAT 
ATCATGTCCT ATAACATTGA AAGAGACAAC AGGTACATTC CTGGGCTTTG GTACGGTGTC 
CCACCCATGG CTTCTGTAAG CTCTGGCTAC AGTGAGAATG TGTATGAACT GAAAAAATAT 
TTGTTTGAAT TCATGGAGAA AGAGGAAAGT CTTCAGCCAC CCCAGAATAT TCCTGAATTT 
ACTGAATGGA TAAAAAGCTT ATGGAATTCT GTGAAGTATG AAAATTTTAT TTTCAGTTTC 
AGAAACAGCC TGGTAGCTGA AGCTTACAAT CAGTTAGCAA TGAAATACTC TCAGTGGGAA 
TGGGACTTCC GCAAACAGGT TCATACCTGG CTCATTAGCA CTGAGAACAG TATCAAGAAT 
CAGTCAGCAG ATAAACTGCA GCCTGAAATG TGCAGTGGGT TTAAAGATGA TTTGGTTTCT 
TTACTCTGCA AAGAAGAGAA AAATATGTTA GATTTGTTAA AAAAATATTT TGAAAGTAAA 
ACGGATAATG TTCATCTGAT TGAAAAGTAC AGAGAAGATT TCTCCAAAGG AGTGAATTTT 
CTTCGGAAGG AACTGGAACA TTCTGTCACA GCAAAGATTG AGGAGATCAT CATAATCCAA 
AAAGGTAAAT ATCAAATAAA GAATATAGAG GACAGTTATC AAAAAATTAT TGAGAAGAAA 
GTCACTAATC TCCTAAAACA GGTCAGAGAA AGGGAAAGTC GGCTTGGGGA TGATGACATA 
GAAAAGGAAT TTGAGAATAT GTGGGGAAGT ACAATCGCTG AGCTGCCAAA GTATTTTTTT 
AAAAAATTTA ATGTTACGAA AGAAATGCTA CTGGCGCTCA AACATGACTT GTCCAACAAA 
GGCAGCGCTA TAATGGAGAA AATTCTTAAT ATAAAATGTT TTGATGAGTT TGGAAAGGGT 
GAATTCCAGA TTAAAGAACA GCATGTTGAC ATGAAATGGT TCTCACGTAT CAAAGAATAC 
TGGACCAATG AATGTCATAT TAAAACAGAC AGTCTTGCTT CCTGTTTAAT AAAAAAATGT 
TCAGATTATG TAACAAAGAA GGATAATACA GGAGGAGACT ATGATGGGAC TTATTGCCAA 
GAATTACTCA ATATAATCAA TGAAAGGCTC CGGGACAAAG ATGTAAAAAA CCTGCACATT 
AATAATCAGT TTGATTTGGA TATAAAGCTC CATATCTTGG GGGATGCAGC TCGGAGGTTC 
CAGATGATGC ATGAGAGATT TCTGAAGACG GATCCTATGT TGTGTCTGGG AACTCTAAAG 
CCTCATTATT TCACAACATT TAAACATCTA TTCCAGGAGA AGGATGAAAC ACAAAGTCGA 
GCCAAACAGT TCTGTGAGCT CTGCCTGAAG CCGGCAATAA CCAAGCAGAT TTATGAGCAT 
CTGGGGAAGG ATATTGTAGA TGATATTCTG GTTAATAAAG GTTCTAAAGA ATTGAGCAGC 
CGCACTTTCT TTCAGGCACA TGTACTTGAG AAACTGCTGA CAGACCAGGA TTTCTCTCAG 
TATGTAGCCT ACATTAATGC TTATGAGGGG TTTGTGAAGA AATGGCTGAA ACAATACATT 
CTGAATACTT ATGAAAAAGG TCTAGAAAAG TTGCAAACAA ACATTTTATC TGATATCTGT 
AAAAAAATCA GGAGCGCGCT TAAAGAACTA CAAGGCCCTC CTACTGTCTC AGAGTTTTTA 
AAAGCCTTTT GTGAGATGTT AAAAAGTGAA ATAGTCATTT CCCAGATGGA GTTGCAGTTG 
GTCAGTTTCC AAAACAAAGC AGATGTCAAA CAGTTCTCAA AGGACATTGA GTTTTTTCTA 
GAAGAAACAG AGAAACAGAT CAGCTCAGAG ATTGGATCTT CCAACACAGA ATCAGTACTT 
GCCAAACTCA CAATGAAACC AGAGGAAGAG CTGTTTAAGA AGGTGTTTGG CTGTGGGAAG 
CAGTGTCCCT TCTGTGGGGT CCCCTGTGAG GCTGGAGGTA CTGACCATAA GGAGCACTTT 
GCCTCTGTCC ATCGGCCTCA AGGTTTGGGA AGATATCGAT GGACCTCTAG TGACAAGTTG 
GCTATAGAAT TATGTTCAAC TCATGTTGTC AGTGACTGTA GATTCAGTAA TTCAGACACA 
GAGTGGAAAC CCCACCCTTA CAAAGAATAC CGCAAATTCT ACCCAGACTG GGCCATTCAG 
CCTGACCCCA GCATCACAGC CTCCAACTAC TGGAAATATA TTTTTAAACA TTTCAATAAA 
GAATTTGCAG AAGAATACAA GGCAAAACCA GCTGATCTGC CTGTAACATG GCTCCTGATA 
ACAAAGGAAC AGGCTATGCA AAGCCTAAAA AAAATATTTA ATTTGAAATA A

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

RefSeq XP_017952683.1
CDS58..5508
Translation

Target ORF information:

RefSeq Version XM_018097194.1
Organism Xenopus tropicalis(tropical clawed frog)
Definition Xenopus tropicalis interferon-induced very large GTPase 1-like (LOC108648786), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_018097194.1

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
4921
4981
5041
5101
5161
5221
5281
5341
5401
ATGGAGGGGC CAGCAACAGC ACAGGATTCG GTGACAGCTA TTGGGCAGGA AGAAGAAGCT 
ACTGGCCTAT CTGAGGAAGA AGAAAAAGGC ACCATTAAAG GCATGGAGGG GCCAGCAACA 
GCACAGGATT CAGTGACAGC TATTGGGCAG GAAGAAGCTA AGGACTTATC TGAAAAAGAA 
AACAAAGGCA CCATTAAAGA CATGGAGGGG CCAGCAACAG CACAGGATTC AGTGACGGCC 
ATTGGGCAGG AAGAAGAAGC TACTGGCCTA TTTGAGGAAG AAGAAAAAGG CACCGGCACA 
GATAGGGACA GCCCTGCAGC AGCAGGAGCA GAGGATATAG AGGGAACTCA TGTAAGGGAA 
GGAGAGGCTT CAGTCAAATC TTTGGAAGAA CAGACAGGGG AGAGGCGCTA TATCATCAGC 
ATGCTCCTGT GTGCAGGATA TGATGACCCA CCGCTGGGGG ACTTAGGGGT CCACGAAAGG 
AAGAGAGCCA TCCTGCGCAA CCTCCAAGCC GGGTTGCACG GGGGCTTCGG AATTGATGTG 
GACCCCCGCC TGCTCCAGCA TCTGTGCCAT CACACAGGTC ATGCTACTGG CAAACCCGCT 
GAAGGCACCA TTAAAGGCAT GGAGGGGCCA GCAACAGCAC AGGATTCAGA GACGGCTATT 
GGGCAGGAAG AAGAAGCTAC TGGCCTATCT GAGGAAGAAG AAAAAGAAAA CAGAAACACC 
CTGAATGAAA TGATAGAATC CTATAAAGAG TCTAAGCTCT CCCTGAGGGA CATCCTGGAC 
GTTGGGCAGG AGAATATAAA TGAAGTTGCC CCCCAGACTG TACAAGACCT GCCCTGGGCT 
CTCCTAAGGA AACTGATGGC GCTGGACAGG ACTGCAAGAA CTATTCAACT TGAGGATATT 
TCTGAGAATT CGGGGTCAGA CTCTGATAGT GTAGGGGAAG GAGAACATTT TCTACAAATG 
GATTCAATGG AAGATTCTGA TAGCACAGAA AAATATGTAT CTCAGAATTT GGGTTTTTAT 
AGTAAAGAGG ATAAATGTAA TTCCATTAAT CCATTAGACA GTCTGTGTGC TCTCTTGCAT 
TGCTCAGATA TGTTGTTACA GCAGAACATC TTATCCAAAA TGTCCCTTTG TCAGTTTGCT 
GTCCCACTGC TGCTCCCTGC TGGTGATGGC CCAGAATGCA CCTTCATGCT GTGGGCTATG 
AGAGACATTG TCAAGAGATG GAGACCCCAC ACTCTGGCAG ACAGTAAAGG ATTTGTAGAA 
GAAAACCTGG TTCAAGTAGA AATGCCATTG CTCTCCTTTG TGAGACTGGG GCAAAGCAAA 
TTATCCAAAT CTAAAATCCT CAACCAAGTG CTCAGCCCAG CTCAGCAGTA CCAGGACTTC 
TTTGTTCATG AAAATATGGA GGGTGGAAAT ATTAAAAGAG AAATCTCTGA TGGCCTAGTG 
GAAATCTCCT GGTTTTTACC TGCTGGAAGA ACAAATACTG ATATTTTCCC AGAACCTGTT 
GCTGTTACTA ATATGCGTGG AGACATCGAG TCTAACTGGA CCCAATTCCG CTTCCTAACC 
CAGGTCTCAT CAGCAGTGTT TGTATTTGCT GAGAGCATTA ATGAGAGAGA GTGTGAGCTA 
TTAGCCCAGT GTAGTAAATC CAACCCCAAC TTCTATTTCA TCATTACTCC TAGTGGCAAA 
GGTGTCAGTA AAGAGACTGT GAAATCCTTA AAAAAGAGTT CACTACATAT TGGAAAATCA 
CAAATACTAA TAAAAGACAA AAGAGCAAAT GATGCAAGGC TAGTGAGCAA TATACAAAGT 
ATAGTCAAGA AATTTTTAGA AAAAAATGAT AAGAGAGTAA AACTGGAAGA TTTATCAAAC 
ACAGCCACTG AACTTCAATT CAAAGTGGAT GAAAATTCCC AGGAATGTCA GAAAGCAAAG 
ACATATGCTG AAGAAATAAA TAAAGAGATA CAAGATGTGG TACAATATAA GAAAGAGACA 
ATGAAACTAC AAGGGGATCT GTGGAAGCAA GTGGCCCAGA TAGAGAAGGA ATTGTGCAGA 
ATGAGAAAAC AAGGGGATAA AAACCCAGAA GAATACCGAT CTCAGCTGAC CAAGAAACTT 
AACAAGTTAC ACAAGGAACA GAACCAGCAT TTCCTGCCTG ACTCTATGAG TAAGTTCATT 
TCTGCCATCA CACATTTGTC TCAAACTGAA AAACATTATT TTCTGAAATG GATGAAATTT 
GCACTTGACT CAGTGGCTAG AAACCGTCTT TCCATGCTAA AAGCAAAATA CAAGAAAACA 
TGTAACAATA AAGAAAATAA TCAAGACGAA CTAAAACAGT TAGATCAGCA ACTATCTGAC 
AGTTCTTTGG GAGTCGAACA TTTCCTACGT GAGATGGGGC AGTTTTATGA GGCAGAATGT 
TCCATGGTGA GTCAAGGCAA AATCAAACCA GATAACATAC AATTCTGTAA TCTCCCAGGA 
ATTGCTGCTG ATCTATTGCT GGATGGGTTC CCATTGGAGC TGATAGATGG AGATGCCTCT 
AATATCCCCC TACAGTGGGT AACTGATCTT TTGATTGAGT TGGATAAGAA GACAGGAGGG 
AAATGCAGAA TGAGAGTAAT CACAGTGCTG GGAGTGCAGA GCACAGGGAA ATCCACCCTC 
CTGAACACCA TGTTTGGGCT GCAGTTTTCA GTGTCCAGTG GGCGATGCAC ACGGGGAGCC 
TTTTTAACAT TGATTAAAGT GAAAAAAGAC TTCCTGAAGA ACCTGGGCTG TGAGTTTATT 
TTAGTGATTG ACACTGAAGG TCTGAAGGCT CCAGAACTGG CTTCTCTGGA GGGCAGCTAT 
GAACATGACA ATGAGTTGGC GACTCTAGTG GTTGGGCTCA GTGATATCAC TATAATCAAT 
ATGGCCATGG AGAATACAGC AGAAATGAAA GATACACTGC AGATTGTGGT TCATGCATTT 
CTCCGAATGA AGCAAATAGG GAAGAAACCC AACTGCCAGT TTGTGCATCA GAATGTGAGT 
GATGTTTCTG CTGATGATAA TAACATGAGG GACAGAAAGA AGCTCCTGGA GCAGCTGGAT 
GAGATGACAA GAACAGCAGC CAACATGGAA AAAAAAAATG GGTTTAACAG CTTTACTGAT 
ATCATGTCCT ATAACATTGA AAGAGACAAC AGGTACATTC CTGGGCTTTG GTACGGTGTC 
CCACCCATGG CTTCTGTAAG CTCTGGCTAC AGTGAGAATG TGTATGAACT GAAAAAATAT 
TTGTTTGAAT TCATGGAGAA AGAGGAAAGT CTTCAGCCAC CCCAGAATAT TCCTGAATTT 
ACTGAATGGA TAAAAAGCTT ATGGAATTCT GTGAAGTATG AAAATTTTAT TTTCAGTTTC 
AGAAACAGCC TGGTAGCTGA AGCTTACAAT CAGTTAGCAA TGAAATACTC TCAGTGGGAA 
TGGGACTTCC GCAAACAGGT TCATACCTGG CTCATTAGCA CTGAGAACAG TATCAAGAAT 
CAGTCAGCAG ATAAACTGCA GCCTGAAATG TGCAGTGGGT TTAAAGATGA TTTGGTTTCT 
TTACTCTGCA AAGAAGAGAA AAATATGTTA GATTTGTTAA AAAAATATTT TGAAAGTAAA 
ACGGATAATG TTCATCTGAT TGAAAAGTAC AGAGAAGATT TCTCCAAAGG AGTGAATTTT 
CTTCGGAAGG AACTGGAACA TTCTGTCACA GCAAAGATTG AGGAGATCAT CATAATCCAA 
AAAGGTAAAT ATCAAATAAA GAATATAGAG GACAGTTATC AAAAAATTAT TGAGAAGAAA 
GTCACTAATC TCCTAAAACA GGTCAGAGAA AGGGAAAGTC GGCTTGGGGA TGATGACATA 
GAAAAGGAAT TTGAGAATAT GTGGGGAAGT ACAATCGCTG AGCTGCCAAA GTATTTTTTT 
AAAAAATTTA ATGTTACGAA AGAAATGCTA CTGGCGCTCA AACATGACTT GTCCAACAAA 
GGCAGCGCTA TAATGGAGAA AATTCTTAAT ATAAAATGTT TTGATGAGTT TGGAAAGGGT 
GAATTCCAGA TTAAAGAACA GCATGTTGAC ATGAAATGGT TCTCACGTAT CAAAGAATAC 
TGGACCAATG AATGTCATAT TAAAACAGAC AGTCTTGCTT CCTGTTTAAT AAAAAAATGT 
TCAGATTATG TAACAAAGAA GGATAATACA GGAGGAGACT ATGATGGGAC TTATTGCCAA 
GAATTACTCA ATATAATCAA TGAAAGGCTC CGGGACAAAG ATGTAAAAAA CCTGCACATT 
AATAATCAGT TTGATTTGGA TATAAAGCTC CATATCTTGG GGGATGCAGC TCGGAGGTTC 
CAGATGATGC ATGAGAGATT TCTGAAGACG GATCCTATGT TGTGTCTGGG AACTCTAAAG 
CCTCATTATT TCACAACATT TAAACATCTA TTCCAGGAGA AGGATGAAAC ACAAAGTCGA 
GCCAAACAGT TCTGTGAGCT CTGCCTGAAG CCGGCAATAA CCAAGCAGAT TTATGAGCAT 
CTGGGGAAGG ATATTGTAGA TGATATTCTG GTTAATAAAG GTTCTAAAGA ATTGAGCAGC 
CGCACTTTCT TTCAGGCACA TGTACTTGAG AAACTGCTGA CAGACCAGGA TTTCTCTCAG 
TATGTAGCCT ACATTAATGC TTATGAGGGG TTTGTGAAGA AATGGCTGAA ACAATACATT 
CTGAATACTT ATGAAAAAGG TCTAGAAAAG TTGCAAACAA ACATTTTATC TGATATCTGT 
AAAAAAATCA GGAGCGCGCT TAAAGAACTA CAAGGCCCTC CTACTGTCTC AGAGTTTTTA 
AAAGCCTTTT GTGAGATGTT AAAAAGTGAA ATAGTCATTT CCCAGATGGA GTTGCAGTTG 
GTCAGTTTCC AAAACAAAGC AGATGTCAAA CAGTTCTCAA AGGACATTGA GTTTTTTCTA 
GAAGAAACAG AGAAACAGAT CAGCTCAGAG ATTGGATCTT CCAACACAGA ATCAGTACTT 
GCCAAACTCA CAATGAAACC AGAGGAAGAG CTGTTTAAGA AGGTGTTTGG CTGTGGGAAG 
CAGTGTCCCT TCTGTGGGGT CCCCTGTGAG GCTGGAGGTA CTGACCATAA GGAGCACTTT 
GCCTCTGTCC ATCGGCCTCA AGGTTTGGGA AGATATCGAT GGACCTCTAG TGACAAGTTG 
GCTATAGAAT TATGTTCAAC TCATGTTGTC AGTGACTGTA GATTCAGTAA TTCAGACACA 
GAGTGGAAAC CCCACCCTTA CAAAGAATAC CGCAAATTCT ACCCAGACTG GGCCATTCAG 
CCTGACCCCA GCATCACAGC CTCCAACTAC TGGAAATATA TTTTTAAACA TTTCAATAAA 
GAATTTGCAG AAGAATACAA GGCAAAACCA GCTGATCTGC CTGTAACATG GCTCCTGATA 
ACAAAGGAAC AGGCTATGCA AAGCCTAAAA AAAATATTTA ATTTGAAATA A

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

PubMed