ORF » Species Summary » Ailuropoda melanoleuca » KMT2E cDNA ORF clone

KMT2E cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

The following KMT2E gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KMT2E 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
OAc88800 XM_019806643.1
Latest version!		 Ailuropoda melanoleuca lysine methyltransferase 2E (KMT2E), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    KMT2E ( XM_019806643.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019662202.1 Ailuropoda melanoleuca lysine methyltransferase 2E (KMT2E), mRNA.
    Price & Availability↑
    CloneID OAc88800
    Clone ID Related Accession (Same CDS sequence) XM_019806643.1
    Accession Version XM_019806643.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5448bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product LOW QUALITY PROTEIN: histone-lysine N-methyltransferase 2E
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217316.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##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
    ATGAGCATAG TGATCCCTTT GGGGGTTGAT ACAGCAGAAA CATCATACTT GGAAATGGCT 
    GCAGGCTCAG AACCAGAATC CGTAGAAGCT AGCCCTGTGG TAGTTGAGAA ATCCAACAGT 
    TATCCCCACC AGTTATATAC CAGCAGCTCG CATCATTCAC ACAGTTACAT CGGTTTGCCC 
    TATGCGGACC ATAATTATGG TGCTCGTCCT CCTCCAACAC CTCCGGCTTC CCCTCCTCCA 
    TCAGTTCTTA TTAGCAAAAA TGAAGTAGGC ATATTCACCA CTCCTAATTT TGATGAAACT 
    TCCAGTGCTA CTACAATCAG CACATCCGAG GATGGAAGTT ATGGTACTGA TGTAACCAGG 
    TGCATATGTG GTTTTACACA TGATGATGGA TACATGATCT GTTGTGACAA ATGCAGCGTT 
    TGGCAACATA TTGACTGCAT GGGGATTGAC AGGCAGCATA TTCCTGATAC ATATTTATGT 
    GAACGTTGTC AGCCTAGGAA TTTGGATAAA GAGAGGGCAG TGCTACTACA ACGCCGGAAA 
    AGGGAAAATA TGTCAGATGG TGATACCAGT GCAACTGAGA GTGGTGATGA GGTTCCTGTG 
    GAATTATATA CTGCATTTCA GCACACCCCA ACATCGATTA CTTTAACTGC TTCAAGAGTT 
    TCCAAGGTTA ATGATAAAAG AAGGAAAAAA AGTGGGGAGA AAGAACAAAA CATTTCAAAG 
    TGTAAAAAAG CCTTTCGTGA AGGATCTAGG AAGTCATCAA GAGTTAAGGG TTCAGCTCCA 
    GAGATTGATC CTTCATCTGA TGGTTCAAAT TTTGGATGGG AGACAAAAAT CAAAGCGTGG 
    ATGGATCGAT ATGAAGAGGC AAATAGTAAC CAATATAGTG AGGGTGTTCA GAGGGAGGCA 
    CAAAGAATAG CTCTGAGATT AGGCAATGGA AATGACAAAA AAGAAATAAA TAAATCAGAT 
    TTGAATACCA ACAACTTGCT CTTCAAGCCT CCTGTGGAGA GCCATATACA AAAAAATAAG 
    AAAATTCTGA AATCCGCAAA AGATTTGCCT CCTGATGCAC TTATCATTGA GTACAGAGGG 
    AAGTTTATGC TAAGAGAACA GTTTGAAGCA AATGGATATT TCTTTAAGAG ACCATATCCT 
    TTTGTTTTAT TTTATTCTAA ATTTCACGGG CTAGAAATGT GTGTTGATGC AAGGACTTTT 
    GGGAATGAGG CTCGGTTCAT CAGGCGTTCT TGTACACCCA ATGCAGAGGT GAGGCATGAA 
    ATTGAAGATG GAACCATTCA TCTTTACATT TATTCTATAC AGAGTATTCC AAAGGGAACT 
    GAAATAACTA TTGCCTTTGA TTTTGACTAT GGGAATTGTA AGTACAAGGT GGACTGCGCA 
    TGCCTCAAGG AAAATCCAGA GTGCCCTGTT CTGAAACGTA GTTCTGAATC CACGGAAAAC 
    ATCAATAGCG GTTATGAGAC CAGAAGGAAA AAAGGAAAAA AAGAAAAGGA TATTTCAAAA 
    GAAAAAGATA CACAGAATCA GAATATTACT TTGGATTGTG AAGGAACAAC CAACAAAATG 
    AAGAGCCCAG AAACTAAACA GAGAAAGCTT TCTCCACTGA GACTATCAGT ATCAAATAAT 
    CAGGAACCAG ATTTTATTGA CGATATAGAA GAAAAAACTC CCATTAGCAA TGAAGTAGAA 
    ATGGAATCAG AGGAGCAGAT TGCAGAAAGG AAAAGGAAGA TGACAAGAGA AGAAAGGAAA 
    ATGGAAGCAA TTCTGCAAGC TTTTGCCAGA CTTGAAAAAA GAGAGAAGAG AAGAGAACAA 
    GCTTTGGAAA GGATCAGCAC AGCCAAAACT GAAGTTAAAA CTGAATGTAA AGATGCACAG 
    ATTGTCAGTG ACGCTGAAGT TATTCAGGAA CAAGCAAAAG AAGAAACTGC TAGCAAGCCA 
    ACCCCTGCCA AAGTGAATAG AACTAAACAG AGAAAAAGTT TTTCTCGAAG TCGAACTCAC 
    ATTGGACAGC AGCGTCGGAG ACACAGGACT GTCAGCATGT GTTCAGATAT CCAGCCATCT 
    TCCCCTGACA TAGAAGTCAC TTCACAACAG AACGATATTG AAAATACTGT ACTTGCAATA 
    GAACCAGAAA CTGAAACTGC ACTAGCAGAA CTGATTCCCG AAACTGAAGT CCCAGCACTT 
    ACTAAATGTC CTGCGAAGTA CCCTAAAACT AAGAAGCACT TGGTCAATGA GTGGTTAAGT 
    GAGAAGAATG AGAAGACAGG AAAACCTTCA GACAGCCTTT CAGAAAGGCC TCTGCGCATA 
    ACTACCGATC CTGAAGTGTT AGCTACCCAG CTCAATTCCT TACCAGGCCT GGCCTACAGT 
    CCCCATGTGT ACTCTACTCC TAAGCACTAT ATCCGATTTA CTTCGCCATT CCTTTCAGAA 
    AAAAGGAGAA AAAAAGAACC TACTGAAAAC GTTTCTGGCT CCTGCAAGAA GCGATGGTTG 
    AAACAAGCCT TAGAAGAGGA AAACTCAGCA ATTTTACATA GATTTAATTC ACCCTGTCAA 
    GAAAGATCCA GAAGTCCTAC AGTGAATGGT GAAAGTAAAA GTCCACTACT ACTAAATGAT 
    AGCTGTTCCC TTCCAGATCT AACTACACCA CTAAAAAAAC GAAGACTTTA TCAGTTACTA 
    GATTCTGCTT TCTCTGAAAC CTCCACACCT ACTCCTTCGC CGTATGCTAC ACCGACTCAC 
    ACAGACATTA CTCCCACGGA CCCATCATTT GCCACTCCTC CACGGGTAAA ATCAGATGAT 
    GAAGCTTGCA GAAATGGTTA TAAGCCCATA TATTCACCAG TTACCCCAGT AACACCTGGC 
    ACACCAGGGA ATACCATGCA CTTTGAGAAT ATTTCTTCCC CAGAAAGTTC TCCAGAAATT 
    AAGAGACGCA CTTATAATCA AGAGGGATAT GACCGATCTT CAACCATGTT AACATTGGGG 
    CCTTTTAGAA ATTCTAATTT AACTGATCTG GGTCTGCAAG AAATAAAGAC TATTGGTTAC 
    ACCAGCCCAA GGAGTAGGAC TGAAGTCAAC AGGCAGTGCC CTGGAGAAAA GGAATCTGTG 
    TCAGACCTTC AGCTGGGACT CGATGCAATT GAGCAAACTG CCTTACATAA AACCATGGAA 
    CCACCTACCC ATGACAGGAC TGATTCTAAC AGCCAACTGG AATCTACTCA CTCTGGACGG 
    GGCACAATGT ATTCTTCCTG GGTAAAGAGT CCTGACAGAA CAGGAGTTAA CTTCTCAGTA 
    AACTCTAACT TGAGGGACCT GACGCCCTCA CATCAGTTGG AGGTTGGAGG AGGCTTCCGA 
    ATAAGTGAGT CAAAGTGCCT GATGCAGGAT GATACTAGAG GCATATTTAT GGAAACACCT 
    GTGTTTTGTA CTTCAGAAGA TGGGCTTGTT TCTGGTTTCG GACGGACTGT TAATGACAAT 
    TTGATCGACG GAAGTTGCAC ACCCCAGAAT CCACCACAAA AGAAAAAGGT CTCGCTATTA 
    GAATACCGTA AAAGACAGCG GGAAGCCAGG AAGAGCGGCT CAAAGGCCGA GCACTTTCCA 
    CTGGTTAGTG TGTCACCTCA CGCAAGCGGC AACTCGAGCA ACGGTGGTGA CGGGTGCGCC 
    AACAGGAGTG AAAGCGGGGA GCAGCTAGAA AGTACCGCCA GCCTGCCGTT ACCAACACCA 
    GCTGCGCTTT ATAGTGCTAC GTCCGAAGAA ACCAGCAGTA ACTGTCCTGT TAAGGAAGCT 
    TCTGCCAGTG AGAAGAACGA CCCAGAAGTT CAATGGACCG CTTCAACCTC AGTGGAGCAA 
    GTGAGAGAAA GGAGTTACCA GCGAGCGCTA CTTCTCAGTG ATCACCGCAA AGATAAAGAC 
    AGTGGGGGAG AGTCACCATG TGTCCCATGT TCACCGAGTC ATGTTCCGTC TTCACCTTCA 
    TCTCATTCAA ATCACATTCC CCAGTTGCAA CCCAAGGGCC CAGTCCCTCC TTTCAGTGAA 
    CTTATGGAAG ATCCTGACTC TGAAAATCCA GAGCCTATGA CTACAAGTGA ATGTCCATCC 
    CCAGACACCT CTCAAAACAC TTGTAAAAGC CCTTCAAAAG TGAACAAGCC TGGTTCCCCG 
    GAACCCGTAC TTCCTGTTCA GCCACATGGG AAAATACCCA CAAAGTCCGA TTCCCACTGG 
    GAGGCCACAG CTACTGCGTC GGAAGCAGAG AACGGGGTGC ACCTGAAAGC AGAGCTCCCC 
    CAGAAGCAGC TGTTAAGTAA CACGCAAGCA CTTCCAAAGA ACCCTGCTGC TCAGCCGCTC 
    GCTCGAGGCT CAGCCGAGCA ACTTTCCCAG AAGCTGCCGT CCGCGCCAGT CAAGTTGCAT 
    TGTCCTCTGT CCCCTCACGT AGAAAATCCT CCCAAGTCCT CGACACCCCA CCCGCCTGTG 
    CAGCACGGTT ATCTCTCACC AAAGCCCCCT TCCCAGCAGC TAGGATCGCC CTACAGGCCT 
    CATCATGCAC AGTCACCTCA AGTGGGAACA CCTCAGCGAG AGCCTCAGAG AAATTTCTAC 
    CCAGCAGCAC AGAACCTTCC AGCCAGTACT CAGCAGGCCC CGTCTGGAGC ACTATTCACA 
    CAGACCCCCT CAGGACAATC TTCAGCGACA TATAGTCAGT TTACCGCCCC CAGTCTGAGC 
    AGCACGGCAC CGCCCCCTCC ACCCCCTCCG CCCCCTTCTT CCTCGTCATA TTATCAAAAC 
    CAGCAGCCCT CCGCAAACTT TCAGAATTAT AATCAGCTTA AAGGTAGTCT CGCCCAACAG 
    ACTGTGTTTG CATCAGGACC AAATCAAGCA CTTCCGGGCG CCGGCAGCCA GNCACAGCAG 
    CCCAGCTCCC ATCAGCAACA CACTGTCGCT CACGTCGTAG GGCCCGTTCA CGCGGTCACC 
    CCTGGGTCAC ACATTCATTC TCAAACTGCT GGACACCATT TGCCACCACC CCCGCCACCT 
    CCCGGTCCTG CCCCTCATCA CCACCCACCA CCCCATCCTT CCGCAGGACT CCAAGGTCTA 
    CCAACACAAC ACCAGCATGT GGTCAATTCA GCACCCCCCC CGCCGCCGCC GCCGCCACCT 
    TCCAGCGTTT TGGCTTCCGG GCACCATACC ACCTCTGCTC CAGCCTTACA CCATCCACCT 
    CATCAAGGAC CTCCACTTTT TCCTGCAACC GCTCATCCAG CCGTACCCCC GTATCCCTCC 
    CAAGCCACAC ATCACACCAC TCTGGGACCG GGACCCCAAC ACCAGCCTTC TGGAACAGGG 
    CCACATTGTC CATTACCAGT CGCAGGTCCT CATCTCCAGC CCCAAGGACC AAACAGTATT 
    CCAACACCTC CTGCTTCAGG GTTCTGTCCT CATCCTGGCT CTGTGGCCCT GCCGCATGGG 
    GTTCAAGGAC CTCAGCAGGC CTCGCCAGTG CCTGGACAGA TTCCGATTCA CAGAGCACAG 
    GTGCCACCGA CATTTCAGAA CAATTACCAT GGTTCAGGGT GGCATTAA

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

    RefSeq XP_019662202.1
    CDS421..5868
    Translation

    Target ORF information:

    RefSeq Version XM_019806643.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca lysine methyltransferase 2E (KMT2E), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019806643.1

    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
    ATGAGCATAG TGATCCCTTT GGGGGTTGAT ACAGCAGAAA CATCATACTT GGAAATGGCT 
    GCAGGCTCAG AACCAGAATC CGTAGAAGCT AGCCCTGTGG TAGTTGAGAA ATCCAACAGT 
    TATCCCCACC AGTTATATAC CAGCAGCTCG CATCATTCAC ACAGTTACAT CGGTTTGCCC 
    TATGCGGACC ATAATTATGG TGCTCGTCCT CCTCCAACAC CTCCGGCTTC CCCTCCTCCA 
    TCAGTTCTTA TTAGCAAAAA TGAAGTAGGC ATATTCACCA CTCCTAATTT TGATGAAACT 
    TCCAGTGCTA CTACAATCAG CACATCCGAG GATGGAAGTT ATGGTACTGA TGTAACCAGG 
    TGCATATGTG GTTTTACACA TGATGATGGA TACATGATCT GTTGTGACAA ATGCAGCGTT 
    TGGCAACATA TTGACTGCAT GGGGATTGAC AGGCAGCATA TTCCTGATAC ATATTTATGT 
    GAACGTTGTC AGCCTAGGAA TTTGGATAAA GAGAGGGCAG TGCTACTACA ACGCCGGAAA 
    AGGGAAAATA TGTCAGATGG TGATACCAGT GCAACTGAGA GTGGTGATGA GGTTCCTGTG 
    GAATTATATA CTGCATTTCA GCACACCCCA ACATCGATTA CTTTAACTGC TTCAAGAGTT 
    TCCAAGGTTA ATGATAAAAG AAGGAAAAAA AGTGGGGAGA AAGAACAAAA CATTTCAAAG 
    TGTAAAAAAG CCTTTCGTGA AGGATCTAGG AAGTCATCAA GAGTTAAGGG TTCAGCTCCA 
    GAGATTGATC CTTCATCTGA TGGTTCAAAT TTTGGATGGG AGACAAAAAT CAAAGCGTGG 
    ATGGATCGAT ATGAAGAGGC AAATAGTAAC CAATATAGTG AGGGTGTTCA GAGGGAGGCA 
    CAAAGAATAG CTCTGAGATT AGGCAATGGA AATGACAAAA AAGAAATAAA TAAATCAGAT 
    TTGAATACCA ACAACTTGCT CTTCAAGCCT CCTGTGGAGA GCCATATACA AAAAAATAAG 
    AAAATTCTGA AATCCGCAAA AGATTTGCCT CCTGATGCAC TTATCATTGA GTACAGAGGG 
    AAGTTTATGC TAAGAGAACA GTTTGAAGCA AATGGATATT TCTTTAAGAG ACCATATCCT 
    TTTGTTTTAT TTTATTCTAA ATTTCACGGG CTAGAAATGT GTGTTGATGC AAGGACTTTT 
    GGGAATGAGG CTCGGTTCAT CAGGCGTTCT TGTACACCCA ATGCAGAGGT GAGGCATGAA 
    ATTGAAGATG GAACCATTCA TCTTTACATT TATTCTATAC AGAGTATTCC AAAGGGAACT 
    GAAATAACTA TTGCCTTTGA TTTTGACTAT GGGAATTGTA AGTACAAGGT GGACTGCGCA 
    TGCCTCAAGG AAAATCCAGA GTGCCCTGTT CTGAAACGTA GTTCTGAATC CACGGAAAAC 
    ATCAATAGCG GTTATGAGAC CAGAAGGAAA AAAGGAAAAA AAGAAAAGGA TATTTCAAAA 
    GAAAAAGATA CACAGAATCA GAATATTACT TTGGATTGTG AAGGAACAAC CAACAAAATG 
    AAGAGCCCAG AAACTAAACA GAGAAAGCTT TCTCCACTGA GACTATCAGT ATCAAATAAT 
    CAGGAACCAG ATTTTATTGA CGATATAGAA GAAAAAACTC CCATTAGCAA TGAAGTAGAA 
    ATGGAATCAG AGGAGCAGAT TGCAGAAAGG AAAAGGAAGA TGACAAGAGA AGAAAGGAAA 
    ATGGAAGCAA TTCTGCAAGC TTTTGCCAGA CTTGAAAAAA GAGAGAAGAG AAGAGAACAA 
    GCTTTGGAAA GGATCAGCAC AGCCAAAACT GAAGTTAAAA CTGAATGTAA AGATGCACAG 
    ATTGTCAGTG ACGCTGAAGT TATTCAGGAA CAAGCAAAAG AAGAAACTGC TAGCAAGCCA 
    ACCCCTGCCA AAGTGAATAG AACTAAACAG AGAAAAAGTT TTTCTCGAAG TCGAACTCAC 
    ATTGGACAGC AGCGTCGGAG ACACAGGACT GTCAGCATGT GTTCAGATAT CCAGCCATCT 
    TCCCCTGACA TAGAAGTCAC TTCACAACAG AACGATATTG AAAATACTGT ACTTGCAATA 
    GAACCAGAAA CTGAAACTGC ACTAGCAGAA CTGATTCCCG AAACTGAAGT CCCAGCACTT 
    ACTAAATGTC CTGCGAAGTA CCCTAAAACT AAGAAGCACT TGGTCAATGA GTGGTTAAGT 
    GAGAAGAATG AGAAGACAGG AAAACCTTCA GACAGCCTTT CAGAAAGGCC TCTGCGCATA 
    ACTACCGATC CTGAAGTGTT AGCTACCCAG CTCAATTCCT TACCAGGCCT GGCCTACAGT 
    CCCCATGTGT ACTCTACTCC TAAGCACTAT ATCCGATTTA CTTCGCCATT CCTTTCAGAA 
    AAAAGGAGAA AAAAAGAACC TACTGAAAAC GTTTCTGGCT CCTGCAAGAA GCGATGGTTG 
    AAACAAGCCT TAGAAGAGGA AAACTCAGCA ATTTTACATA GATTTAATTC ACCCTGTCAA 
    GAAAGATCCA GAAGTCCTAC AGTGAATGGT GAAAGTAAAA GTCCACTACT ACTAAATGAT 
    AGCTGTTCCC TTCCAGATCT AACTACACCA CTAAAAAAAC GAAGACTTTA TCAGTTACTA 
    GATTCTGCTT TCTCTGAAAC CTCCACACCT ACTCCTTCGC CGTATGCTAC ACCGACTCAC 
    ACAGACATTA CTCCCACGGA CCCATCATTT GCCACTCCTC CACGGGTAAA ATCAGATGAT 
    GAAGCTTGCA GAAATGGTTA TAAGCCCATA TATTCACCAG TTACCCCAGT AACACCTGGC 
    ACACCAGGGA ATACCATGCA CTTTGAGAAT ATTTCTTCCC CAGAAAGTTC TCCAGAAATT 
    AAGAGACGCA CTTATAATCA AGAGGGATAT GACCGATCTT CAACCATGTT AACATTGGGG 
    CCTTTTAGAA ATTCTAATTT AACTGATCTG GGTCTGCAAG AAATAAAGAC TATTGGTTAC 
    ACCAGCCCAA GGAGTAGGAC TGAAGTCAAC AGGCAGTGCC CTGGAGAAAA GGAATCTGTG 
    TCAGACCTTC AGCTGGGACT CGATGCAATT GAGCAAACTG CCTTACATAA AACCATGGAA 
    CCACCTACCC ATGACAGGAC TGATTCTAAC AGCCAACTGG AATCTACTCA CTCTGGACGG 
    GGCACAATGT ATTCTTCCTG GGTAAAGAGT CCTGACAGAA CAGGAGTTAA CTTCTCAGTA 
    AACTCTAACT TGAGGGACCT GACGCCCTCA CATCAGTTGG AGGTTGGAGG AGGCTTCCGA 
    ATAAGTGAGT CAAAGTGCCT GATGCAGGAT GATACTAGAG GCATATTTAT GGAAACACCT 
    GTGTTTTGTA CTTCAGAAGA TGGGCTTGTT TCTGGTTTCG GACGGACTGT TAATGACAAT 
    TTGATCGACG GAAGTTGCAC ACCCCAGAAT CCACCACAAA AGAAAAAGGT CTCGCTATTA 
    GAATACCGTA AAAGACAGCG GGAAGCCAGG AAGAGCGGCT CAAAGGCCGA GCACTTTCCA 
    CTGGTTAGTG TGTCACCTCA CGCAAGCGGC AACTCGAGCA ACGGTGGTGA CGGGTGCGCC 
    AACAGGAGTG AAAGCGGGGA GCAGCTAGAA AGTACCGCCA GCCTGCCGTT ACCAACACCA 
    GCTGCGCTTT ATAGTGCTAC GTCCGAAGAA ACCAGCAGTA ACTGTCCTGT TAAGGAAGCT 
    TCTGCCAGTG AGAAGAACGA CCCAGAAGTT CAATGGACCG CTTCAACCTC AGTGGAGCAA 
    GTGAGAGAAA GGAGTTACCA GCGAGCGCTA CTTCTCAGTG ATCACCGCAA AGATAAAGAC 
    AGTGGGGGAG AGTCACCATG TGTCCCATGT TCACCGAGTC ATGTTCCGTC TTCACCTTCA 
    TCTCATTCAA ATCACATTCC CCAGTTGCAA CCCAAGGGCC CAGTCCCTCC TTTCAGTGAA 
    CTTATGGAAG ATCCTGACTC TGAAAATCCA GAGCCTATGA CTACAAGTGA ATGTCCATCC 
    CCAGACACCT CTCAAAACAC TTGTAAAAGC CCTTCAAAAG TGAACAAGCC TGGTTCCCCG 
    GAACCCGTAC TTCCTGTTCA GCCACATGGG AAAATACCCA CAAAGTCCGA TTCCCACTGG 
    GAGGCCACAG CTACTGCGTC GGAAGCAGAG AACGGGGTGC ACCTGAAAGC AGAGCTCCCC 
    CAGAAGCAGC TGTTAAGTAA CACGCAAGCA CTTCCAAAGA ACCCTGCTGC TCAGCCGCTC 
    GCTCGAGGCT CAGCCGAGCA ACTTTCCCAG AAGCTGCCGT CCGCGCCAGT CAAGTTGCAT 
    TGTCCTCTGT CCCCTCACGT AGAAAATCCT CCCAAGTCCT CGACACCCCA CCCGCCTGTG 
    CAGCACGGTT ATCTCTCACC AAAGCCCCCT TCCCAGCAGC TAGGATCGCC CTACAGGCCT 
    CATCATGCAC AGTCACCTCA AGTGGGAACA CCTCAGCGAG AGCCTCAGAG AAATTTCTAC 
    CCAGCAGCAC AGAACCTTCC AGCCAGTACT CAGCAGGCCC CGTCTGGAGC ACTATTCACA 
    CAGACCCCCT CAGGACAATC TTCAGCGACA TATAGTCAGT TTACCGCCCC CAGTCTGAGC 
    AGCACGGCAC CGCCCCCTCC ACCCCCTCCG CCCCCTTCTT CCTCGTCATA TTATCAAAAC 
    CAGCAGCCCT CCGCAAACTT TCAGAATTAT AATCAGCTTA AAGGTAGTCT CGCCCAACAG 
    ACTGTGTTTG CATCAGGACC AAATCAAGCA CTTCCGGGCG CCGGCAGCCA GNCACAGCAG 
    CCCAGCTCCC ATCAGCAACA CACTGTCGCT CACGTCGTAG GGCCCGTTCA CGCGGTCACC 
    CCTGGGTCAC ACATTCATTC TCAAACTGCT GGACACCATT TGCCACCACC CCCGCCACCT 
    CCCGGTCCTG CCCCTCATCA CCACCCACCA CCCCATCCTT CCGCAGGACT CCAAGGTCTA 
    CCAACACAAC ACCAGCATGT GGTCAATTCA GCACCCCCCC CGCCGCCGCC GCCGCCACCT 
    TCCAGCGTTT TGGCTTCCGG GCACCATACC ACCTCTGCTC CAGCCTTACA CCATCCACCT 
    CATCAAGGAC CTCCACTTTT TCCTGCAACC GCTCATCCAG CCGTACCCCC GTATCCCTCC 
    CAAGCCACAC ATCACACCAC TCTGGGACCG GGACCCCAAC ACCAGCCTTC TGGAACAGGG 
    CCACATTGTC CATTACCAGT CGCAGGTCCT CATCTCCAGC CCCAAGGACC AAACAGTATT 
    CCAACACCTC CTGCTTCAGG GTTCTGTCCT CATCCTGGCT CTGTGGCCCT GCCGCATGGG 
    GTTCAAGGAC CTCAGCAGGC CTCGCCAGTG CCTGGACAGA TTCCGATTCA CAGAGCACAG 
    GTGCCACCGA CATTTCAGAA CAATTACCAT GGTTCAGGGT GGCATTAA

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

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