samd9l cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following samd9l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the samd9l 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
OXa60408 XM_018094845.2
Latest version!
Xenopus tropicalis sterile alpha motif domain containing 9-like (samd9l), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa34813 XM_018094845.1
Latest version!
Xenopus tropicalis sterile alpha motif domain containing 9-like (samd9l), 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 OXa60408
    Clone ID Related Accession (Same CDS sequence) XM_018094845.2
    Accession Version XM_018094845.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4698bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product LOW QUALITY PROTEIN: sterile alpha motif domain-containing protein 9-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018094845.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 3 indels ##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
    ATGGAACATC CAAACCTGTT GGATAAGCCA TTGCATGTGC CACATAATGT TGACACCTGG 
    ACTAAAAATC AAGTTAGACA ATGGGTCACA CAGGACCTCA GTATTGGCAT GGATGAAGGT
    GACATTTTAT ACAAACAAAA TGTAACAGGG CAGGTCCTCA ATATATTATC TAAAAAAGAT
    TTTATAGAGA TGGGAATAAC TTTTGGAACT GCTTCCTTAA TAATGCATCG CCTAAAAACT
    ATGTCTACAA CAAGCACAGG CAATAAAAGT GGCAGTGCTG ACAGTTCTAA GAAAGGTGAA
    GAAAAGAAAA AAAAACAAAA GAACGAAGAT AAAAATGTTA CAGGTTTGAC GATCCCAGAA
    AAGAAAGAAA ACATAGAAAA GGAAGAAGAG AACATATCAA CAAATGCCGA GAATGAATCC
    AGCTCTGCAA GAGTGACCTG TACTCCATAC CCCTTTGACT GTACCCACGA AAGTAAAATT
    TATGTTCAAT ATCATTTCCT TCAGCCTGAA TCTGGAACGT CCAACTATAT CGACCCTGTT
    CATGAGTACA AAGAATTCAC AAACACTGAA AATGCTACAC AAATGATANN AAAAATGAAA
    TTTTGCAATG AAGTCTTTAG GTTTGCAGCT GCCTGCATGA ATGTGCGCAC TAATGGTACT
    ATACATTTTG GGGTGCGTGA CAAGCCACAT GGGCAAATTA TTGGTATTAA GATTGACAAC
    AGAGAAGCAT ATGTTTCATA TATTTATCAG ATGATGAACA AATATTTTGA GGAAAAGCAA
    GTAGAAGTTG CAAAGCAATG CATTCGGCCT CCAAGATTCA TAGATGTGCT TTATCAGCAG
    AACACCCAGT CAGATTTAGT TGTTATAGAA GTAGATGTTG TTCCTGAGCA TGCTTATTGC
    AATACAGAAG TATTCTCCAC ATATCAACAA GTTTTCAGTG ACAATAAATG GTTGAAAAGT
    AAAGATAAAT CTTGCTTCAT TCGAGATGGG GAAAGCTCTA AAGACATCCT TGCAAATGTG
    CGCAACAGCG ATGCTGATTT AAAAGTATTT TACTCTAAAC TGAAAGAAAG GGATGATGTT
    AGAAAAAGAG CAGAAGAAAA ATATAAAATC AAGCAAAGGA AAAATATTGA TGAGGGTCCA
    AAACTTGTGA GTTTAATTAC AGGCAACAGA GGCATGATGG ATAATTCCTA TTACAAATGG
    TACATATTAG TGGCTAACAA GTGCCACCAA AGTCAATCAA GTCACCTGGA TTTTATGTCT
    GAAATTCCAT GGTTTGCAGT TTTAGATCAT GACCCAGAGT CTGTTACAAA TGGGTTGTGC
    AAATCATATA GAGAAAAACG AGTACCAAAT NTGCACTTTC CAAGTCAGTA TCAAGATATG
    GATAATGTCA CTTGTGAGAA ACTTGAAGAT CTTAAACTAT ATCAACAGGT CAGCTGGATC
    TTTTGTAATG GGAGGTCAGA TCTAGAGAGT AAAGATTATG AAGCACTGAA TTATAGGCAG
    TGGCATAAAG AAAAGGCAGC GGAAGTAAGA AAGTTGATTT CTTTTCTTTC ACGGAAAGAC
    ATAATGGAAC ATGGGAAATT TCTTGTTGTT TTCTTGCTAC TTTCCACAGT TGATGACCCT
    GCTGATCCTA TTTGTGAAGT GTTCAGCACA TTTTATCAGG AACTGGGTGG GGTGGAGGAT
    ATCTTATGTA TCTGTGAAGA TGAGCATATC TTTCAAAAAT GGAGAGATCT GCAATCTAGA
    TTTGTTAGTG CAGAGGAAAT GGAAAAAAGA TGCATATATA ACTTGGGCAT TGAAAAAGTA
    AATGGAACAA TCCTCAAACT TAAATCTGTG AAACAGTCTA GTTGCCGCTT CTTGCCATCA
    ACTGGTTCTT CCTCAGTTGT ACTACAAAGG AAAGATGAAG ATCTCATGCC AACGTTAAAT
    ATTCTTTGCT TAAATCAATG TCAGGATACA GAAATAGAGA AGGATGAATC GAAGTTTAAT
    TCATTCAGGA GAGACCAAGA AGAGCACTTT TATCGAGGAG GAAAAGTTTC ATGGTGGAAT
    TACTATTTCT CTATGAAACA CTATACTGGA CCATTTATCA AGAGGGACAT TCATGACAAA
    CTAATGCGTT TGATTGATAC GTGGTCTCAG TATGACAAGC AAATAAGTGT AAAAGTAATT
    ACCCTCTATC ATCATCCTGG CTGTGGAGGA TCCACATCTG CAATGCATGT CCTATGGGAA
    TTAAGAGAAA AGTTCAGGTG TGCAATTCTA CATCGGAAGG CTGATAGTTT TGTAGACCTA
    GCGAGAGAGA TAACCAGCCT TGCTACTTAT GGGTTGTCCA ACAGCTCAGA TTACTTTCCT
    GTGCTGCTTC TTGTAGATGA CTACGAAGAG GAAGAAAATG TATACAGTTT GCAAAACTAT
    ATCAGATCAC AAATTGCTGA AAAGTACATC AGATATGAAA AGCCAGTAGT GATCATATTA
    AACTGCATGA GATCTCAGAA CCCAGAGCAA AGCTCAAAAA CCTACCCTTC TGACAGTGTT
    GCACTCAAAC ACAAACTTTC ACCTCAAGAG CAGAGAGCCT TTGAAGCAAA ACTAAAGGAG
    ATTGAGCAGG AACATAACAA GCCAGAGGAT TTCTATTCTT TTATGATAAT GAAAAGCAAT
    TTTGATAAGG TATATATTGA AAAGGTTGTG AGAAACATAC TTAAAGGTTT GAATACAGCT
    GGCAAGGAAG CCCAGCTTAT CTCCTTTCTC GCCCTTCTTA ACAAATATGT AAAGGACTCC
    ACAATATCAG CTTCAATGTG TGAGGAATTT TTAGGCATAT CCACAAAGAA GACATTCTGG
    GGGAATGAGA GTATTGAAGA TAAAATGGGC ACTTATTTTA CTATAATAAT ACAGACAGAA
    GTGGAAGAAT ATGGTGGGTG CCAAGGCCTG CGCATAATAC ACCCATTGAT TGCAAGTCGT
    TGTGTAAAGG AGTTAAAAAA CACTTATGCT ATAAATGAAA GTAATACTAT TATGCAGCTA
    TTAAATACCA ATATATTCTA TGATTTGGGA ATAGGCAGAG ATACTTTTTC ACAAAACATG
    CAAAGCATGC TGATCACTAG ACACAAGAAA GAGCATGGAG ATGAAATGGA CACCCTCTTC
    TCCCCGTTAA TTGAAGAGTT ACAGAAGGAA GAAGGCAATG CTAGTGTTGA AAAAGTATTA
    AGAGAGGGAT CCTTCAGATT TTCCCAAAAT CCATATATTT GTCAGGCACT AGCAAGACAC
    TTCTACATTC GAGAAAAAAA ATTCAGCTCT GCATTGGAAT GGGCAAACAA AGCAAAGACT
    CTTGCACCCA GTAATTCGTT TGTTTTGGAC ACTTTGGGCC AAATATACAA AACACAGCTA
    AAGGCCCTAA TGGACAATCA CAGCAAAAAT AATCCATTAA CAGCACAGGC TTTGGAAACT
    CTTCTTGAAA CAGCAAGAAG AGCATCTGAA GCCTTTAGAG AATGCCAAGA ACAGACAGAA
    AAAACTGAAG CTGAGCGTGA GGAAATGGAA TTAGTGAAGT CAAAACGATA CTTTGTGTAT
    AACACTGCTG GATATCTTGG GCAGATTGAA GTTTGCCTTT ATACAGTAGA CATACTTTTT
    AAACTGCCAT GGTTTAATTC AAAAGATGTG TTGACTAAAA AACACCTGCT GCAGTATTTG
    TCAGGTAAAT GGGATGTATC AGTAGGTTGC ACAAGCAGAA CTGATCATGA ATTGTTTGAT
    GTTCTCAGAG AATATCAGTA CTTCCTAACT AAAGTTAAAT TACATTTAAA GAAGGCTTTT
    GATTTTTTCC AGGACTATTT TGTCTATTTA AAGCAGAGGA ATATTCTAAG GGAAAGTACT
    GAATTCAAAA CACGCGAGAA AGTATCCGAC CTCTTCAAAA AATATCGGAA AATTTTCTGT
    GACCTGGATC TTACACAGAT AACGGGTGGA GAAACCAGAC TAAAAGGAAG CATTGCTTTG
    TATATTGAAG ATTTCAGGGC TGGACTGGAG AATTACAGAG CTGATAGATT TTCCGGGATA
    TTAGAATTTC TCAATGACAA AGACAGCAAA AGGATGGAAT CTATCATACA GGCATATCAG
    TATTTACTCC AGCACCCAAC AGACACCTTT ATTTTAAGGG ACAAGCAAAA TTACATTTTG
    GCCAATATTG TTCTGTATTG CATTTGTCCA AACTCTCCCA AATTTGAACA AACTGAAATT
    TTAAAAACAC ACCTGAGAGA GGTTTTGCAG ATGGTTGGAG ACGATCACAA GTACTCAGAG
    CCTTACTTCC TAGCATCAAT ACTCTTCTGG CCGCACAACT TGCATCAACT TGACAGAGAC
    TCGGCACATC TTGCCAAATA TGTTGCGTCC ATGAGAAAAT CTTTCAGAGG GCAATACCGA
    CACATGTGCC ATGCCAAGCT TCCCATAGCT CATTTCTATC TTGGGCGGAA TAGTGGCCAC
    AATNCTGAAT TAAATTCTCT TTGGCTGTGT GGCGATATAT GGAAAGAAAA AGAAATAGCA
    GATCTCTTGC TTCGTGTGAA GGGAAGAGCA GAAAAAAATC TGATCTATGT GGAATGTGGC
    CAAGACCCCA AAATTACAAT TCCAGTAAGG CCCGCTTACC TTGGTCAATT AAGAAGTGGA
    AAAAGCATTG AACGAGTGTC TTTTTATCTA GGATTTTCCA TTGATGGTCT GATTGCCTAT
    AACATTGAAA CAATCTGA

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

    RefSeq XP_017950334.2
    CDS295..4992
    Translation

    Target ORF information:

    RefSeq Version XM_018094845.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis sterile alpha motif domain containing 9-like (samd9l), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018094845.2

    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
    ATGGAACATC CAAACCTGTT GGATAAGCCA TTGCATGTGC CACATAATGT TGACACCTGG 
    ACTAAAAATC AAGTTAGACA ATGGGTCACA CAGGACCTCA GTATTGGCAT GGATGAAGGT
    GACATTTTAT ACAAACAAAA TGTAACAGGG CAGGTCCTCA ATATATTATC TAAAAAAGAT
    TTTATAGAGA TGGGAATAAC TTTTGGAACT GCTTCCTTAA TAATGCATCG CCTAAAAACT
    ATGTCTACAA CAAGCACAGG CAATAAAAGT GGCAGTGCTG ACAGTTCTAA GAAAGGTGAA
    GAAAAGAAAA AAAAACAAAA GAACGAAGAT AAAAATGTTA CAGGTTTGAC GATCCCAGAA
    AAGAAAGAAA ACATAGAAAA GGAAGAAGAG AACATATCAA CAAATGCCGA GAATGAATCC
    AGCTCTGCAA GAGTGACCTG TACTCCATAC CCCTTTGACT GTACCCACGA AAGTAAAATT
    TATGTTCAAT ATCATTTCCT TCAGCCTGAA TCTGGAACGT CCAACTATAT CGACCCTGTT
    CATGAGTACA AAGAATTCAC AAACACTGAA AATGCTACAC AAATGATANN AAAAATGAAA
    TTTTGCAATG AAGTCTTTAG GTTTGCAGCT GCCTGCATGA ATGTGCGCAC TAATGGTACT
    ATACATTTTG GGGTGCGTGA CAAGCCACAT GGGCAAATTA TTGGTATTAA GATTGACAAC
    AGAGAAGCAT ATGTTTCATA TATTTATCAG ATGATGAACA AATATTTTGA GGAAAAGCAA
    GTAGAAGTTG CAAAGCAATG CATTCGGCCT CCAAGATTCA TAGATGTGCT TTATCAGCAG
    AACACCCAGT CAGATTTAGT TGTTATAGAA GTAGATGTTG TTCCTGAGCA TGCTTATTGC
    AATACAGAAG TATTCTCCAC ATATCAACAA GTTTTCAGTG ACAATAAATG GTTGAAAAGT
    AAAGATAAAT CTTGCTTCAT TCGAGATGGG GAAAGCTCTA AAGACATCCT TGCAAATGTG
    CGCAACAGCG ATGCTGATTT AAAAGTATTT TACTCTAAAC TGAAAGAAAG GGATGATGTT
    AGAAAAAGAG CAGAAGAAAA ATATAAAATC AAGCAAAGGA AAAATATTGA TGAGGGTCCA
    AAACTTGTGA GTTTAATTAC AGGCAACAGA GGCATGATGG ATAATTCCTA TTACAAATGG
    TACATATTAG TGGCTAACAA GTGCCACCAA AGTCAATCAA GTCACCTGGA TTTTATGTCT
    GAAATTCCAT GGTTTGCAGT TTTAGATCAT GACCCAGAGT CTGTTACAAA TGGGTTGTGC
    AAATCATATA GAGAAAAACG AGTACCAAAT NTGCACTTTC CAAGTCAGTA TCAAGATATG
    GATAATGTCA CTTGTGAGAA ACTTGAAGAT CTTAAACTAT ATCAACAGGT CAGCTGGATC
    TTTTGTAATG GGAGGTCAGA TCTAGAGAGT AAAGATTATG AAGCACTGAA TTATAGGCAG
    TGGCATAAAG AAAAGGCAGC GGAAGTAAGA AAGTTGATTT CTTTTCTTTC ACGGAAAGAC
    ATAATGGAAC ATGGGAAATT TCTTGTTGTT TTCTTGCTAC TTTCCACAGT TGATGACCCT
    GCTGATCCTA TTTGTGAAGT GTTCAGCACA TTTTATCAGG AACTGGGTGG GGTGGAGGAT
    ATCTTATGTA TCTGTGAAGA TGAGCATATC TTTCAAAAAT GGAGAGATCT GCAATCTAGA
    TTTGTTAGTG CAGAGGAAAT GGAAAAAAGA TGCATATATA ACTTGGGCAT TGAAAAAGTA
    AATGGAACAA TCCTCAAACT TAAATCTGTG AAACAGTCTA GTTGCCGCTT CTTGCCATCA
    ACTGGTTCTT CCTCAGTTGT ACTACAAAGG AAAGATGAAG ATCTCATGCC AACGTTAAAT
    ATTCTTTGCT TAAATCAATG TCAGGATACA GAAATAGAGA AGGATGAATC GAAGTTTAAT
    TCATTCAGGA GAGACCAAGA AGAGCACTTT TATCGAGGAG GAAAAGTTTC ATGGTGGAAT
    TACTATTTCT CTATGAAACA CTATACTGGA CCATTTATCA AGAGGGACAT TCATGACAAA
    CTAATGCGTT TGATTGATAC GTGGTCTCAG TATGACAAGC AAATAAGTGT AAAAGTAATT
    ACCCTCTATC ATCATCCTGG CTGTGGAGGA TCCACATCTG CAATGCATGT CCTATGGGAA
    TTAAGAGAAA AGTTCAGGTG TGCAATTCTA CATCGGAAGG CTGATAGTTT TGTAGACCTA
    GCGAGAGAGA TAACCAGCCT TGCTACTTAT GGGTTGTCCA ACAGCTCAGA TTACTTTCCT
    GTGCTGCTTC TTGTAGATGA CTACGAAGAG GAAGAAAATG TATACAGTTT GCAAAACTAT
    ATCAGATCAC AAATTGCTGA AAAGTACATC AGATATGAAA AGCCAGTAGT GATCATATTA
    AACTGCATGA GATCTCAGAA CCCAGAGCAA AGCTCAAAAA CCTACCCTTC TGACAGTGTT
    GCACTCAAAC ACAAACTTTC ACCTCAAGAG CAGAGAGCCT TTGAAGCAAA ACTAAAGGAG
    ATTGAGCAGG AACATAACAA GCCAGAGGAT TTCTATTCTT TTATGATAAT GAAAAGCAAT
    TTTGATAAGG TATATATTGA AAAGGTTGTG AGAAACATAC TTAAAGGTTT GAATACAGCT
    GGCAAGGAAG CCCAGCTTAT CTCCTTTCTC GCCCTTCTTA ACAAATATGT AAAGGACTCC
    ACAATATCAG CTTCAATGTG TGAGGAATTT TTAGGCATAT CCACAAAGAA GACATTCTGG
    GGGAATGAGA GTATTGAAGA TAAAATGGGC ACTTATTTTA CTATAATAAT ACAGACAGAA
    GTGGAAGAAT ATGGTGGGTG CCAAGGCCTG CGCATAATAC ACCCATTGAT TGCAAGTCGT
    TGTGTAAAGG AGTTAAAAAA CACTTATGCT ATAAATGAAA GTAATACTAT TATGCAGCTA
    TTAAATACCA ATATATTCTA TGATTTGGGA ATAGGCAGAG ATACTTTTTC ACAAAACATG
    CAAAGCATGC TGATCACTAG ACACAAGAAA GAGCATGGAG ATGAAATGGA CACCCTCTTC
    TCCCCGTTAA TTGAAGAGTT ACAGAAGGAA GAAGGCAATG CTAGTGTTGA AAAAGTATTA
    AGAGAGGGAT CCTTCAGATT TTCCCAAAAT CCATATATTT GTCAGGCACT AGCAAGACAC
    TTCTACATTC GAGAAAAAAA ATTCAGCTCT GCATTGGAAT GGGCAAACAA AGCAAAGACT
    CTTGCACCCA GTAATTCGTT TGTTTTGGAC ACTTTGGGCC AAATATACAA AACACAGCTA
    AAGGCCCTAA TGGACAATCA CAGCAAAAAT AATCCATTAA CAGCACAGGC TTTGGAAACT
    CTTCTTGAAA CAGCAAGAAG AGCATCTGAA GCCTTTAGAG AATGCCAAGA ACAGACAGAA
    AAAACTGAAG CTGAGCGTGA GGAAATGGAA TTAGTGAAGT CAAAACGATA CTTTGTGTAT
    AACACTGCTG GATATCTTGG GCAGATTGAA GTTTGCCTTT ATACAGTAGA CATACTTTTT
    AAACTGCCAT GGTTTAATTC AAAAGATGTG TTGACTAAAA AACACCTGCT GCAGTATTTG
    TCAGGTAAAT GGGATGTATC AGTAGGTTGC ACAAGCAGAA CTGATCATGA ATTGTTTGAT
    GTTCTCAGAG AATATCAGTA CTTCCTAACT AAAGTTAAAT TACATTTAAA GAAGGCTTTT
    GATTTTTTCC AGGACTATTT TGTCTATTTA AAGCAGAGGA ATATTCTAAG GGAAAGTACT
    GAATTCAAAA CACGCGAGAA AGTATCCGAC CTCTTCAAAA AATATCGGAA AATTTTCTGT
    GACCTGGATC TTACACAGAT AACGGGTGGA GAAACCAGAC TAAAAGGAAG CATTGCTTTG
    TATATTGAAG ATTTCAGGGC TGGACTGGAG AATTACAGAG CTGATAGATT TTCCGGGATA
    TTAGAATTTC TCAATGACAA AGACAGCAAA AGGATGGAAT CTATCATACA GGCATATCAG
    TATTTACTCC AGCACCCAAC AGACACCTTT ATTTTAAGGG ACAAGCAAAA TTACATTTTG
    GCCAATATTG TTCTGTATTG CATTTGTCCA AACTCTCCCA AATTTGAACA AACTGAAATT
    TTAAAAACAC ACCTGAGAGA GGTTTTGCAG ATGGTTGGAG ACGATCACAA GTACTCAGAG
    CCTTACTTCC TAGCATCAAT ACTCTTCTGG CCGCACAACT TGCATCAACT TGACAGAGAC
    TCGGCACATC TTGCCAAATA TGTTGCGTCC ATGAGAAAAT CTTTCAGAGG GCAATACCGA
    CACATGTGCC ATGCCAAGCT TCCCATAGCT CATTTCTATC TTGGGCGGAA TAGTGGCCAC
    AATNCTGAAT TAAATTCTCT TTGGCTGTGT GGCGATATAT GGAAAGAAAA AGAAATAGCA
    GATCTCTTGC TTCGTGTGAA GGGAAGAGCA GAAAAAAATC TGATCTATGT GGAATGTGGC
    CAAGACCCCA AAATTACAAT TCCAGTAAGG CCCGCTTACC TTGGTCAATT AAGAAGTGGA
    AAAAGCATTG AACGAGTGTC TTTTTATCTA GGATTTTCCA TTGATGGTCT GATTGCCTAT
    AACATTGAAA CAATCTGA

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

    CloneID OXa34813
    Clone ID Related Accession (Same CDS sequence) XM_018094845.1
    Accession Version XM_018094845.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    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 sterile alpha motif domain-containing protein 9-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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 :: 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 :: 1% 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
    ATGGAACATC CAAACCTGTT GGATAAGCCA TTGCATTTGC CACATAATGT TGACACCTGG 
    ACTAAAAATC AAGTTAGACA ATGGGTCACA CAGGACCTCA GTATTGGCAT GGATGAAGGT
    GACATTTTAT ACAAACAAAA TGTAACAGGG CAGGTCCTCA ATATATTATC TAAAAAAGAT
    TTTATAGAGA TGGGAATAAC TTTTGGAACT GCTTCCTTAA TAATGCATCG CCTAAAAACT
    ATGTCTACAA CAAGCACAGG CAATAAAAGT GGCAGTGCTG ACAGTTCTAA GAAAGGTGAA
    GAAAAGAAAA AAAAACAAAA GAACGAAGAT AAAAATGTTA CAGGTTTGAC GATCCCAGAA
    AAGAAAGAAA ACATAGAAAA GGAAGAAGAG AACATATCAA CAAATGCCGA GAATGAATCC
    AGCTCTGCAA GAGTGACCTG TACTCCATAC CCCTTTGACT GTACCCACGA AAGTAAAATT
    TATGTTCAAT ATCATTTCCT TCAGCCTGAA TCTGGAACTT CCAACTATAT CGACCCTGTT
    CATGAGTACA AAGAATTCAC AAACACTGAA AATGCTACAC AAAAAAAAAT GAAATTTTGC
    AATGAAGTCT TTAGGTTTGC AGCTGCCTGC ATGAATGTGC GCACTAATGG TACTATACAT
    TTTGGGGTGC GTGACAAGCC ACATGGGCAA ATTATTGGTA TTAAGATTGA CAACAGAGAA
    GCATATGTTT CATATATTTA TCAGATGATG AACAAATATT TTGAGGAAAA GCAAGTAGAA
    GTTGCAAAGC AATGCATTCG GCCTCCAAGA TTCATAGATG TGCTTTATCA GCAGAACACC
    CAGTCAGATT TAGTTGTTAT AGAAGTAGAT GTTGTTCCTG AGCATGCTTA TTGCAATACA
    GAAGTATTCT CCACATATCA ACAAGTTTTC AGTGACAATA AATGGTTGAA AAGTAAAGAT
    AAATCTTGCT TCATTCGAGA TGGGGAAAGC TCTAAAGACA TCCTTGCAAA TGTGCGCAAC
    AGCGATGCTG ATTTAAAAGC ATTTTACTCT AAACTGAAAG AAAGGGATGA TGTTAGAAAA
    AGAGCAGAAG AAAAATATAA AATCAAGCAA AGGAAAAATA TTGATGAGGG TCCAAAACTT
    GTGAGTTTAA TTACAGGCAA CAGAGGCATG ATGGATAATT CCTATTACAA ATGGTACATA
    TTAGTGGCTA ACAAGTGCCA CCAAAGTCAA TCAAGTCACC TGGATTTTAT GTCTGAAATT
    CCATGGTTTG CAGTTTTAGA TCATGACCCA GAGTCTGTTA CAAATGGGTT GTGCAAATCA
    TATAGAGAAA AACGAGTACC AAACTTGCAC TTTCCAAGTC AGTATCAAGA TATGGATAAT
    GTCACTTGTG AGAAACTTGA AGATCTTAAA CTATATCAAC AGGTCAGCTG GATCTTTTGT
    AATGGGAGGT CAGATCTAGA GAGTAAAGAT TATGAAGCAC TGAATTATAG GCAGTGGCAT
    AAAGAAAAGG CAGCGGAAGT AAGAAAGTTG ATTTCTTTTC TTTCACGGAA AGACATAATG
    GAACATGGGA AATTTCTTGT TGTTTTCTTG CTACTTTCCA CAGTTGATGA CCCTGCTGAT
    CCTATTTGTG AAGTGTTCAG CACATTTTAT CAGGAACTGG GTGGGGTGGA GGATATCTTA
    TGTATCTGTG AAGATGAGCA TATCTTTCAA AAATGGAGAG ATCTGCAATC TAGATTTGTT
    AGTGCAGAGG AAATGGAAAA AAGATGCATA TATAACTTGG GCATTGAAAA AGTAAATGGA
    ACAATCCTCA AACTTAAATC TGTGAAACAG TCTAGTTGCC GCTTCTTGCC ATCAACTGGT
    TCTTCCTCAG TTGTACTACA AAGGAAAGAT GAAGATCTCA TGCCAACGTT AAATATTCTT
    TGCTTAAATC AATGTCAGGA TACAGAAATA GAGAAGGATG AATCGAAGTT TAATTCATTC
    AGGAGAGACC AAGAAGAGCA CTTTTATCGA GGAGGAAAAG TTTCATGGTG GAATTACTAT
    TTCTCTATGA AACACTATAC TGGACCATTT ATCAAGAGGG ACATTCATGA CAAACTAATG
    CGTTTGATTG ATACGTGGTC TCAGTATGAC AAGCAAATAA GTGTAAAAGT AATTACCCTC
    TATCATCATC CTGGCTGTGG AGGATCCACA TCTGCAATGC ATGTCCTATG GGAATTAAGA
    GAAAAGTTCA GGTGTGCAAT TCTACATCGG AAGGCTGATA GTTTTGTAGA CCTAGCGAGA
    GAGATAACCA GCCTTGCTAC TTATGGGTTG TCCAACAGCT CAGATTACTT TCCTGTGCTG
    CTTCTTGTAG ATGACTACGA AGAGGAAGAA AATGTATACA GTTTGCAAAA CTATATCAGA
    TCACAAATTG CTGAAAAGTA CATCAGATAT GAAAAGCCAG TAGTGATCAT ATTAAACTGC
    ATGAGATCTC AGAACCCAGA GCAAAGCTCA AAAACCTACC CTTCTGACAG TGTTGCACTC
    AAACACAAAC TTTCACCTCA AGAGCAGAGA GCCTTTGAAG CAAAACTAAA GGAGATTGAG
    CAGGAACATA ACAAGCCAGA GGATTTCTAT TCTTTTATGA TAATGAAAAG CAATTTTGAT
    AAGGTATATA TTGAAAAGGT TGTGAGAAAC ATACTTAAAG GTTTGAATAC AGCTGGCAAG
    GAAGCCCAGC TTATCTCCTT TCTCGCCCTT CTTAACAAAT ATGTAAAGGA CTCCACAATA
    TCAGCTTCAA TGTGTGAGGA ATTTTTAGGC ATATCCACAA AGAAGACATT CTGGGGGAAT
    GAGAGTATTG AAGATAAAAT GGGCACTTAT TTTACTATAA TAATACAGAC AGAAGTGGAA
    GAATATGGTG GGTGCCAAGG CCTGCGCATA ATACACCCAT TGATTGCAAG TCGTTGTGTA
    AAGGAGTTAA AAAACACTTA TGCTATAAAT GAAAGTAATA CTATTATGCA GCTATTAAAT
    ACCAATATAT TCTATGATTT GGGAATAGGC AGAGATACTT TTTCACAAAA CATGCAAAGC
    ATGCTGATCA CTAGACACAA GAAAGAGCAT GGAGATGAAA TGGACACCCT CTTCTCCCCG
    TTAATTGAAG AGTTACAGAA GGAAGAAGGC AATGCTAGTG TTGAAAAAGT ATTAAGAGAG
    GGATCCTTCA GATTTTCCCA AAATCCATAT ATTTGTCAGG CACTAGCAAG ACACTTCTAC
    ATTCGAGAAA AAAAATTCAG CTCTGCATTG GAATGGGCAA ACAAAGCAAA GACTCTTGCA
    CCCAGTAATT CGTTTGTTTT GGACACTTTG GGCCAAATAT ACAAAACACA GCTAAAGGCC
    CTAATGGACA ATCACAGCAA AAATAATCCA TTAACAGCAC AGGCTTTGGA AACTCTTCTT
    GAAACAGCAA GAAGAGCATC TGAAGCCTTT AGAGAATGCC AAGAACAGAC AGAAAAAACT
    GAAGCTGAGC GTGAGGAAAT GGAATTAGTG AAGTCAAAAC GATACTTTGT GTATAACACT
    GCTGGATATC TTGGGCAGAT TGAAGTTTGC CTTTATACAG TAGACATACT TTTTAAACTG
    CCATGGTTTA ATTCAAAAGA TGTGTTGACT AAAAAACACC TGCTGCAGTA TTTGTCAGGT
    AAATGGGATG TATCAGTAGG TTGCACAAGC AGAACTGATC ATGAATTGTT TGATGTTCTC
    AGAGAATATC AGTACTTCCT AACTAAAGTT AAATTACATT TAAAGAAGGC TTTTGATTTT
    TTCCAGGACT ATTTTGTCTA TTTAAAGCAG AGGAATATTC TAAGGGAAAG TACTGAATTC
    AAAACACGCG AGAAAGTATC CGACCTCTTC AAAAAATATC GGAAAATTTT CTGTGACCTG
    GATCTTACAC AGATAACGGG TGGAGAAACC AGACTAAAAG GAAGCATTGC TTTGTATATT
    GAAGATTTCA GGGCTGGACT GGAGAATTAC AGAGCTGATA GATTTTCCGG GATATTAGAA
    TTTCTCAATG ACAAAGACAG CAAAAGGATG GAATCTATCA TACAGGCATA TCAGTATTTA
    CTCCAGCACC CAACAGACAC CTTTATTTTA AGGGACAAGC AAAATTACAT TTTGGCCAAT
    ATTGTTCTGT ATTGCATTTG TCCAAACTCT CCCAAATTTG AACAAACTGA AATTTTAAAA
    ACACACCTGA GAGAGGTTTT GCAGATGGTT GGAGACGATC ACAAGTACTC AGAGCCTTAC
    TTCCTAGCAT CAATACTCTT CTGGCCGCAC AACTTGCATC AACTTGACAG AGACTCGGCA
    CATCTTGCCA AATATGTTGC GTCCATGAGA AAATCTTTCA GAGGGCAATA CCGACACATG
    TGCCATGCCA AGCTTCCCAT AGCTCATTTC TATCTTGGGC GGAATAGTGG CCACAATCTG
    AATTAA

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

    RefSeq XP_017950334.1
    CDS183..4628
    Translation

    Target ORF information:

    RefSeq Version XM_018094845.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis sterile alpha motif domain containing 9-like (samd9l), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018094845.1

    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
    ATGGAACATC CAAACCTGTT GGATAAGCCA TTGCATTTGC CACATAATGT TGACACCTGG 
    ACTAAAAATC AAGTTAGACA ATGGGTCACA CAGGACCTCA GTATTGGCAT GGATGAAGGT
    GACATTTTAT ACAAACAAAA TGTAACAGGG CAGGTCCTCA ATATATTATC TAAAAAAGAT
    TTTATAGAGA TGGGAATAAC TTTTGGAACT GCTTCCTTAA TAATGCATCG CCTAAAAACT
    ATGTCTACAA CAAGCACAGG CAATAAAAGT GGCAGTGCTG ACAGTTCTAA GAAAGGTGAA
    GAAAAGAAAA AAAAACAAAA GAACGAAGAT AAAAATGTTA CAGGTTTGAC GATCCCAGAA
    AAGAAAGAAA ACATAGAAAA GGAAGAAGAG AACATATCAA CAAATGCCGA GAATGAATCC
    AGCTCTGCAA GAGTGACCTG TACTCCATAC CCCTTTGACT GTACCCACGA AAGTAAAATT
    TATGTTCAAT ATCATTTCCT TCAGCCTGAA TCTGGAACTT CCAACTATAT CGACCCTGTT
    CATGAGTACA AAGAATTCAC AAACACTGAA AATGCTACAC AAAAAAAAAT GAAATTTTGC
    AATGAAGTCT TTAGGTTTGC AGCTGCCTGC ATGAATGTGC GCACTAATGG TACTATACAT
    TTTGGGGTGC GTGACAAGCC ACATGGGCAA ATTATTGGTA TTAAGATTGA CAACAGAGAA
    GCATATGTTT CATATATTTA TCAGATGATG AACAAATATT TTGAGGAAAA GCAAGTAGAA
    GTTGCAAAGC AATGCATTCG GCCTCCAAGA TTCATAGATG TGCTTTATCA GCAGAACACC
    CAGTCAGATT TAGTTGTTAT AGAAGTAGAT GTTGTTCCTG AGCATGCTTA TTGCAATACA
    GAAGTATTCT CCACATATCA ACAAGTTTTC AGTGACAATA AATGGTTGAA AAGTAAAGAT
    AAATCTTGCT TCATTCGAGA TGGGGAAAGC TCTAAAGACA TCCTTGCAAA TGTGCGCAAC
    AGCGATGCTG ATTTAAAAGC ATTTTACTCT AAACTGAAAG AAAGGGATGA TGTTAGAAAA
    AGAGCAGAAG AAAAATATAA AATCAAGCAA AGGAAAAATA TTGATGAGGG TCCAAAACTT
    GTGAGTTTAA TTACAGGCAA CAGAGGCATG ATGGATAATT CCTATTACAA ATGGTACATA
    TTAGTGGCTA ACAAGTGCCA CCAAAGTCAA TCAAGTCACC TGGATTTTAT GTCTGAAATT
    CCATGGTTTG CAGTTTTAGA TCATGACCCA GAGTCTGTTA CAAATGGGTT GTGCAAATCA
    TATAGAGAAA AACGAGTACC AAACTTGCAC TTTCCAAGTC AGTATCAAGA TATGGATAAT
    GTCACTTGTG AGAAACTTGA AGATCTTAAA CTATATCAAC AGGTCAGCTG GATCTTTTGT
    AATGGGAGGT CAGATCTAGA GAGTAAAGAT TATGAAGCAC TGAATTATAG GCAGTGGCAT
    AAAGAAAAGG CAGCGGAAGT AAGAAAGTTG ATTTCTTTTC TTTCACGGAA AGACATAATG
    GAACATGGGA AATTTCTTGT TGTTTTCTTG CTACTTTCCA CAGTTGATGA CCCTGCTGAT
    CCTATTTGTG AAGTGTTCAG CACATTTTAT CAGGAACTGG GTGGGGTGGA GGATATCTTA
    TGTATCTGTG AAGATGAGCA TATCTTTCAA AAATGGAGAG ATCTGCAATC TAGATTTGTT
    AGTGCAGAGG AAATGGAAAA AAGATGCATA TATAACTTGG GCATTGAAAA AGTAAATGGA
    ACAATCCTCA AACTTAAATC TGTGAAACAG TCTAGTTGCC GCTTCTTGCC ATCAACTGGT
    TCTTCCTCAG TTGTACTACA AAGGAAAGAT GAAGATCTCA TGCCAACGTT AAATATTCTT
    TGCTTAAATC AATGTCAGGA TACAGAAATA GAGAAGGATG AATCGAAGTT TAATTCATTC
    AGGAGAGACC AAGAAGAGCA CTTTTATCGA GGAGGAAAAG TTTCATGGTG GAATTACTAT
    TTCTCTATGA AACACTATAC TGGACCATTT ATCAAGAGGG ACATTCATGA CAAACTAATG
    CGTTTGATTG ATACGTGGTC TCAGTATGAC AAGCAAATAA GTGTAAAAGT AATTACCCTC
    TATCATCATC CTGGCTGTGG AGGATCCACA TCTGCAATGC ATGTCCTATG GGAATTAAGA
    GAAAAGTTCA GGTGTGCAAT TCTACATCGG AAGGCTGATA GTTTTGTAGA CCTAGCGAGA
    GAGATAACCA GCCTTGCTAC TTATGGGTTG TCCAACAGCT CAGATTACTT TCCTGTGCTG
    CTTCTTGTAG ATGACTACGA AGAGGAAGAA AATGTATACA GTTTGCAAAA CTATATCAGA
    TCACAAATTG CTGAAAAGTA CATCAGATAT GAAAAGCCAG TAGTGATCAT ATTAAACTGC
    ATGAGATCTC AGAACCCAGA GCAAAGCTCA AAAACCTACC CTTCTGACAG TGTTGCACTC
    AAACACAAAC TTTCACCTCA AGAGCAGAGA GCCTTTGAAG CAAAACTAAA GGAGATTGAG
    CAGGAACATA ACAAGCCAGA GGATTTCTAT TCTTTTATGA TAATGAAAAG CAATTTTGAT
    AAGGTATATA TTGAAAAGGT TGTGAGAAAC ATACTTAAAG GTTTGAATAC AGCTGGCAAG
    GAAGCCCAGC TTATCTCCTT TCTCGCCCTT CTTAACAAAT ATGTAAAGGA CTCCACAATA
    TCAGCTTCAA TGTGTGAGGA ATTTTTAGGC ATATCCACAA AGAAGACATT CTGGGGGAAT
    GAGAGTATTG AAGATAAAAT GGGCACTTAT TTTACTATAA TAATACAGAC AGAAGTGGAA
    GAATATGGTG GGTGCCAAGG CCTGCGCATA ATACACCCAT TGATTGCAAG TCGTTGTGTA
    AAGGAGTTAA AAAACACTTA TGCTATAAAT GAAAGTAATA CTATTATGCA GCTATTAAAT
    ACCAATATAT TCTATGATTT GGGAATAGGC AGAGATACTT TTTCACAAAA CATGCAAAGC
    ATGCTGATCA CTAGACACAA GAAAGAGCAT GGAGATGAAA TGGACACCCT CTTCTCCCCG
    TTAATTGAAG AGTTACAGAA GGAAGAAGGC AATGCTAGTG TTGAAAAAGT ATTAAGAGAG
    GGATCCTTCA GATTTTCCCA AAATCCATAT ATTTGTCAGG CACTAGCAAG ACACTTCTAC
    ATTCGAGAAA AAAAATTCAG CTCTGCATTG GAATGGGCAA ACAAAGCAAA GACTCTTGCA
    CCCAGTAATT CGTTTGTTTT GGACACTTTG GGCCAAATAT ACAAAACACA GCTAAAGGCC
    CTAATGGACA ATCACAGCAA AAATAATCCA TTAACAGCAC AGGCTTTGGA AACTCTTCTT
    GAAACAGCAA GAAGAGCATC TGAAGCCTTT AGAGAATGCC AAGAACAGAC AGAAAAAACT
    GAAGCTGAGC GTGAGGAAAT GGAATTAGTG AAGTCAAAAC GATACTTTGT GTATAACACT
    GCTGGATATC TTGGGCAGAT TGAAGTTTGC CTTTATACAG TAGACATACT TTTTAAACTG
    CCATGGTTTA ATTCAAAAGA TGTGTTGACT AAAAAACACC TGCTGCAGTA TTTGTCAGGT
    AAATGGGATG TATCAGTAGG TTGCACAAGC AGAACTGATC ATGAATTGTT TGATGTTCTC
    AGAGAATATC AGTACTTCCT AACTAAAGTT AAATTACATT TAAAGAAGGC TTTTGATTTT
    TTCCAGGACT ATTTTGTCTA TTTAAAGCAG AGGAATATTC TAAGGGAAAG TACTGAATTC
    AAAACACGCG AGAAAGTATC CGACCTCTTC AAAAAATATC GGAAAATTTT CTGTGACCTG
    GATCTTACAC AGATAACGGG TGGAGAAACC AGACTAAAAG GAAGCATTGC TTTGTATATT
    GAAGATTTCA GGGCTGGACT GGAGAATTAC AGAGCTGATA GATTTTCCGG GATATTAGAA
    TTTCTCAATG ACAAAGACAG CAAAAGGATG GAATCTATCA TACAGGCATA TCAGTATTTA
    CTCCAGCACC CAACAGACAC CTTTATTTTA AGGGACAAGC AAAATTACAT TTTGGCCAAT
    ATTGTTCTGT ATTGCATTTG TCCAAACTCT CCCAAATTTG AACAAACTGA AATTTTAAAA
    ACACACCTGA GAGAGGTTTT GCAGATGGTT GGAGACGATC ACAAGTACTC AGAGCCTTAC
    TTCCTAGCAT CAATACTCTT CTGGCCGCAC AACTTGCATC AACTTGACAG AGACTCGGCA
    CATCTTGCCA AATATGTTGC GTCCATGAGA AAATCTTTCA GAGGGCAATA CCGACACATG
    TGCCATGCCA AGCTTCCCAT AGCTCATTTC TATCTTGGGC GGAATAGTGG CCACAATCTG
    AATTAA

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