ORF » Species Summary » Hydra vulgaris » LOC105844625 cDNA ORF clone

LOC105844625 cDNA ORF clone, Hydra vulgaris

The following LOC105844625 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105844625 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
OHc22013 XM_012701445.1
Latest version!		 Hydra vulgaris tudor domain-containing protein 15-like (LOC105844625), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    LOC105844625 ( XM_012701445.1 ) cDNA ORF clone, Hydra vulgaris -> XP_012556899.1 Hydra vulgaris tudor domain-containing protein 15-like (LOC105844625), mRNA.
    Price & Availability↑
    CloneID OHc22013
    Clone ID Related Accession (Same CDS sequence) XM_012701445.1
    Accession Version XM_012701445.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5874bp)
    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 1433606400000
    Organism Hydra vulgaris
    Product tudor domain-containing protein 15-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004168163.1) and transcript sequence (GAOL01024559.1) 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 :: Hydra vulgaris Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 870 transcript bases to patch genome assembly gap ##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
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGAGTTGTT ACATTGAAGA ACCTTTATTT GATATTCCTT TCTGTAGAGT AGATGAAGCT 
    TATCTTCCTA CTACAAATCC TTGGATTGTA AAACAAACTC AATCAGATTT GACAGGAGTT 
    ATTGCAAAGG CAGATGTTTT GTGCCCTGGA AAGATTAAAA AAAGAGAGAA ATATACTAAC 
    AAATTGGAAA AACAGCTCAT ATCAATAGGA GTAAATTTGA CTGAAGATTC TGCCAACACA 
    ATAATAAAGT CAACGATCAT GTCTGATGAA GATAATTTCA ATAACTGGGA CCCAATGAAA 
    ATATCATACG AACAAAAGCA TTTCAATTCC TACAAGGAGC AGAAATATGA CGATAATCCA 
    GTTGAAAGAC ATTGCCCTAC CAAGAGTTTA GATGGTTCTG AAAAAATATC TCCTACTAAA 
    TGTGGCGTAG ACGAAGTGCG ACTTCATGTA TACAACATTC CTTTATCAAT GACTGAGGAA 
    GGTCTTACGA ACTTATTTTC TTCAGTTGGA AATTGTTACA ATGTGAAAAG ATCAAATTCA 
    ATTTCTAACA AAAATACTAC TTACGGCTTT GTTTCTTACC GTAATGTGCG AGATGCTGAA 
    GCTGCTATCT CAAAATTTAA CGGATTTGTT TTTGGTGGCA AGTACACATT AGGTGTAAAG 
    TTATCTACTG GAAGAAACAA CCAATCAATG AATAAAGAAA AAATTTTATG GGGTGATAGC 
    GGTCTAGATG GATTAAGTTC TGGTGAAAGC CATGATCAAG AAGCAAGTAA GAATACGACT 
    CTTTCTGGTG ACTCATCAAC AGAATTCTCC AAAAACACTG GTCTCTCAAA AAATACAACT 
    GAATTGATTA AAAATGAAAG CACTCGGTTA CATATACAAG GTCTTGACGT TTCTACAAAT 
    AAAAATGATT TGCATGAGTT ATTTAAAGAT ATTGGTCCAA TATATAATAT TAAAGTTGTT 
    CCACCAAAGA AACCTGGCCA ATATTCAACA TATGGGTTTG TAACCATGGA TTCTGTTGAG 
    ATGGCTAGTT CGGCTATTCA GATATTGAAT AACAGCATAT TTAAAGGGAA AAAATTATAT 
    GTGTCACCTG CTAACCCAAA TGTACAAAGT TTTAAAGTAA ACAAAAATGA AGATGAAGTT 
    TTTTATGATA AACTTTATGA TGATTCAGTT TGGGGTTGTG ATAATAAAAA TAATGAAGAC 
    CAAAAGAGTA CTGAAATTGT AGCAACATCT ATGTATCATC AATGTGAAGC TCAATTAAAT 
    GCACCTAATA AAATATTGCC ACATGATAGT TTAGAAATTA AAAAAATGAA CCATATTCAT 
    TCTGACACTT TTCACCAATT GATGCTCTCA GAATTGTCAA CAAGTTCATT TCCTGATTCA 
    ACAGAATTTG AAGTCTGTTT TACAGAAATT GTATCTCCTG CACTTATGTA TGCACAGATA 
    TTAGACGATA ATACACTTGC TGCTTTACAA GAAGTTACTC TAAGGTTGCA AGAAATTGAT 
    AAAATACAAG ATTTTACTTT GTTAAAACCT AAAATTGATC AGATTTGTTG TGCAAAGTAT 
    AATGCTGATA ATCAATGGTA TCGTGCCAGT ATTATATGTT ATAATACAGA TTTGATGGCT 
    ACAGTAAATT TCATTGATTT TGGAAATCAA GCTGATGTAG AAATAAAAAA CATTCGTTGT 
    ATTGACAAGC AGCTCCTTAG CTATCCAATA CTTGCTTCAG TGTTTTGTTT GGAAGGTATA 
    GAAAGTACAT CAGAGAATGG TGTCTGGGGT AATGATGTTG TTGAATTTAT GGCTTTGTCA 
    TTACTTAATC AAGCTATAAA AGTTAAATGT TTGAGCATTT CCAATAATAA AATGACTTGT 
    GAAGTTGAGT TACCTGATGG CAGTTGTTTG TCACAAAAAC TTATTGCGAA AGGGTTTGCT 
    AAAAGAAAAT CTTTTGAAGA GATCAGTCAT AAAGAAACTT CTTTAAAAAA AACAACTCCA 
    AATGATTCAT TTAAAATCAA TTTATTTCAA CATTACACTG TAAAGGATAT TACTTTTTAC 
    TCTCCTTCCA GCTCAAACCT TGATTTGTTA ATTACTCATG TAGAAAGTCC TTATTTTTTT 
    TATGGTAGAG TTGCTGATAT ATCTCTTAAT GAAACTATTG CAAATATATC GGTAGAATTA 
    TATGAACTTT ACTCTAATTC AGTTAATAAT AGCAATCACA AACCTGTAGA AGGAGATGTT 
    TGTGCTGGAT TTTATGCCGA GTATGGTGAA TGGTACAGAA TTTTAGTTTT AGCTGTTTAT 
    TCAGAAACGG TTGTTGCATT TTTAATTGAT TATGGTGATG TTGTGGTAAT TCCTTTTGAT 
    GGATTGAGAC TTTTACCTCC AAGATATATA TCATTGCCAT CACAAGCAAT TGCATTGCGG 
    TTAAATAATA TTAAACCTAA AATATTTCAA TGTGAAGAAG AAAATTATCC TGAGGCTGAC 
    ACATGGAATA CAGAAGCTGT TGAAGTTTTT AAAGATCTGG TTTTGTTTAA AAAAGTCTCT 
    GTTGAAATAG TTTCTGAAGT AGATGTTTCT AAAGAGAAAG CTACTAAAAT AAGTCTTACA 
    TATGTTAAAA CTTTTGCTAA TGTACATATA AAAATTAATG ACTCCGATGT TGCATCTGTT 
    TTACTTTCTA GAAATTTAGC TTGTCCTAAA GAGAAAAAAA CGGTAAATAT TACACAAAAT 
    ATTACCCAAG ATACCAGCAA AAGTCAAGAA TCAAAATGCA TTTTAAAAAG GGTAATGTAT 
    AATGACCTCC CTAAAATAGA TTTTCCAGTT GAAACTTTTT CATTGCTAAT TGTAAATACT 
    GATAGCCCAT CAAAGTTTCA TGGACAAATT CCTGATATAG ATCTTATTAA GGATCTTGAT 
    TTGATGTCTC AAGATATGAC ATCATATTAT AGTGACGATA TTTTGGAGTA TATACCTATT 
    GTTGGTGAAG TCTGTGCGGT TTTTTTTATA ACATATGAAC AGTATTTTCG TGCACGTATT 
    GACTATATAG GAAAATCTGA AATTAAAGTA ACATCAATTG ATTATGGTAA TACTCAAACT 
    GTTGCCCTCG GAGATGTAAA GCCTCTTCCA CTTAAGTATT CTATAATTCC ATGTCAAGCT 
    TATTCCCTTT CACTTTATGG CATTGTCGAG TTACATGGTA ATAGTTGGTC TGAAGAATGC 
    TGCAGGTTTT TTATGGAGTG TTGCATAAAC AGTAAGGTTG ACATTACTAT TAAGGAAAAA 
    ATAAATGATG TATGTTATGT AGATATGTCT TCAAATAATG TATCATCCTT TTCAATGTTG 
    TTGATAGACA AAGGCTATGC TAAACGTTCA GATGAAGTTT GCGAAAGTGA AAGTAAACCG 
    TTGGATTTAT TAGATAAGAC ATATACAAAA GAAGTAATTG AAAACAATAT AAGTAAGACT 
    GAAATAGATG AAAAGCCTTT AAAAACATAT GATTCACCGA GAGACTTACA TGAAACTTTA 
    GTGCTACAAT CTGAAGAATC GCTCAATAAA AGAATATTAG ACCCATATAC TAAGTTACCC 
    TTGTTTACTT TACCTGAGAA ATTTGATATT TTAGTTTGTC ATATTGAAAG TTTGGAATGT 
    TTTTATTCAC AAGTTTGTGA TAATGAACTT CTAACAAAGA ACTATGAGAT GCAATTAGAA 
    ATGTATGATC ACTGCCAGTT AAGTGAAATC AAATCCTATT TACCAAAAAA TGGAGAGCTA 
    TGTTTTGGAT ATTTAGATGA AGCTTGGTAT CGTGTCTATG TTAAATATGT TAGTAATTCA 
    TCAGCAAATG TATTTTTCAT TGACTATGGG AACTGCTGTG ATCTGTCGTT TTCAATGTTG 
    CGACCTTTTA CTAACACTTT TTTAAAGTTT CCTTCCTTGG CTATACCAAT GAAACTTTAC 
    AATCCAAAAA ATGTTAAACC TTATGCTAGC GTTATAGAAG AGTTTAGAAA AAGGACGGAA 
    AATAGAAGGT GTTCTGCTGC TGTCAAAAGT GTTTTAAGTG ATGGGTTTTT AGAAGTAGAT 
    ATAATAGATG ATTCTTTTGT TGATGTTATG TCTGTATTAG TTTTAACAGA AGCATCTGAA 
    GCATCTTCAT CAGAAATATA TGAAGCTCTA AATGATAATC AAACTGATGT TTGCGATATT 
    TTATCCAAAC CTGATGAACG TTTGCCTAAA AAGTTTAACG ATGCGAATAC AACTCTAGAA 
    TCAACAGTAA ACGATGTAAT GCATAATGGC GGGGAATCTA AGGTCTTAAC AGCAAACAAC 
    TTTACGGTTT CAAATCTTCC ACGGCGTGAA CATCCATTAG AGTCTGTGTC GTTTAAAATG 
    CGCCTATCAT TTTTACCGAT CTCAAATAAA GCTGTTATTA TCTCAATAAC TCATATTGAA 
    TCGCCTTACT TAATTTATGG ATTAAGATTA GATTCTCTCG ATGTAGTTAA GAATCTTTCA 
    GAAAAAATTT CTTATTTGGT AGAAGAGAGT AATGAAACTT TACATTTAAA AGCTGGTGCA 
    TTATGTTGTG TTCAGAAAGA TGGAAAATGG TTTCGATGTG TTGCATGTAG CGTAGATAGT 
    TACAAGGTTG TAGTATTTTG CATAGATTAT GGATTTACGT TAGTTGTTAA TCATAACTGC 
    ATTCGTCCGT TTTTCAAAGA GCTCAAAGAT TACGCAGCGC AAGTTATACC AATTAAATTG 
    ATGTTTGTTA AGCCAGTAAA TGAAGATCAA GATTGGTCAG ATAGCGCTAT ATTCAAGTTT 
    AAAAGTATTG TAAATAATCA AAATGTTAAA GTTATATCGA AGCAAAATCA AGGTGTATTT 
    TCAATCGTGA AAATGAAACT AATGAACGAT AACGAGTCTG TTGAATTACT TATGGAGAAA 
    ATGGGTATAG CTGTATTAAA CTCGTTTGTT ACGGAAGCTG AAAACTCAAG TGGTGAATAT 
    ATTAAAAAAG AAGTTATTCC TTTTTCTGAC ATTTACAAGA AAGTTATGTA TGAGACAATT 
    CCACAAGATG AGTTTAAAGC TATAGTCATT TATGCGGTCA GTCCTCGAAT CTTTTATGTA 
    CAAATCTTTG ATAATGAAAA AATTGCTAAA GTCGACGAAA TAAGCGTTAA ACTTCATGAG 
    TTATATGATA ATGATGAAAG AGAACTTGAA TTTTGTCCAG GCCAGCTATG TTCAGTCAAG 
    TATCGTGATC AATTATGGTA TCGTGGTTAC ATCATTAGTA TTTCCGATGA TTTTGTTATT 
    TATCTTATCG ATTATGGTAT AAAAGCAAAT ATCAAAAGAA AAAACATAAA ACCGTTACCT 
    GAAGAGTTGC AGAAATATCC TGCTCAAGCT TTGGTTATGC AAATTAATAA TTTAATTCCA 
    TCAAGATCGG CTGATTCTTT TAACCGTGAT GCAATACTTG CATTTAGATC GTTGACCGAA 
    GGCCGTTTAG TAAGGGTTCG ATATATCACT TCAATTGGAT ACCGTCATCG TGTTGATATC 
    ATTGACGATA TTTCCAACGA TAATATTGGA TTAAAGCTGG TACAAAAGGG TTTAGCTGAT 
    TATAAAAGTA TTGCACAGAC ACCTTCAATG AGGTCGCCTG AGAAAGGACT AACTTATAGA 
    ACATTAAGAG ATATGCGACA TAATGTGGTT AAACAGTATA ACTCAATCGG ACAGTCAAAC 
    CAACAAAAAC AGTCTTATCA ACAAAAAAAT TGCTCTCATA ATGATGAGTA TTGCGCGGAT 
    AATACACTCT ATCGTGAACA TCGTACATGC TCTAGCACAC CGCTTGCTCG GCTGATTTCT 
    TCAACAGAGG ACGGGAAACT TCGATATCCT CGTAACAAAT GCGAAGAAAA GTATAGTCTA 
    TCAAACGGTA AAGACAGTGG AAGTACTTAT AACTGTGCTA ATGGTGTGGC GTAA

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

    RefSeq XP_012556899.1
    CDS104..5977
    Translation

    Target ORF information:

    RefSeq Version XM_012701445.1
    Organism Hydra vulgaris
    Definition Hydra vulgaris tudor domain-containing protein 15-like (LOC105844625), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012701445.1

    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
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGAGTTGTT ACATTGAAGA ACCTTTATTT GATATTCCTT TCTGTAGAGT AGATGAAGCT 
    TATCTTCCTA CTACAAATCC TTGGATTGTA AAACAAACTC AATCAGATTT GACAGGAGTT 
    ATTGCAAAGG CAGATGTTTT GTGCCCTGGA AAGATTAAAA AAAGAGAGAA ATATACTAAC 
    AAATTGGAAA AACAGCTCAT ATCAATAGGA GTAAATTTGA CTGAAGATTC TGCCAACACA 
    ATAATAAAGT CAACGATCAT GTCTGATGAA GATAATTTCA ATAACTGGGA CCCAATGAAA 
    ATATCATACG AACAAAAGCA TTTCAATTCC TACAAGGAGC AGAAATATGA CGATAATCCA 
    GTTGAAAGAC ATTGCCCTAC CAAGAGTTTA GATGGTTCTG AAAAAATATC TCCTACTAAA 
    TGTGGCGTAG ACGAAGTGCG ACTTCATGTA TACAACATTC CTTTATCAAT GACTGAGGAA 
    GGTCTTACGA ACTTATTTTC TTCAGTTGGA AATTGTTACA ATGTGAAAAG ATCAAATTCA 
    ATTTCTAACA AAAATACTAC TTACGGCTTT GTTTCTTACC GTAATGTGCG AGATGCTGAA 
    GCTGCTATCT CAAAATTTAA CGGATTTGTT TTTGGTGGCA AGTACACATT AGGTGTAAAG 
    TTATCTACTG GAAGAAACAA CCAATCAATG AATAAAGAAA AAATTTTATG GGGTGATAGC 
    GGTCTAGATG GATTAAGTTC TGGTGAAAGC CATGATCAAG AAGCAAGTAA GAATACGACT 
    CTTTCTGGTG ACTCATCAAC AGAATTCTCC AAAAACACTG GTCTCTCAAA AAATACAACT 
    GAATTGATTA AAAATGAAAG CACTCGGTTA CATATACAAG GTCTTGACGT TTCTACAAAT 
    AAAAATGATT TGCATGAGTT ATTTAAAGAT ATTGGTCCAA TATATAATAT TAAAGTTGTT 
    CCACCAAAGA AACCTGGCCA ATATTCAACA TATGGGTTTG TAACCATGGA TTCTGTTGAG 
    ATGGCTAGTT CGGCTATTCA GATATTGAAT AACAGCATAT TTAAAGGGAA AAAATTATAT 
    GTGTCACCTG CTAACCCAAA TGTACAAAGT TTTAAAGTAA ACAAAAATGA AGATGAAGTT 
    TTTTATGATA AACTTTATGA TGATTCAGTT TGGGGTTGTG ATAATAAAAA TAATGAAGAC 
    CAAAAGAGTA CTGAAATTGT AGCAACATCT ATGTATCATC AATGTGAAGC TCAATTAAAT 
    GCACCTAATA AAATATTGCC ACATGATAGT TTAGAAATTA AAAAAATGAA CCATATTCAT 
    TCTGACACTT TTCACCAATT GATGCTCTCA GAATTGTCAA CAAGTTCATT TCCTGATTCA 
    ACAGAATTTG AAGTCTGTTT TACAGAAATT GTATCTCCTG CACTTATGTA TGCACAGATA 
    TTAGACGATA ATACACTTGC TGCTTTACAA GAAGTTACTC TAAGGTTGCA AGAAATTGAT 
    AAAATACAAG ATTTTACTTT GTTAAAACCT AAAATTGATC AGATTTGTTG TGCAAAGTAT 
    AATGCTGATA ATCAATGGTA TCGTGCCAGT ATTATATGTT ATAATACAGA TTTGATGGCT 
    ACAGTAAATT TCATTGATTT TGGAAATCAA GCTGATGTAG AAATAAAAAA CATTCGTTGT 
    ATTGACAAGC AGCTCCTTAG CTATCCAATA CTTGCTTCAG TGTTTTGTTT GGAAGGTATA 
    GAAAGTACAT CAGAGAATGG TGTCTGGGGT AATGATGTTG TTGAATTTAT GGCTTTGTCA 
    TTACTTAATC AAGCTATAAA AGTTAAATGT TTGAGCATTT CCAATAATAA AATGACTTGT 
    GAAGTTGAGT TACCTGATGG CAGTTGTTTG TCACAAAAAC TTATTGCGAA AGGGTTTGCT 
    AAAAGAAAAT CTTTTGAAGA GATCAGTCAT AAAGAAACTT CTTTAAAAAA AACAACTCCA 
    AATGATTCAT TTAAAATCAA TTTATTTCAA CATTACACTG TAAAGGATAT TACTTTTTAC 
    TCTCCTTCCA GCTCAAACCT TGATTTGTTA ATTACTCATG TAGAAAGTCC TTATTTTTTT 
    TATGGTAGAG TTGCTGATAT ATCTCTTAAT GAAACTATTG CAAATATATC GGTAGAATTA 
    TATGAACTTT ACTCTAATTC AGTTAATAAT AGCAATCACA AACCTGTAGA AGGAGATGTT 
    TGTGCTGGAT TTTATGCCGA GTATGGTGAA TGGTACAGAA TTTTAGTTTT AGCTGTTTAT 
    TCAGAAACGG TTGTTGCATT TTTAATTGAT TATGGTGATG TTGTGGTAAT TCCTTTTGAT 
    GGATTGAGAC TTTTACCTCC AAGATATATA TCATTGCCAT CACAAGCAAT TGCATTGCGG 
    TTAAATAATA TTAAACCTAA AATATTTCAA TGTGAAGAAG AAAATTATCC TGAGGCTGAC 
    ACATGGAATA CAGAAGCTGT TGAAGTTTTT AAAGATCTGG TTTTGTTTAA AAAAGTCTCT 
    GTTGAAATAG TTTCTGAAGT AGATGTTTCT AAAGAGAAAG CTACTAAAAT AAGTCTTACA 
    TATGTTAAAA CTTTTGCTAA TGTACATATA AAAATTAATG ACTCCGATGT TGCATCTGTT 
    TTACTTTCTA GAAATTTAGC TTGTCCTAAA GAGAAAAAAA CGGTAAATAT TACACAAAAT 
    ATTACCCAAG ATACCAGCAA AAGTCAAGAA TCAAAATGCA TTTTAAAAAG GGTAATGTAT 
    AATGACCTCC CTAAAATAGA TTTTCCAGTT GAAACTTTTT CATTGCTAAT TGTAAATACT 
    GATAGCCCAT CAAAGTTTCA TGGACAAATT CCTGATATAG ATCTTATTAA GGATCTTGAT 
    TTGATGTCTC AAGATATGAC ATCATATTAT AGTGACGATA TTTTGGAGTA TATACCTATT 
    GTTGGTGAAG TCTGTGCGGT TTTTTTTATA ACATATGAAC AGTATTTTCG TGCACGTATT 
    GACTATATAG GAAAATCTGA AATTAAAGTA ACATCAATTG ATTATGGTAA TACTCAAACT 
    GTTGCCCTCG GAGATGTAAA GCCTCTTCCA CTTAAGTATT CTATAATTCC ATGTCAAGCT 
    TATTCCCTTT CACTTTATGG CATTGTCGAG TTACATGGTA ATAGTTGGTC TGAAGAATGC 
    TGCAGGTTTT TTATGGAGTG TTGCATAAAC AGTAAGGTTG ACATTACTAT TAAGGAAAAA 
    ATAAATGATG TATGTTATGT AGATATGTCT TCAAATAATG TATCATCCTT TTCAATGTTG 
    TTGATAGACA AAGGCTATGC TAAACGTTCA GATGAAGTTT GCGAAAGTGA AAGTAAACCG 
    TTGGATTTAT TAGATAAGAC ATATACAAAA GAAGTAATTG AAAACAATAT AAGTAAGACT 
    GAAATAGATG AAAAGCCTTT AAAAACATAT GATTCACCGA GAGACTTACA TGAAACTTTA 
    GTGCTACAAT CTGAAGAATC GCTCAATAAA AGAATATTAG ACCCATATAC TAAGTTACCC 
    TTGTTTACTT TACCTGAGAA ATTTGATATT TTAGTTTGTC ATATTGAAAG TTTGGAATGT 
    TTTTATTCAC AAGTTTGTGA TAATGAACTT CTAACAAAGA ACTATGAGAT GCAATTAGAA 
    ATGTATGATC ACTGCCAGTT AAGTGAAATC AAATCCTATT TACCAAAAAA TGGAGAGCTA 
    TGTTTTGGAT ATTTAGATGA AGCTTGGTAT CGTGTCTATG TTAAATATGT TAGTAATTCA 
    TCAGCAAATG TATTTTTCAT TGACTATGGG AACTGCTGTG ATCTGTCGTT TTCAATGTTG 
    CGACCTTTTA CTAACACTTT TTTAAAGTTT CCTTCCTTGG CTATACCAAT GAAACTTTAC 
    AATCCAAAAA ATGTTAAACC TTATGCTAGC GTTATAGAAG AGTTTAGAAA AAGGACGGAA 
    AATAGAAGGT GTTCTGCTGC TGTCAAAAGT GTTTTAAGTG ATGGGTTTTT AGAAGTAGAT 
    ATAATAGATG ATTCTTTTGT TGATGTTATG TCTGTATTAG TTTTAACAGA AGCATCTGAA 
    GCATCTTCAT CAGAAATATA TGAAGCTCTA AATGATAATC AAACTGATGT TTGCGATATT 
    TTATCCAAAC CTGATGAACG TTTGCCTAAA AAGTTTAACG ATGCGAATAC AACTCTAGAA 
    TCAACAGTAA ACGATGTAAT GCATAATGGC GGGGAATCTA AGGTCTTAAC AGCAAACAAC 
    TTTACGGTTT CAAATCTTCC ACGGCGTGAA CATCCATTAG AGTCTGTGTC GTTTAAAATG 
    CGCCTATCAT TTTTACCGAT CTCAAATAAA GCTGTTATTA TCTCAATAAC TCATATTGAA 
    TCGCCTTACT TAATTTATGG ATTAAGATTA GATTCTCTCG ATGTAGTTAA GAATCTTTCA 
    GAAAAAATTT CTTATTTGGT AGAAGAGAGT AATGAAACTT TACATTTAAA AGCTGGTGCA 
    TTATGTTGTG TTCAGAAAGA TGGAAAATGG TTTCGATGTG TTGCATGTAG CGTAGATAGT 
    TACAAGGTTG TAGTATTTTG CATAGATTAT GGATTTACGT TAGTTGTTAA TCATAACTGC 
    ATTCGTCCGT TTTTCAAAGA GCTCAAAGAT TACGCAGCGC AAGTTATACC AATTAAATTG 
    ATGTTTGTTA AGCCAGTAAA TGAAGATCAA GATTGGTCAG ATAGCGCTAT ATTCAAGTTT 
    AAAAGTATTG TAAATAATCA AAATGTTAAA GTTATATCGA AGCAAAATCA AGGTGTATTT 
    TCAATCGTGA AAATGAAACT AATGAACGAT AACGAGTCTG TTGAATTACT TATGGAGAAA 
    ATGGGTATAG CTGTATTAAA CTCGTTTGTT ACGGAAGCTG AAAACTCAAG TGGTGAATAT 
    ATTAAAAAAG AAGTTATTCC TTTTTCTGAC ATTTACAAGA AAGTTATGTA TGAGACAATT 
    CCACAAGATG AGTTTAAAGC TATAGTCATT TATGCGGTCA GTCCTCGAAT CTTTTATGTA 
    CAAATCTTTG ATAATGAAAA AATTGCTAAA GTCGACGAAA TAAGCGTTAA ACTTCATGAG 
    TTATATGATA ATGATGAAAG AGAACTTGAA TTTTGTCCAG GCCAGCTATG TTCAGTCAAG 
    TATCGTGATC AATTATGGTA TCGTGGTTAC ATCATTAGTA TTTCCGATGA TTTTGTTATT 
    TATCTTATCG ATTATGGTAT AAAAGCAAAT ATCAAAAGAA AAAACATAAA ACCGTTACCT 
    GAAGAGTTGC AGAAATATCC TGCTCAAGCT TTGGTTATGC AAATTAATAA TTTAATTCCA 
    TCAAGATCGG CTGATTCTTT TAACCGTGAT GCAATACTTG CATTTAGATC GTTGACCGAA 
    GGCCGTTTAG TAAGGGTTCG ATATATCACT TCAATTGGAT ACCGTCATCG TGTTGATATC 
    ATTGACGATA TTTCCAACGA TAATATTGGA TTAAAGCTGG TACAAAAGGG TTTAGCTGAT 
    TATAAAAGTA TTGCACAGAC ACCTTCAATG AGGTCGCCTG AGAAAGGACT AACTTATAGA 
    ACATTAAGAG ATATGCGACA TAATGTGGTT AAACAGTATA ACTCAATCGG ACAGTCAAAC 
    CAACAAAAAC AGTCTTATCA ACAAAAAAAT TGCTCTCATA ATGATGAGTA TTGCGCGGAT 
    AATACACTCT ATCGTGAACA TCGTACATGC TCTAGCACAC CGCTTGCTCG GCTGATTTCT 
    TCAACAGAGG ACGGGAAACT TCGATATCCT CGTAACAAAT GCGAAGAAAA GTATAGTCTA 
    TCAAACGGTA AAGACAGTGG AAGTACTTAT AACTGTGCTA ATGGTGTGGC GTAA

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission