LOC111069109 cDNA ORF clone, Drosophila obscura

The following LOC111069109 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111069109 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
ODr293295 XM_022359003.1
Latest version!
Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODr293296 XM_022359004.1
Latest version!
Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODr293296 XM_022359005.1
Latest version!
Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $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 ODr293295
    Clone ID Related Accession (Same CDS sequence) XM_022359003.1
    Accession Version XM_022359003.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    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 2017-08-23
    Organism Drosophila obscura
    Product nuclear pore complex protein Nup160 homolog isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019152130.1) 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 :: Drosophila obscura Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4141
    4201
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGCAGAAACA CTAAACACAC TGCAGGATAC CAAAACATTT
    GAGATATCTG ACGGACATTG CTACAAAAAT AATAATGTGC AGTACAGGAA TCGCTTCATA
    TATTGGCGGA CGAACAAGGA GGTGCTGGAG CTAGCTGAAA TTAGCCTGGA TATATCGCTT
    GTGAGAAACC ATTTGCGTCT GCGCTTCACC GACTCGGCTG TGCTCAATGT ATCCCTCACG
    GAGCACCACA AAGCCATCAC ACTGCTGGTC GTCACCGTGA GCAGTGTCCA TCGCTACGTG
    TTCCCACTGA AGGTTGTTGG TGAAAACGCG GGCACTGCCG CCGCCGGACA AGACGATCTG
    CAGTCGCAAT CTATCTTCTA CGATGTGAAC GAAAAGATCG ACGATCCGAG CGCCTTCTAT
    GTTACGGATG GACTGGGCAC GATGCCCACT GTGGCTGCTT CATTTATGTC GGAGCACGCC
    CAAGTGGCCT ACTTTGCGGT GGCCTACCAG AGCAAGCTGG TGCTGCACGT CATGAACTGT
    GTCACTGGCT CCACGGTGAC GCACGAGGTC AAGGAACCGC ATCTGATGCC TCGCTTTCTG
    TCCAGCCTCA CGGGCGCTCT AATTAGGCGA GCGGAATCTG TGGATGCGCC CAATTCGATG
    GAGTTCAGTG AAATCGATGG CAAGACGTAT CTTCTGGTGG TCTATAGGAG CAACGAGCTG
    CGCCTTTGGG CAGTGGACAC GATGCAGACA GTTTCCACCA TTAACTGCTC TGGCGGCGCT
    CAAGGTGCAC CGTCCGCACA AGGACCGCAA ACCAATCAGA TACGAAAAAT AGACGATCAA
    AACTTTTGCG TATTCCTCTC ACACGACGAT GGGGCCGAGT TTGTTTGCGT GCATCTCGAT
    GGGACTACGA TGCCAGATGG TAGTGCCAGA GACCTTGAGT TTATTGTGAA GCACACGGTT
    GTGGCGCCAC AAATGGATCT GGCCGATTTC GATGTCACCC TCACACACAT CTGGGCTCTC
    TGGAGCAATG CCGAGGGGGA TTTCAATGTC TCGACGATAT ATGTGGGCTC TGATCAGGCT
    ATCGAATGGG TTTCCTCGGT ACTGGAGCCG CCACCAGATC GTTATTGTCT CACCATGGAG
    CAGGGTATTG ATCCGCGCGA GGCCTACTGC TCGTACATCT TCCATCCGGG TCGATTCGAT
    CGTACGGTGA TTACCAAGGC CTTATATATG TTCCGACGCG TCAACCTGCA GTTCGATGTT
    AGGCAGCTGT CGATGACCGT GCTCAAGGAG CAGGTGTGCC AGGCCGTCGA GGATGAGATC
    CAGAACGAGT TCAAAGAGTT TGTGGTCAGT GACGAGGAGT ATCTGGAAGC TGCCACACGG
    CTGTGGGATC GTTTCTATTC ATGCTGCGAG CAATACCACA TCAAGTACTC GGAGCCCATT
    GGTTTGTCCA TTTTGGGTCC CATGGATGCG GCATGCCTCA TTAGGCGGCA GTCCTTTGCC
    CTGCTACGGC CGTGCGAGCT GCTGGAGCAT GTACTGCTCA TTGGAGAGCA GACCAGGGAT
    GTGGCCTCAA TACTGGCTCC ATGCTTTCGC AACGATCACA CATTGTCGCA GGCAGTCGCT
    GAGCTAATGA GGATCATCAC TCAGGTGGAA AAGTCGCTGC CAGAGGATGT CAAAATGGAG
    TTGGATAAGA AACTCTATCA GCGCGAGGCG CCCATTGATC TGGTGACCAA GCTTGTGGGC
    AGCAGCATCG ATGATGATGA TATTAGTCCC ACCCTGCCCA TGCACACTGT TCAGGAGCTG
    AAGAAACAGC TGCAGAATGT CACAAATCTG CAGGATGCCG TCGATATGCT GCTGAATATT
    CTGTGTGTTA TCGATCCGGA TGCCCCGCCG CCACAAGAAT ATGCCAGATC CACGCGTTTC
    CTGCTGCCAA CTGGCGCGTT GTTTGGCAGC GAGTATGGCA TATCCATTCT AGCCGAGACG
    TTCAAACAAA TGGCTTTGAT ACGCTTTTCT GTCTGCCGCG ATCTGCTGAT TCTGCTGTGC
    ATTATGGAGG AGCAGGATGG AACAGACAGT AATGGCCTGG TGACGGCTGA TAACTATATG
    CGATCGTACT ATACGCTCGT TTGGATGGCC GTGACGCCCA TTTCCTCGAA TACACCAGCT
    GGATTTGAGG CTTCCATACA GCGCTTGAAT CGCGCACAAC TCTTTGATGG CTATTCCCGA
    CCGTACTCGA GTCATGTGCG TGGCTATGGC AATGATCAGA CCACGCTGCT CTGTTTATTC
    CTGCGTTCCA AGGGCCTGTT CAGTGCTCTG GCCAAGCTGC TGTCCAAGGC GGGCATGCAA
    CTGGAGACGG AGCCAGCGAC GTTGCGACAA ACGCTGCTGC AGCTGGTCAC CTACACCAAT
    GAGATGCTTT GGCCCGAATC TCCTAGCTAT GTATTCCCAG AATGGCTCTT TGGCACATGC
    CACCAGATAA TTGTGCAGGA CTATGTGCGC CTGCTAGCCG TCTGGTGCGA AAAGAAGGCC
    CATTGTCGCA CATTTATGCT GGCTGTTTCG CTGCTGGATT GTGGCGAGAC ACAAAAGGCT
    GTGCTGCTCT TTCAGGATAC CGCTGAAAAG GTGCTCGATG ATGCATTCCT CATCGAGCAT
    GTGCTGAAGA ATACACCGTT TCACGGCCAG CTGAAAGAGA GCCTCGAACT GGGCAATGAT
    GACGGACCAT CGTTGGAGGA CAAGAAACAG GCGGTGGTTC ATTATTATCT AAAGGTCATA
    CAGCTCTTTG AGCAGTATTC GGCCGTGGAC TACATCATAC AGCTGGCCCT TACGGCCATA
    AGCAAGCTGG GCGAACGCGA TCCACAGCTG CCCATGTTCC AATCGATCGT TTTCAACAAC
    CATATGCATC TGGGCCACTA CGAGGAGGCG TATCACGCTT TAATTTACAA TGCTGACATA
    TCTAGGCGCA AGGATTGCCT GCGTCAGTTG GTGGTGACGC TGTTCCAATG CAAGAGCCTG
    GACCTGCTCA TGAAGCTGCC GTACAATGGC CTGCAGAACG AGTTCGAGAA TATTGTAGAG
    TCGCGTGCCC GGTCGATGAG TATCGATCAG AATGAAGTCT ATAACTTTTT GTATGCCTTC
    CACACGAGCA AGGGAAACAT GCGCAAGGCG GCCACCGTCA TGTACGAGCA GGCCATGCGG
    CTGCAGGTGA GCAGCAATGC CCCCAAGGCA CTGGACAAGC GTTGCTCCTC GCTGCTGATC
    TGTGTGAATT GCCTGAATCT GGTCGACAAT CGGTACAGAT GGATAGCCAA GCCAATCATT
    GGCGACGAGC GAGTGTTGGC CATGGATGTG GATAATGAAG ATGAGGTGCC GCCAAACGAC
    GATGAAGTGC TGGTCCTGGA GCTGGCCGAC ATACGGCGCG AACTTGTGTA CGTTGAGGCG
    CTAAAGGAGC TCTCCCACTA CCGCAAGGAC ATAGCCGCCT ATGAGGTGGC AGGAGCTGAA
    GAACTGTCCT ATCTGCTGAG CAGCTATGGC CTGTATACGG CTGCCCTGAA ACTGTCCCGC
    GGGCATACGT TCTCTGTGCT GCCGACATTT GAGAGTCTGG CCGCTGCCTG TGTGAGCGCC
    ACCGAAGAGA AGGACACCGA TGCCTGGGCC TGGCTGCAGA ACAACGATCT GGCAGATCTA
    CCACATCGTA ATAATGCCGC TGATATGGCA TGGTCCCTGC TGCAGAAGCT TATACTCGAC
    AACGAGCGCA AGGACTCGAC GCTCATACGC AAGAGCGTCG TTAACCGATT TCTCACTATG
    AATGCATTTG TGCCCAAGTG GCTGTACGAC TCCTACAAGC TGAACAATTG CCGCGAGCTG
    TTGCATCTGT ATGTCCGGCA CAATCGTTTG CTGGAGGCCG CCGATATGGC CAGCGAGATG
    ATCTGTGCCA TGCTTGGCGC TGGCAGCGAA TACTTTGATT TCCAGCAGTC GATCAATGTG
    ACAACGCCGC AGCTAGCATT CCCCATTAAC ACAATGGACC TGCTGCTGCA CGCCCTGAAG
    GTGAATGGCA AGGAGCACTC CGAGTATGAA GTGGCCTGCG TACAGCTGGA GGAGGATGTG
    GCCAGATACA TTGAGACAGT CAGCCGCACC ACATCGGATA AAATGAAAAT GGCCATTTTA
    CGGAATCGCG AAGAGCTCCA GCTGCAGACA ATACGCCAGT AA

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

    RefSeq XP_022214695.1
    CDS92..4333
    Translation

    Target ORF information:

    RefSeq Version XM_022359003.1
    Organism Drosophila obscura
    Definition Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_022359003.1

    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
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGCAGAAACA CTAAACACAC TGCAGGATAC CAAAACATTT
    GAGATATCTG ACGGACATTG CTACAAAAAT AATAATGTGC AGTACAGGAA TCGCTTCATA
    TATTGGCGGA CGAACAAGGA GGTGCTGGAG CTAGCTGAAA TTAGCCTGGA TATATCGCTT
    GTGAGAAACC ATTTGCGTCT GCGCTTCACC GACTCGGCTG TGCTCAATGT ATCCCTCACG
    GAGCACCACA AAGCCATCAC ACTGCTGGTC GTCACCGTGA GCAGTGTCCA TCGCTACGTG
    TTCCCACTGA AGGTTGTTGG TGAAAACGCG GGCACTGCCG CCGCCGGACA AGACGATCTG
    CAGTCGCAAT CTATCTTCTA CGATGTGAAC GAAAAGATCG ACGATCCGAG CGCCTTCTAT
    GTTACGGATG GACTGGGCAC GATGCCCACT GTGGCTGCTT CATTTATGTC GGAGCACGCC
    CAAGTGGCCT ACTTTGCGGT GGCCTACCAG AGCAAGCTGG TGCTGCACGT CATGAACTGT
    GTCACTGGCT CCACGGTGAC GCACGAGGTC AAGGAACCGC ATCTGATGCC TCGCTTTCTG
    TCCAGCCTCA CGGGCGCTCT AATTAGGCGA GCGGAATCTG TGGATGCGCC CAATTCGATG
    GAGTTCAGTG AAATCGATGG CAAGACGTAT CTTCTGGTGG TCTATAGGAG CAACGAGCTG
    CGCCTTTGGG CAGTGGACAC GATGCAGACA GTTTCCACCA TTAACTGCTC TGGCGGCGCT
    CAAGGTGCAC CGTCCGCACA AGGACCGCAA ACCAATCAGA TACGAAAAAT AGACGATCAA
    AACTTTTGCG TATTCCTCTC ACACGACGAT GGGGCCGAGT TTGTTTGCGT GCATCTCGAT
    GGGACTACGA TGCCAGATGG TAGTGCCAGA GACCTTGAGT TTATTGTGAA GCACACGGTT
    GTGGCGCCAC AAATGGATCT GGCCGATTTC GATGTCACCC TCACACACAT CTGGGCTCTC
    TGGAGCAATG CCGAGGGGGA TTTCAATGTC TCGACGATAT ATGTGGGCTC TGATCAGGCT
    ATCGAATGGG TTTCCTCGGT ACTGGAGCCG CCACCAGATC GTTATTGTCT CACCATGGAG
    CAGGGTATTG ATCCGCGCGA GGCCTACTGC TCGTACATCT TCCATCCGGG TCGATTCGAT
    CGTACGGTGA TTACCAAGGC CTTATATATG TTCCGACGCG TCAACCTGCA GTTCGATGTT
    AGGCAGCTGT CGATGACCGT GCTCAAGGAG CAGGTGTGCC AGGCCGTCGA GGATGAGATC
    CAGAACGAGT TCAAAGAGTT TGTGGTCAGT GACGAGGAGT ATCTGGAAGC TGCCACACGG
    CTGTGGGATC GTTTCTATTC ATGCTGCGAG CAATACCACA TCAAGTACTC GGAGCCCATT
    GGTTTGTCCA TTTTGGGTCC CATGGATGCG GCATGCCTCA TTAGGCGGCA GTCCTTTGCC
    CTGCTACGGC CGTGCGAGCT GCTGGAGCAT GTACTGCTCA TTGGAGAGCA GACCAGGGAT
    GTGGCCTCAA TACTGGCTCC ATGCTTTCGC AACGATCACA CATTGTCGCA GGCAGTCGCT
    GAGCTAATGA GGATCATCAC TCAGGTGGAA AAGTCGCTGC CAGAGGATGT CAAAATGGAG
    TTGGATAAGA AACTCTATCA GCGCGAGGCG CCCATTGATC TGGTGACCAA GCTTGTGGGC
    AGCAGCATCG ATGATGATGA TATTAGTCCC ACCCTGCCCA TGCACACTGT TCAGGAGCTG
    AAGAAACAGC TGCAGAATGT CACAAATCTG CAGGATGCCG TCGATATGCT GCTGAATATT
    CTGTGTGTTA TCGATCCGGA TGCCCCGCCG CCACAAGAAT ATGCCAGATC CACGCGTTTC
    CTGCTGCCAA CTGGCGCGTT GTTTGGCAGC GAGTATGGCA TATCCATTCT AGCCGAGACG
    TTCAAACAAA TGGCTTTGAT ACGCTTTTCT GTCTGCCGCG ATCTGCTGAT TCTGCTGTGC
    ATTATGGAGG AGCAGGATGG AACAGACAGT AATGGCCTGG TGACGGCTGA TAACTATATG
    CGATCGTACT ATACGCTCGT TTGGATGGCC GTGACGCCCA TTTCCTCGAA TACACCAGCT
    GGATTTGAGG CTTCCATACA GCGCTTGAAT CGCGCACAAC TCTTTGATGG CTATTCCCGA
    CCGTACTCGA GTCATGTGCG TGGCTATGGC AATGATCAGA CCACGCTGCT CTGTTTATTC
    CTGCGTTCCA AGGGCCTGTT CAGTGCTCTG GCCAAGCTGC TGTCCAAGGC GGGCATGCAA
    CTGGAGACGG AGCCAGCGAC GTTGCGACAA ACGCTGCTGC AGCTGGTCAC CTACACCAAT
    GAGATGCTTT GGCCCGAATC TCCTAGCTAT GTATTCCCAG AATGGCTCTT TGGCACATGC
    CACCAGATAA TTGTGCAGGA CTATGTGCGC CTGCTAGCCG TCTGGTGCGA AAAGAAGGCC
    CATTGTCGCA CATTTATGCT GGCTGTTTCG CTGCTGGATT GTGGCGAGAC ACAAAAGGCT
    GTGCTGCTCT TTCAGGATAC CGCTGAAAAG GTGCTCGATG ATGCATTCCT CATCGAGCAT
    GTGCTGAAGA ATACACCGTT TCACGGCCAG CTGAAAGAGA GCCTCGAACT GGGCAATGAT
    GACGGACCAT CGTTGGAGGA CAAGAAACAG GCGGTGGTTC ATTATTATCT AAAGGTCATA
    CAGCTCTTTG AGCAGTATTC GGCCGTGGAC TACATCATAC AGCTGGCCCT TACGGCCATA
    AGCAAGCTGG GCGAACGCGA TCCACAGCTG CCCATGTTCC AATCGATCGT TTTCAACAAC
    CATATGCATC TGGGCCACTA CGAGGAGGCG TATCACGCTT TAATTTACAA TGCTGACATA
    TCTAGGCGCA AGGATTGCCT GCGTCAGTTG GTGGTGACGC TGTTCCAATG CAAGAGCCTG
    GACCTGCTCA TGAAGCTGCC GTACAATGGC CTGCAGAACG AGTTCGAGAA TATTGTAGAG
    TCGCGTGCCC GGTCGATGAG TATCGATCAG AATGAAGTCT ATAACTTTTT GTATGCCTTC
    CACACGAGCA AGGGAAACAT GCGCAAGGCG GCCACCGTCA TGTACGAGCA GGCCATGCGG
    CTGCAGGTGA GCAGCAATGC CCCCAAGGCA CTGGACAAGC GTTGCTCCTC GCTGCTGATC
    TGTGTGAATT GCCTGAATCT GGTCGACAAT CGGTACAGAT GGATAGCCAA GCCAATCATT
    GGCGACGAGC GAGTGTTGGC CATGGATGTG GATAATGAAG ATGAGGTGCC GCCAAACGAC
    GATGAAGTGC TGGTCCTGGA GCTGGCCGAC ATACGGCGCG AACTTGTGTA CGTTGAGGCG
    CTAAAGGAGC TCTCCCACTA CCGCAAGGAC ATAGCCGCCT ATGAGGTGGC AGGAGCTGAA
    GAACTGTCCT ATCTGCTGAG CAGCTATGGC CTGTATACGG CTGCCCTGAA ACTGTCCCGC
    GGGCATACGT TCTCTGTGCT GCCGACATTT GAGAGTCTGG CCGCTGCCTG TGTGAGCGCC
    ACCGAAGAGA AGGACACCGA TGCCTGGGCC TGGCTGCAGA ACAACGATCT GGCAGATCTA
    CCACATCGTA ATAATGCCGC TGATATGGCA TGGTCCCTGC TGCAGAAGCT TATACTCGAC
    AACGAGCGCA AGGACTCGAC GCTCATACGC AAGAGCGTCG TTAACCGATT TCTCACTATG
    AATGCATTTG TGCCCAAGTG GCTGTACGAC TCCTACAAGC TGAACAATTG CCGCGAGCTG
    TTGCATCTGT ATGTCCGGCA CAATCGTTTG CTGGAGGCCG CCGATATGGC CAGCGAGATG
    ATCTGTGCCA TGCTTGGCGC TGGCAGCGAA TACTTTGATT TCCAGCAGTC GATCAATGTG
    ACAACGCCGC AGCTAGCATT CCCCATTAAC ACAATGGACC TGCTGCTGCA CGCCCTGAAG
    GTGAATGGCA AGGAGCACTC CGAGTATGAA GTGGCCTGCG TACAGCTGGA GGAGGATGTG
    GCCAGATACA TTGAGACAGT CAGCCGCACC ACATCGGATA AAATGAAAAT GGCCATTTTA
    CGGAATCGCG AAGAGCTCCA GCTGCAGACA ATACGCCAGT AA

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

    CloneID ODr293296
    Clone ID Related Accession (Same CDS sequence) XM_022359005.1 , XM_022359004.1
    Accession Version XM_022359005.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    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 2017-08-23
    Organism Drosophila obscura
    Product nuclear pore complex protein Nup160 homolog isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019152130.1) 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 :: Drosophila obscura Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4141
    4201
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGAAACACTA AACACACTGC AGGATACCAA AACATTTGAG
    ATATCTGACG GACATTGCTA CAAAAATAAT AATGTGCAGT ACAGGAATCG CTTCATATAT
    TGGCGGACGA ACAAGGAGGT GCTGGAGCTA GCTGAAATTA GCCTGGATAT ATCGCTTGTG
    AGAAACCATT TGCGTCTGCG CTTCACCGAC TCGGCTGTGC TCAATGTATC CCTCACGGAG
    CACCACAAAG CCATCACACT GCTGGTCGTC ACCGTGAGCA GTGTCCATCG CTACGTGTTC
    CCACTGAAGG TTGTTGGTGA AAACGCGGGC ACTGCCGCCG CCGGACAAGA CGATCTGCAG
    TCGCAATCTA TCTTCTACGA TGTGAACGAA AAGATCGACG ATCCGAGCGC CTTCTATGTT
    ACGGATGGAC TGGGCACGAT GCCCACTGTG GCTGCTTCAT TTATGTCGGA GCACGCCCAA
    GTGGCCTACT TTGCGGTGGC CTACCAGAGC AAGCTGGTGC TGCACGTCAT GAACTGTGTC
    ACTGGCTCCA CGGTGACGCA CGAGGTCAAG GAACCGCATC TGATGCCTCG CTTTCTGTCC
    AGCCTCACGG GCGCTCTAAT TAGGCGAGCG GAATCTGTGG ATGCGCCCAA TTCGATGGAG
    TTCAGTGAAA TCGATGGCAA GACGTATCTT CTGGTGGTCT ATAGGAGCAA CGAGCTGCGC
    CTTTGGGCAG TGGACACGAT GCAGACAGTT TCCACCATTA ACTGCTCTGG CGGCGCTCAA
    GGTGCACCGT CCGCACAAGG ACCGCAAACC AATCAGATAC GAAAAATAGA CGATCAAAAC
    TTTTGCGTAT TCCTCTCACA CGACGATGGG GCCGAGTTTG TTTGCGTGCA TCTCGATGGG
    ACTACGATGC CAGATGGTAG TGCCAGAGAC CTTGAGTTTA TTGTGAAGCA CACGGTTGTG
    GCGCCACAAA TGGATCTGGC CGATTTCGAT GTCACCCTCA CACACATCTG GGCTCTCTGG
    AGCAATGCCG AGGGGGATTT CAATGTCTCG ACGATATATG TGGGCTCTGA TCAGGCTATC
    GAATGGGTTT CCTCGGTACT GGAGCCGCCA CCAGATCGTT ATTGTCTCAC CATGGAGCAG
    GGTATTGATC CGCGCGAGGC CTACTGCTCG TACATCTTCC ATCCGGGTCG ATTCGATCGT
    ACGGTGATTA CCAAGGCCTT ATATATGTTC CGACGCGTCA ACCTGCAGTT CGATGTTAGG
    CAGCTGTCGA TGACCGTGCT CAAGGAGCAG GTGTGCCAGG CCGTCGAGGA TGAGATCCAG
    AACGAGTTCA AAGAGTTTGT GGTCAGTGAC GAGGAGTATC TGGAAGCTGC CACACGGCTG
    TGGGATCGTT TCTATTCATG CTGCGAGCAA TACCACATCA AGTACTCGGA GCCCATTGGT
    TTGTCCATTT TGGGTCCCAT GGATGCGGCA TGCCTCATTA GGCGGCAGTC CTTTGCCCTG
    CTACGGCCGT GCGAGCTGCT GGAGCATGTA CTGCTCATTG GAGAGCAGAC CAGGGATGTG
    GCCTCAATAC TGGCTCCATG CTTTCGCAAC GATCACACAT TGTCGCAGGC AGTCGCTGAG
    CTAATGAGGA TCATCACTCA GGTGGAAAAG TCGCTGCCAG AGGATGTCAA AATGGAGTTG
    GATAAGAAAC TCTATCAGCG CGAGGCGCCC ATTGATCTGG TGACCAAGCT TGTGGGCAGC
    AGCATCGATG ATGATGATAT TAGTCCCACC CTGCCCATGC ACACTGTTCA GGAGCTGAAG
    AAACAGCTGC AGAATGTCAC AAATCTGCAG GATGCCGTCG ATATGCTGCT GAATATTCTG
    TGTGTTATCG ATCCGGATGC CCCGCCGCCA CAAGAATATG CCAGATCCAC GCGTTTCCTG
    CTGCCAACTG GCGCGTTGTT TGGCAGCGAG TATGGCATAT CCATTCTAGC CGAGACGTTC
    AAACAAATGG CTTTGATACG CTTTTCTGTC TGCCGCGATC TGCTGATTCT GCTGTGCATT
    ATGGAGGAGC AGGATGGAAC AGACAGTAAT GGCCTGGTGA CGGCTGATAA CTATATGCGA
    TCGTACTATA CGCTCGTTTG GATGGCCGTG ACGCCCATTT CCTCGAATAC ACCAGCTGGA
    TTTGAGGCTT CCATACAGCG CTTGAATCGC GCACAACTCT TTGATGGCTA TTCCCGACCG
    TACTCGAGTC ATGTGCGTGG CTATGGCAAT GATCAGACCA CGCTGCTCTG TTTATTCCTG
    CGTTCCAAGG GCCTGTTCAG TGCTCTGGCC AAGCTGCTGT CCAAGGCGGG CATGCAACTG
    GAGACGGAGC CAGCGACGTT GCGACAAACG CTGCTGCAGC TGGTCACCTA CACCAATGAG
    ATGCTTTGGC CCGAATCTCC TAGCTATGTA TTCCCAGAAT GGCTCTTTGG CACATGCCAC
    CAGATAATTG TGCAGGACTA TGTGCGCCTG CTAGCCGTCT GGTGCGAAAA GAAGGCCCAT
    TGTCGCACAT TTATGCTGGC TGTTTCGCTG CTGGATTGTG GCGAGACACA AAAGGCTGTG
    CTGCTCTTTC AGGATACCGC TGAAAAGGTG CTCGATGATG CATTCCTCAT CGAGCATGTG
    CTGAAGAATA CACCGTTTCA CGGCCAGCTG AAAGAGAGCC TCGAACTGGG CAATGATGAC
    GGACCATCGT TGGAGGACAA GAAACAGGCG GTGGTTCATT ATTATCTAAA GGTCATACAG
    CTCTTTGAGC AGTATTCGGC CGTGGACTAC ATCATACAGC TGGCCCTTAC GGCCATAAGC
    AAGCTGGGCG AACGCGATCC ACAGCTGCCC ATGTTCCAAT CGATCGTTTT CAACAACCAT
    ATGCATCTGG GCCACTACGA GGAGGCGTAT CACGCTTTAA TTTACAATGC TGACATATCT
    AGGCGCAAGG ATTGCCTGCG TCAGTTGGTG GTGACGCTGT TCCAATGCAA GAGCCTGGAC
    CTGCTCATGA AGCTGCCGTA CAATGGCCTG CAGAACGAGT TCGAGAATAT TGTAGAGTCG
    CGTGCCCGGT CGATGAGTAT CGATCAGAAT GAAGTCTATA ACTTTTTGTA TGCCTTCCAC
    ACGAGCAAGG GAAACATGCG CAAGGCGGCC ACCGTCATGT ACGAGCAGGC CATGCGGCTG
    CAGGTGAGCA GCAATGCCCC CAAGGCACTG GACAAGCGTT GCTCCTCGCT GCTGATCTGT
    GTGAATTGCC TGAATCTGGT CGACAATCGG TACAGATGGA TAGCCAAGCC AATCATTGGC
    GACGAGCGAG TGTTGGCCAT GGATGTGGAT AATGAAGATG AGGTGCCGCC AAACGACGAT
    GAAGTGCTGG TCCTGGAGCT GGCCGACATA CGGCGCGAAC TTGTGTACGT TGAGGCGCTA
    AAGGAGCTCT CCCACTACCG CAAGGACATA GCCGCCTATG AGGTGGCAGG AGCTGAAGAA
    CTGTCCTATC TGCTGAGCAG CTATGGCCTG TATACGGCTG CCCTGAAACT GTCCCGCGGG
    CATACGTTCT CTGTGCTGCC GACATTTGAG AGTCTGGCCG CTGCCTGTGT GAGCGCCACC
    GAAGAGAAGG ACACCGATGC CTGGGCCTGG CTGCAGAACA ACGATCTGGC AGATCTACCA
    CATCGTAATA ATGCCGCTGA TATGGCATGG TCCCTGCTGC AGAAGCTTAT ACTCGACAAC
    GAGCGCAAGG ACTCGACGCT CATACGCAAG AGCGTCGTTA ACCGATTTCT CACTATGAAT
    GCATTTGTGC CCAAGTGGCT GTACGACTCC TACAAGCTGA ACAATTGCCG CGAGCTGTTG
    CATCTGTATG TCCGGCACAA TCGTTTGCTG GAGGCCGCCG ATATGGCCAG CGAGATGATC
    TGTGCCATGC TTGGCGCTGG CAGCGAATAC TTTGATTTCC AGCAGTCGAT CAATGTGACA
    ACGCCGCAGC TAGCATTCCC CATTAACACA ATGGACCTGC TGCTGCACGC CCTGAAGGTG
    AATGGCAAGG AGCACTCCGA GTATGAAGTG GCCTGCGTAC AGCTGGAGGA GGATGTGGCC
    AGATACATTG AGACAGTCAG CCGCACCACA TCGGATAAAA TGAAAATGGC CATTTTACGG
    AATCGCGAAG AGCTCCAGCT GCAGACAATA CGCCAGTAA

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

    RefSeq XP_022214697.1
    CDS92..4330
    Translation

    Target ORF information:

    RefSeq Version XM_022359005.1
    Organism Drosophila obscura
    Definition Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_022359005.1

    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
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGAAACACTA AACACACTGC AGGATACCAA AACATTTGAG
    ATATCTGACG GACATTGCTA CAAAAATAAT AATGTGCAGT ACAGGAATCG CTTCATATAT
    TGGCGGACGA ACAAGGAGGT GCTGGAGCTA GCTGAAATTA GCCTGGATAT ATCGCTTGTG
    AGAAACCATT TGCGTCTGCG CTTCACCGAC TCGGCTGTGC TCAATGTATC CCTCACGGAG
    CACCACAAAG CCATCACACT GCTGGTCGTC ACCGTGAGCA GTGTCCATCG CTACGTGTTC
    CCACTGAAGG TTGTTGGTGA AAACGCGGGC ACTGCCGCCG CCGGACAAGA CGATCTGCAG
    TCGCAATCTA TCTTCTACGA TGTGAACGAA AAGATCGACG ATCCGAGCGC CTTCTATGTT
    ACGGATGGAC TGGGCACGAT GCCCACTGTG GCTGCTTCAT TTATGTCGGA GCACGCCCAA
    GTGGCCTACT TTGCGGTGGC CTACCAGAGC AAGCTGGTGC TGCACGTCAT GAACTGTGTC
    ACTGGCTCCA CGGTGACGCA CGAGGTCAAG GAACCGCATC TGATGCCTCG CTTTCTGTCC
    AGCCTCACGG GCGCTCTAAT TAGGCGAGCG GAATCTGTGG ATGCGCCCAA TTCGATGGAG
    TTCAGTGAAA TCGATGGCAA GACGTATCTT CTGGTGGTCT ATAGGAGCAA CGAGCTGCGC
    CTTTGGGCAG TGGACACGAT GCAGACAGTT TCCACCATTA ACTGCTCTGG CGGCGCTCAA
    GGTGCACCGT CCGCACAAGG ACCGCAAACC AATCAGATAC GAAAAATAGA CGATCAAAAC
    TTTTGCGTAT TCCTCTCACA CGACGATGGG GCCGAGTTTG TTTGCGTGCA TCTCGATGGG
    ACTACGATGC CAGATGGTAG TGCCAGAGAC CTTGAGTTTA TTGTGAAGCA CACGGTTGTG
    GCGCCACAAA TGGATCTGGC CGATTTCGAT GTCACCCTCA CACACATCTG GGCTCTCTGG
    AGCAATGCCG AGGGGGATTT CAATGTCTCG ACGATATATG TGGGCTCTGA TCAGGCTATC
    GAATGGGTTT CCTCGGTACT GGAGCCGCCA CCAGATCGTT ATTGTCTCAC CATGGAGCAG
    GGTATTGATC CGCGCGAGGC CTACTGCTCG TACATCTTCC ATCCGGGTCG ATTCGATCGT
    ACGGTGATTA CCAAGGCCTT ATATATGTTC CGACGCGTCA ACCTGCAGTT CGATGTTAGG
    CAGCTGTCGA TGACCGTGCT CAAGGAGCAG GTGTGCCAGG CCGTCGAGGA TGAGATCCAG
    AACGAGTTCA AAGAGTTTGT GGTCAGTGAC GAGGAGTATC TGGAAGCTGC CACACGGCTG
    TGGGATCGTT TCTATTCATG CTGCGAGCAA TACCACATCA AGTACTCGGA GCCCATTGGT
    TTGTCCATTT TGGGTCCCAT GGATGCGGCA TGCCTCATTA GGCGGCAGTC CTTTGCCCTG
    CTACGGCCGT GCGAGCTGCT GGAGCATGTA CTGCTCATTG GAGAGCAGAC CAGGGATGTG
    GCCTCAATAC TGGCTCCATG CTTTCGCAAC GATCACACAT TGTCGCAGGC AGTCGCTGAG
    CTAATGAGGA TCATCACTCA GGTGGAAAAG TCGCTGCCAG AGGATGTCAA AATGGAGTTG
    GATAAGAAAC TCTATCAGCG CGAGGCGCCC ATTGATCTGG TGACCAAGCT TGTGGGCAGC
    AGCATCGATG ATGATGATAT TAGTCCCACC CTGCCCATGC ACACTGTTCA GGAGCTGAAG
    AAACAGCTGC AGAATGTCAC AAATCTGCAG GATGCCGTCG ATATGCTGCT GAATATTCTG
    TGTGTTATCG ATCCGGATGC CCCGCCGCCA CAAGAATATG CCAGATCCAC GCGTTTCCTG
    CTGCCAACTG GCGCGTTGTT TGGCAGCGAG TATGGCATAT CCATTCTAGC CGAGACGTTC
    AAACAAATGG CTTTGATACG CTTTTCTGTC TGCCGCGATC TGCTGATTCT GCTGTGCATT
    ATGGAGGAGC AGGATGGAAC AGACAGTAAT GGCCTGGTGA CGGCTGATAA CTATATGCGA
    TCGTACTATA CGCTCGTTTG GATGGCCGTG ACGCCCATTT CCTCGAATAC ACCAGCTGGA
    TTTGAGGCTT CCATACAGCG CTTGAATCGC GCACAACTCT TTGATGGCTA TTCCCGACCG
    TACTCGAGTC ATGTGCGTGG CTATGGCAAT GATCAGACCA CGCTGCTCTG TTTATTCCTG
    CGTTCCAAGG GCCTGTTCAG TGCTCTGGCC AAGCTGCTGT CCAAGGCGGG CATGCAACTG
    GAGACGGAGC CAGCGACGTT GCGACAAACG CTGCTGCAGC TGGTCACCTA CACCAATGAG
    ATGCTTTGGC CCGAATCTCC TAGCTATGTA TTCCCAGAAT GGCTCTTTGG CACATGCCAC
    CAGATAATTG TGCAGGACTA TGTGCGCCTG CTAGCCGTCT GGTGCGAAAA GAAGGCCCAT
    TGTCGCACAT TTATGCTGGC TGTTTCGCTG CTGGATTGTG GCGAGACACA AAAGGCTGTG
    CTGCTCTTTC AGGATACCGC TGAAAAGGTG CTCGATGATG CATTCCTCAT CGAGCATGTG
    CTGAAGAATA CACCGTTTCA CGGCCAGCTG AAAGAGAGCC TCGAACTGGG CAATGATGAC
    GGACCATCGT TGGAGGACAA GAAACAGGCG GTGGTTCATT ATTATCTAAA GGTCATACAG
    CTCTTTGAGC AGTATTCGGC CGTGGACTAC ATCATACAGC TGGCCCTTAC GGCCATAAGC
    AAGCTGGGCG AACGCGATCC ACAGCTGCCC ATGTTCCAAT CGATCGTTTT CAACAACCAT
    ATGCATCTGG GCCACTACGA GGAGGCGTAT CACGCTTTAA TTTACAATGC TGACATATCT
    AGGCGCAAGG ATTGCCTGCG TCAGTTGGTG GTGACGCTGT TCCAATGCAA GAGCCTGGAC
    CTGCTCATGA AGCTGCCGTA CAATGGCCTG CAGAACGAGT TCGAGAATAT TGTAGAGTCG
    CGTGCCCGGT CGATGAGTAT CGATCAGAAT GAAGTCTATA ACTTTTTGTA TGCCTTCCAC
    ACGAGCAAGG GAAACATGCG CAAGGCGGCC ACCGTCATGT ACGAGCAGGC CATGCGGCTG
    CAGGTGAGCA GCAATGCCCC CAAGGCACTG GACAAGCGTT GCTCCTCGCT GCTGATCTGT
    GTGAATTGCC TGAATCTGGT CGACAATCGG TACAGATGGA TAGCCAAGCC AATCATTGGC
    GACGAGCGAG TGTTGGCCAT GGATGTGGAT AATGAAGATG AGGTGCCGCC AAACGACGAT
    GAAGTGCTGG TCCTGGAGCT GGCCGACATA CGGCGCGAAC TTGTGTACGT TGAGGCGCTA
    AAGGAGCTCT CCCACTACCG CAAGGACATA GCCGCCTATG AGGTGGCAGG AGCTGAAGAA
    CTGTCCTATC TGCTGAGCAG CTATGGCCTG TATACGGCTG CCCTGAAACT GTCCCGCGGG
    CATACGTTCT CTGTGCTGCC GACATTTGAG AGTCTGGCCG CTGCCTGTGT GAGCGCCACC
    GAAGAGAAGG ACACCGATGC CTGGGCCTGG CTGCAGAACA ACGATCTGGC AGATCTACCA
    CATCGTAATA ATGCCGCTGA TATGGCATGG TCCCTGCTGC AGAAGCTTAT ACTCGACAAC
    GAGCGCAAGG ACTCGACGCT CATACGCAAG AGCGTCGTTA ACCGATTTCT CACTATGAAT
    GCATTTGTGC CCAAGTGGCT GTACGACTCC TACAAGCTGA ACAATTGCCG CGAGCTGTTG
    CATCTGTATG TCCGGCACAA TCGTTTGCTG GAGGCCGCCG ATATGGCCAG CGAGATGATC
    TGTGCCATGC TTGGCGCTGG CAGCGAATAC TTTGATTTCC AGCAGTCGAT CAATGTGACA
    ACGCCGCAGC TAGCATTCCC CATTAACACA ATGGACCTGC TGCTGCACGC CCTGAAGGTG
    AATGGCAAGG AGCACTCCGA GTATGAAGTG GCCTGCGTAC AGCTGGAGGA GGATGTGGCC
    AGATACATTG AGACAGTCAG CCGCACCACA TCGGATAAAA TGAAAATGGC CATTTTACGG
    AATCGCGAAG AGCTCCAGCT GCAGACAATA CGCCAGTAA

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

    CloneID ODr293296
    Clone ID Related Accession (Same CDS sequence) XM_022359005.1 , XM_022359004.1
    Accession Version XM_022359004.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    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 2017-08-23
    Organism Drosophila obscura
    Product nuclear pore complex protein Nup160 homolog isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019152130.1) 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 :: Drosophila obscura Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4141
    4201
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGAAACACTA AACACACTGC AGGATACCAA AACATTTGAG
    ATATCTGACG GACATTGCTA CAAAAATAAT AATGTGCAGT ACAGGAATCG CTTCATATAT
    TGGCGGACGA ACAAGGAGGT GCTGGAGCTA GCTGAAATTA GCCTGGATAT ATCGCTTGTG
    AGAAACCATT TGCGTCTGCG CTTCACCGAC TCGGCTGTGC TCAATGTATC CCTCACGGAG
    CACCACAAAG CCATCACACT GCTGGTCGTC ACCGTGAGCA GTGTCCATCG CTACGTGTTC
    CCACTGAAGG TTGTTGGTGA AAACGCGGGC ACTGCCGCCG CCGGACAAGA CGATCTGCAG
    TCGCAATCTA TCTTCTACGA TGTGAACGAA AAGATCGACG ATCCGAGCGC CTTCTATGTT
    ACGGATGGAC TGGGCACGAT GCCCACTGTG GCTGCTTCAT TTATGTCGGA GCACGCCCAA
    GTGGCCTACT TTGCGGTGGC CTACCAGAGC AAGCTGGTGC TGCACGTCAT GAACTGTGTC
    ACTGGCTCCA CGGTGACGCA CGAGGTCAAG GAACCGCATC TGATGCCTCG CTTTCTGTCC
    AGCCTCACGG GCGCTCTAAT TAGGCGAGCG GAATCTGTGG ATGCGCCCAA TTCGATGGAG
    TTCAGTGAAA TCGATGGCAA GACGTATCTT CTGGTGGTCT ATAGGAGCAA CGAGCTGCGC
    CTTTGGGCAG TGGACACGAT GCAGACAGTT TCCACCATTA ACTGCTCTGG CGGCGCTCAA
    GGTGCACCGT CCGCACAAGG ACCGCAAACC AATCAGATAC GAAAAATAGA CGATCAAAAC
    TTTTGCGTAT TCCTCTCACA CGACGATGGG GCCGAGTTTG TTTGCGTGCA TCTCGATGGG
    ACTACGATGC CAGATGGTAG TGCCAGAGAC CTTGAGTTTA TTGTGAAGCA CACGGTTGTG
    GCGCCACAAA TGGATCTGGC CGATTTCGAT GTCACCCTCA CACACATCTG GGCTCTCTGG
    AGCAATGCCG AGGGGGATTT CAATGTCTCG ACGATATATG TGGGCTCTGA TCAGGCTATC
    GAATGGGTTT CCTCGGTACT GGAGCCGCCA CCAGATCGTT ATTGTCTCAC CATGGAGCAG
    GGTATTGATC CGCGCGAGGC CTACTGCTCG TACATCTTCC ATCCGGGTCG ATTCGATCGT
    ACGGTGATTA CCAAGGCCTT ATATATGTTC CGACGCGTCA ACCTGCAGTT CGATGTTAGG
    CAGCTGTCGA TGACCGTGCT CAAGGAGCAG GTGTGCCAGG CCGTCGAGGA TGAGATCCAG
    AACGAGTTCA AAGAGTTTGT GGTCAGTGAC GAGGAGTATC TGGAAGCTGC CACACGGCTG
    TGGGATCGTT TCTATTCATG CTGCGAGCAA TACCACATCA AGTACTCGGA GCCCATTGGT
    TTGTCCATTT TGGGTCCCAT GGATGCGGCA TGCCTCATTA GGCGGCAGTC CTTTGCCCTG
    CTACGGCCGT GCGAGCTGCT GGAGCATGTA CTGCTCATTG GAGAGCAGAC CAGGGATGTG
    GCCTCAATAC TGGCTCCATG CTTTCGCAAC GATCACACAT TGTCGCAGGC AGTCGCTGAG
    CTAATGAGGA TCATCACTCA GGTGGAAAAG TCGCTGCCAG AGGATGTCAA AATGGAGTTG
    GATAAGAAAC TCTATCAGCG CGAGGCGCCC ATTGATCTGG TGACCAAGCT TGTGGGCAGC
    AGCATCGATG ATGATGATAT TAGTCCCACC CTGCCCATGC ACACTGTTCA GGAGCTGAAG
    AAACAGCTGC AGAATGTCAC AAATCTGCAG GATGCCGTCG ATATGCTGCT GAATATTCTG
    TGTGTTATCG ATCCGGATGC CCCGCCGCCA CAAGAATATG CCAGATCCAC GCGTTTCCTG
    CTGCCAACTG GCGCGTTGTT TGGCAGCGAG TATGGCATAT CCATTCTAGC CGAGACGTTC
    AAACAAATGG CTTTGATACG CTTTTCTGTC TGCCGCGATC TGCTGATTCT GCTGTGCATT
    ATGGAGGAGC AGGATGGAAC AGACAGTAAT GGCCTGGTGA CGGCTGATAA CTATATGCGA
    TCGTACTATA CGCTCGTTTG GATGGCCGTG ACGCCCATTT CCTCGAATAC ACCAGCTGGA
    TTTGAGGCTT CCATACAGCG CTTGAATCGC GCACAACTCT TTGATGGCTA TTCCCGACCG
    TACTCGAGTC ATGTGCGTGG CTATGGCAAT GATCAGACCA CGCTGCTCTG TTTATTCCTG
    CGTTCCAAGG GCCTGTTCAG TGCTCTGGCC AAGCTGCTGT CCAAGGCGGG CATGCAACTG
    GAGACGGAGC CAGCGACGTT GCGACAAACG CTGCTGCAGC TGGTCACCTA CACCAATGAG
    ATGCTTTGGC CCGAATCTCC TAGCTATGTA TTCCCAGAAT GGCTCTTTGG CACATGCCAC
    CAGATAATTG TGCAGGACTA TGTGCGCCTG CTAGCCGTCT GGTGCGAAAA GAAGGCCCAT
    TGTCGCACAT TTATGCTGGC TGTTTCGCTG CTGGATTGTG GCGAGACACA AAAGGCTGTG
    CTGCTCTTTC AGGATACCGC TGAAAAGGTG CTCGATGATG CATTCCTCAT CGAGCATGTG
    CTGAAGAATA CACCGTTTCA CGGCCAGCTG AAAGAGAGCC TCGAACTGGG CAATGATGAC
    GGACCATCGT TGGAGGACAA GAAACAGGCG GTGGTTCATT ATTATCTAAA GGTCATACAG
    CTCTTTGAGC AGTATTCGGC CGTGGACTAC ATCATACAGC TGGCCCTTAC GGCCATAAGC
    AAGCTGGGCG AACGCGATCC ACAGCTGCCC ATGTTCCAAT CGATCGTTTT CAACAACCAT
    ATGCATCTGG GCCACTACGA GGAGGCGTAT CACGCTTTAA TTTACAATGC TGACATATCT
    AGGCGCAAGG ATTGCCTGCG TCAGTTGGTG GTGACGCTGT TCCAATGCAA GAGCCTGGAC
    CTGCTCATGA AGCTGCCGTA CAATGGCCTG CAGAACGAGT TCGAGAATAT TGTAGAGTCG
    CGTGCCCGGT CGATGAGTAT CGATCAGAAT GAAGTCTATA ACTTTTTGTA TGCCTTCCAC
    ACGAGCAAGG GAAACATGCG CAAGGCGGCC ACCGTCATGT ACGAGCAGGC CATGCGGCTG
    CAGGTGAGCA GCAATGCCCC CAAGGCACTG GACAAGCGTT GCTCCTCGCT GCTGATCTGT
    GTGAATTGCC TGAATCTGGT CGACAATCGG TACAGATGGA TAGCCAAGCC AATCATTGGC
    GACGAGCGAG TGTTGGCCAT GGATGTGGAT AATGAAGATG AGGTGCCGCC AAACGACGAT
    GAAGTGCTGG TCCTGGAGCT GGCCGACATA CGGCGCGAAC TTGTGTACGT TGAGGCGCTA
    AAGGAGCTCT CCCACTACCG CAAGGACATA GCCGCCTATG AGGTGGCAGG AGCTGAAGAA
    CTGTCCTATC TGCTGAGCAG CTATGGCCTG TATACGGCTG CCCTGAAACT GTCCCGCGGG
    CATACGTTCT CTGTGCTGCC GACATTTGAG AGTCTGGCCG CTGCCTGTGT GAGCGCCACC
    GAAGAGAAGG ACACCGATGC CTGGGCCTGG CTGCAGAACA ACGATCTGGC AGATCTACCA
    CATCGTAATA ATGCCGCTGA TATGGCATGG TCCCTGCTGC AGAAGCTTAT ACTCGACAAC
    GAGCGCAAGG ACTCGACGCT CATACGCAAG AGCGTCGTTA ACCGATTTCT CACTATGAAT
    GCATTTGTGC CCAAGTGGCT GTACGACTCC TACAAGCTGA ACAATTGCCG CGAGCTGTTG
    CATCTGTATG TCCGGCACAA TCGTTTGCTG GAGGCCGCCG ATATGGCCAG CGAGATGATC
    TGTGCCATGC TTGGCGCTGG CAGCGAATAC TTTGATTTCC AGCAGTCGAT CAATGTGACA
    ACGCCGCAGC TAGCATTCCC CATTAACACA ATGGACCTGC TGCTGCACGC CCTGAAGGTG
    AATGGCAAGG AGCACTCCGA GTATGAAGTG GCCTGCGTAC AGCTGGAGGA GGATGTGGCC
    AGATACATTG AGACAGTCAG CCGCACCACA TCGGATAAAA TGAAAATGGC CATTTTACGG
    AATCGCGAAG AGCTCCAGCT GCAGACAATA CGCCAGTAA

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

    RefSeq XP_022214696.1
    CDS92..4330
    Translation

    Target ORF information:

    RefSeq Version XM_022359004.1
    Organism Drosophila obscura
    Definition Drosophila obscura nuclear pore complex protein Nup160 homolog (LOC111069109), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_022359004.1

    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
    ATGTATGTCA ACATGAGCTA TCGCGAGGTT ACCACCAAAA ACCTGAAACC AGCGGACTGG 
    ACCGAAGTTA ATATAAATAC AGAAACACTA AACACACTGC AGGATACCAA AACATTTGAG
    ATATCTGACG GACATTGCTA CAAAAATAAT AATGTGCAGT ACAGGAATCG CTTCATATAT
    TGGCGGACGA ACAAGGAGGT GCTGGAGCTA GCTGAAATTA GCCTGGATAT ATCGCTTGTG
    AGAAACCATT TGCGTCTGCG CTTCACCGAC TCGGCTGTGC TCAATGTATC CCTCACGGAG
    CACCACAAAG CCATCACACT GCTGGTCGTC ACCGTGAGCA GTGTCCATCG CTACGTGTTC
    CCACTGAAGG TTGTTGGTGA AAACGCGGGC ACTGCCGCCG CCGGACAAGA CGATCTGCAG
    TCGCAATCTA TCTTCTACGA TGTGAACGAA AAGATCGACG ATCCGAGCGC CTTCTATGTT
    ACGGATGGAC TGGGCACGAT GCCCACTGTG GCTGCTTCAT TTATGTCGGA GCACGCCCAA
    GTGGCCTACT TTGCGGTGGC CTACCAGAGC AAGCTGGTGC TGCACGTCAT GAACTGTGTC
    ACTGGCTCCA CGGTGACGCA CGAGGTCAAG GAACCGCATC TGATGCCTCG CTTTCTGTCC
    AGCCTCACGG GCGCTCTAAT TAGGCGAGCG GAATCTGTGG ATGCGCCCAA TTCGATGGAG
    TTCAGTGAAA TCGATGGCAA GACGTATCTT CTGGTGGTCT ATAGGAGCAA CGAGCTGCGC
    CTTTGGGCAG TGGACACGAT GCAGACAGTT TCCACCATTA ACTGCTCTGG CGGCGCTCAA
    GGTGCACCGT CCGCACAAGG ACCGCAAACC AATCAGATAC GAAAAATAGA CGATCAAAAC
    TTTTGCGTAT TCCTCTCACA CGACGATGGG GCCGAGTTTG TTTGCGTGCA TCTCGATGGG
    ACTACGATGC CAGATGGTAG TGCCAGAGAC CTTGAGTTTA TTGTGAAGCA CACGGTTGTG
    GCGCCACAAA TGGATCTGGC CGATTTCGAT GTCACCCTCA CACACATCTG GGCTCTCTGG
    AGCAATGCCG AGGGGGATTT CAATGTCTCG ACGATATATG TGGGCTCTGA TCAGGCTATC
    GAATGGGTTT CCTCGGTACT GGAGCCGCCA CCAGATCGTT ATTGTCTCAC CATGGAGCAG
    GGTATTGATC CGCGCGAGGC CTACTGCTCG TACATCTTCC ATCCGGGTCG ATTCGATCGT
    ACGGTGATTA CCAAGGCCTT ATATATGTTC CGACGCGTCA ACCTGCAGTT CGATGTTAGG
    CAGCTGTCGA TGACCGTGCT CAAGGAGCAG GTGTGCCAGG CCGTCGAGGA TGAGATCCAG
    AACGAGTTCA AAGAGTTTGT GGTCAGTGAC GAGGAGTATC TGGAAGCTGC CACACGGCTG
    TGGGATCGTT TCTATTCATG CTGCGAGCAA TACCACATCA AGTACTCGGA GCCCATTGGT
    TTGTCCATTT TGGGTCCCAT GGATGCGGCA TGCCTCATTA GGCGGCAGTC CTTTGCCCTG
    CTACGGCCGT GCGAGCTGCT GGAGCATGTA CTGCTCATTG GAGAGCAGAC CAGGGATGTG
    GCCTCAATAC TGGCTCCATG CTTTCGCAAC GATCACACAT TGTCGCAGGC AGTCGCTGAG
    CTAATGAGGA TCATCACTCA GGTGGAAAAG TCGCTGCCAG AGGATGTCAA AATGGAGTTG
    GATAAGAAAC TCTATCAGCG CGAGGCGCCC ATTGATCTGG TGACCAAGCT TGTGGGCAGC
    AGCATCGATG ATGATGATAT TAGTCCCACC CTGCCCATGC ACACTGTTCA GGAGCTGAAG
    AAACAGCTGC AGAATGTCAC AAATCTGCAG GATGCCGTCG ATATGCTGCT GAATATTCTG
    TGTGTTATCG ATCCGGATGC CCCGCCGCCA CAAGAATATG CCAGATCCAC GCGTTTCCTG
    CTGCCAACTG GCGCGTTGTT TGGCAGCGAG TATGGCATAT CCATTCTAGC CGAGACGTTC
    AAACAAATGG CTTTGATACG CTTTTCTGTC TGCCGCGATC TGCTGATTCT GCTGTGCATT
    ATGGAGGAGC AGGATGGAAC AGACAGTAAT GGCCTGGTGA CGGCTGATAA CTATATGCGA
    TCGTACTATA CGCTCGTTTG GATGGCCGTG ACGCCCATTT CCTCGAATAC ACCAGCTGGA
    TTTGAGGCTT CCATACAGCG CTTGAATCGC GCACAACTCT TTGATGGCTA TTCCCGACCG
    TACTCGAGTC ATGTGCGTGG CTATGGCAAT GATCAGACCA CGCTGCTCTG TTTATTCCTG
    CGTTCCAAGG GCCTGTTCAG TGCTCTGGCC AAGCTGCTGT CCAAGGCGGG CATGCAACTG
    GAGACGGAGC CAGCGACGTT GCGACAAACG CTGCTGCAGC TGGTCACCTA CACCAATGAG
    ATGCTTTGGC CCGAATCTCC TAGCTATGTA TTCCCAGAAT GGCTCTTTGG CACATGCCAC
    CAGATAATTG TGCAGGACTA TGTGCGCCTG CTAGCCGTCT GGTGCGAAAA GAAGGCCCAT
    TGTCGCACAT TTATGCTGGC TGTTTCGCTG CTGGATTGTG GCGAGACACA AAAGGCTGTG
    CTGCTCTTTC AGGATACCGC TGAAAAGGTG CTCGATGATG CATTCCTCAT CGAGCATGTG
    CTGAAGAATA CACCGTTTCA CGGCCAGCTG AAAGAGAGCC TCGAACTGGG CAATGATGAC
    GGACCATCGT TGGAGGACAA GAAACAGGCG GTGGTTCATT ATTATCTAAA GGTCATACAG
    CTCTTTGAGC AGTATTCGGC CGTGGACTAC ATCATACAGC TGGCCCTTAC GGCCATAAGC
    AAGCTGGGCG AACGCGATCC ACAGCTGCCC ATGTTCCAAT CGATCGTTTT CAACAACCAT
    ATGCATCTGG GCCACTACGA GGAGGCGTAT CACGCTTTAA TTTACAATGC TGACATATCT
    AGGCGCAAGG ATTGCCTGCG TCAGTTGGTG GTGACGCTGT TCCAATGCAA GAGCCTGGAC
    CTGCTCATGA AGCTGCCGTA CAATGGCCTG CAGAACGAGT TCGAGAATAT TGTAGAGTCG
    CGTGCCCGGT CGATGAGTAT CGATCAGAAT GAAGTCTATA ACTTTTTGTA TGCCTTCCAC
    ACGAGCAAGG GAAACATGCG CAAGGCGGCC ACCGTCATGT ACGAGCAGGC CATGCGGCTG
    CAGGTGAGCA GCAATGCCCC CAAGGCACTG GACAAGCGTT GCTCCTCGCT GCTGATCTGT
    GTGAATTGCC TGAATCTGGT CGACAATCGG TACAGATGGA TAGCCAAGCC AATCATTGGC
    GACGAGCGAG TGTTGGCCAT GGATGTGGAT AATGAAGATG AGGTGCCGCC AAACGACGAT
    GAAGTGCTGG TCCTGGAGCT GGCCGACATA CGGCGCGAAC TTGTGTACGT TGAGGCGCTA
    AAGGAGCTCT CCCACTACCG CAAGGACATA GCCGCCTATG AGGTGGCAGG AGCTGAAGAA
    CTGTCCTATC TGCTGAGCAG CTATGGCCTG TATACGGCTG CCCTGAAACT GTCCCGCGGG
    CATACGTTCT CTGTGCTGCC GACATTTGAG AGTCTGGCCG CTGCCTGTGT GAGCGCCACC
    GAAGAGAAGG ACACCGATGC CTGGGCCTGG CTGCAGAACA ACGATCTGGC AGATCTACCA
    CATCGTAATA ATGCCGCTGA TATGGCATGG TCCCTGCTGC AGAAGCTTAT ACTCGACAAC
    GAGCGCAAGG ACTCGACGCT CATACGCAAG AGCGTCGTTA ACCGATTTCT CACTATGAAT
    GCATTTGTGC CCAAGTGGCT GTACGACTCC TACAAGCTGA ACAATTGCCG CGAGCTGTTG
    CATCTGTATG TCCGGCACAA TCGTTTGCTG GAGGCCGCCG ATATGGCCAG CGAGATGATC
    TGTGCCATGC TTGGCGCTGG CAGCGAATAC TTTGATTTCC AGCAGTCGAT CAATGTGACA
    ACGCCGCAGC TAGCATTCCC CATTAACACA ATGGACCTGC TGCTGCACGC CCTGAAGGTG
    AATGGCAAGG AGCACTCCGA GTATGAAGTG GCCTGCGTAC AGCTGGAGGA GGATGTGGCC
    AGATACATTG AGACAGTCAG CCGCACCACA TCGGATAAAA TGAAAATGGC CATTTTACGG
    AATCGCGAAG AGCTCCAGCT GCAGACAATA CGCCAGTAA

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