Ubn2 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Ubn2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ubn2 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
OMv74450 XM_029478831.1
Latest version!
Mus caroli ubinuclein 2 (Ubn2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv74451 XM_029478832.1
Latest version!
Mus caroli ubinuclein 2 (Ubn2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv03417 XM_021165455.2
Latest version!
Mus caroli ubinuclein 2 (Ubn2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMv03418 XM_021165456.2
Latest version!
Mus caroli ubinuclein 2 (Ubn2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
View Old Accession Versions >>
OMv03418 XM_021165456.1 Mus caroli ubinuclein 2 (Ubn2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMv03417 XM_021165455.1 Mus caroli ubinuclein 2 (Ubn2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
Hide Old Accession Versions >>

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)
    CloneID OMv74450
    Clone ID Related Accession (Same CDS sequence) XM_029478831.1
    Accession Version XM_029478831.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4002bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGTAAGTG CTGCCAAACT TTTTGATGAA
    GAAGGAAGGA AAAAATTCTT TACACAGGAC ATGAATAATA TTCTTCTGGA CATCGAGTTA
    CAGCTACAAG AACTAGGTCC TGTCATTCGT AGTGGTGTCT ACTCCCATCT TGAAGCATTT
    GTGCCATGCA ATAAGGAAAC ACTGGTAAAA CGTCTAAAGA AGTTACACCT TAATGTTCAG
    GATGATCGTT TAAGAGAACC TCTACAGAAG CTGAAGCTAG CAGTTAGCAA TGTCATGCCT
    GAACAGCTGT TTAAATACCA GGAGGACTGC CAGGCTCGCA GTCAAGCCAA ATGTGCCAAG
    TTGCAAGCAG ATGAAGAACG GGAAAAAAAT GGATCCGATG ATGATGACGA TGAAAAACCA
    GGGAAGCGAG TCATAGGCCC ACGAAAGAAA TTCCACTGGG ATGACACCAT CAGAACTTTG
    TTATGTAACC TTGTTGAGAT CAAATTGGGA TGCTATGAAT TAGAGCCAAA TAAAAGCCAG
    TCTGCTGAGG ATTATCTTAA ATCCTTCATG GAGACGGAGG TGAAGCCACT GTGGCCTAAG
    GGCTGGATGC AGGCAAGAAT GCTTTTTAAG GAAAGCCGGA GTGTACATAA TCATCTTACT
    TCTGCTCCGG CAAAGAAAAA GGTGATTCCT GCATCAAAAC CCAAAGTCAA GGCGGTGCTG
    GTAAAGACCC TTCCTGTTGG TTCTTTTCCC ACTATGCTGA AGGAATGTAG CCCAAAAAAA
    GACCCCAAAG CTCCTGCATC CGTGGTGGCT TCAGGTGGCG GTCCTTCCAC GAGCTCCAGT
    ACATCCATCG TTGCCTCAGC CAGCTCTAGC TCAGCACCAG CCCAAGAAAC CATCTGCCTT
    GATGACTCCC TCGATGAAGA CCTTTCTTTC CCCTCAGCCT CACTGGATCT TGTATCTGAA
    GCTCTAGCTG TCATCAACAA TGGGAACAAG GGCCCCTCAG TTGGTTCAAG GCTAAATGTG
    CCAACTACAA AACCTCGTCC AGGACTGAGA GAAGAAAAGC TAGCAAGTAT CATGAGTAAG
    TTACCACTGG CTACTCCCAA AAAACTAGAT TCTACTCAGA CTGCTCACTC ATCAAGTCTT
    ATTGCTGGTC ACACGGGGCC AGTACCAAAG AAACCCCAGG ATTTAGCTCA TACTGGTATT
    TCTTCAGGCC TTATTGCTGG TTCTTCAATT CAGAACCCTA AAGTTTCCTT AGAACCTTTG
    CCAGCCAGGC TACTCCAGCA AGGACTGCAA AGGTCAAGCC AGATACATGC TTCTTCCTCT
    TCACAGACTC ATGTCTCCTC CTCCCAAGCC CAAGCTGCTG CCTCCTCTCA TGCTCTGGGA
    ACATCAGAGG CCCAAGATGC TTCTTCGTTA ACACAAGTCA CAAAGGTGCA CCAGCACTCA
    GCTGTCCAGC AGAACTATGT GTCTCCATTG CAAGCCACCA TTAGTAAATC ACAGACCAAC
    CCAGTGGTGA AATTAAGTAA TAACCCCCAA CTTTCCTGTT CGTCCCAACT ACTCAAGACT
    TCAGATAAGC CACTGATGTA TCGCCTCCCT TTGTCTACCC CATCACCTGG AAATGGTTCT
    CAGGGGCCCC ACCCCCTAGT TTCTAGGACA GCACCGAGTA CCACTACCTC CAGTAACTAT
    TTAGCCAAGG CTATGGTGTC ACAAATCTCC ACGCAGGGTT TCAAATCTCC CTTCTCAATG
    GCTGCATCTC CCAAACTTGC CGCATCTCCC AAACCTGCCA CATCTCCCAA ACCTTTGCCC
    TCACCTAAGC CTTCTGTTTC ACCCAAGCCC TCTCTGTCAG CTAAGCCTTC AATATCTACT
    AAACTGATTT CTAAATCCAA CCCAACTCCC AAGCCTGCTG TATGCCCACG TTCTTCTAGT
    CCAAACGCAC TAGTAGCCCA GAGTAGCCAC TCCACAAGTA ACAACCCTGT CCATAAACAG
    CCCAGTGGAA TGAACATCAG CAGACAGTCT CCCACTCTGA ATTTGTTGCC CTCAAATCGC
    ACTTCTGGCC TTCCGACTAC AAAAACTCTT CAGGCCCCTT CTAAACTAAC AAACTCATCA
    TCCACTGGAA CTGTTGGGAA GAACAGCTTG AGTGGAATCC CAATGAATGT ACCTGCCAGC
    AGAGGTAGCA ACCTTAACTC AAGTGGAGCT AATAGGACTA GTCTATCTGG GGGAACAGGA
    AGTGGAACAC AGGGTGCTAC TAAACCGTTG TCTACTGCAC ATAGACCAAC CTCTGCCTCA
    GGGTCTTCAG TGGTAACAGC CAGTGTGCAG TCCACAGCAG GAGCATCATT ATTGGCTAAT
    GCCTCACCTC TGACTCTCAT GACATCACCT TTGTCTGTAA CAAATCAAAC TGTGACTCCT
    TTTGGGATGC TGGGTGGCCT TGTTCCAGTG ACCATGCCCT TCCAGTTTCC CTTGGAGCTA
    CTTGGCTTTG GAACGGACAC AGCTGGAGTG ACAGCCACCT CGGGATCTAC CTCAGCGGCT
    CTCCATCACA GCCTAACCCA GAATTTACTA AAGAGTTTAC AGCCAGGAGC TCAGCACGCG
    GCAGCCCTTC CTCACTCTCC TCTGCCTGCA CACTTACAGC AAGCATTTAA CGATGGAGGC
    CAAAGTAAAG GGGACACTAA GTTACCACGG AAACCTCAGT GA

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

    RefSeq XP_029334691.1
    CDS241..4242
    Translation

    Target ORF information:

    RefSeq Version XM_029478831.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029478831.1

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGTAAGTG CTGCCAAACT TTTTGATGAA
    GAAGGAAGGA AAAAATTCTT TACACAGGAC ATGAATAATA TTCTTCTGGA CATCGAGTTA
    CAGCTACAAG AACTAGGTCC TGTCATTCGT AGTGGTGTCT ACTCCCATCT TGAAGCATTT
    GTGCCATGCA ATAAGGAAAC ACTGGTAAAA CGTCTAAAGA AGTTACACCT TAATGTTCAG
    GATGATCGTT TAAGAGAACC TCTACAGAAG CTGAAGCTAG CAGTTAGCAA TGTCATGCCT
    GAACAGCTGT TTAAATACCA GGAGGACTGC CAGGCTCGCA GTCAAGCCAA ATGTGCCAAG
    TTGCAAGCAG ATGAAGAACG GGAAAAAAAT GGATCCGATG ATGATGACGA TGAAAAACCA
    GGGAAGCGAG TCATAGGCCC ACGAAAGAAA TTCCACTGGG ATGACACCAT CAGAACTTTG
    TTATGTAACC TTGTTGAGAT CAAATTGGGA TGCTATGAAT TAGAGCCAAA TAAAAGCCAG
    TCTGCTGAGG ATTATCTTAA ATCCTTCATG GAGACGGAGG TGAAGCCACT GTGGCCTAAG
    GGCTGGATGC AGGCAAGAAT GCTTTTTAAG GAAAGCCGGA GTGTACATAA TCATCTTACT
    TCTGCTCCGG CAAAGAAAAA GGTGATTCCT GCATCAAAAC CCAAAGTCAA GGCGGTGCTG
    GTAAAGACCC TTCCTGTTGG TTCTTTTCCC ACTATGCTGA AGGAATGTAG CCCAAAAAAA
    GACCCCAAAG CTCCTGCATC CGTGGTGGCT TCAGGTGGCG GTCCTTCCAC GAGCTCCAGT
    ACATCCATCG TTGCCTCAGC CAGCTCTAGC TCAGCACCAG CCCAAGAAAC CATCTGCCTT
    GATGACTCCC TCGATGAAGA CCTTTCTTTC CCCTCAGCCT CACTGGATCT TGTATCTGAA
    GCTCTAGCTG TCATCAACAA TGGGAACAAG GGCCCCTCAG TTGGTTCAAG GCTAAATGTG
    CCAACTACAA AACCTCGTCC AGGACTGAGA GAAGAAAAGC TAGCAAGTAT CATGAGTAAG
    TTACCACTGG CTACTCCCAA AAAACTAGAT TCTACTCAGA CTGCTCACTC ATCAAGTCTT
    ATTGCTGGTC ACACGGGGCC AGTACCAAAG AAACCCCAGG ATTTAGCTCA TACTGGTATT
    TCTTCAGGCC TTATTGCTGG TTCTTCAATT CAGAACCCTA AAGTTTCCTT AGAACCTTTG
    CCAGCCAGGC TACTCCAGCA AGGACTGCAA AGGTCAAGCC AGATACATGC TTCTTCCTCT
    TCACAGACTC ATGTCTCCTC CTCCCAAGCC CAAGCTGCTG CCTCCTCTCA TGCTCTGGGA
    ACATCAGAGG CCCAAGATGC TTCTTCGTTA ACACAAGTCA CAAAGGTGCA CCAGCACTCA
    GCTGTCCAGC AGAACTATGT GTCTCCATTG CAAGCCACCA TTAGTAAATC ACAGACCAAC
    CCAGTGGTGA AATTAAGTAA TAACCCCCAA CTTTCCTGTT CGTCCCAACT ACTCAAGACT
    TCAGATAAGC CACTGATGTA TCGCCTCCCT TTGTCTACCC CATCACCTGG AAATGGTTCT
    CAGGGGCCCC ACCCCCTAGT TTCTAGGACA GCACCGAGTA CCACTACCTC CAGTAACTAT
    TTAGCCAAGG CTATGGTGTC ACAAATCTCC ACGCAGGGTT TCAAATCTCC CTTCTCAATG
    GCTGCATCTC CCAAACTTGC CGCATCTCCC AAACCTGCCA CATCTCCCAA ACCTTTGCCC
    TCACCTAAGC CTTCTGTTTC ACCCAAGCCC TCTCTGTCAG CTAAGCCTTC AATATCTACT
    AAACTGATTT CTAAATCCAA CCCAACTCCC AAGCCTGCTG TATGCCCACG TTCTTCTAGT
    CCAAACGCAC TAGTAGCCCA GAGTAGCCAC TCCACAAGTA ACAACCCTGT CCATAAACAG
    CCCAGTGGAA TGAACATCAG CAGACAGTCT CCCACTCTGA ATTTGTTGCC CTCAAATCGC
    ACTTCTGGCC TTCCGACTAC AAAAACTCTT CAGGCCCCTT CTAAACTAAC AAACTCATCA
    TCCACTGGAA CTGTTGGGAA GAACAGCTTG AGTGGAATCC CAATGAATGT ACCTGCCAGC
    AGAGGTAGCA ACCTTAACTC AAGTGGAGCT AATAGGACTA GTCTATCTGG GGGAACAGGA
    AGTGGAACAC AGGGTGCTAC TAAACCGTTG TCTACTGCAC ATAGACCAAC CTCTGCCTCA
    GGGTCTTCAG TGGTAACAGC CAGTGTGCAG TCCACAGCAG GAGCATCATT ATTGGCTAAT
    GCCTCACCTC TGACTCTCAT GACATCACCT TTGTCTGTAA CAAATCAAAC TGTGACTCCT
    TTTGGGATGC TGGGTGGCCT TGTTCCAGTG ACCATGCCCT TCCAGTTTCC CTTGGAGCTA
    CTTGGCTTTG GAACGGACAC AGCTGGAGTG ACAGCCACCT CGGGATCTAC CTCAGCGGCT
    CTCCATCACA GCCTAACCCA GAATTTACTA AAGAGTTTAC AGCCAGGAGC TCAGCACGCG
    GCAGCCCTTC CTCACTCTCC TCTGCCTGCA CACTTACAGC AAGCATTTAA CGATGGAGGC
    CAAAGTAAAG GGGACACTAA GTTACCACGG AAACCTCAGT GA

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

    CloneID OMv74451
    Clone ID Related Accession (Same CDS sequence) XM_029478832.1
    Accession Version XM_029478832.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3951bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGTAAGTG CTGCCAAACT TTTTGATGAA
    GAAGGAAGGA AAAAATTCTT TACACAGGAC ATGAATAATA TTCTTCTGGA CATCGAGTTA
    CAGCTACAAG AACTAGGTCC TGTCATTCGT AGTGGTGTCT ACTCCCATCT TGAAGCATTT
    GTGCCATGCA ATAAGGAAAC ACTGGTAAAA CGTCTAAAGA AGTTACACCT TAATGTTCAG
    GATGATCGTT TAAGAGAACC TCTACAGAAG CTGAAGCTAG CAGTTAGCAA TGTCATGCCT
    GAACAGCTGT TTAAATACCA GGAGGACTGC CAGGCTCGCA GTCAAGCCAA ATGTGCCAAG
    TTGCAAGCAG ATGAAGAACG GGAAAAAAAT GGATCCGATG ATGATGACGA TGAAAAACCA
    GGGAAGCGAG TCATAGGCCC ACGAAAGAAA TTCCACTGGG ATGACACCAT CAGAACTTTG
    TTATGTAACC TTGTTGAGAT CAAATTGGGA TGCTATGAAT TAGAGCCAAA TAAAAGCCAG
    TCTGCTGAGG ATTATCTTAA ATCCTTCATG GAGACGGAGG TGAAGCCACT GTGGCCTAAG
    GGCTGGATGC AGGCAAGAAT GCTTTTTAAG GAAAGCCGGA GTGTACATAA TCATCTTACT
    TCTGCTCCGG CAAAGAAAAA GGTGATTCCT GCATCAAAAC CCAAAGTCAA GGAATGTAGC
    CCAAAAAAAG ACCCCAAAGC TCCTGCATCC GTGGTGGCTT CAGGTGGCGG TCCTTCCACG
    AGCTCCAGTA CATCCATCGT TGCCTCAGCC AGCTCTAGCT CAGCACCAGC CCAAGAAACC
    ATCTGCCTTG ATGACTCCCT CGATGAAGAC CTTTCTTTCC CCTCAGCCTC ACTGGATCTT
    GTATCTGAAG CTCTAGCTGT CATCAACAAT GGGAACAAGG GCCCCTCAGT TGGTTCAAGG
    CTAAATGTGC CAACTACAAA ACCTCGTCCA GGACTGAGAG AAGAAAAGCT AGCAAGTATC
    ATGAGTAAGT TACCACTGGC TACTCCCAAA AAACTAGATT CTACTCAGAC TGCTCACTCA
    TCAAGTCTTA TTGCTGGTCA CACGGGGCCA GTACCAAAGA AACCCCAGGA TTTAGCTCAT
    ACTGGTATTT CTTCAGGCCT TATTGCTGGT TCTTCAATTC AGAACCCTAA AGTTTCCTTA
    GAACCTTTGC CAGCCAGGCT ACTCCAGCAA GGACTGCAAA GGTCAAGCCA GATACATGCT
    TCTTCCTCTT CACAGACTCA TGTCTCCTCC TCCCAAGCCC AAGCTGCTGC CTCCTCTCAT
    GCTCTGGGAA CATCAGAGGC CCAAGATGCT TCTTCGTTAA CACAAGTCAC AAAGGTGCAC
    CAGCACTCAG CTGTCCAGCA GAACTATGTG TCTCCATTGC AAGCCACCAT TAGTAAATCA
    CAGACCAACC CAGTGGTGAA ATTAAGTAAT AACCCCCAAC TTTCCTGTTC GTCCCAACTA
    CTCAAGACTT CAGATAAGCC ACTGATGTAT CGCCTCCCTT TGTCTACCCC ATCACCTGGA
    AATGGTTCTC AGGGGCCCCA CCCCCTAGTT TCTAGGACAG CACCGAGTAC CACTACCTCC
    AGTAACTATT TAGCCAAGGC TATGGTGTCA CAAATCTCCA CGCAGGGTTT CAAATCTCCC
    TTCTCAATGG CTGCATCTCC CAAACTTGCC GCATCTCCCA AACCTGCCAC ATCTCCCAAA
    CCTTTGCCCT CACCTAAGCC TTCTGTTTCA CCCAAGCCCT CTCTGTCAGC TAAGCCTTCA
    ATATCTACTA AACTGATTTC TAAATCCAAC CCAACTCCCA AGCCTGCTGT ATGCCCACGT
    TCTTCTAGTC CAAACGCACT AGTAGCCCAG AGTAGCCACT CCACAAGTAA CAACCCTGTC
    CATAAACAGC CCAGTGGAAT GAACATCAGC AGACAGTCTC CCACTCTGAA TTTGTTGCCC
    TCAAATCGCA CTTCTGGCCT TCCGACTACA AAAACTCTTC AGGCCCCTTC TAAACTAACA
    AACTCATCAT CCACTGGAAC TGTTGGGAAG AACAGCTTGA GTGGAATCCC AATGAATGTA
    CCTGCCAGCA GAGGTAGCAA CCTTAACTCA AGTGGAGCTA ATAGGACTAG TCTATCTGGG
    GGAACAGGAA GTGGAACACA GGGTGCTACT AAACCGTTGT CTACTGCACA TAGACCAACC
    TCTGCCTCAG GGTCTTCAGT GGTAACAGCC AGTGTGCAGT CCACAGCAGG AGCATCATTA
    TTGGCTAATG CCTCACCTCT GACTCTCATG ACATCACCTT TGTCTGTAAC AAATCAAACT
    GTGACTCCTT TTGGGATGCT GGGTGGCCTT GTTCCAGTGA CCATGCCCTT CCAGTTTCCC
    TTGGAGCTAC TTGGCTTTGG AACGGACACA GCTGGAGTGA CAGCCACCTC GGGATCTACC
    TCAGCGGCTC TCCATCACAG CCTAACCCAG AATTTACTAA AGAGTTTACA GCCAGGAGCT
    CAGCACGCGG CAGCCCTTCC TCACTCTCCT CTGCCTGCAC ACTTACAGCA AGCATTTAAC
    GATGGAGGCC AAAGTAAAGG GGACACTAAG TTACCACGGA AACCTCAGTG A

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

    RefSeq XP_029334692.1
    CDS240..4190
    Translation

    Target ORF information:

    RefSeq Version XM_029478832.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029478832.1

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGTAAGTG CTGCCAAACT TTTTGATGAA
    GAAGGAAGGA AAAAATTCTT TACACAGGAC ATGAATAATA TTCTTCTGGA CATCGAGTTA
    CAGCTACAAG AACTAGGTCC TGTCATTCGT AGTGGTGTCT ACTCCCATCT TGAAGCATTT
    GTGCCATGCA ATAAGGAAAC ACTGGTAAAA CGTCTAAAGA AGTTACACCT TAATGTTCAG
    GATGATCGTT TAAGAGAACC TCTACAGAAG CTGAAGCTAG CAGTTAGCAA TGTCATGCCT
    GAACAGCTGT TTAAATACCA GGAGGACTGC CAGGCTCGCA GTCAAGCCAA ATGTGCCAAG
    TTGCAAGCAG ATGAAGAACG GGAAAAAAAT GGATCCGATG ATGATGACGA TGAAAAACCA
    GGGAAGCGAG TCATAGGCCC ACGAAAGAAA TTCCACTGGG ATGACACCAT CAGAACTTTG
    TTATGTAACC TTGTTGAGAT CAAATTGGGA TGCTATGAAT TAGAGCCAAA TAAAAGCCAG
    TCTGCTGAGG ATTATCTTAA ATCCTTCATG GAGACGGAGG TGAAGCCACT GTGGCCTAAG
    GGCTGGATGC AGGCAAGAAT GCTTTTTAAG GAAAGCCGGA GTGTACATAA TCATCTTACT
    TCTGCTCCGG CAAAGAAAAA GGTGATTCCT GCATCAAAAC CCAAAGTCAA GGAATGTAGC
    CCAAAAAAAG ACCCCAAAGC TCCTGCATCC GTGGTGGCTT CAGGTGGCGG TCCTTCCACG
    AGCTCCAGTA CATCCATCGT TGCCTCAGCC AGCTCTAGCT CAGCACCAGC CCAAGAAACC
    ATCTGCCTTG ATGACTCCCT CGATGAAGAC CTTTCTTTCC CCTCAGCCTC ACTGGATCTT
    GTATCTGAAG CTCTAGCTGT CATCAACAAT GGGAACAAGG GCCCCTCAGT TGGTTCAAGG
    CTAAATGTGC CAACTACAAA ACCTCGTCCA GGACTGAGAG AAGAAAAGCT AGCAAGTATC
    ATGAGTAAGT TACCACTGGC TACTCCCAAA AAACTAGATT CTACTCAGAC TGCTCACTCA
    TCAAGTCTTA TTGCTGGTCA CACGGGGCCA GTACCAAAGA AACCCCAGGA TTTAGCTCAT
    ACTGGTATTT CTTCAGGCCT TATTGCTGGT TCTTCAATTC AGAACCCTAA AGTTTCCTTA
    GAACCTTTGC CAGCCAGGCT ACTCCAGCAA GGACTGCAAA GGTCAAGCCA GATACATGCT
    TCTTCCTCTT CACAGACTCA TGTCTCCTCC TCCCAAGCCC AAGCTGCTGC CTCCTCTCAT
    GCTCTGGGAA CATCAGAGGC CCAAGATGCT TCTTCGTTAA CACAAGTCAC AAAGGTGCAC
    CAGCACTCAG CTGTCCAGCA GAACTATGTG TCTCCATTGC AAGCCACCAT TAGTAAATCA
    CAGACCAACC CAGTGGTGAA ATTAAGTAAT AACCCCCAAC TTTCCTGTTC GTCCCAACTA
    CTCAAGACTT CAGATAAGCC ACTGATGTAT CGCCTCCCTT TGTCTACCCC ATCACCTGGA
    AATGGTTCTC AGGGGCCCCA CCCCCTAGTT TCTAGGACAG CACCGAGTAC CACTACCTCC
    AGTAACTATT TAGCCAAGGC TATGGTGTCA CAAATCTCCA CGCAGGGTTT CAAATCTCCC
    TTCTCAATGG CTGCATCTCC CAAACTTGCC GCATCTCCCA AACCTGCCAC ATCTCCCAAA
    CCTTTGCCCT CACCTAAGCC TTCTGTTTCA CCCAAGCCCT CTCTGTCAGC TAAGCCTTCA
    ATATCTACTA AACTGATTTC TAAATCCAAC CCAACTCCCA AGCCTGCTGT ATGCCCACGT
    TCTTCTAGTC CAAACGCACT AGTAGCCCAG AGTAGCCACT CCACAAGTAA CAACCCTGTC
    CATAAACAGC CCAGTGGAAT GAACATCAGC AGACAGTCTC CCACTCTGAA TTTGTTGCCC
    TCAAATCGCA CTTCTGGCCT TCCGACTACA AAAACTCTTC AGGCCCCTTC TAAACTAACA
    AACTCATCAT CCACTGGAAC TGTTGGGAAG AACAGCTTGA GTGGAATCCC AATGAATGTA
    CCTGCCAGCA GAGGTAGCAA CCTTAACTCA AGTGGAGCTA ATAGGACTAG TCTATCTGGG
    GGAACAGGAA GTGGAACACA GGGTGCTACT AAACCGTTGT CTACTGCACA TAGACCAACC
    TCTGCCTCAG GGTCTTCAGT GGTAACAGCC AGTGTGCAGT CCACAGCAGG AGCATCATTA
    TTGGCTAATG CCTCACCTCT GACTCTCATG ACATCACCTT TGTCTGTAAC AAATCAAACT
    GTGACTCCTT TTGGGATGCT GGGTGGCCTT GTTCCAGTGA CCATGCCCTT CCAGTTTCCC
    TTGGAGCTAC TTGGCTTTGG AACGGACACA GCTGGAGTGA CAGCCACCTC GGGATCTACC
    TCAGCGGCTC TCCATCACAG CCTAACCCAG AATTTACTAA AGAGTTTACA GCCAGGAGCT
    CAGCACGCGG CAGCCCTTCC TCACTCTCCT CTGCCTGCAC ACTTACAGCA AGCATTTAAC
    GATGGAGGCC AAAGTAAAGG GGACACTAAG TTACCACGGA AACCTCAGTG A

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

    CloneID OMv03417
    Clone ID Related Accession (Same CDS sequence) XM_021165455.1 , XM_021165455.2
    Accession Version XM_021165455.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3945bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGAATG TAGCCCAAAA
    AAAGACCCCA AAGCTCCTGC ATCCGTGGTG GCTTCAGGTG GCGGTCCTTC CACGAGCTCC
    AGTACATCCA TCGTTGCCTC AGCCAGCTCT AGCTCAGCAC CAGCCCAAGA AACCATCTGC
    CTTGATGACT CCCTCGATGA AGACCTTTCT TTCCCCTCAG CCTCACTGGA TCTTGTATCT
    GAAGCTCTAG CTGTCATCAA CAATGGGAAC AAGGGCCCCT CAGTTGGTTC AAGGCTAAAT
    GTGCCAACTA CAAAACCTCG TCCAGGACTG AGAGAAGAAA AGCTAGCAAG TATCATGAGT
    AAGTTACCAC TGGCTACTCC CAAAAAACTA GATTCTACTC AGACTGCTCA CTCATCAAGT
    CTTATTGCTG GTCACACGGG GCCAGTACCA AAGAAACCCC AGGATTTAGC TCATACTGGT
    ATTTCTTCAG GCCTTATTGC TGGTTCTTCA ATTCAGAACC CTAAAGTTTC CTTAGAACCT
    TTGCCAGCCA GGCTACTCCA GCAAGGACTG CAAAGGTCAA GCCAGATACA TGCTTCTTCC
    TCTTCACAGA CTCATGTCTC CTCCTCCCAA GCCCAAGCTG CTGCCTCCTC TCATGCTCTG
    GGAACATCAG AGGCCCAAGA TGCTTCTTCG TTAACACAAG TCACAAAGGT GCACCAGCAC
    TCAGCTGTCC AGCAGAACTA TGTGTCTCCA TTGCAAGCCA CCATTAGTAA ATCACAGACC
    AACCCAGTGG TGAAATTAAG TAATAACCCC CAACTTTCCT GTTCGTCCCA ACTACTCAAG
    ACTTCAGATA AGCCACTGAT GTATCGCCTC CCTTTGTCTA CCCCATCACC TGGAAATGGT
    TCTCAGGGGC CCCACCCCCT AGTTTCTAGG ACAGCACCGA GTACCACTAC CTCCAGTAAC
    TATTTAGCCA AGGCTATGGT GTCACAAATC TCCACGCAGG GTTTCAAATC TCCCTTCTCA
    ATGGCTGCAT CTCCCAAACT TGCCGCATCT CCCAAACCTG CCACATCTCC CAAACCTTTG
    CCCTCACCTA AGCCTTCTGT TTCACCCAAG CCCTCTCTGT CAGCTAAGCC TTCAATATCT
    ACTAAACTGA TTTCTAAATC CAACCCAACT CCCAAGCCTG CTGTATGCCC ACGTTCTTCT
    AGTCCAAACG CACTAGTAGC CCAGAGTAGC CACTCCACAA GTAACAACCC TGTCCATAAA
    CAGCCCAGTG GAATGAACAT CAGCAGACAG TCTCCCACTC TGAATTTGTT GCCCTCAAAT
    CGCACTTCTG GCCTTCCGAC TACAAAAACT CTTCAGGCCC CTTCTAAACT AACAAACTCA
    TCATCCACTG GAACTGTTGG GAAGAACAGC TTGAGTGGAA TCCCAATGAA TGTACCTGCC
    AGCAGAGGTA GCAACCTTAA CTCAAGTGGA GCTAATAGGA CTAGTCTATC TGGGGGAACA
    GGAAGTGGAA CACAGGGTGC TACTAAACCG TTGTCTACTG CACATAGACC AACCTCTGCC
    TCAGGGTCTT CAGTGGTAAC AGCCAGTGTG CAGTCCACAG CAGGAGCATC ATTATTGGCT
    AATGCCTCAC CTCTGACTCT CATGACATCA CCTTTGTCTG TAACAAATCA AACTGTGACT
    CCTTTTGGGA TGCTGGGTGG CCTTGTTCCA GTGACCATGC CCTTCCAGTT TCCCTTGGAG
    CTACTTGGCT TTGGAACGGA CACAGCTGGA GTGACAGCCA CCTCGGGATC TACCTCAGCG
    GCTCTCCATC ACAGCCTAAC CCAGAATTTA CTAAAGAGTT TACAGCCAGG AGCTCAGCAC
    GCGGCAGCCC TTCCTCACTC TCCTCTGCCT GCACACTTAC AGCAAGCATT TAACGATGGA
    GGCCAAAGTA AAGGGGACAC TAAGTTACCA CGGAAACCTC AGTGA

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

    RefSeq XP_021021114.1
    CDS312..4256
    Translation

    Target ORF information:

    RefSeq Version XM_021165455.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021165455.1

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGAATG TAGCCCAAAA
    AAAGACCCCA AAGCTCCTGC ATCCGTGGTG GCTTCAGGTG GCGGTCCTTC CACGAGCTCC
    AGTACATCCA TCGTTGCCTC AGCCAGCTCT AGCTCAGCAC CAGCCCAAGA AACCATCTGC
    CTTGATGACT CCCTCGATGA AGACCTTTCT TTCCCCTCAG CCTCACTGGA TCTTGTATCT
    GAAGCTCTAG CTGTCATCAA CAATGGGAAC AAGGGCCCCT CAGTTGGTTC AAGGCTAAAT
    GTGCCAACTA CAAAACCTCG TCCAGGACTG AGAGAAGAAA AGCTAGCAAG TATCATGAGT
    AAGTTACCAC TGGCTACTCC CAAAAAACTA GATTCTACTC AGACTGCTCA CTCATCAAGT
    CTTATTGCTG GTCACACGGG GCCAGTACCA AAGAAACCCC AGGATTTAGC TCATACTGGT
    ATTTCTTCAG GCCTTATTGC TGGTTCTTCA ATTCAGAACC CTAAAGTTTC CTTAGAACCT
    TTGCCAGCCA GGCTACTCCA GCAAGGACTG CAAAGGTCAA GCCAGATACA TGCTTCTTCC
    TCTTCACAGA CTCATGTCTC CTCCTCCCAA GCCCAAGCTG CTGCCTCCTC TCATGCTCTG
    GGAACATCAG AGGCCCAAGA TGCTTCTTCG TTAACACAAG TCACAAAGGT GCACCAGCAC
    TCAGCTGTCC AGCAGAACTA TGTGTCTCCA TTGCAAGCCA CCATTAGTAA ATCACAGACC
    AACCCAGTGG TGAAATTAAG TAATAACCCC CAACTTTCCT GTTCGTCCCA ACTACTCAAG
    ACTTCAGATA AGCCACTGAT GTATCGCCTC CCTTTGTCTA CCCCATCACC TGGAAATGGT
    TCTCAGGGGC CCCACCCCCT AGTTTCTAGG ACAGCACCGA GTACCACTAC CTCCAGTAAC
    TATTTAGCCA AGGCTATGGT GTCACAAATC TCCACGCAGG GTTTCAAATC TCCCTTCTCA
    ATGGCTGCAT CTCCCAAACT TGCCGCATCT CCCAAACCTG CCACATCTCC CAAACCTTTG
    CCCTCACCTA AGCCTTCTGT TTCACCCAAG CCCTCTCTGT CAGCTAAGCC TTCAATATCT
    ACTAAACTGA TTTCTAAATC CAACCCAACT CCCAAGCCTG CTGTATGCCC ACGTTCTTCT
    AGTCCAAACG CACTAGTAGC CCAGAGTAGC CACTCCACAA GTAACAACCC TGTCCATAAA
    CAGCCCAGTG GAATGAACAT CAGCAGACAG TCTCCCACTC TGAATTTGTT GCCCTCAAAT
    CGCACTTCTG GCCTTCCGAC TACAAAAACT CTTCAGGCCC CTTCTAAACT AACAAACTCA
    TCATCCACTG GAACTGTTGG GAAGAACAGC TTGAGTGGAA TCCCAATGAA TGTACCTGCC
    AGCAGAGGTA GCAACCTTAA CTCAAGTGGA GCTAATAGGA CTAGTCTATC TGGGGGAACA
    GGAAGTGGAA CACAGGGTGC TACTAAACCG TTGTCTACTG CACATAGACC AACCTCTGCC
    TCAGGGTCTT CAGTGGTAAC AGCCAGTGTG CAGTCCACAG CAGGAGCATC ATTATTGGCT
    AATGCCTCAC CTCTGACTCT CATGACATCA CCTTTGTCTG TAACAAATCA AACTGTGACT
    CCTTTTGGGA TGCTGGGTGG CCTTGTTCCA GTGACCATGC CCTTCCAGTT TCCCTTGGAG
    CTACTTGGCT TTGGAACGGA CACAGCTGGA GTGACAGCCA CCTCGGGATC TACCTCAGCG
    GCTCTCCATC ACAGCCTAAC CCAGAATTTA CTAAAGAGTT TACAGCCAGG AGCTCAGCAC
    GCGGCAGCCC TTCCTCACTC TCCTCTGCCT GCACACTTAC AGCAAGCATT TAACGATGGA
    GGCCAAAGTA AAGGGGACAC TAAGTTACCA CGGAAACCTC AGTGA

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

    CloneID OMv03417
    Clone ID Related Accession (Same CDS sequence) XM_021165455.1 , XM_021165455.2
    Accession Version XM_021165455.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3945bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021165455.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGAATG TAGCCCAAAA
    AAAGACCCCA AAGCTCCTGC ATCCGTGGTG GCTTCAGGTG GCGGTCCTTC CACGAGCTCC
    AGTACATCCA TCGTTGCCTC AGCCAGCTCT AGCTCAGCAC CAGCCCAAGA AACCATCTGC
    CTTGATGACT CCCTCGATGA AGACCTTTCT TTCCCCTCAG CCTCACTGGA TCTTGTATCT
    GAAGCTCTAG CTGTCATCAA CAATGGGAAC AAGGGCCCCT CAGTTGGTTC AAGGCTAAAT
    GTGCCAACTA CAAAACCTCG TCCAGGACTG AGAGAAGAAA AGCTAGCAAG TATCATGAGT
    AAGTTACCAC TGGCTACTCC CAAAAAACTA GATTCTACTC AGACTGCTCA CTCATCAAGT
    CTTATTGCTG GTCACACGGG GCCAGTACCA AAGAAACCCC AGGATTTAGC TCATACTGGT
    ATTTCTTCAG GCCTTATTGC TGGTTCTTCA ATTCAGAACC CTAAAGTTTC CTTAGAACCT
    TTGCCAGCCA GGCTACTCCA GCAAGGACTG CAAAGGTCAA GCCAGATACA TGCTTCTTCC
    TCTTCACAGA CTCATGTCTC CTCCTCCCAA GCCCAAGCTG CTGCCTCCTC TCATGCTCTG
    GGAACATCAG AGGCCCAAGA TGCTTCTTCG TTAACACAAG TCACAAAGGT GCACCAGCAC
    TCAGCTGTCC AGCAGAACTA TGTGTCTCCA TTGCAAGCCA CCATTAGTAA ATCACAGACC
    AACCCAGTGG TGAAATTAAG TAATAACCCC CAACTTTCCT GTTCGTCCCA ACTACTCAAG
    ACTTCAGATA AGCCACTGAT GTATCGCCTC CCTTTGTCTA CCCCATCACC TGGAAATGGT
    TCTCAGGGGC CCCACCCCCT AGTTTCTAGG ACAGCACCGA GTACCACTAC CTCCAGTAAC
    TATTTAGCCA AGGCTATGGT GTCACAAATC TCCACGCAGG GTTTCAAATC TCCCTTCTCA
    ATGGCTGCAT CTCCCAAACT TGCCGCATCT CCCAAACCTG CCACATCTCC CAAACCTTTG
    CCCTCACCTA AGCCTTCTGT TTCACCCAAG CCCTCTCTGT CAGCTAAGCC TTCAATATCT
    ACTAAACTGA TTTCTAAATC CAACCCAACT CCCAAGCCTG CTGTATGCCC ACGTTCTTCT
    AGTCCAAACG CACTAGTAGC CCAGAGTAGC CACTCCACAA GTAACAACCC TGTCCATAAA
    CAGCCCAGTG GAATGAACAT CAGCAGACAG TCTCCCACTC TGAATTTGTT GCCCTCAAAT
    CGCACTTCTG GCCTTCCGAC TACAAAAACT CTTCAGGCCC CTTCTAAACT AACAAACTCA
    TCATCCACTG GAACTGTTGG GAAGAACAGC TTGAGTGGAA TCCCAATGAA TGTACCTGCC
    AGCAGAGGTA GCAACCTTAA CTCAAGTGGA GCTAATAGGA CTAGTCTATC TGGGGGAACA
    GGAAGTGGAA CACAGGGTGC TACTAAACCG TTGTCTACTG CACATAGACC AACCTCTGCC
    TCAGGGTCTT CAGTGGTAAC AGCCAGTGTG CAGTCCACAG CAGGAGCATC ATTATTGGCT
    AATGCCTCAC CTCTGACTCT CATGACATCA CCTTTGTCTG TAACAAATCA AACTGTGACT
    CCTTTTGGGA TGCTGGGTGG CCTTGTTCCA GTGACCATGC CCTTCCAGTT TCCCTTGGAG
    CTACTTGGCT TTGGAACGGA CACAGCTGGA GTGACAGCCA CCTCGGGATC TACCTCAGCG
    GCTCTCCATC ACAGCCTAAC CCAGAATTTA CTAAAGAGTT TACAGCCAGG AGCTCAGCAC
    GCGGCAGCCC TTCCTCACTC TCCTCTGCCT GCACACTTAC AGCAAGCATT TAACGATGGA
    GGCCAAAGTA AAGGGGACAC TAAGTTACCA CGGAAACCTC AGTGA

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

    RefSeq XP_021021114.1
    CDS239..4183
    Translation

    Target ORF information:

    RefSeq Version XM_021165455.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021165455.2

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGAATG TAGCCCAAAA
    AAAGACCCCA AAGCTCCTGC ATCCGTGGTG GCTTCAGGTG GCGGTCCTTC CACGAGCTCC
    AGTACATCCA TCGTTGCCTC AGCCAGCTCT AGCTCAGCAC CAGCCCAAGA AACCATCTGC
    CTTGATGACT CCCTCGATGA AGACCTTTCT TTCCCCTCAG CCTCACTGGA TCTTGTATCT
    GAAGCTCTAG CTGTCATCAA CAATGGGAAC AAGGGCCCCT CAGTTGGTTC AAGGCTAAAT
    GTGCCAACTA CAAAACCTCG TCCAGGACTG AGAGAAGAAA AGCTAGCAAG TATCATGAGT
    AAGTTACCAC TGGCTACTCC CAAAAAACTA GATTCTACTC AGACTGCTCA CTCATCAAGT
    CTTATTGCTG GTCACACGGG GCCAGTACCA AAGAAACCCC AGGATTTAGC TCATACTGGT
    ATTTCTTCAG GCCTTATTGC TGGTTCTTCA ATTCAGAACC CTAAAGTTTC CTTAGAACCT
    TTGCCAGCCA GGCTACTCCA GCAAGGACTG CAAAGGTCAA GCCAGATACA TGCTTCTTCC
    TCTTCACAGA CTCATGTCTC CTCCTCCCAA GCCCAAGCTG CTGCCTCCTC TCATGCTCTG
    GGAACATCAG AGGCCCAAGA TGCTTCTTCG TTAACACAAG TCACAAAGGT GCACCAGCAC
    TCAGCTGTCC AGCAGAACTA TGTGTCTCCA TTGCAAGCCA CCATTAGTAA ATCACAGACC
    AACCCAGTGG TGAAATTAAG TAATAACCCC CAACTTTCCT GTTCGTCCCA ACTACTCAAG
    ACTTCAGATA AGCCACTGAT GTATCGCCTC CCTTTGTCTA CCCCATCACC TGGAAATGGT
    TCTCAGGGGC CCCACCCCCT AGTTTCTAGG ACAGCACCGA GTACCACTAC CTCCAGTAAC
    TATTTAGCCA AGGCTATGGT GTCACAAATC TCCACGCAGG GTTTCAAATC TCCCTTCTCA
    ATGGCTGCAT CTCCCAAACT TGCCGCATCT CCCAAACCTG CCACATCTCC CAAACCTTTG
    CCCTCACCTA AGCCTTCTGT TTCACCCAAG CCCTCTCTGT CAGCTAAGCC TTCAATATCT
    ACTAAACTGA TTTCTAAATC CAACCCAACT CCCAAGCCTG CTGTATGCCC ACGTTCTTCT
    AGTCCAAACG CACTAGTAGC CCAGAGTAGC CACTCCACAA GTAACAACCC TGTCCATAAA
    CAGCCCAGTG GAATGAACAT CAGCAGACAG TCTCCCACTC TGAATTTGTT GCCCTCAAAT
    CGCACTTCTG GCCTTCCGAC TACAAAAACT CTTCAGGCCC CTTCTAAACT AACAAACTCA
    TCATCCACTG GAACTGTTGG GAAGAACAGC TTGAGTGGAA TCCCAATGAA TGTACCTGCC
    AGCAGAGGTA GCAACCTTAA CTCAAGTGGA GCTAATAGGA CTAGTCTATC TGGGGGAACA
    GGAAGTGGAA CACAGGGTGC TACTAAACCG TTGTCTACTG CACATAGACC AACCTCTGCC
    TCAGGGTCTT CAGTGGTAAC AGCCAGTGTG CAGTCCACAG CAGGAGCATC ATTATTGGCT
    AATGCCTCAC CTCTGACTCT CATGACATCA CCTTTGTCTG TAACAAATCA AACTGTGACT
    CCTTTTGGGA TGCTGGGTGG CCTTGTTCCA GTGACCATGC CCTTCCAGTT TCCCTTGGAG
    CTACTTGGCT TTGGAACGGA CACAGCTGGA GTGACAGCCA CCTCGGGATC TACCTCAGCG
    GCTCTCCATC ACAGCCTAAC CCAGAATTTA CTAAAGAGTT TACAGCCAGG AGCTCAGCAC
    GCGGCAGCCC TTCCTCACTC TCCTCTGCCT GCACACTTAC AGCAAGCATT TAACGATGGA
    GGCCAAAGTA AAGGGGACAC TAAGTTACCA CGGAAACCTC AGTGA

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

    CloneID OMv03418
    Clone ID Related Accession (Same CDS sequence) XM_021165456.2 , XM_021165456.1
    Accession Version XM_021165456.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3996bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021165456.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGCGGT GCTGGTAAAG
    ACCCTTCCTG TTGGTTCTTT TCCCACTATG CTGAAGGAAT GTAGCCCAAA AAAAGACCCC
    AAAGCTCCTG CATCCGTGGT GGCTTCAGGT GGCGGTCCTT CCACGAGCTC CAGTACATCC
    ATCGTTGCCT CAGCCAGCTC TAGCTCAGCA CCAGCCCAAG AAACCATCTG CCTTGATGAC
    TCCCTCGATG AAGACCTTTC TTTCCCCTCA GCCTCACTGG ATCTTGTATC TGAAGCTCTA
    GCTGTCATCA ACAATGGGAA CAAGGGCCCC TCAGTTGGTT CAAGGCTAAA TGTGCCAACT
    ACAAAACCTC GTCCAGGACT GAGAGAAGAA AAGCTAGCAA GTATCATGAG TAAGTTACCA
    CTGGCTACTC CCAAAAAACT AGATTCTACT CAGACTGCTC ACTCATCAAG TCTTATTGCT
    GGTCACACGG GGCCAGTACC AAAGAAACCC CAGGATTTAG CTCATACTGG TATTTCTTCA
    GGCCTTATTG CTGGTTCTTC AATTCAGAAC CCTAAAGTTT CCTTAGAACC TTTGCCAGCC
    AGGCTACTCC AGCAAGGACT GCAAAGGTCA AGCCAGATAC ATGCTTCTTC CTCTTCACAG
    ACTCATGTCT CCTCCTCCCA AGCCCAAGCT GCTGCCTCCT CTCATGCTCT GGGAACATCA
    GAGGCCCAAG ATGCTTCTTC GTTAACACAA GTCACAAAGG TGCACCAGCA CTCAGCTGTC
    CAGCAGAACT ATGTGTCTCC ATTGCAAGCC ACCATTAGTA AATCACAGAC CAACCCAGTG
    GTGAAATTAA GTAATAACCC CCAACTTTCC TGTTCGTCCC AACTACTCAA GACTTCAGAT
    AAGCCACTGA TGTATCGCCT CCCTTTGTCT ACCCCATCAC CTGGAAATGG TTCTCAGGGG
    CCCCACCCCC TAGTTTCTAG GACAGCACCG AGTACCACTA CCTCCAGTAA CTATTTAGCC
    AAGGCTATGG TGTCACAAAT CTCCACGCAG GGTTTCAAAT CTCCCTTCTC AATGGCTGCA
    TCTCCCAAAC TTGCCGCATC TCCCAAACCT GCCACATCTC CCAAACCTTT GCCCTCACCT
    AAGCCTTCTG TTTCACCCAA GCCCTCTCTG TCAGCTAAGC CTTCAATATC TACTAAACTG
    ATTTCTAAAT CCAACCCAAC TCCCAAGCCT GCTGTATGCC CACGTTCTTC TAGTCCAAAC
    GCACTAGTAG CCCAGAGTAG CCACTCCACA AGTAACAACC CTGTCCATAA ACAGCCCAGT
    GGAATGAACA TCAGCAGACA GTCTCCCACT CTGAATTTGT TGCCCTCAAA TCGCACTTCT
    GGCCTTCCGA CTACAAAAAC TCTTCAGGCC CCTTCTAAAC TAACAAACTC ATCATCCACT
    GGAACTGTTG GGAAGAACAG CTTGAGTGGA ATCCCAATGA ATGTACCTGC CAGCAGAGGT
    AGCAACCTTA ACTCAAGTGG AGCTAATAGG ACTAGTCTAT CTGGGGGAAC AGGAAGTGGA
    ACACAGGGTG CTACTAAACC GTTGTCTACT GCACATAGAC CAACCTCTGC CTCAGGGTCT
    TCAGTGGTAA CAGCCAGTGT GCAGTCCACA GCAGGAGCAT CATTATTGGC TAATGCCTCA
    CCTCTGACTC TCATGACATC ACCTTTGTCT GTAACAAATC AAACTGTGAC TCCTTTTGGG
    ATGCTGGGTG GCCTTGTTCC AGTGACCATG CCCTTCCAGT TTCCCTTGGA GCTACTTGGC
    TTTGGAACGG ACACAGCTGG AGTGACAGCC ACCTCGGGAT CTACCTCAGC GGCTCTCCAT
    CACAGCCTAA CCCAGAATTT ACTAAAGAGT TTACAGCCAG GAGCTCAGCA CGCGGCAGCC
    CTTCCTCACT CTCCTCTGCC TGCACACTTA CAGCAAGCAT TTAACGATGG AGGCCAAAGT
    AAAGGGGACA CTAAGTTACC ACGGAAACCT CAGTGA

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

    RefSeq XP_021021115.1
    CDS240..4235
    Translation

    Target ORF information:

    RefSeq Version XM_021165456.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021165456.2

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGCGGT GCTGGTAAAG
    ACCCTTCCTG TTGGTTCTTT TCCCACTATG CTGAAGGAAT GTAGCCCAAA AAAAGACCCC
    AAAGCTCCTG CATCCGTGGT GGCTTCAGGT GGCGGTCCTT CCACGAGCTC CAGTACATCC
    ATCGTTGCCT CAGCCAGCTC TAGCTCAGCA CCAGCCCAAG AAACCATCTG CCTTGATGAC
    TCCCTCGATG AAGACCTTTC TTTCCCCTCA GCCTCACTGG ATCTTGTATC TGAAGCTCTA
    GCTGTCATCA ACAATGGGAA CAAGGGCCCC TCAGTTGGTT CAAGGCTAAA TGTGCCAACT
    ACAAAACCTC GTCCAGGACT GAGAGAAGAA AAGCTAGCAA GTATCATGAG TAAGTTACCA
    CTGGCTACTC CCAAAAAACT AGATTCTACT CAGACTGCTC ACTCATCAAG TCTTATTGCT
    GGTCACACGG GGCCAGTACC AAAGAAACCC CAGGATTTAG CTCATACTGG TATTTCTTCA
    GGCCTTATTG CTGGTTCTTC AATTCAGAAC CCTAAAGTTT CCTTAGAACC TTTGCCAGCC
    AGGCTACTCC AGCAAGGACT GCAAAGGTCA AGCCAGATAC ATGCTTCTTC CTCTTCACAG
    ACTCATGTCT CCTCCTCCCA AGCCCAAGCT GCTGCCTCCT CTCATGCTCT GGGAACATCA
    GAGGCCCAAG ATGCTTCTTC GTTAACACAA GTCACAAAGG TGCACCAGCA CTCAGCTGTC
    CAGCAGAACT ATGTGTCTCC ATTGCAAGCC ACCATTAGTA AATCACAGAC CAACCCAGTG
    GTGAAATTAA GTAATAACCC CCAACTTTCC TGTTCGTCCC AACTACTCAA GACTTCAGAT
    AAGCCACTGA TGTATCGCCT CCCTTTGTCT ACCCCATCAC CTGGAAATGG TTCTCAGGGG
    CCCCACCCCC TAGTTTCTAG GACAGCACCG AGTACCACTA CCTCCAGTAA CTATTTAGCC
    AAGGCTATGG TGTCACAAAT CTCCACGCAG GGTTTCAAAT CTCCCTTCTC AATGGCTGCA
    TCTCCCAAAC TTGCCGCATC TCCCAAACCT GCCACATCTC CCAAACCTTT GCCCTCACCT
    AAGCCTTCTG TTTCACCCAA GCCCTCTCTG TCAGCTAAGC CTTCAATATC TACTAAACTG
    ATTTCTAAAT CCAACCCAAC TCCCAAGCCT GCTGTATGCC CACGTTCTTC TAGTCCAAAC
    GCACTAGTAG CCCAGAGTAG CCACTCCACA AGTAACAACC CTGTCCATAA ACAGCCCAGT
    GGAATGAACA TCAGCAGACA GTCTCCCACT CTGAATTTGT TGCCCTCAAA TCGCACTTCT
    GGCCTTCCGA CTACAAAAAC TCTTCAGGCC CCTTCTAAAC TAACAAACTC ATCATCCACT
    GGAACTGTTG GGAAGAACAG CTTGAGTGGA ATCCCAATGA ATGTACCTGC CAGCAGAGGT
    AGCAACCTTA ACTCAAGTGG AGCTAATAGG ACTAGTCTAT CTGGGGGAAC AGGAAGTGGA
    ACACAGGGTG CTACTAAACC GTTGTCTACT GCACATAGAC CAACCTCTGC CTCAGGGTCT
    TCAGTGGTAA CAGCCAGTGT GCAGTCCACA GCAGGAGCAT CATTATTGGC TAATGCCTCA
    CCTCTGACTC TCATGACATC ACCTTTGTCT GTAACAAATC AAACTGTGAC TCCTTTTGGG
    ATGCTGGGTG GCCTTGTTCC AGTGACCATG CCCTTCCAGT TTCCCTTGGA GCTACTTGGC
    TTTGGAACGG ACACAGCTGG AGTGACAGCC ACCTCGGGAT CTACCTCAGC GGCTCTCCAT
    CACAGCCTAA CCCAGAATTT ACTAAAGAGT TTACAGCCAG GAGCTCAGCA CGCGGCAGCC
    CTTCCTCACT CTCCTCTGCC TGCACACTTA CAGCAAGCAT TTAACGATGG AGGCCAAAGT
    AAAGGGGACA CTAAGTTACC ACGGAAACCT CAGTGA

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

    CloneID OMv03418
    Clone ID Related Accession (Same CDS sequence) XM_021165456.2 , XM_021165456.1
    Accession Version XM_021165456.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3996bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product ubinuclein-2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli 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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGCGGT GCTGGTAAAG
    ACCCTTCCTG TTGGTTCTTT TCCCACTATG CTGAAGGAAT GTAGCCCAAA AAAAGACCCC
    AAAGCTCCTG CATCCGTGGT GGCTTCAGGT GGCGGTCCTT CCACGAGCTC CAGTACATCC
    ATCGTTGCCT CAGCCAGCTC TAGCTCAGCA CCAGCCCAAG AAACCATCTG CCTTGATGAC
    TCCCTCGATG AAGACCTTTC TTTCCCCTCA GCCTCACTGG ATCTTGTATC TGAAGCTCTA
    GCTGTCATCA ACAATGGGAA CAAGGGCCCC TCAGTTGGTT CAAGGCTAAA TGTGCCAACT
    ACAAAACCTC GTCCAGGACT GAGAGAAGAA AAGCTAGCAA GTATCATGAG TAAGTTACCA
    CTGGCTACTC CCAAAAAACT AGATTCTACT CAGACTGCTC ACTCATCAAG TCTTATTGCT
    GGTCACACGG GGCCAGTACC AAAGAAACCC CAGGATTTAG CTCATACTGG TATTTCTTCA
    GGCCTTATTG CTGGTTCTTC AATTCAGAAC CCTAAAGTTT CCTTAGAACC TTTGCCAGCC
    AGGCTACTCC AGCAAGGACT GCAAAGGTCA AGCCAGATAC ATGCTTCTTC CTCTTCACAG
    ACTCATGTCT CCTCCTCCCA AGCCCAAGCT GCTGCCTCCT CTCATGCTCT GGGAACATCA
    GAGGCCCAAG ATGCTTCTTC GTTAACACAA GTCACAAAGG TGCACCAGCA CTCAGCTGTC
    CAGCAGAACT ATGTGTCTCC ATTGCAAGCC ACCATTAGTA AATCACAGAC CAACCCAGTG
    GTGAAATTAA GTAATAACCC CCAACTTTCC TGTTCGTCCC AACTACTCAA GACTTCAGAT
    AAGCCACTGA TGTATCGCCT CCCTTTGTCT ACCCCATCAC CTGGAAATGG TTCTCAGGGG
    CCCCACCCCC TAGTTTCTAG GACAGCACCG AGTACCACTA CCTCCAGTAA CTATTTAGCC
    AAGGCTATGG TGTCACAAAT CTCCACGCAG GGTTTCAAAT CTCCCTTCTC AATGGCTGCA
    TCTCCCAAAC TTGCCGCATC TCCCAAACCT GCCACATCTC CCAAACCTTT GCCCTCACCT
    AAGCCTTCTG TTTCACCCAA GCCCTCTCTG TCAGCTAAGC CTTCAATATC TACTAAACTG
    ATTTCTAAAT CCAACCCAAC TCCCAAGCCT GCTGTATGCC CACGTTCTTC TAGTCCAAAC
    GCACTAGTAG CCCAGAGTAG CCACTCCACA AGTAACAACC CTGTCCATAA ACAGCCCAGT
    GGAATGAACA TCAGCAGACA GTCTCCCACT CTGAATTTGT TGCCCTCAAA TCGCACTTCT
    GGCCTTCCGA CTACAAAAAC TCTTCAGGCC CCTTCTAAAC TAACAAACTC ATCATCCACT
    GGAACTGTTG GGAAGAACAG CTTGAGTGGA ATCCCAATGA ATGTACCTGC CAGCAGAGGT
    AGCAACCTTA ACTCAAGTGG AGCTAATAGG ACTAGTCTAT CTGGGGGAAC AGGAAGTGGA
    ACACAGGGTG CTACTAAACC GTTGTCTACT GCACATAGAC CAACCTCTGC CTCAGGGTCT
    TCAGTGGTAA CAGCCAGTGT GCAGTCCACA GCAGGAGCAT CATTATTGGC TAATGCCTCA
    CCTCTGACTC TCATGACATC ACCTTTGTCT GTAACAAATC AAACTGTGAC TCCTTTTGGG
    ATGCTGGGTG GCCTTGTTCC AGTGACCATG CCCTTCCAGT TTCCCTTGGA GCTACTTGGC
    TTTGGAACGG ACACAGCTGG AGTGACAGCC ACCTCGGGAT CTACCTCAGC GGCTCTCCAT
    CACAGCCTAA CCCAGAATTT ACTAAAGAGT TTACAGCCAG GAGCTCAGCA CGCGGCAGCC
    CTTCCTCACT CTCCTCTGCC TGCACACTTA CAGCAAGCAT TTAACGATGG AGGCCAAAGT
    AAAGGGGACA CTAAGTTACC ACGGAAACCT CAGTGA

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

    RefSeq XP_021021115.1
    CDS312..4307
    Translation

    Target ORF information:

    RefSeq Version XM_021165456.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubinuclein 2 (Ubn2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021165456.1

    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
    ATGGCGGAGC CGCGCAGAGT CGCGTTCATT AGCCTGTCAC CGGTGAGGCG ACGCGAGGCC 
    GACTTCGCGG GCGCCGAGCG CGAGCCCCCC CGACTGGAGC CGCAGCCGTA CCGCGAGCCG
    GCCCGGGCAG AGCCGGCCCC CCGCGCTGAC GCGCAGCCCC CGGCGCGCGA CAAGCCGCTC
    CCCCAGCGCG AGGTCAGCCG CGCCGAGCCG CCCATGGCGC TGCAGCGCGA GCCCCCGCGG
    CCCGAGCCGC CGCCGCCGCC GCTGCCCCTG CAGACTCCCC CTCCGCGGGA GTCGGCTTCC
    CGGGCGGAGC CGCCGCCGCG ACCGCCGAAG GAGACGGTTC GCCTGGAGCT GGTGCTCAAG
    GACCCCACGG ACGAAAGCTG CGTGGAGTTC AGCTACCCGG AGCTGCTGCT GTGCGGAGAA
    CAACGGAAGA AACTTGTTCA TACAGAAGAT CCATTTACTG ATGAGCATAA GGAGAGGCAA
    GAAGTGGAAA TGTTGGCTAA GAAGTTTGAA ATGAAATATG GTGGGAAAGC CCGTAAACAC
    CGGAAGGATC GGCTACAAGA TTTAATTGAT ATAGGCTTTG GCTATGATGA GACAGATCCA
    TTTATTGATA ACTCAGAGGC TTATGACGAA TTAGTCCCTG CTTCTCTAAC AACAAAATAT
    GGAGGCTTCT ATATCAACAC TGGCACTCTG CAGTTCCGCC AAGCTTCAGA CACTGAAGAA
    GATGATTTTA CAGATAACCA AAAGCACAAG CCACCCAAGG TTCCCAAAAT AAAAGAAGAT
    GATATAGAGG TAAAGAAGCG GAAGCGGAAA GAGGAAGGGG AAAAAGAAAA GAAGCCAAGG
    AAAAAAGTAC CCAAGCAACT GGGAGTTGTG GCTCTCAATT CACACAAGTC TGAAAAAAAG
    AAAAAGCGGT ATAAAGATTC CCTTTCTCTG GCTGCCATGA TACGAAAATT TCAAAAAGAG
    AAGGATGCAT TGAAGAAGGA ATCTACCCCT AAAGTCCCAG TGACCCCATC ATCTTCCTCT
    CTGCCTAAGC CCCCTTGTGT CACAACAGCC CTGGGGGATG ACATCCCGGA CTTAGGTCTG
    AACAGTGCTG ATCCAGACCT CCCTATTTTT GTTAGCACAA ATGAACATGA ATTGTTTCGG
    GAAGCTGAAA ATGCCCTAGA GATGCTAGAT GATTTTGACT TTGACAGATT ACTGGATGCT
    ACTTCTGACG GAAGTCCCCT CTCTGAGTCA GGGGGAGAAA ATGGAAATAC CACCCATCCC
    ACCTTCCCCT CTCAGGTTGT GCCCAAGGTG GTACCTACAC TTCCAGATGG TCTCCCCGTG
    CTTCTTGAGA AACGCATTGA GGACCTTCGT GTAGCTGCCA AACTTTTTGA TGAAGAAGGA
    AGGAAAAAAT TCTTTACACA GGACATGAAT AATATTCTTC TGGACATCGA GTTACAGCTA
    CAAGAACTAG GTCCTGTCAT TCGTAGTGGT GTCTACTCCC ATCTTGAAGC ATTTGTGCCA
    TGCAATAAGG AAACACTGGT AAAACGTCTA AAGAAGTTAC ACCTTAATGT TCAGGATGAT
    CGTTTAAGAG AACCTCTACA GAAGCTGAAG CTAGCAGTTA GCAATGTCAT GCCTGAACAG
    CTGTTTAAAT ACCAGGAGGA CTGCCAGGCT CGCAGTCAAG CCAAATGTGC CAAGTTGCAA
    GCAGATGAAG AACGGGAAAA AAATGGATCC GATGATGATG ACGATGAAAA ACCAGGGAAG
    CGAGTCATAG GCCCACGAAA GAAATTCCAC TGGGATGACA CCATCAGAAC TTTGTTATGT
    AACCTTGTTG AGATCAAATT GGGATGCTAT GAATTAGAGC CAAATAAAAG CCAGTCTGCT
    GAGGATTATC TTAAATCCTT CATGGAGACG GAGGTGAAGC CACTGTGGCC TAAGGGCTGG
    ATGCAGGCAA GAATGCTTTT TAAGGAAAGC CGGAGTGTAC ATAATCATCT TACTTCTGCT
    CCGGCAAAGA AAAAGGTGAT TCCTGCATCA AAACCCAAAG TCAAGGCGGT GCTGGTAAAG
    ACCCTTCCTG TTGGTTCTTT TCCCACTATG CTGAAGGAAT GTAGCCCAAA AAAAGACCCC
    AAAGCTCCTG CATCCGTGGT GGCTTCAGGT GGCGGTCCTT CCACGAGCTC CAGTACATCC
    ATCGTTGCCT CAGCCAGCTC TAGCTCAGCA CCAGCCCAAG AAACCATCTG CCTTGATGAC
    TCCCTCGATG AAGACCTTTC TTTCCCCTCA GCCTCACTGG ATCTTGTATC TGAAGCTCTA
    GCTGTCATCA ACAATGGGAA CAAGGGCCCC TCAGTTGGTT CAAGGCTAAA TGTGCCAACT
    ACAAAACCTC GTCCAGGACT GAGAGAAGAA AAGCTAGCAA GTATCATGAG TAAGTTACCA
    CTGGCTACTC CCAAAAAACT AGATTCTACT CAGACTGCTC ACTCATCAAG TCTTATTGCT
    GGTCACACGG GGCCAGTACC AAAGAAACCC CAGGATTTAG CTCATACTGG TATTTCTTCA
    GGCCTTATTG CTGGTTCTTC AATTCAGAAC CCTAAAGTTT CCTTAGAACC TTTGCCAGCC
    AGGCTACTCC AGCAAGGACT GCAAAGGTCA AGCCAGATAC ATGCTTCTTC CTCTTCACAG
    ACTCATGTCT CCTCCTCCCA AGCCCAAGCT GCTGCCTCCT CTCATGCTCT GGGAACATCA
    GAGGCCCAAG ATGCTTCTTC GTTAACACAA GTCACAAAGG TGCACCAGCA CTCAGCTGTC
    CAGCAGAACT ATGTGTCTCC ATTGCAAGCC ACCATTAGTA AATCACAGAC CAACCCAGTG
    GTGAAATTAA GTAATAACCC CCAACTTTCC TGTTCGTCCC AACTACTCAA GACTTCAGAT
    AAGCCACTGA TGTATCGCCT CCCTTTGTCT ACCCCATCAC CTGGAAATGG TTCTCAGGGG
    CCCCACCCCC TAGTTTCTAG GACAGCACCG AGTACCACTA CCTCCAGTAA CTATTTAGCC
    AAGGCTATGG TGTCACAAAT CTCCACGCAG GGTTTCAAAT CTCCCTTCTC AATGGCTGCA
    TCTCCCAAAC TTGCCGCATC TCCCAAACCT GCCACATCTC CCAAACCTTT GCCCTCACCT
    AAGCCTTCTG TTTCACCCAA GCCCTCTCTG TCAGCTAAGC CTTCAATATC TACTAAACTG
    ATTTCTAAAT CCAACCCAAC TCCCAAGCCT GCTGTATGCC CACGTTCTTC TAGTCCAAAC
    GCACTAGTAG CCCAGAGTAG CCACTCCACA AGTAACAACC CTGTCCATAA ACAGCCCAGT
    GGAATGAACA TCAGCAGACA GTCTCCCACT CTGAATTTGT TGCCCTCAAA TCGCACTTCT
    GGCCTTCCGA CTACAAAAAC TCTTCAGGCC CCTTCTAAAC TAACAAACTC ATCATCCACT
    GGAACTGTTG GGAAGAACAG CTTGAGTGGA ATCCCAATGA ATGTACCTGC CAGCAGAGGT
    AGCAACCTTA ACTCAAGTGG AGCTAATAGG ACTAGTCTAT CTGGGGGAAC AGGAAGTGGA
    ACACAGGGTG CTACTAAACC GTTGTCTACT GCACATAGAC CAACCTCTGC CTCAGGGTCT
    TCAGTGGTAA CAGCCAGTGT GCAGTCCACA GCAGGAGCAT CATTATTGGC TAATGCCTCA
    CCTCTGACTC TCATGACATC ACCTTTGTCT GTAACAAATC AAACTGTGAC TCCTTTTGGG
    ATGCTGGGTG GCCTTGTTCC AGTGACCATG CCCTTCCAGT TTCCCTTGGA GCTACTTGGC
    TTTGGAACGG ACACAGCTGG AGTGACAGCC ACCTCGGGAT CTACCTCAGC GGCTCTCCAT
    CACAGCCTAA CCCAGAATTT ACTAAAGAGT TTACAGCCAG GAGCTCAGCA CGCGGCAGCC
    CTTCCTCACT CTCCTCTGCC TGCACACTTA CAGCAAGCAT TTAACGATGG AGGCCAAAGT
    AAAGGGGACA CTAAGTTACC ACGGAAACCT CAGTGA

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