UACA cDNA ORF clone, Canis lupus familiaris(dog)

  • Gene

  • Clones

  • gRNAs

The following UACA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UACA 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
OCe00317 NM_001003112.1
Latest version!
Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OCe28564 XM_005638170.3
Latest version!
Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OCe28565 XM_005638171.3
Latest version!
Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
View Old Accession Versions >>
OCe28565 XM_005638171.2 Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OCe28564 XM_005638170.2 Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
Hide Old Accession Versions >>

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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 OCe00317
    Clone ID Related Accession (Same CDS sequence) NM_001003112.1
    Accession Version NM_001003112.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4167bp)
    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 2019-08-03
    Organism Canis lupus familiaris(dog)
    Product uveal autoantigen with coiled-coil domains and ankyrin repeats
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from X99145.2. ##Evidence-Data-START## Transcript exon combination :: X99145.2 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA103936001, SAMEA103936002 [ECO:0000350] ##Evidence-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
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGTGT
    ACTTCCCCAG GGGTGCCAGC CCACATGCAA AGCAGGTCTA TGTTAAGACC ACTGGAGCTA
    TCATTACCCA ATCAAACCTC ATATTCTGAA AATGACCTCT TAAAGAAAGA GTTAGAAGCA
    ATGAGAACTT TCTGCGAATC AGCCAAACAA GACCGCCTCA AGCTCCAGAA CGAGCTGGCG
    CACAAGGTGG CTGAGTGCAA AGCTTTAGGA CTAGAATGTG AACGCATCAA GGAGGACTCT
    GATGAGCAGA TAAAGCAGTT AGAAGACGCA TTGAAAGATG TGCAGAAGAG AATGTATGAG
    TCGGAAGGTA AAGTAAAACA AATGCAGACA CACTTTCTTG CCCTTAAAGA GCACCTGACC
    AGTGAAGCAG CTATAGGGAA TCACAGACTA ATGGAGGAGC TGAAGGATCA GTTGAAGGAC
    ATGAAAGCGA AATATGAGGG TGCATCAGCA GAAGTGGGAA AACTGCGAAA CCAAATCAAA
    CAAAATGAGC TGCTAGTAGA ACAGTTTAGG AGAGATGAAG GCAAGCTGGT GGAAGAGAAT
    AAGCGATTGC AGAAGGAACT CAGTATGTGT GAAACGGAGC GAGACAAGAA AGGAAGGAGG
    GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA CTCTTAGCAA AGCTGACCTT GTCAGTTCCA
    ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA TTATCAAGCG AAGTAAATGA GAAGGTGAAA
    AAAATTGGAG AGACAGAAAG AGAGTATGAA AAATCACTTA CTGAAATCAG ACAGTTAAGG
    AGAGAGCTTG AGAATTGTAA GGCCAAACTT GCTCAGCATG TCAAGCCAGA GGAGCATGAG
    CAGCTCAAGA GCAGACTGGA GCAAAGAGCA GGAGAACTTG CAAAGAAGGT CACGGAACTC
    ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC GTTGAAAAGG TTTATCTGGA TAATAAGCTC
    CTCAATCAGC AAGTACATAA TTTAACAAGT GAAATAAAAA GTCATTATGT TCCCCTACAA
    GTGAGTGAAG AAATGAAAAA GTCACATGAT GTCACCGTCG AGGAACTGAA GAAACAGCTT
    TTAGATGTCA CGCAAAAATG CGCAGACAAG CAGCTGGAAA TGGAGAAATT GCTGTTGGAA
    AATGACAGTT TAAGTAAGAA CGTTAGCCGC CTAGAAACTG TATTTGTGCC TCCTGAGAAA
    CACCAAAAAG AGGTCACAGC TCTGAAATCC AGCGTCGCTG ACCTCAAACG ACAGCTGTTG
    GAACTGAACA AGAAGTGTGG GGAAGACCGA GAGAAAATAA ACGCCCTCGT GTCGGAAAAC
    ACTAGCTTGA AAAAGACCCT GAGTAATCAG TATGTGCCGG CTAAGACCCA CGAGGAGGTT
    AAGACCGCGC TGAGTGGCAC GCTGGATAAG ACCAATAGAG AATTACTAGA TGCGAAGAAG
    AAATGGGAAG ATCTCAATCA GGAATTTGTA AAAACAAAAG ATGAGAATGA AATCCTCAAA
    AGAAACCTGG AAAACACTCA GAGCCAAATA AAAGCCGAGT ACATCAGCCT CCGTGAGCAT
    GAAGAGAAGA TGAGTGCCAT AAATCAGAAC ATGAAGAGTG TACAGGATAA CAGTGCAGAA
    ATACTGGCCA ACTACAGAAA GGGCCAAGAG GAGATTGTGA CACTACACGC AGAAATTGAA
    GCCCAGAAAA AGGAACTTGA CACCATCCAA GAATGCATTA AGCTCAAATA TGCTCCTATT
    ATCAGCTTCG AAGAGTGCGA GAGAAAATTT AAAGCCACAG AGAAAGAACT AAAAGAACAG
    TTATCGGAGC AGATGCAAAA ATATCACGTC AGGGAAGAAG AGGCCAAGAA GTACAAGCAA
    GAGAATGACA AGTTGAAGAA GGAGATTTTC ACTCTTCAGA AGGATTTAAA AGATAAGAAT
    GTTCTCATCG AGAACTCTCA TGACATGGAA AGAGCACTCA ACAGAAAAGC AGAAGAGCTC
    AACAAACAGT TGAAAGACCT GTTGCAGAAG TACAGTGAGA TAAAGACTGA GAAGGAGAAG
    CTGGTTGACG ACAATGCCAG ACAGACTTCT GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA
    AAGCAACATG TTCCATTGGA ACAAGTTGAG ACCCTGAAAA AATCTCTTAA CAGCACAATT
    GAGCATCTCA AGGAAGAACT GAAGAATAAG CAAAAGTGTT ATGAGAAAGA GCAGCAGACA
    GTGGCCAAAC TGCATCAGAT GCTAGAGAAC CAAAAGAACT CTTCAGTGCC CCTGGGAGAG
    CATCTGCGGG TTAAGGAAGC CTTTGAGAAG GAAGTGGGCA TGATAAAGGC CAGCCTGAGG
    GAAAAGGAAG AAGAAAGCCA AAACAAAACC GAAGAGGTCT CCAAACTGCA GTCTGAGGTT
    CAGGACACAA AACAAGCATT ACAAAAACTA GAGACAAGAG AGGTAGTTGA TTTGTCTAAA
    TATAAAGCAA CAAAAAGTGA TCTGGAGACC CAGATTTCCA ACCTGAATGA AAAACTGGCC
    AATCTGAATC GGAAGTATGA AGAAGCCTGC GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA
    CTGTCTGCCA AAGATGAGAA GGAATTGCTA CATTTCAGCA TTGAGCAAGA AATCAAGGAT
    CAGCAGGAGC GGTGTGATAA GTCCTTAACA ACAATCACAG AGTTACAGAA AAGAATACAG
    GAATCTGCCA AACAGATCGA AGCGAAAGAT AATAAGATAA CAGAACTGCT TAATGATGTG
    GAAAGACTCA AACAGGCACT CAGTGGCCTT TCACAGCTCA CTTCCCCGAG CGGGAGTCCC
    AGCAAGAGGC AGAGCCAGCT GATTGACACC CTGCAGCACC AAGTGAAGTC TCTACAGCAG
    CAGCTGGCTG ACACTGACAG ACAGCACCAA GAGGTGATTG CGATTTATCG GACACACCTT
    CTGAGTGCTG CACAGGGTCA CATGGATGAA GATGTGCAGG CGGCCTTACT CCAGATCATA
    CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    RefSeq NP_001003112.1
    CDS328..4494
    Translation

    Target ORF information:

    RefSeq Version NM_001003112.1
    Organism Canis lupus familiaris(dog)
    Definition Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001003112.1

    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
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGTGT
    ACTTCCCCAG GGGTGCCAGC CCACATGCAA AGCAGGTCTA TGTTAAGACC ACTGGAGCTA
    TCATTACCCA ATCAAACCTC ATATTCTGAA AATGACCTCT TAAAGAAAGA GTTAGAAGCA
    ATGAGAACTT TCTGCGAATC AGCCAAACAA GACCGCCTCA AGCTCCAGAA CGAGCTGGCG
    CACAAGGTGG CTGAGTGCAA AGCTTTAGGA CTAGAATGTG AACGCATCAA GGAGGACTCT
    GATGAGCAGA TAAAGCAGTT AGAAGACGCA TTGAAAGATG TGCAGAAGAG AATGTATGAG
    TCGGAAGGTA AAGTAAAACA AATGCAGACA CACTTTCTTG CCCTTAAAGA GCACCTGACC
    AGTGAAGCAG CTATAGGGAA TCACAGACTA ATGGAGGAGC TGAAGGATCA GTTGAAGGAC
    ATGAAAGCGA AATATGAGGG TGCATCAGCA GAAGTGGGAA AACTGCGAAA CCAAATCAAA
    CAAAATGAGC TGCTAGTAGA ACAGTTTAGG AGAGATGAAG GCAAGCTGGT GGAAGAGAAT
    AAGCGATTGC AGAAGGAACT CAGTATGTGT GAAACGGAGC GAGACAAGAA AGGAAGGAGG
    GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA CTCTTAGCAA AGCTGACCTT GTCAGTTCCA
    ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA TTATCAAGCG AAGTAAATGA GAAGGTGAAA
    AAAATTGGAG AGACAGAAAG AGAGTATGAA AAATCACTTA CTGAAATCAG ACAGTTAAGG
    AGAGAGCTTG AGAATTGTAA GGCCAAACTT GCTCAGCATG TCAAGCCAGA GGAGCATGAG
    CAGCTCAAGA GCAGACTGGA GCAAAGAGCA GGAGAACTTG CAAAGAAGGT CACGGAACTC
    ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC GTTGAAAAGG TTTATCTGGA TAATAAGCTC
    CTCAATCAGC AAGTACATAA TTTAACAAGT GAAATAAAAA GTCATTATGT TCCCCTACAA
    GTGAGTGAAG AAATGAAAAA GTCACATGAT GTCACCGTCG AGGAACTGAA GAAACAGCTT
    TTAGATGTCA CGCAAAAATG CGCAGACAAG CAGCTGGAAA TGGAGAAATT GCTGTTGGAA
    AATGACAGTT TAAGTAAGAA CGTTAGCCGC CTAGAAACTG TATTTGTGCC TCCTGAGAAA
    CACCAAAAAG AGGTCACAGC TCTGAAATCC AGCGTCGCTG ACCTCAAACG ACAGCTGTTG
    GAACTGAACA AGAAGTGTGG GGAAGACCGA GAGAAAATAA ACGCCCTCGT GTCGGAAAAC
    ACTAGCTTGA AAAAGACCCT GAGTAATCAG TATGTGCCGG CTAAGACCCA CGAGGAGGTT
    AAGACCGCGC TGAGTGGCAC GCTGGATAAG ACCAATAGAG AATTACTAGA TGCGAAGAAG
    AAATGGGAAG ATCTCAATCA GGAATTTGTA AAAACAAAAG ATGAGAATGA AATCCTCAAA
    AGAAACCTGG AAAACACTCA GAGCCAAATA AAAGCCGAGT ACATCAGCCT CCGTGAGCAT
    GAAGAGAAGA TGAGTGCCAT AAATCAGAAC ATGAAGAGTG TACAGGATAA CAGTGCAGAA
    ATACTGGCCA ACTACAGAAA GGGCCAAGAG GAGATTGTGA CACTACACGC AGAAATTGAA
    GCCCAGAAAA AGGAACTTGA CACCATCCAA GAATGCATTA AGCTCAAATA TGCTCCTATT
    ATCAGCTTCG AAGAGTGCGA GAGAAAATTT AAAGCCACAG AGAAAGAACT AAAAGAACAG
    TTATCGGAGC AGATGCAAAA ATATCACGTC AGGGAAGAAG AGGCCAAGAA GTACAAGCAA
    GAGAATGACA AGTTGAAGAA GGAGATTTTC ACTCTTCAGA AGGATTTAAA AGATAAGAAT
    GTTCTCATCG AGAACTCTCA TGACATGGAA AGAGCACTCA ACAGAAAAGC AGAAGAGCTC
    AACAAACAGT TGAAAGACCT GTTGCAGAAG TACAGTGAGA TAAAGACTGA GAAGGAGAAG
    CTGGTTGACG ACAATGCCAG ACAGACTTCT GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA
    AAGCAACATG TTCCATTGGA ACAAGTTGAG ACCCTGAAAA AATCTCTTAA CAGCACAATT
    GAGCATCTCA AGGAAGAACT GAAGAATAAG CAAAAGTGTT ATGAGAAAGA GCAGCAGACA
    GTGGCCAAAC TGCATCAGAT GCTAGAGAAC CAAAAGAACT CTTCAGTGCC CCTGGGAGAG
    CATCTGCGGG TTAAGGAAGC CTTTGAGAAG GAAGTGGGCA TGATAAAGGC CAGCCTGAGG
    GAAAAGGAAG AAGAAAGCCA AAACAAAACC GAAGAGGTCT CCAAACTGCA GTCTGAGGTT
    CAGGACACAA AACAAGCATT ACAAAAACTA GAGACAAGAG AGGTAGTTGA TTTGTCTAAA
    TATAAAGCAA CAAAAAGTGA TCTGGAGACC CAGATTTCCA ACCTGAATGA AAAACTGGCC
    AATCTGAATC GGAAGTATGA AGAAGCCTGC GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA
    CTGTCTGCCA AAGATGAGAA GGAATTGCTA CATTTCAGCA TTGAGCAAGA AATCAAGGAT
    CAGCAGGAGC GGTGTGATAA GTCCTTAACA ACAATCACAG AGTTACAGAA AAGAATACAG
    GAATCTGCCA AACAGATCGA AGCGAAAGAT AATAAGATAA CAGAACTGCT TAATGATGTG
    GAAAGACTCA AACAGGCACT CAGTGGCCTT TCACAGCTCA CTTCCCCGAG CGGGAGTCCC
    AGCAAGAGGC AGAGCCAGCT GATTGACACC CTGCAGCACC AAGTGAAGTC TCTACAGCAG
    CAGCTGGCTG ACACTGACAG ACAGCACCAA GAGGTGATTG CGATTTATCG GACACACCTT
    CTGAGTGCTG CACAGGGTCA CATGGATGAA GATGTGCAGG CGGCCTTACT CCAGATCATA
    CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    CloneID OCe28564
    Clone ID Related Accession (Same CDS sequence) XM_005638170.2 , XM_005638170.3
    Accession Version XM_005638170.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2015-09-16
    Organism Canis lupus familiaris(Dog)
    Product uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003726113.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 17, 2015 this sequence version replaced XM_005638170.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Canis lupus familiaris Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    RefSeq XP_005638227.1
    CDS514..4770
    Translation

    Target ORF information:

    RefSeq Version XM_005638170.2
    Organism Canis lupus familiaris(Dog)
    Definition Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005638170.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    CloneID OCe28564
    Clone ID Related Accession (Same CDS sequence) XM_005638170.2 , XM_005638170.3
    Accession Version XM_005638170.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2017-09-04
    Organism Canis lupus familiaris(dog)
    Product uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006612.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 5, 2017 this sequence version replaced XM_005638170.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Canis lupus familiaris Annotation Release 105 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
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    RefSeq XP_005638227.1
    CDS363..4619
    Translation

    Target ORF information:

    RefSeq Version XM_005638170.3
    Organism Canis lupus familiaris(dog)
    Definition Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005638170.3

    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
    ATGCCAAGTA GTTTGCTGCT AGCAACCAGA AACCAAATCC TGTCTATGAT GAACTGTTGG 
    TTTTCTTGTG CTCCCAAGAA CAGACATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    CloneID OCe28565
    Clone ID Related Accession (Same CDS sequence) XM_005638171.2 , XM_005638171.3
    Accession Version XM_005638171.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2015-09-16
    Organism Canis lupus familiaris(Dog)
    Product uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003726113.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 17, 2015 this sequence version replaced XM_005638171.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Canis lupus familiaris Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGAAGAGCC TCAAGTCCCG GCTGAGGAGG CAGGACGCGC CCGGCGCCTC GTCCGGCGCC 
    CCCGCCGCCG CCGCCGCCAG CGCGCATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    RefSeq XP_005638228.1
    CDS91..4347
    Translation

    Target ORF information:

    RefSeq Version XM_005638171.2
    Organism Canis lupus familiaris(Dog)
    Definition Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005638171.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAAGAGCC TCAAGTCCCG GCTGAGGAGG CAGGACGCGC CCGGCGCCTC GTCCGGCGCC 
    CCCGCCGCCG CCGCCGCCAG CGCGCATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    CloneID OCe28565
    Clone ID Related Accession (Same CDS sequence) XM_005638171.2 , XM_005638171.3
    Accession Version XM_005638171.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2017-09-04
    Organism Canis lupus familiaris(dog)
    Product uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006612.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 5, 2017 this sequence version replaced XM_005638171.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Canis lupus familiaris Annotation Release 105 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
    ATGAAGAGCC TCAAGTCCCG GCTGAGGAGG CAGGACGCGC CCGGCGCCTC GTCCGGCGCC 
    CCCGCCGCCG CCGCCGCCAG CGCGCATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

    RefSeq XP_005638228.1
    CDS73..4329
    Translation

    Target ORF information:

    RefSeq Version XM_005638171.3
    Organism Canis lupus familiaris(dog)
    Definition Canis lupus familiaris uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005638171.3

    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
    ATGAAGAGCC TCAAGTCCCG GCTGAGGAGG CAGGACGCGC CCGGCGCCTC GTCCGGCGCC 
    CCCGCCGCCG CCGCCGCCAG CGCGCATGCA GCAGATTGGA ACAAATATGA TGACCGATTG
    ATGAAAGCCG CGGAGAGGGG AGATGTAGAA AAAGTTTCCT CAATCCTTGC TAAAAAGGGC
    ATCAATCCAG GCAAACTAGA TGTGGAAGGC AGATCTGCCT TCCATGTTGT GGCCTCAAAG
    GGGAATCTTG AATGTTTGAA TGCCATCCTT ATACATGGAG TTGATATTAC AACCAGTGAC
    ACTGCAGGAA GAAATGCTCT TCACTTGGCT GCAAAGTATG GGCATGCATT GTGTCTACAA
    AAACTTCTAC AGTACAATTG TCCCACTGAA CATGCAGACC TGCAGGGAAG AACCGCACTT
    CATGACGCAG CAATGGCAGA CTGTCCTTCC AGCATACAGC TGCTTTGTGA CCATGGGGCC
    TCCGTGAATG CCAAAGATGT GGATGGGCGG ACACCGCTGG TTCTGGCTAC TCAGATGTGT
    AGGCCAGCAA TCTGTCAACT GCTGATAGAT CGAGGGGCAG AGATTAATTC CAGAGACAAA
    CAAAACAGAA CTGCTCTCAT GCTTGGTTGC GAGTATGGTT GTAAGGATGC TGTAGAAGTC
    TTACTTAAAA ATGGTGCTGA TGTAAGCCTG CTGGATGCCT TGGGCCATGA TAGTTCTTAC
    TATGCAAGAA TTGGTGACAA TCTGGACATT CTAACTTTAT TGAAGACTGC GTCAGAAAAT
    ACCAACAAAG GGAGAGAACT TTGGAAGAAA GGACCATCTT TACAGCAGCG AAATTTGCCG
    TACATGCTAG ATGAAGTAAA TGTGAAGTCA AGTCAGAGGG AGCATCGAAA CATTCAGGAG
    CTGGAGATTG AAAATGAAGA TTTGAAAGAC AGGTTGAGAA AAATTCAGCA AGAACAGAGA
    ATATTACTGG ATAAAGTCAA TGGTTTACAA CTACAGCTGA ATGAGGAAGT GATGGTTGCT
    GATGATCTGG AAAGTGAGAA AGAAAAGCTG AAGTCTCTTT TGGTGGCTAA AGAAAAGCAA
    CATGAAGAAA GCCTAAGAAC TATTGAGTCT CTGAAAAACA GATTTAAATA TTTTGAGAGC
    GATCATTTAG GATCAGGAAG TCATTTTAGT AACCGAAAAG AAGATATGCT TCTCAAACAG
    GGTCAAATGT ACATGACAGA TTCACAGTGT ACTTCCCCAG GGGTGCCAGC CCACATGCAA
    AGCAGGTCTA TGTTAAGACC ACTGGAGCTA TCATTACCCA ATCAAACCTC ATATTCTGAA
    AATGACCTCT TAAAGAAAGA GTTAGAAGCA ATGAGAACTT TCTGCGAATC AGCCAAACAA
    GACCGCCTCA AGCTCCAGAA CGAGCTGGCG CACAAGGTGG CTGAGTGCAA AGCTTTAGGA
    CTAGAATGTG AACGCATCAA GGAGGACTCT GATGAGCAGA TAAAGCAGTT AGAAGACGCA
    TTGAAAGATG TGCAGAAGAG AATGTATGAG TCGGAAGGTA AAGTAAAACA AATGCAGACA
    CACTTTCTTG CCCTTAAAGA GCACCTGACC AGTGAAGCAG CTATAGGGAA TCACAGACTA
    ATGGAGGAGC TGAAGGATCA GTTGAAGGAC ATGAAAGCGA AATATGAGGG TGCATCAGCA
    GAAGTGGGAA AACTGCGAAA CCAAATCAAA CAAAATGAGC TGCTAGTAGA ACAGTTTAGG
    AGAGATGAAG GCAAGCTGGT GGAAGAGAAT AAGCGATTGC AGAAGGAACT CAGTATGTGT
    GAAACGGAGC GAGACAAGAA AGGAAGGAGG GTTGCTGAGG TGGAAGGCCA GGTAAAGGAA
    CTCTTAGCAA AGCTGACCTT GTCAGTTCCA ACTGAAAAAT TTGAGAGCAT GAAGAGCTTA
    TTATCAAGCG AAGTAAATGA GAAGGTGAAA AAAATTGGAG AGACAGAAAG AGAGTATGAA
    AAATCACTTA CTGAAATCAG ACAGTTAAGG AGAGAGCTTG AGAATTGTAA GGCCAAACTT
    GCTCAGCATG TCAAGCCAGA GGAGCATGAG CAGCTCAAGA GCAGACTGGA GCAAAGAGCA
    GGAGAACTTG CAAAGAAGGT CACGGAACTC ACGTCGAAAA ATCAGGTGTT GCAAAGGGAC
    GTTGAAAAGG TTTATCTGGA TAATAAGCTC CTCAATCAGC AAGTACATAA TTTAACAAGT
    GAAATAAAAA GTCATTATGT TCCCCTACAA GTGAGTGAAG AAATGAAAAA GTCACATGAT
    GTCACCGTCG AGGAACTGAA GAAACAGCTT TTAGATGTCA CGCAAAAATG CGCAGACAAG
    CAGCTGGAAA TGGAGAAATT GCTGTTGGAA AATGACAGTT TAAGTAAGAA CGTTAGCCGC
    CTAGAAACTG TATTTGTGCC TCCTGAGAAA CACCAAAAAG AGGTCACAGC TCTGAAATCC
    AGCGTCGCTG ACCTCAAACG ACAGCTGTTG GAACTGAACA AGAAGTGTGG GGAAGACCGA
    GAGAAAATAA ACGCCCTCGT GTCGGAAAAC ACTAGCTTGA AAAAGACCCT GAGTAATCAG
    TATGTGCCGG CTAAGACCCA CGAGGAGGTT AAGACCGCGC TGAGTGGCAC GCTGGATAAG
    ACCAATAGAG AATTACTAGA TGCGAAGAAG AAATGGGAAG ATCTCAATCA GGAATTTGTA
    AAAACAAAAG ATGAGAATGA AATCCTCAAA AGAAACCTGG AAAACACTCA GAGCCAAATA
    AAAGCCGAGT ACATCAGCCT CCGTGAGCAT GAAGAGAAGA TGAGTGCCAT AAATCAGAAC
    ATGAAGAGTG TACAGGATAA CAGTGCAGAA ATACTGGCCA ACTACAGAAA GGGCCAAGAG
    GAGATTGTGA CACTACACGC AGAAATTGAA GCCCAGAAAA AGGAACTTGA CACCATCCAA
    GAATGCATTA AGCTCAAATA TGCTCCTATT ATCAGCTTCG AAGAGTGCGA GAGAAAATTT
    AAAGCCACAG AGAAAGAACT AAAAGAACAG TTATCGGAGC AGATGCAAAA ATATCACGTC
    AGGGAAGAAG AGGCCAAGAA GTACAAGCAA GAGAATGACA AGTTGAAGAA GGAGATTTTC
    ACTCTTCAGA AGGATTTAAA AGATAAGAAT GTTCTCATCG AGAACTCTCA TGACATGGAA
    AGAGCACTCA ACAGAAAAGC AGAAGAGCTC AACAAACAGT TGAAAGACCT GTTGCAGAAG
    TACAGTGAGA TAAAGACTGA GAAGGAGAAG CTGGTTGACG ACAATGCCAG ACAGACTTCT
    GAGCTTCTTG CAGCCCAGAC CCTTCTGCAA AAGCAACATG TTCCATTGGA ACAAGTTGAG
    ACCCTGAAAA AATCTCTTAA CAGCACAATT GAGCATCTCA AGGAAGAACT GAAGAATAAG
    CAAAAGTGTT ATGAGAAAGA GCAGCAGACA GTGGCCAAAC TGCATCAGAT GCTAGAGAAC
    CAAAAGAACT CTTCAGTGCC CCTGGGAGAG CATCTGCGGG TTAAGGAAGC CTTTGAGAAG
    GAAGTGGGCA TGATAAAGGC CAGCCTGAGG GAAAAGGAAG AAGAAAGCCA AAACAAAACC
    GAAGAGGTCT CCAAACTGCA GTCTGAGGTT CAGGACACAA AACAAGCATT ACAAAAACTA
    GAGACAAGAG AGGTAGTTGA TTTGTCTAAA TATAAAGCAA CAAAAAGTGA TCTGGAGACC
    CAGATTTCCA ACCTGAATGA AAAACTGGCC AATCTGAATC GGAAGTATGA AGAAGCCTGC
    GAGGAGGTGC TGCGTGCCCA AAGGAAGCAA CTGTCTGCCA AAGATGAGAA GGAATTGCTA
    CATTTCAGCA TTGAGCAAGA AATCAAGGAT CAGCAGGAGC GGTGTGATAA GTCCTTAACA
    ACAATCACAG AGTTACAGAA AAGAATACAG GAATCTGCCA AACAGATCGA AGCGAAAGAT
    AATAAGATAA CAGAACTGCT TAATGATGTG GAAAGACTCA AACAGGCACT CAGTGGCCTT
    TCACAGCTCA CTTCCCCGAG TGGGAGTCCC AGCAAGAGGC AGAGCCAGCT GATTGACACC
    CTGCAGCACC AAGTGAAGTC TCTACAGCAG CAGCTGGCTG ACACTGACAG ACAGCACCAA
    GAGGTGATTG CGATTTATCG GACACACCTT CTGAGTGCTG CACAGGGTCA CATGGATGAA
    GATGTGCAGG CGGCCTTACT CCAGATCATA CAGATGAGGC AGGGGCTCGT GTGCTAG

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

  • PubMed

    Genome sequence, comparative analysis and haplotype structure of the domestic dog.
    Nature438(7069)803-19(2005 Dec)
    Lindblad-Toh K,Wade CM,Mikkelsen TS,Karlsson EK,Jaffe DB,Kamal M,Clamp M,Chang JL,Kulbokas EJ 3rd,Zody MC,Mauceli E,Xie X,Breen M,Wayne RK,Ostrander EA,Ponting CP,Galibert F,Smith DR,DeJong PJ,Kirkness E,Alvarez P,Biagi T,Brockman W,Butler J,Chin CW,Cook A,Cuff J,Daly MJ,DeCaprio D,Gnerre S,Grabherr M,Kellis M,Kleber M,Bardeleben C,Goodstadt L,Heger A,Hitte C,Kim L,Koepfli KP,Parker HG,Pollinger JP,Searle SM,Sutter NB,Thomas R,Webber C,Baldwin J,Abebe A,Abouelleil A,Aftuck L,Ait-Zahra M,Aldredge T,Allen N,An P,Anderson S,Antoine C,Arachchi H,Aslam A,Ayotte L,Bachantsang P,Barry A,Bayul T,Benamara M,Berlin A,Bessette D,Blitshteyn B,Bloom T,Blye J,Boguslavskiy L,Bonnet C,Boukhgalter B,Brown A,Cahill P,Calixte N,Camarata J,Cheshatsang Y,Chu J,Citroen M,Collymore A,Cooke P,Dawoe T,Daza R,Decktor K,DeGray S,Dhargay N,Dooley K,Dooley K,Dorje P,Dorjee K,Dorris L,Duffey N,Dupes A,Egbiremolen O,Elong R,Falk J,Farina A,Faro S,Ferguson D,Ferreira P,Fisher S,FitzGerald M,Foley K,Foley C,Franke A,Friedrich D,Gage D,Garber M,Gearin G,Giannoukos G,Goode T,Goyette A,Graham J,Grandbois E,Gyaltsen K,Hafez N,Hagopian D,Hagos B,Hall J,Healy C,Hegarty R,Honan T,Horn A,Houde N,Hughes L,Hunnicutt L,Husby M,Jester B,Jones C,Kamat A,Kanga B,Kells C,Khazanovich D,Kieu AC,Kisner P,Kumar M,Lance K,Landers T,Lara M,Lee W,Leger JP,Lennon N,Leuper L,LeVine S,Liu J,Liu X,Lokyitsang Y,Lokyitsang T,Lui A,Macdonald J,Major J,Marabella R,Maru K,Matthews C,McDonough S,Mehta T,Meldrim J,Melnikov A,Meneus L,Mihalev A,Mihova T,Miller K,Mittelman R,Mlenga V,Mulrain L,Munson G,Navidi A,Naylor J,Nguyen T,Nguyen N,Nguyen C,Nguyen T,Nicol R,Norbu N,Norbu C,Novod N,Nyima T,Olandt P,O'Neill B,O'Neill K,Osman S,Oyono L,Patti C,Perrin D,Phunkhang P,Pierre F,Priest M,Rachupka A,Raghuraman S,Rameau R,Ray V,Raymond C,Rege F,Rise C,Rogers J,Rogov P,Sahalie J,Settipalli S,Sharpe T,Shea T,Sheehan M,Sherpa N,Shi J,Shih D,Sloan J,Smith C,Sparrow T,Stalker J,Stange-Thomann N,Stavropoulos S,Stone C,Stone S,Sykes S,Tchuinga P,Tenzing P,Tesfaye S,Thoulutsang D,Thoulutsang Y,Topham K,Topping I,Tsamla T,Vassiliev H,Venkataraman V,Vo A,Wangchuk T,Wangdi T,Weiand M,Wilkinson J,Wilson A,Yadav S,Yang S,Yang X,Young G,Yu Q,Zainoun J,Zembek L,Zimmer A,Lander ES


    Identification and characterization of novel genes modulated in the thyroid of dogs treated with methimazole and propylthiouracil.
    The Journal of biological chemistry271(45)28451-7(1996 Nov)
    Wilkin F,Savonet V,Radulescu A,Petermans J,Dumont JE,Maenhaut C


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