Col24a1 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Col24a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Col24a1 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
ORa60020 XM_017591402.1
Latest version!
Rattus norvegicus collagen, type XXIV, alpha 1 (Col24a1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
ORa15473 XM_006224304.1
Latest version!
Rattus norvegicus collagen, type XXIV, alpha 1 (Col24a1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ORa60020
    Clone ID Related Accession (Same CDS sequence) XM_017591402.1
    Accession Version XM_017591402.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4047bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product collagen alpha-1(XXIV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005101.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAACGAAG AGGAGAGAAT CAGTCCTCTC TTCCCTGAAT TCAACATCAC CCAACATGAG 
    GAGGCAGCTG GCCTGCCCTC ACCTAAGAAG GCATCATCCA GCATTGCACA GACAAATCAA
    GACACCGTGA CTAACCTCAA GAAGGCTATC ACGGCAAACC TACACACCAA TGAACTCATG
    GAAATGGAAC GGATCTTAAA CAGCACCTTG TATAAAGTGA TACACGGGCC CTCGGTGGAT
    AACCACCTTG AACTAAGGAA GGAAGGTGAA TTTTACCCTG ATGCTACTAA TCCCATGGAA
    AATAGCTATG AGCCCCAGCC TTATGAATAT TACTATTATG AGGATTATAA CGCCATGCTT
    GACCTGGAGT ATCTGAGAGG GCCAAAAGGA GACACTGGAC CTCCCGGTCC CCCTGGTCCG
    ATGGGTATCC CAGGTCCCTC AGGCAAGAGA GGCCCGAGGG GTATTCCGGG ACCACATGGA
    AATCCCGGGC TGCCTGGACT GCCAGGTCCA AAGGGCCCCA AAGGAGATCC TGGACTGTCC
    CCAGGCCAAG CTGCTTCTGG AGAAAAGGGT GACCCAGGTC TTTTGGGGCT AGTGGGGCCC
    CCTGGTTTAC AAGGTGAAAA GGGTCTCAAA GGACACACAG GGCTCCCCGG ACTCCGCGGT
    GAACAAGGAA TTCCGGGACT CGCTGGTAAT GTTGGCTCGC CTGGCTACCC TGGCAGGCAG
    GGTTTAGCTG GACCAGAGGG TAACCCAGGC TCCAAAGGTG TCCGAGGTTT CATTGGCTCT
    CCTGGAGAGG CGGGACAGCT GGGACCTGAA GGAGAAAGGG GCACTCCTGG GGTCCGTGGG
    AAGAAGGGTC CAAAGGGGAG ACAGGGTTTC CCAGGTGACT TTGGAGACAG AGGCCCTGCT
    GGTCTGGATG GCAGTCCTGG TCTTGTAGGT GGCATCGGAC CTCCCGGCTT TCCAGGCATT
    AGAGGAAATG TCGGTCCTGC AGGACCCGTT GGACCTCCGG GAGTTCCTGG CCCAATGGGC
    CTTTCAGGAA GTAGAGGACC ACCTGGAATC AAAGGTGATA AGGGTGAGCA AGGTGTGGCA
    GGGGAGCCAG GAGAACCCGG GTATCCTGGA GACAAGGGCG CCATTGGGTC ACCAGGACCA
    CCAGGGATTA GAGGAAAGTC GGGACCTTCA GGACAACCAG GTGACCCAGG ACCACAGGGA
    CCAACTGGGC CTCCAGGACC AGAGGGTTTT CCAGGAGACA TTGGGATTCC TGGACAAAAT
    GGACCTGAAG GACCAAAGGG ACATCTTGGA AGCAGAGGGC CCCCTGGGCC TCCAGGTCTC
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGACCCTTTG GAGAACTGGG ATCTAGGGGA
    AAACCAGGTC GAAAAGGGTA TATGGGTGAA CCAGGGCCAG AAGGCTTAAA GGGAGAAACG
    GGAGACCAAG GAGATATTGG GAAAATTGGC GAAACAGGAC CTGTTGGTTT ACCTGGAGAA
    GTAGGGATAA CCGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTTGGT
    CCCCAGGGGG AAAAAGGTGT CATGGGTTAC CCAGGTCCTC CTGGGGCTCC AGGACCCATG
    GGCCCAATTG GATTACCTGG TCTTGTTGGA GCAAGAGGCG CGCCCGGGAG CCCAGGTCCT
    AAAGGACAAA GAGGACCCAG AGGACCAGAT GGCCTCGCAG GGGATCAAGG TGGACATGGT
    GCCAAGGGTG AAAAAGGAAA CCAAGGGAAA AGAGGGCTTC CTGGTCGTGC CGGTAAGACT
    GGAAGCCCTG GGGAGAGGGG AGTTCAAGGA AAACCAGGCT TACAAGGACT CCCCGGCAGC
    TCAGGAGACA TGGGGCCTGC CGGAGAACCA GGGCCGCGAG GACTGCCTGG TGATGCTGGA
    CTTCCTGGAG AGATGGGTGT GGAGGGACCT CCGGGCACTG AGGGCGACTC TGGCCTGCAA
    GGTGAACCAG GTGCTAAGGG AGATGTTGGA CCTACCGGCA GCGAGGGAGC CACTGGGGAG
    CCAGGGCCGC GAGGAGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAAGG AAAAGATGGA
    TTAAAGGGAG CTCCAGGAGG AAGCGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG
    GGCTTACCAG GAACAGCAGG GCCGGTGGGG AGACCAGGTC AGATGGGCCC TCCAGGATCT
    GAAGGAATTG TGGGAACCCC AGGAGAAAGA GGTCGAACAG GGAAAAAGGG TGATAAAGGA
    CAAACAGGAC CCGTGGGAGA AGCTGGAAGC AGAGGTTCCC CTGGACGCGT TGGGGACAGT
    GGCCCTAAGG GTGCCAGAGG AACTCGAGGT GCTGTGGGTC CATTAGGATT GATGGGACCT
    GAAGGTGAAC CAGGAATCCC AGGATACAGA GGCCTTGAAG GTCAGCCAGG ACCCTCTGGA
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ACAGCACAGT CCTGGGACCT
    CCTGGGCCTC GAGGTGAACC AGGGCCAATG GGGGAGCGAG GAGAGAGAGG GGAGCATGGG
    GAAGAAGGCT ATAAGGGCCA TATGGGTGTC CCAGGACTCA GAGGTGCCGC GGGACAACAA
    GGACCCCCAG GTGAACCAGG TGACCAGGGC GAACAAGGAC TGAAAGGAGA GAGAGGATCT
    GAAGGTCCTC AGGGGAAAAA GGGAGTTCCT GGTCCTTCTG GGAAACCAGG CATTCCCGGT
    CTTCCAGGCC TTCCGGGGCC AAAAGGCTTG CAAGGATATC ATGGAGTCGA CGGCCTATCA
    GGATACCCGG GAAAGCCTGG GCTACTGGGA AAACAAGGAC TTCCGATTGA ATCATCTGTT
    GACCTCAGGG CTTGTCAATG TGTCTACGTG TCTATCGTTC ACGTCTTGGC AGAAGAGTAT
    GGGCCTTTTC TACTAGGAAA AGGTGAACAA GGGTTACCTG GTCAGCCTGG AATCCCAGGC
    CAAAGAGGTC AGCGGGGAAC ACAAGGAGAC CAAGGACGAC GTGGAGAGCC TGGTCTGAAA
    GGGCAGCCTG GAGAACATGG CAATCAAGGT TTGACAGGTT TCCAAGGATT CCCGGGCCCC
    AGGGGTCCAG AGGGGGATGC TGGTATCATT GGCATTGTAG GCCCTAAAGG TCCCGTTGGG
    CAGAGAGGAA ACACTGGCCC TCTTGGCAGA GAAGGGATAA TAGGCCCAAC AGGTGGAACT
    GGACCCAGAG GTGAAAAGGG CTTTAGAGGT GAAACTGGTC CCCAAGGACC AAGAGGTCAA
    CCGGGACCCC CTGGTCCACC TGGAGCGCCC GGTCCACGAA GACAAATGGA TATCAATGCT
    GCTATTGGAG CTCTGATAGA ATCAAATTCT GCCCAGCAGA TGGAGAGTTA CCAGAACACT
    GAAGTGACCT TCCTCAGCCA AGGTACAGAG ATTTCCAAAA CCCTGGCCTA CCTTAGCAGT
    CTCCTGAGCA GCATCAAGAA TCCTCTTGGC ACACGAGAAA ACCCGGCACG GATCTGCAAG
    GATTTGCTGA GCTGTCAGTA TGAGGTTTCG GATGGAAAAT ACTGGATTGA CCCAAATCTT
    GGATGCTCTT CAGATGCCTT TGAGGTTTTC TGCAACTTCA GTGCTGGAGG CCAGACATGT
    GTATCTCCTG TTTCTGTGAC AAAGTTGGAG TTTGGAGTCG GCAAAGTACA GATGAACTTT
    CTTCACTTGC TGAGCTCAGA AGCCACCCAC ATCATCACCC TTCACTGTCT AAACACCCCG
    AGGCGGACCG GCACGCCGGC GGATGGTCCA GAGTTGCCTA TTAGTTTCAA AGGATGGAAT
    GGTCAGATTT TTGAAGAAAA CACTCTACTT GAACCTCAAG TCCTCTCAGA TGACTGCAAG
    ATTCAGGATG GCAGCTGGCA CAAGGCAAAA TTCCTCTTCC ACACCCAGAA TCCTAATCAG
    CTTCCTGTAA CCGAAGTGCA AAATCTTCCT CATCTCAGAA CCGAGCAAAA GCACTACATC
    GAAAGCAGTT CTGTGTGCTT TCTCTAA

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

    RefSeq XP_017446891.1
    CDS1..4047
    Translation

    Target ORF information:

    RefSeq Version XM_017591402.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus collagen, type XXIV, alpha 1 (Col24a1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017591402.1

    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
    ATGAACGAAG AGGAGAGAAT CAGTCCTCTC TTCCCTGAAT TCAACATCAC CCAACATGAG 
    GAGGCAGCTG GCCTGCCCTC ACCTAAGAAG GCATCATCCA GCATTGCACA GACAAATCAA
    GACACCGTGA CTAACCTCAA GAAGGCTATC ACGGCAAACC TACACACCAA TGAACTCATG
    GAAATGGAAC GGATCTTAAA CAGCACCTTG TATAAAGTGA TACACGGGCC CTCGGTGGAT
    AACCACCTTG AACTAAGGAA GGAAGGTGAA TTTTACCCTG ATGCTACTAA TCCCATGGAA
    AATAGCTATG AGCCCCAGCC TTATGAATAT TACTATTATG AGGATTATAA CGCCATGCTT
    GACCTGGAGT ATCTGAGAGG GCCAAAAGGA GACACTGGAC CTCCCGGTCC CCCTGGTCCG
    ATGGGTATCC CAGGTCCCTC AGGCAAGAGA GGCCCGAGGG GTATTCCGGG ACCACATGGA
    AATCCCGGGC TGCCTGGACT GCCAGGTCCA AAGGGCCCCA AAGGAGATCC TGGACTGTCC
    CCAGGCCAAG CTGCTTCTGG AGAAAAGGGT GACCCAGGTC TTTTGGGGCT AGTGGGGCCC
    CCTGGTTTAC AAGGTGAAAA GGGTCTCAAA GGACACACAG GGCTCCCCGG ACTCCGCGGT
    GAACAAGGAA TTCCGGGACT CGCTGGTAAT GTTGGCTCGC CTGGCTACCC TGGCAGGCAG
    GGTTTAGCTG GACCAGAGGG TAACCCAGGC TCCAAAGGTG TCCGAGGTTT CATTGGCTCT
    CCTGGAGAGG CGGGACAGCT GGGACCTGAA GGAGAAAGGG GCACTCCTGG GGTCCGTGGG
    AAGAAGGGTC CAAAGGGGAG ACAGGGTTTC CCAGGTGACT TTGGAGACAG AGGCCCTGCT
    GGTCTGGATG GCAGTCCTGG TCTTGTAGGT GGCATCGGAC CTCCCGGCTT TCCAGGCATT
    AGAGGAAATG TCGGTCCTGC AGGACCCGTT GGACCTCCGG GAGTTCCTGG CCCAATGGGC
    CTTTCAGGAA GTAGAGGACC ACCTGGAATC AAAGGTGATA AGGGTGAGCA AGGTGTGGCA
    GGGGAGCCAG GAGAACCCGG GTATCCTGGA GACAAGGGCG CCATTGGGTC ACCAGGACCA
    CCAGGGATTA GAGGAAAGTC GGGACCTTCA GGACAACCAG GTGACCCAGG ACCACAGGGA
    CCAACTGGGC CTCCAGGACC AGAGGGTTTT CCAGGAGACA TTGGGATTCC TGGACAAAAT
    GGACCTGAAG GACCAAAGGG ACATCTTGGA AGCAGAGGGC CCCCTGGGCC TCCAGGTCTC
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGACCCTTTG GAGAACTGGG ATCTAGGGGA
    AAACCAGGTC GAAAAGGGTA TATGGGTGAA CCAGGGCCAG AAGGCTTAAA GGGAGAAACG
    GGAGACCAAG GAGATATTGG GAAAATTGGC GAAACAGGAC CTGTTGGTTT ACCTGGAGAA
    GTAGGGATAA CCGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTTGGT
    CCCCAGGGGG AAAAAGGTGT CATGGGTTAC CCAGGTCCTC CTGGGGCTCC AGGACCCATG
    GGCCCAATTG GATTACCTGG TCTTGTTGGA GCAAGAGGCG CGCCCGGGAG CCCAGGTCCT
    AAAGGACAAA GAGGACCCAG AGGACCAGAT GGCCTCGCAG GGGATCAAGG TGGACATGGT
    GCCAAGGGTG AAAAAGGAAA CCAAGGGAAA AGAGGGCTTC CTGGTCGTGC CGGTAAGACT
    GGAAGCCCTG GGGAGAGGGG AGTTCAAGGA AAACCAGGCT TACAAGGACT CCCCGGCAGC
    TCAGGAGACA TGGGGCCTGC CGGAGAACCA GGGCCGCGAG GACTGCCTGG TGATGCTGGA
    CTTCCTGGAG AGATGGGTGT GGAGGGACCT CCGGGCACTG AGGGCGACTC TGGCCTGCAA
    GGTGAACCAG GTGCTAAGGG AGATGTTGGA CCTACCGGCA GCGAGGGAGC CACTGGGGAG
    CCAGGGCCGC GAGGAGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAAGG AAAAGATGGA
    TTAAAGGGAG CTCCAGGAGG AAGCGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG
    GGCTTACCAG GAACAGCAGG GCCGGTGGGG AGACCAGGTC AGATGGGCCC TCCAGGATCT
    GAAGGAATTG TGGGAACCCC AGGAGAAAGA GGTCGAACAG GGAAAAAGGG TGATAAAGGA
    CAAACAGGAC CCGTGGGAGA AGCTGGAAGC AGAGGTTCCC CTGGACGCGT TGGGGACAGT
    GGCCCTAAGG GTGCCAGAGG AACTCGAGGT GCTGTGGGTC CATTAGGATT GATGGGACCT
    GAAGGTGAAC CAGGAATCCC AGGATACAGA GGCCTTGAAG GTCAGCCAGG ACCCTCTGGA
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ACAGCACAGT CCTGGGACCT
    CCTGGGCCTC GAGGTGAACC AGGGCCAATG GGGGAGCGAG GAGAGAGAGG GGAGCATGGG
    GAAGAAGGCT ATAAGGGCCA TATGGGTGTC CCAGGACTCA GAGGTGCCGC GGGACAACAA
    GGACCCCCAG GTGAACCAGG TGACCAGGGC GAACAAGGAC TGAAAGGAGA GAGAGGATCT
    GAAGGTCCTC AGGGGAAAAA GGGAGTTCCT GGTCCTTCTG GGAAACCAGG CATTCCCGGT
    CTTCCAGGCC TTCCGGGGCC AAAAGGCTTG CAAGGATATC ATGGAGTCGA CGGCCTATCA
    GGATACCCGG GAAAGCCTGG GCTACTGGGA AAACAAGGAC TTCCGATTGA ATCATCTGTT
    GACCTCAGGG CTTGTCAATG TGTCTACGTG TCTATCGTTC ACGTCTTGGC AGAAGAGTAT
    GGGCCTTTTC TACTAGGAAA AGGTGAACAA GGGTTACCTG GTCAGCCTGG AATCCCAGGC
    CAAAGAGGTC AGCGGGGAAC ACAAGGAGAC CAAGGACGAC GTGGAGAGCC TGGTCTGAAA
    GGGCAGCCTG GAGAACATGG CAATCAAGGT TTGACAGGTT TCCAAGGATT CCCGGGCCCC
    AGGGGTCCAG AGGGGGATGC TGGTATCATT GGCATTGTAG GCCCTAAAGG TCCCGTTGGG
    CAGAGAGGAA ACACTGGCCC TCTTGGCAGA GAAGGGATAA TAGGCCCAAC AGGTGGAACT
    GGACCCAGAG GTGAAAAGGG CTTTAGAGGT GAAACTGGTC CCCAAGGACC AAGAGGTCAA
    CCGGGACCCC CTGGTCCACC TGGAGCGCCC GGTCCACGAA GACAAATGGA TATCAATGCT
    GCTATTGGAG CTCTGATAGA ATCAAATTCT GCCCAGCAGA TGGAGAGTTA CCAGAACACT
    GAAGTGACCT TCCTCAGCCA AGGTACAGAG ATTTCCAAAA CCCTGGCCTA CCTTAGCAGT
    CTCCTGAGCA GCATCAAGAA TCCTCTTGGC ACACGAGAAA ACCCGGCACG GATCTGCAAG
    GATTTGCTGA GCTGTCAGTA TGAGGTTTCG GATGGAAAAT ACTGGATTGA CCCAAATCTT
    GGATGCTCTT CAGATGCCTT TGAGGTTTTC TGCAACTTCA GTGCTGGAGG CCAGACATGT
    GTATCTCCTG TTTCTGTGAC AAAGTTGGAG TTTGGAGTCG GCAAAGTACA GATGAACTTT
    CTTCACTTGC TGAGCTCAGA AGCCACCCAC ATCATCACCC TTCACTGTCT AAACACCCCG
    AGGCGGACCG GCACGCCGGC GGATGGTCCA GAGTTGCCTA TTAGTTTCAA AGGATGGAAT
    GGTCAGATTT TTGAAGAAAA CACTCTACTT GAACCTCAAG TCCTCTCAGA TGACTGCAAG
    ATTCAGGATG GCAGCTGGCA CAAGGCAAAA TTCCTCTTCC ACACCCAGAA TCCTAATCAG
    CTTCCTGTAA CCGAAGTGCA AAATCTTCCT CATCTCAGAA CCGAGCAAAA GCACTACATC
    GAAAGCAGTT CTGTGTGCTT TCTCTAA

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

    CloneID ORa15473
    Clone ID Related Accession (Same CDS sequence) XM_006224304.1
    Accession Version XM_006224304.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5091bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product collagen alpha-1(XXIV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000070.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGATTCGTG GAAGTCACCG AGACATTCTT CAGCAACTAG GCCTTGGCGG CAGAGATGTA 
    AGATACGCAT CATCGGTGAC AGCCGTGCCG TCATTGTCCA CACCATTACC TCAGGGGGTC
    CACTTAACGG AATTTGGTGT GGTCTTAACA GACAACGCCT ACATAGAGTC ACCTCTCGTG
    AACATTTTAC CAGTTAGCCT AAGGCAGCCG CTGACAGTGT TGATTGGGTT GCAGTCACTC
    CAAGTGAACA ATGCATTTCT CTTCAGCATT CGGAATAACA ACAGGCTGCA GTTTGGCGTG
    CAGCTCTTAC CTAAGAAACT CATAGTGCAC GTCGGAGGAA AGCGAACAGT AACTTTCGAC
    TACAGCATCC ACGATGAGCG CTGGCACTCA TTGGCCATCA CTGTTGACCA CCGTGTTGTC
    TCCATGTTCG TTGAGTGTGG GAAGAGATAT TTTAGTGGAG AGACTACTTC AGAAGTTCAG
    ACCTTTGACC CTCACAGTGT GTTTACCTTG GGAAGTATGA ATAACAGCTC TGCCCACTTC
    GAAGGAACAG TGTGCCAGTT GGATATTGTG CCTTCTGCAG TGGCATCTGC TGACTATTGC
    AGTCACCTGA AACAACAGTG TCCCCGAACG GATGCATCCC AGGCTGAGAG AAGCCTTTCT
    CATACAGAAG TGGTGCCCAC CAGATACCCT GAGCACACTC CCTTGCCCAG AGGACTTGCA
    GGAACAGAAT TGACACAGAA GAGATTCACA GAGCAGGCTC CCTTCCCCAA AGGATTTGAT
    GAGGCAGAAT TGCCACGGGA GACATTCACG GATGATAGCA AGAGCATTTC AAACAACACA
    GGTAATGGTT CGGCCACAGT CCATGAAAGC CACGAGCACC AGACACCAAG GGTTCGGTTA
    ACCTCTTTCC ATTCAGAAAA CATCTCAGCT GTGACTCTCC CAAGCTACAG AATTCAAGCT
    AAAGAAATCA CCACCAAGGG CGAGACAAAC TTAACCCTGT CAGTGCCGCA TCGTCTCCCT
    AGCGAGGCAG GAATGAACGA AGAGGAGAGA ATCAGTCCTC TCTTCCCTGA ATTCAACATC
    ACCCAACATG AGGAGGCAGC TGGCCTGCCC TCACCTAAGA AGGCATCATC CAGCATTGCA
    CAGACAAATC AAGACACCGT GACTAACCTC AAGAAGGCTA TCACGGCAAA CCTACACACC
    AATGAACTCA TGGAAATGGA ACGGATCTTA AACAGCACCT TGTATAAAGT GATACACGGG
    CCCTCGGTGG ATAACCACCT TGAACTAAGG AAGGAAGGTG AATTTTACCC TGATGCTACT
    AATCCCATGG AAAATAGCTA TGAGCCCCAG CCTTATGAAT ATTACTATTA TGAGGATTAT
    AACGCCATGC TTGACCTGGA GTATCTGAGA GGGCCAAAAG GAGACACTGG ACCTCCCGGT
    CCCCCTGGTC CGATGGGTAT CCCAGGTCCC TCAGGCAAGA GAGGCCCGAG GGGTATTCCG
    GGACCACATG GAAATCCCGG GCTGCCTGGA CTGCCAGGTC CAAAGGGCCC CAAAGGAGAT
    CCTGGACTGT CCCCAGGCCA AGCTGCTTCT GGAGAAAAGG GTGACCCAGG TCTTTTGGGG
    CTAGTGGGGC CCCCTGGTTT ACAAGGTGAA AAGGGTCTCA AAGGACACAC AGGGCTCCCC
    GGACTCCGCG GTGAACAAGG AATTCCGGGA CTCGCTGGTA ATGTTGGCTC GCCTGGCTAC
    CCTGGCAGGC AGGGTTTAGC TGGACCAGAG GGTAACCCAG GCTCCAAAGG TGTCCGAGGT
    TTCATTGGCT CTCCTGGAGA GGCGGGACAG CTGGGACCTG AAGGAGAAAG GGGCACTCCT
    GGGGTCCGTG GGAAGAAGGG TCCAAAGGGG AGACAGGGTT TCCCAGGTGA CTTTGGAGAC
    AGAGGCCCTG CTGGTCTGGA TGGCAGTCCT GGTCTTGTAG GTGGCATCGG ACCTCCCGGC
    TTTCCAGGCA TTAGAGGAAA TGTCGGTCCT GCAGGACCCG TTGGACCTCC GGGAGTTCCT
    GGCCCAATGG GCCTTTCAGG AAGTAGAGGA CCACCTGGAA TCAAAGGTGA TAAGGGTGAG
    CAAGGTGTGG CAGGGGAGCC AGGAGAACCC GGGTATCCTG GAGACAAGGG CGCCATTGGG
    TCACCAGGAC CACCAGGGAT TAGAGGAAAG TCGGGACCTT CAGGACAACC AGGTGACCCA
    GGACCACAGG GACCAACTGG GCCTCCAGGA CCAGAGGGTT TTCCAGGAGA CATTGGGATT
    CCTGGACAAA ATGGACCTGA AGGACCAAAG GGACATCTTG GAAGCAGAGG GCCCCCTGGG
    CCTCCAGGTC TCAAAGGAAC TCAGGGAGAA GAAGGACCAA TTGGACCCTT TGGAGAACTG
    GGATCTAGGG GAAAACCAGG TCGAAAAGGG TATATGGGTG AACCAGGGCC AGAAGGCTTA
    AAGGGAGAAA CGGGAGACCA AGGAGATATT GGGAAAATTG GCGAAACAGG ACCTGTTGGT
    TTACCTGGAG AAGTAGGGAT AACCGGAAGC ATTGGCGAAA AGGGAGAACG TGGAAGTCCA
    GGCCCACTTG GTCCCCAGGG GGAAAAAGGT GTCATGGGTT ACCCAGGTCC TCCTGGGGCT
    CCAGGACCCA TGGGCCCAAT TGGATTACCT GGTCTTGTTG GAGCAAGAGG CGCGCCCGGG
    AGCCCAGGTC CTAAAGGACA AAGAGGACCC AGAGGACCAG ATGGCCTCGC AGGGGATCAA
    GGTGGACATG GTGCCAAGGG TGAAAAAGGA AACCAAGGGA AAAGAGGGCT TCCTGGTCGT
    GCCGGTAAGA CTGGAAGCCC TGGGGAGAGG GGAGTTCAAG GAAAACCAGG CTTACAAGGA
    CTCCCCGGCA GCTCAGGAGA CATGGGGCCT GCCGGAGAAC CAGGGCCGCG AGGACTGCCT
    GGTGATGCTG GACTTCCTGG AGAGATGGGT GTGGAGGGAC CTCCGGGCAC TGAGGGCGAC
    TCTGGCCTGC AAGGTGAACC AGGTGCTAAG GGAGATGTTG GACCTACCGG CAGCGAGGGA
    GCCACTGGGG AGCCAGGGCC GCGAGGAGAA CCAGGAGCTC CTGGAGAAGA AGGTCTCCAA
    GGAAAAGATG GATTAAAGGG AGCTCCAGGA GGAAGCGGAC TTCCTGGAGA GGATGGAGAA
    AAAGGAGAGA TGGGCTTACC AGGAACAGCA GGGCCGGTGG GGAGACCAGG TCAGATGGGC
    CCTCCAGGAT CTGAAGGAAT TGTGGGAACC CCAGGAGAAA GAGGTCGAAC AGGGAAAAAG
    GGTGATAAAG GACAAACAGG ACCCGTGGGA GAAGCTGGAA GCAGAGGTTC CCCTGGACGC
    GTTGGGGACA GTGGCCCTAA GGGTGCCAGA GGAACTCGAG GTGCTGTGGG TCCATTAGGA
    TTGATGGGAC CTGAAGGTGA ACCAGGAATC CCAGGATACA GAGGCCTTGA AGGTCAGCCA
    GGACCCTCTG GATTGCCAGG ACCTAAAGGA GAAAAGGGCT ACCCAGGAGA AGACAGCACA
    GTCCTGGGAC CTCCTGGGCC TCGAGGTGAA CCAGGGCCAA TGGGGGAGCG AGGAGAGAGA
    GGGGAGCATG GGGAAGAAGG CTATAAGGGC CATATGGGTG TCCCAGGACT CAGAGGTGCC
    GCGGGACAAC AAGGACCCCC AGGTGAACCA GGTGACCAGG GCGAACAAGG ACTGAAAGGA
    GAGAGAGGAT CTGAAGGTCC TCAGGGGAAA AAGGGAGTTC CTGGTCCTTC TGGGAAACCA
    GGCATTCCCG GTCTTCCAGG CCTTCCGGGG CCAAAAGGCT TGCAAGGATA TCATGGAGTC
    GACGGCCTAT CAGGATACCC GGGAAAGCCT GGGCTACTGG GAAAACAAGG ACTTCCGGGC
    ACCACGGGCA GCCCAGGAAG AACAGGACTG GCTGGATCCC CAGGTCCTCA GGGAGGAAAG
    GGTTCATCAG GCCCTCCGGG AAGCCCTGGT GTTCCGGGCC CAAAGGGTGA ACAAGGGTTA
    CCTGGTCAGC CTGGAATCCC AGGCCAAAGA GGTCAGCGGG GAACACAAGG AGACCAAGGA
    CGACGTGGAG AGCCTGGTCT GAAAGGGCAG CCTGGAGAAC ATGGCAATCA AGGTTTGACA
    GGTTTCCAAG GATTCCCGGG CCCCAGGGGT CCAGAGGGGG ATGCTGGTAT CATTGGCATT
    GTAGGCCCTA AAGGTCCCGT TGGGCAGAGA GGAAACACTG GCCCTCTTGG CAGAGAAGGG
    ATAATAGGCC CAACAGGTGG AACTGGACCC AGAGGTGAAA AGGGCTTTAG AGGTGAAACT
    GGTCCCCAAG GACCAAGAGG TCAACCGGGA CCCCCTGGTC CACCTGGAGC GCCCGGTCCA
    CGAAGACAAA TGGATATCAA TGCTGCTATT GGAGCTCTGA TAGAATCAAA TTCTGCCCAG
    CAGATGGAGA GTTACCAGAA CACTGAAGTG ACCTTCCTCA GCCAAGGTAC AGAGATTTCC
    AAAACCCTGG CCTACCTTAG CAGTCTCCTG AGCAGCATCA AGAATCCTCT TGGCACACGA
    GAAAACCCGG CACGGATCTG CAAGGATTTG CTGAGCTGTC AGTATGAGGT TTCGGATGGA
    AAATACTGGA TTGACCCAAA TCTTGGATGC TCTTCAGATG CCTTTGAGGT TTTCTGCAAC
    TTCAGTGCTG GAGGCCAGAC ATGTGTATCT CCTGTTTCTG TGACAAAGTT GGAGTTTGGA
    GTCGGCAAAG TACAGATGAA CTTTCTTCAC TTGCTGAGCT CAGAAGCCAC CCACATCATC
    ACCCTTCACT GTCTAAACAC CCCGAGGCGG ACCGGCACGC CGGCGGATGG TCCAGAGTTG
    CCTATTAGTT TCAAAGGATG GAATGGTCAG ATTTTTGAAG AAAACACTCT ACTTGAACCT
    CAAGTCCTCT CAGATGACTG CAAGATTCAG GATGGCAGCT GGCACAAGGC AAAATTCCTC
    TTCCACACCC AGAATCCTAA TCAGCTTCCT GTAACCGAAG TGCAAAATCT TCCTCATCTC
    AGAACCGAGC AAAAGCACTA CATCGAAAGC AGTTCTGTGT GCTTTCTCTA A

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

    RefSeq XP_006224366.1
    CDS1..5091
    Translation

    Target ORF information:

    RefSeq Version XM_006224304.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus collagen, type XXIV, alpha 1 (Col24a1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006224304.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGATTCGTG GAAGTCACCG AGACATTCTT CAGCAACTAG GCCTTGGCGG CAGAGATGTA 
    AGATACGCAT CATCGGTGAC AGCCGTGCCG TCATTGTCCA CACCATTACC TCAGGGGGTC
    CACTTAACGG AATTTGGTGT GGTCTTAACA GACAACGCCT ACATAGAGTC ACCTCTCGTG
    AACATTTTAC CAGTTAGCCT AAGGCAGCCG CTGACAGTGT TGATTGGGTT GCAGTCACTC
    CAAGTGAACA ATGCATTTCT CTTCAGCATT CGGAATAACA ACAGGCTGCA GTTTGGCGTG
    CAGCTCTTAC CTAAGAAACT CATAGTGCAC GTCGGAGGAA AGCGAACAGT AACTTTCGAC
    TACAGCATCC ACGATGAGCG CTGGCACTCA TTGGCCATCA CTGTTGACCA CCGTGTTGTC
    TCCATGTTCG TTGAGTGTGG GAAGAGATAT TTTAGTGGAG AGACTACTTC AGAAGTTCAG
    ACCTTTGACC CTCACAGTGT GTTTACCTTG GGAAGTATGA ATAACAGCTC TGCCCACTTC
    GAAGGAACAG TGTGCCAGTT GGATATTGTG CCTTCTGCAG TGGCATCTGC TGACTATTGC
    AGTCACCTGA AACAACAGTG TCCCCGAACG GATGCATCCC AGGCTGAGAG AAGCCTTTCT
    CATACAGAAG TGGTGCCCAC CAGATACCCT GAGCACACTC CCTTGCCCAG AGGACTTGCA
    GGAACAGAAT TGACACAGAA GAGATTCACA GAGCAGGCTC CCTTCCCCAA AGGATTTGAT
    GAGGCAGAAT TGCCACGGGA GACATTCACG GATGATAGCA AGAGCATTTC AAACAACACA
    GGTAATGGTT CGGCCACAGT CCATGAAAGC CACGAGCACC AGACACCAAG GGTTCGGTTA
    ACCTCTTTCC ATTCAGAAAA CATCTCAGCT GTGACTCTCC CAAGCTACAG AATTCAAGCT
    AAAGAAATCA CCACCAAGGG CGAGACAAAC TTAACCCTGT CAGTGCCGCA TCGTCTCCCT
    AGCGAGGCAG GAATGAACGA AGAGGAGAGA ATCAGTCCTC TCTTCCCTGA ATTCAACATC
    ACCCAACATG AGGAGGCAGC TGGCCTGCCC TCACCTAAGA AGGCATCATC CAGCATTGCA
    CAGACAAATC AAGACACCGT GACTAACCTC AAGAAGGCTA TCACGGCAAA CCTACACACC
    AATGAACTCA TGGAAATGGA ACGGATCTTA AACAGCACCT TGTATAAAGT GATACACGGG
    CCCTCGGTGG ATAACCACCT TGAACTAAGG AAGGAAGGTG AATTTTACCC TGATGCTACT
    AATCCCATGG AAAATAGCTA TGAGCCCCAG CCTTATGAAT ATTACTATTA TGAGGATTAT
    AACGCCATGC TTGACCTGGA GTATCTGAGA GGGCCAAAAG GAGACACTGG ACCTCCCGGT
    CCCCCTGGTC CGATGGGTAT CCCAGGTCCC TCAGGCAAGA GAGGCCCGAG GGGTATTCCG
    GGACCACATG GAAATCCCGG GCTGCCTGGA CTGCCAGGTC CAAAGGGCCC CAAAGGAGAT
    CCTGGACTGT CCCCAGGCCA AGCTGCTTCT GGAGAAAAGG GTGACCCAGG TCTTTTGGGG
    CTAGTGGGGC CCCCTGGTTT ACAAGGTGAA AAGGGTCTCA AAGGACACAC AGGGCTCCCC
    GGACTCCGCG GTGAACAAGG AATTCCGGGA CTCGCTGGTA ATGTTGGCTC GCCTGGCTAC
    CCTGGCAGGC AGGGTTTAGC TGGACCAGAG GGTAACCCAG GCTCCAAAGG TGTCCGAGGT
    TTCATTGGCT CTCCTGGAGA GGCGGGACAG CTGGGACCTG AAGGAGAAAG GGGCACTCCT
    GGGGTCCGTG GGAAGAAGGG TCCAAAGGGG AGACAGGGTT TCCCAGGTGA CTTTGGAGAC
    AGAGGCCCTG CTGGTCTGGA TGGCAGTCCT GGTCTTGTAG GTGGCATCGG ACCTCCCGGC
    TTTCCAGGCA TTAGAGGAAA TGTCGGTCCT GCAGGACCCG TTGGACCTCC GGGAGTTCCT
    GGCCCAATGG GCCTTTCAGG AAGTAGAGGA CCACCTGGAA TCAAAGGTGA TAAGGGTGAG
    CAAGGTGTGG CAGGGGAGCC AGGAGAACCC GGGTATCCTG GAGACAAGGG CGCCATTGGG
    TCACCAGGAC CACCAGGGAT TAGAGGAAAG TCGGGACCTT CAGGACAACC AGGTGACCCA
    GGACCACAGG GACCAACTGG GCCTCCAGGA CCAGAGGGTT TTCCAGGAGA CATTGGGATT
    CCTGGACAAA ATGGACCTGA AGGACCAAAG GGACATCTTG GAAGCAGAGG GCCCCCTGGG
    CCTCCAGGTC TCAAAGGAAC TCAGGGAGAA GAAGGACCAA TTGGACCCTT TGGAGAACTG
    GGATCTAGGG GAAAACCAGG TCGAAAAGGG TATATGGGTG AACCAGGGCC AGAAGGCTTA
    AAGGGAGAAA CGGGAGACCA AGGAGATATT GGGAAAATTG GCGAAACAGG ACCTGTTGGT
    TTACCTGGAG AAGTAGGGAT AACCGGAAGC ATTGGCGAAA AGGGAGAACG TGGAAGTCCA
    GGCCCACTTG GTCCCCAGGG GGAAAAAGGT GTCATGGGTT ACCCAGGTCC TCCTGGGGCT
    CCAGGACCCA TGGGCCCAAT TGGATTACCT GGTCTTGTTG GAGCAAGAGG CGCGCCCGGG
    AGCCCAGGTC CTAAAGGACA AAGAGGACCC AGAGGACCAG ATGGCCTCGC AGGGGATCAA
    GGTGGACATG GTGCCAAGGG TGAAAAAGGA AACCAAGGGA AAAGAGGGCT TCCTGGTCGT
    GCCGGTAAGA CTGGAAGCCC TGGGGAGAGG GGAGTTCAAG GAAAACCAGG CTTACAAGGA
    CTCCCCGGCA GCTCAGGAGA CATGGGGCCT GCCGGAGAAC CAGGGCCGCG AGGACTGCCT
    GGTGATGCTG GACTTCCTGG AGAGATGGGT GTGGAGGGAC CTCCGGGCAC TGAGGGCGAC
    TCTGGCCTGC AAGGTGAACC AGGTGCTAAG GGAGATGTTG GACCTACCGG CAGCGAGGGA
    GCCACTGGGG AGCCAGGGCC GCGAGGAGAA CCAGGAGCTC CTGGAGAAGA AGGTCTCCAA
    GGAAAAGATG GATTAAAGGG AGCTCCAGGA GGAAGCGGAC TTCCTGGAGA GGATGGAGAA
    AAAGGAGAGA TGGGCTTACC AGGAACAGCA GGGCCGGTGG GGAGACCAGG TCAGATGGGC
    CCTCCAGGAT CTGAAGGAAT TGTGGGAACC CCAGGAGAAA GAGGTCGAAC AGGGAAAAAG
    GGTGATAAAG GACAAACAGG ACCCGTGGGA GAAGCTGGAA GCAGAGGTTC CCCTGGACGC
    GTTGGGGACA GTGGCCCTAA GGGTGCCAGA GGAACTCGAG GTGCTGTGGG TCCATTAGGA
    TTGATGGGAC CTGAAGGTGA ACCAGGAATC CCAGGATACA GAGGCCTTGA AGGTCAGCCA
    GGACCCTCTG GATTGCCAGG ACCTAAAGGA GAAAAGGGCT ACCCAGGAGA AGACAGCACA
    GTCCTGGGAC CTCCTGGGCC TCGAGGTGAA CCAGGGCCAA TGGGGGAGCG AGGAGAGAGA
    GGGGAGCATG GGGAAGAAGG CTATAAGGGC CATATGGGTG TCCCAGGACT CAGAGGTGCC
    GCGGGACAAC AAGGACCCCC AGGTGAACCA GGTGACCAGG GCGAACAAGG ACTGAAAGGA
    GAGAGAGGAT CTGAAGGTCC TCAGGGGAAA AAGGGAGTTC CTGGTCCTTC TGGGAAACCA
    GGCATTCCCG GTCTTCCAGG CCTTCCGGGG CCAAAAGGCT TGCAAGGATA TCATGGAGTC
    GACGGCCTAT CAGGATACCC GGGAAAGCCT GGGCTACTGG GAAAACAAGG ACTTCCGGGC
    ACCACGGGCA GCCCAGGAAG AACAGGACTG GCTGGATCCC CAGGTCCTCA GGGAGGAAAG
    GGTTCATCAG GCCCTCCGGG AAGCCCTGGT GTTCCGGGCC CAAAGGGTGA ACAAGGGTTA
    CCTGGTCAGC CTGGAATCCC AGGCCAAAGA GGTCAGCGGG GAACACAAGG AGACCAAGGA
    CGACGTGGAG AGCCTGGTCT GAAAGGGCAG CCTGGAGAAC ATGGCAATCA AGGTTTGACA
    GGTTTCCAAG GATTCCCGGG CCCCAGGGGT CCAGAGGGGG ATGCTGGTAT CATTGGCATT
    GTAGGCCCTA AAGGTCCCGT TGGGCAGAGA GGAAACACTG GCCCTCTTGG CAGAGAAGGG
    ATAATAGGCC CAACAGGTGG AACTGGACCC AGAGGTGAAA AGGGCTTTAG AGGTGAAACT
    GGTCCCCAAG GACCAAGAGG TCAACCGGGA CCCCCTGGTC CACCTGGAGC GCCCGGTCCA
    CGAAGACAAA TGGATATCAA TGCTGCTATT GGAGCTCTGA TAGAATCAAA TTCTGCCCAG
    CAGATGGAGA GTTACCAGAA CACTGAAGTG ACCTTCCTCA GCCAAGGTAC AGAGATTTCC
    AAAACCCTGG CCTACCTTAG CAGTCTCCTG AGCAGCATCA AGAATCCTCT TGGCACACGA
    GAAAACCCGG CACGGATCTG CAAGGATTTG CTGAGCTGTC AGTATGAGGT TTCGGATGGA
    AAATACTGGA TTGACCCAAA TCTTGGATGC TCTTCAGATG CCTTTGAGGT TTTCTGCAAC
    TTCAGTGCTG GAGGCCAGAC ATGTGTATCT CCTGTTTCTG TGACAAAGTT GGAGTTTGGA
    GTCGGCAAAG TACAGATGAA CTTTCTTCAC TTGCTGAGCT CAGAAGCCAC CCACATCATC
    ACCCTTCACT GTCTAAACAC CCCGAGGCGG ACCGGCACGC CGGCGGATGG TCCAGAGTTG
    CCTATTAGTT TCAAAGGATG GAATGGTCAG ATTTTTGAAG AAAACACTCT ACTTGAACCT
    CAAGTCCTCT CAGATGACTG CAAGATTCAG GATGGCAGCT GGCACAAGGC AAAATTCCTC
    TTCCACACCC AGAATCCTAA TCAGCTTCCT GTAACCGAAG TGCAAAATCT TCCTCATCTC
    AGAACCGAGC AAAAGCACTA CATCGAAAGC AGTTCTGTGT GCTTTCTCTA A

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