ORF » Species Summary » Homo sapiens » COL24A1 cDNA ORF clone

COL24A1 cDNA ORF clone, Homo sapiens(human)

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
OHu30092 NM_152890.7
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu87183 XM_017000928.2
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu87184 XM_017000929.2
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu87185 XM_017000930.1
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu78334 NM_001349955.1
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu87180 XM_017000925.2
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu87180 XM_017000924.2
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu87181 XM_017000926.1
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu87182 XM_017000927.1
Latest version!		 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
View Old Accession Versions >>
OHu87183 XM_017000928.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu30092 NM_152890.6 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu87180 XM_017000924.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu87180 XM_017000925.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu87184 XM_017000929.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
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)
    COL24A1 ( NM_152890.6 ) cDNA ORF clone, Homo sapiens(human) -> NP_690850.2 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu30092
    Clone ID Related Accession (Same CDS sequence) NM_152890.6 , NM_152890.7
    Accession Version NM_152890.6 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5145bp)
    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 2017-10-02
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL445427.23, AL356059.27, AC104455.2, AL359971.11 and AC099561.2. This sequence is a reference standard in the RefSeqGene project. On Mar 31, 2017 this sequence version replaced NM_152890.5. Transcript Variant: This variant (1) encodes the longer isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: AY244357.1, BC113654.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2146982, SAMEA2151741 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    RefSeq NP_690850.2
    CDS76..5220
    Translation

    Target ORF information:

    RefSeq Version NM_152890.6
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_152890.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    COL24A1 ( NM_152890.7 ) cDNA ORF clone, Homo sapiens(human) -> NP_690850.2 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu30092
    Clone ID Related Accession (Same CDS sequence) NM_152890.6 , NM_152890.7
    Accession Version NM_152890.7 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5145bp)
    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 2019-08-21
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL445427.23, AL356059.27, AC104455.2, AL359971.11 and AC099561.2. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_152890.6. Transcript Variant: This variant (1) encodes the longer isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: AY244357.1, BC113654.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2146982, SAMEA2151741 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000370571.7/ ENSP00000359603.2 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    RefSeq NP_690850.2
    CDS377..5521
    Translation

    Target ORF information:

    RefSeq Version NM_152890.7
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_152890.7

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    COL24A1 ( XM_017000928.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856417.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu87183
    Clone ID Related Accession (Same CDS sequence) XM_017000928.1 , XM_017000928.2
    Accession Version XM_017000928.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2919bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGAACTTG TAATTCTCTG GAAACATGAG 
    CCCTTCATAA GTGAAAAGGG ACTCCTTGGA AATAGAGGAC CTCCTGGACC TCCTGGTCTC 
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGAGCCTTTG GGGAACTGGG GCCAAGAGGA 
    AAACCAGGTC AAAAGGGGTA TGCAGGTGAA CCAGGACCAG AAGGCTTAAA GGGAGAAGTA 
    GGAGATCAAG GAAATATTGG AAAAATTGGT GAAACAGGAC CTGTTGGCTT ACCTGGAGAA 
    GTTGGGATGA CTGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTAGGT 
    CCGCAGGGAG AAAAAGGTGT TATGGGATAT CCAGGTCCTC CTGGGGTTCC AGGACCTATC 
    GGTCCATTGG GATTACCTGG TCATGTGGGG GCAAGAGGAC CACCTGGGAG TCAAGGTCCT 
    AAAGGACAAA GAGGATCAAG AGGACCAGAT GGTCTCTTAG GGGAACAAGG TATACAAGGT 
    GCCAAGGGTG AAAAAGGAGA TCAAGGAAAA AGAGGGCCTC ATGGTCTTAT TGGTAAGACT 
    GGAAACCCTG GAGAAAGAGG ATTTCAAGGG AAACCAGGTT TACAGGGATT GCCTGGAAGT 
    ACAGGTGACA GAGGACTTCC AGGAGAGCCA GGACTGCGAG GACTGCAAGG TGATGTTGGA 
    CCTCCTGGAG AAATGGGCAT GGAGGGACCT CCAGGCACTG AGGGAGAGTC TGGTCTGCAA 
    GGTGAACCAG GTGCAAAGGG AGATGTTGGA ACTGCTGGCA GTGTTGGAGG AACTGGGGAA 
    CCAGGTTTAC GGGGTGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAGGG AAAAGATGGG 
    TTAAAGGGAG TACCAGGAGG AAGGGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG 
    GGCTTACCAG GAATTATAGG ACCCTTGGGT AGATCAGGCC AAACAGGCCT TCCGGGACCT 
    GAAGGAATTG TGGGAATTCC AGGGCAAAGA GGTCGTCCAG GAAAAAAGGG TGATAAAGGA 
    CAAATAGGAC CCACAGGAGA AGTTGGAAGC AGAGGTCCTC CTGGAAAAAT TGGGAAAAGT 
    GGTCCTAAGG GTGCCAGAGG AACTAGAGGT GCTGTGGGAC ATTTAGGATT GATGGGACCT 
    GATGGAGAAC CAGGAATTCC AGGGTACAGG GGCCATCAGG GCCAACCAGG ACCCTCTGGA 
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ATAGCACAGT CCTAGGACCA 
    CCTGGGCCTC GAGGTGAACC AGGTCCAGTG GGGGACCAAG GAGAGAGAGG AGAGCCTGGA 
    GCAGAGGGAT ATAAGGGCCA TGTGGGTGTA CCAGGACTAA GAGGTGCCAC TGGACAACAA 
    GGACCCCCAG GCGAACCAGG TGACCAGGGT GAACAAGGAC TAAAAGGAGA GAGAGGATCT 
    GAAGGTAATA AGGGGAAAAA AGGAGCTCCT GGTCCTTCTG GGAAACCTGG GATTCCTGGA 
    CTTCAAGGCC TACTTGGGCC AAAAGGCATA CAAGGATACC ATGGAGCAGA TGGCATTTCA 
    GGAAACCCTG GAAAAATTGG GCCACCAGGA AAACAGGGAC TTCCTGGCAT CAGAGGCGGC 
    CCAGGAAGAA CAGGTCTTGC TGGGGCTCCA GGTCCTCCAG GAGTAAAGGG TTCATCAGGC 
    TTGCCAGGAA GCCCAGGAAT TCAAGGCCCA AAGGGTGAAC AAGGGCTACC TGGTCAACCT 
    GGAATTCAAG GTAAAAGAGG TCACCGAGGA GCACAAGGTG ATCAAGGACC ATGTGGAGAC 
    CCTGGCCTGA AAGGGCAGCC TGGAGAATAT GGTGTTCAAG GTTTGACAGG TTTCCAAGGA 
    TTCCCAGGCC CTAAAGGTCC TGAAGGGGAT GCTGGCATTG TTGGGATATC AGGTCCTAAA 
    GGTCCTATTG GACACAGAGG AAACACTGGT CCCCTTGGCA GAGAAGGTAT AATAGGCCCA 
    ACAGGTAGAA CTGGACCCAG AGGTGAAAAG GGCTTTAGAG GTGAAACTGG TCCTCAAGGA 
    CCAAGAGGTC AACCAGGGCC TCCAGGTCCA CCTGGAGCAC CAGGCCCAAG AAAGCAAATG 
    GATATCAATG CTGCTATTCA AGCCTTGATT GAATCAAATA CTGCCCTACA GATGGAGAGC 
    TACCAGAATA CTGAAGTGAC TTTAATTGAC CACAGTGAAG AGATATTCAA AACCCTGAAC 
    TACCTTAGCA ATTTATTGCA CAGCATCAAG AATCCTCTTG GCACACGAGA TAACCCAGCA 
    CGAATCTGCA AAGATTTACT TAACTGTGAA CAAAAAGTAT CAGATGGAAA ATACTGGATT 
    GACCCAAATC TTGGCTGTCC TTCAGATGCC ATTGAGGTTT TCTGCAATTT CAGTGCTGGT 
    GGCCAGACAT GCTTACCTCC TGTTTCTGTA ACAAAGTTGG AGTTTGGAGT TGGGAAAGTC 
    CAGATGAACT TCCTTCATTT ACTGAGTTCG GAAGCCACCC ATATCATCAC CATTCACTGT 
    CTAAACACCC CAAGGTGGAC AAGCACACAA ACAAGTGGCC CAGGATTGCC TATTGGTTTC 
    AAGGGATGGA ATGGCCAGAT TTTTAAAGTA AACACTCTAC TTGAACCTAA AGTGCTTTCA 
    GATGACTGCA AGATTCAAGA TGGCAGCTGG CATAAGGCAA CATTTCTTTT TCACACCCAG 
    GAACCTAATC AACTTCCAGT GATTGAAGTA CAAAAACTTC CTCATCTCAA AACTGAACGA 
    AAGTATTACA TTGACAGCAG TTCTGTATGC TTTCTGTAA

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

    RefSeq XP_016856417.1
    CDS1351..4269
    Translation

    Target ORF information:

    RefSeq Version XM_017000928.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000928.1

    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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGAACTTG TAATTCTCTG GAAACATGAG 
    CCCTTCATAA GTGAAAAGGG ACTCCTTGGA AATAGAGGAC CTCCTGGACC TCCTGGTCTC 
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGAGCCTTTG GGGAACTGGG GCCAAGAGGA 
    AAACCAGGTC AAAAGGGGTA TGCAGGTGAA CCAGGACCAG AAGGCTTAAA GGGAGAAGTA 
    GGAGATCAAG GAAATATTGG AAAAATTGGT GAAACAGGAC CTGTTGGCTT ACCTGGAGAA 
    GTTGGGATGA CTGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTAGGT 
    CCGCAGGGAG AAAAAGGTGT TATGGGATAT CCAGGTCCTC CTGGGGTTCC AGGACCTATC 
    GGTCCATTGG GATTACCTGG TCATGTGGGG GCAAGAGGAC CACCTGGGAG TCAAGGTCCT 
    AAAGGACAAA GAGGATCAAG AGGACCAGAT GGTCTCTTAG GGGAACAAGG TATACAAGGT 
    GCCAAGGGTG AAAAAGGAGA TCAAGGAAAA AGAGGGCCTC ATGGTCTTAT TGGTAAGACT 
    GGAAACCCTG GAGAAAGAGG ATTTCAAGGG AAACCAGGTT TACAGGGATT GCCTGGAAGT 
    ACAGGTGACA GAGGACTTCC AGGAGAGCCA GGACTGCGAG GACTGCAAGG TGATGTTGGA 
    CCTCCTGGAG AAATGGGCAT GGAGGGACCT CCAGGCACTG AGGGAGAGTC TGGTCTGCAA 
    GGTGAACCAG GTGCAAAGGG AGATGTTGGA ACTGCTGGCA GTGTTGGAGG AACTGGGGAA 
    CCAGGTTTAC GGGGTGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAGGG AAAAGATGGG 
    TTAAAGGGAG TACCAGGAGG AAGGGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG 
    GGCTTACCAG GAATTATAGG ACCCTTGGGT AGATCAGGCC AAACAGGCCT TCCGGGACCT 
    GAAGGAATTG TGGGAATTCC AGGGCAAAGA GGTCGTCCAG GAAAAAAGGG TGATAAAGGA 
    CAAATAGGAC CCACAGGAGA AGTTGGAAGC AGAGGTCCTC CTGGAAAAAT TGGGAAAAGT 
    GGTCCTAAGG GTGCCAGAGG AACTAGAGGT GCTGTGGGAC ATTTAGGATT GATGGGACCT 
    GATGGAGAAC CAGGAATTCC AGGGTACAGG GGCCATCAGG GCCAACCAGG ACCCTCTGGA 
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ATAGCACAGT CCTAGGACCA 
    CCTGGGCCTC GAGGTGAACC AGGTCCAGTG GGGGACCAAG GAGAGAGAGG AGAGCCTGGA 
    GCAGAGGGAT ATAAGGGCCA TGTGGGTGTA CCAGGACTAA GAGGTGCCAC TGGACAACAA 
    GGACCCCCAG GCGAACCAGG TGACCAGGGT GAACAAGGAC TAAAAGGAGA GAGAGGATCT 
    GAAGGTAATA AGGGGAAAAA AGGAGCTCCT GGTCCTTCTG GGAAACCTGG GATTCCTGGA 
    CTTCAAGGCC TACTTGGGCC AAAAGGCATA CAAGGATACC ATGGAGCAGA TGGCATTTCA 
    GGAAACCCTG GAAAAATTGG GCCACCAGGA AAACAGGGAC TTCCTGGCAT CAGAGGCGGC 
    CCAGGAAGAA CAGGTCTTGC TGGGGCTCCA GGTCCTCCAG GAGTAAAGGG TTCATCAGGC 
    TTGCCAGGAA GCCCAGGAAT TCAAGGCCCA AAGGGTGAAC AAGGGCTACC TGGTCAACCT 
    GGAATTCAAG GTAAAAGAGG TCACCGAGGA GCACAAGGTG ATCAAGGACC ATGTGGAGAC 
    CCTGGCCTGA AAGGGCAGCC TGGAGAATAT GGTGTTCAAG GTTTGACAGG TTTCCAAGGA 
    TTCCCAGGCC CTAAAGGTCC TGAAGGGGAT GCTGGCATTG TTGGGATATC AGGTCCTAAA 
    GGTCCTATTG GACACAGAGG AAACACTGGT CCCCTTGGCA GAGAAGGTAT AATAGGCCCA 
    ACAGGTAGAA CTGGACCCAG AGGTGAAAAG GGCTTTAGAG GTGAAACTGG TCCTCAAGGA 
    CCAAGAGGTC AACCAGGGCC TCCAGGTCCA CCTGGAGCAC CAGGCCCAAG AAAGCAAATG 
    GATATCAATG CTGCTATTCA AGCCTTGATT GAATCAAATA CTGCCCTACA GATGGAGAGC 
    TACCAGAATA CTGAAGTGAC TTTAATTGAC CACAGTGAAG AGATATTCAA AACCCTGAAC 
    TACCTTAGCA ATTTATTGCA CAGCATCAAG AATCCTCTTG GCACACGAGA TAACCCAGCA 
    CGAATCTGCA AAGATTTACT TAACTGTGAA CAAAAAGTAT CAGATGGAAA ATACTGGATT 
    GACCCAAATC TTGGCTGTCC TTCAGATGCC ATTGAGGTTT TCTGCAATTT CAGTGCTGGT 
    GGCCAGACAT GCTTACCTCC TGTTTCTGTA ACAAAGTTGG AGTTTGGAGT TGGGAAAGTC 
    CAGATGAACT TCCTTCATTT ACTGAGTTCG GAAGCCACCC ATATCATCAC CATTCACTGT 
    CTAAACACCC CAAGGTGGAC AAGCACACAA ACAAGTGGCC CAGGATTGCC TATTGGTTTC 
    AAGGGATGGA ATGGCCAGAT TTTTAAAGTA AACACTCTAC TTGAACCTAA AGTGCTTTCA 
    GATGACTGCA AGATTCAAGA TGGCAGCTGG CATAAGGCAA CATTTCTTTT TCACACCCAG 
    GAACCTAATC AACTTCCAGT GATTGAAGTA CAAAAACTTC CTCATCTCAA AACTGAACGA 
    AAGTATTACA TTGACAGCAG TTCTGTATGC TTTCTGTAA

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

    COL24A1 ( XM_017000928.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856417.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu87183
    Clone ID Related Accession (Same CDS sequence) XM_017000928.1 , XM_017000928.2
    Accession Version XM_017000928.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2919bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000928.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGAACTTG TAATTCTCTG GAAACATGAG 
    CCCTTCATAA GTGAAAAGGG ACTCCTTGGA AATAGAGGAC CTCCTGGACC TCCTGGTCTC 
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGAGCCTTTG GGGAACTGGG GCCAAGAGGA 
    AAACCAGGTC AAAAGGGGTA TGCAGGTGAA CCAGGACCAG AAGGCTTAAA GGGAGAAGTA 
    GGAGATCAAG GAAATATTGG AAAAATTGGT GAAACAGGAC CTGTTGGCTT ACCTGGAGAA 
    GTTGGGATGA CTGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTAGGT 
    CCGCAGGGAG AAAAAGGTGT TATGGGATAT CCAGGTCCTC CTGGGGTTCC AGGACCTATC 
    GGTCCATTGG GATTACCTGG TCATGTGGGG GCAAGAGGAC CACCTGGGAG TCAAGGTCCT 
    AAAGGACAAA GAGGATCAAG AGGACCAGAT GGTCTCTTAG GGGAACAAGG TATACAAGGT 
    GCCAAGGGTG AAAAAGGAGA TCAAGGAAAA AGAGGGCCTC ATGGTCTTAT TGGTAAGACT 
    GGAAACCCTG GAGAAAGAGG ATTTCAAGGG AAACCAGGTT TACAGGGATT GCCTGGAAGT 
    ACAGGTGACA GAGGACTTCC AGGAGAGCCA GGACTGCGAG GACTGCAAGG TGATGTTGGA 
    CCTCCTGGAG AAATGGGCAT GGAGGGACCT CCAGGCACTG AGGGAGAGTC TGGTCTGCAA 
    GGTGAACCAG GTGCAAAGGG AGATGTTGGA ACTGCTGGCA GTGTTGGAGG AACTGGGGAA 
    CCAGGTTTAC GGGGTGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAGGG AAAAGATGGG 
    TTAAAGGGAG TACCAGGAGG AAGGGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG 
    GGCTTACCAG GAATTATAGG ACCCTTGGGT AGATCAGGCC AAACAGGCCT TCCGGGACCT 
    GAAGGAATTG TGGGAATTCC AGGGCAAAGA GGTCGTCCAG GAAAAAAGGG TGATAAAGGA 
    CAAATAGGAC CCACAGGAGA AGTTGGAAGC AGAGGTCCTC CTGGAAAAAT TGGGAAAAGT 
    GGTCCTAAGG GTGCCAGAGG AACTAGAGGT GCTGTGGGAC ATTTAGGATT GATGGGACCT 
    GATGGAGAAC CAGGAATTCC AGGGTACAGG GGCCATCAGG GCCAACCAGG ACCCTCTGGA 
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ATAGCACAGT CCTAGGACCA 
    CCTGGGCCTC GAGGTGAACC AGGTCCAGTG GGGGACCAAG GAGAGAGAGG AGAGCCTGGA 
    GCAGAGGGAT ATAAGGGCCA TGTGGGTGTA CCAGGACTAA GAGGTGCCAC TGGACAACAA 
    GGACCCCCAG GCGAACCAGG TGACCAGGGT GAACAAGGAC TAAAAGGAGA GAGAGGATCT 
    GAAGGTAATA AGGGGAAAAA AGGAGCTCCT GGTCCTTCTG GGAAACCTGG GATTCCTGGA 
    CTTCAAGGCC TACTTGGGCC AAAAGGCATA CAAGGATACC ATGGAGCAGA TGGCATTTCA 
    GGAAACCCTG GAAAAATTGG GCCACCAGGA AAACAGGGAC TTCCTGGCAT CAGAGGCGGC 
    CCAGGAAGAA CAGGTCTTGC TGGGGCTCCA GGTCCTCCAG GAGTAAAGGG TTCATCAGGC 
    TTGCCAGGAA GCCCAGGAAT TCAAGGCCCA AAGGGTGAAC AAGGGCTACC TGGTCAACCT 
    GGAATTCAAG GTAAAAGAGG TCACCGAGGA GCACAAGGTG ATCAAGGACC ATGTGGAGAC 
    CCTGGCCTGA AAGGGCAGCC TGGAGAATAT GGTGTTCAAG GTTTGACAGG TTTCCAAGGA 
    TTCCCAGGCC CTAAAGGTCC TGAAGGGGAT GCTGGCATTG TTGGGATATC AGGTCCTAAA 
    GGTCCTATTG GACACAGAGG AAACACTGGT CCCCTTGGCA GAGAAGGTAT AATAGGCCCA 
    ACAGGTAGAA CTGGACCCAG AGGTGAAAAG GGCTTTAGAG GTGAAACTGG TCCTCAAGGA 
    CCAAGAGGTC AACCAGGGCC TCCAGGTCCA CCTGGAGCAC CAGGCCCAAG AAAGCAAATG 
    GATATCAATG CTGCTATTCA AGCCTTGATT GAATCAAATA CTGCCCTACA GATGGAGAGC 
    TACCAGAATA CTGAAGTGAC TTTAATTGAC CACAGTGAAG AGATATTCAA AACCCTGAAC 
    TACCTTAGCA ATTTATTGCA CAGCATCAAG AATCCTCTTG GCACACGAGA TAACCCAGCA 
    CGAATCTGCA AAGATTTACT TAACTGTGAA CAAAAAGTAT CAGATGGAAA ATACTGGATT 
    GACCCAAATC TTGGCTGTCC TTCAGATGCC ATTGAGGTTT TCTGCAATTT CAGTGCTGGT 
    GGCCAGACAT GCTTACCTCC TGTTTCTGTA ACAAAGTTGG AGTTTGGAGT TGGGAAAGTC 
    CAGATGAACT TCCTTCATTT ACTGAGTTCG GAAGCCACCC ATATCATCAC CATTCACTGT 
    CTAAACACCC CAAGGTGGAC AAGCACACAA ACAAGTGGCC CAGGATTGCC TATTGGTTTC 
    AAGGGATGGA ATGGCCAGAT TTTTAAAGTA AACACTCTAC TTGAACCTAA AGTGCTTTCA 
    GATGACTGCA AGATTCAAGA TGGCAGCTGG CATAAGGCAA CATTTCTTTT TCACACCCAG 
    GAACCTAATC AACTTCCAGT GATTGAAGTA CAAAAACTTC CTCATCTCAA AACTGAACGA 
    AAGTATTACA TTGACAGCAG TTCTGTATGC TTTCTGTAA

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

    RefSeq XP_016856417.1
    CDS1373..4291
    Translation

    Target ORF information:

    RefSeq Version XM_017000928.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000928.2

    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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGAACTTG TAATTCTCTG GAAACATGAG 
    CCCTTCATAA GTGAAAAGGG ACTCCTTGGA AATAGAGGAC CTCCTGGACC TCCTGGTCTC 
    AAAGGAACTC AGGGAGAAGA AGGACCAATT GGAGCCTTTG GGGAACTGGG GCCAAGAGGA 
    AAACCAGGTC AAAAGGGGTA TGCAGGTGAA CCAGGACCAG AAGGCTTAAA GGGAGAAGTA 
    GGAGATCAAG GAAATATTGG AAAAATTGGT GAAACAGGAC CTGTTGGCTT ACCTGGAGAA 
    GTTGGGATGA CTGGAAGCAT TGGCGAAAAG GGAGAACGTG GAAGTCCAGG CCCACTAGGT 
    CCGCAGGGAG AAAAAGGTGT TATGGGATAT CCAGGTCCTC CTGGGGTTCC AGGACCTATC 
    GGTCCATTGG GATTACCTGG TCATGTGGGG GCAAGAGGAC CACCTGGGAG TCAAGGTCCT 
    AAAGGACAAA GAGGATCAAG AGGACCAGAT GGTCTCTTAG GGGAACAAGG TATACAAGGT 
    GCCAAGGGTG AAAAAGGAGA TCAAGGAAAA AGAGGGCCTC ATGGTCTTAT TGGTAAGACT 
    GGAAACCCTG GAGAAAGAGG ATTTCAAGGG AAACCAGGTT TACAGGGATT GCCTGGAAGT 
    ACAGGTGACA GAGGACTTCC AGGAGAGCCA GGACTGCGAG GACTGCAAGG TGATGTTGGA 
    CCTCCTGGAG AAATGGGCAT GGAGGGACCT CCAGGCACTG AGGGAGAGTC TGGTCTGCAA 
    GGTGAACCAG GTGCAAAGGG AGATGTTGGA ACTGCTGGCA GTGTTGGAGG AACTGGGGAA 
    CCAGGTTTAC GGGGTGAACC AGGAGCTCCT GGAGAAGAAG GTCTCCAGGG AAAAGATGGG 
    TTAAAGGGAG TACCAGGAGG AAGGGGACTT CCTGGAGAGG ATGGAGAAAA AGGAGAGATG 
    GGCTTACCAG GAATTATAGG ACCCTTGGGT AGATCAGGCC AAACAGGCCT TCCGGGACCT 
    GAAGGAATTG TGGGAATTCC AGGGCAAAGA GGTCGTCCAG GAAAAAAGGG TGATAAAGGA 
    CAAATAGGAC CCACAGGAGA AGTTGGAAGC AGAGGTCCTC CTGGAAAAAT TGGGAAAAGT 
    GGTCCTAAGG GTGCCAGAGG AACTAGAGGT GCTGTGGGAC ATTTAGGATT GATGGGACCT 
    GATGGAGAAC CAGGAATTCC AGGGTACAGG GGCCATCAGG GCCAACCAGG ACCCTCTGGA 
    TTGCCAGGAC CTAAAGGAGA AAAGGGCTAC CCAGGAGAAG ATAGCACAGT CCTAGGACCA 
    CCTGGGCCTC GAGGTGAACC AGGTCCAGTG GGGGACCAAG GAGAGAGAGG AGAGCCTGGA 
    GCAGAGGGAT ATAAGGGCCA TGTGGGTGTA CCAGGACTAA GAGGTGCCAC TGGACAACAA 
    GGACCCCCAG GCGAACCAGG TGACCAGGGT GAACAAGGAC TAAAAGGAGA GAGAGGATCT 
    GAAGGTAATA AGGGGAAAAA AGGAGCTCCT GGTCCTTCTG GGAAACCTGG GATTCCTGGA 
    CTTCAAGGCC TACTTGGGCC AAAAGGCATA CAAGGATACC ATGGAGCAGA TGGCATTTCA 
    GGAAACCCTG GAAAAATTGG GCCACCAGGA AAACAGGGAC TTCCTGGCAT CAGAGGCGGC 
    CCAGGAAGAA CAGGTCTTGC TGGGGCTCCA GGTCCTCCAG GAGTAAAGGG TTCATCAGGC 
    TTGCCAGGAA GCCCAGGAAT TCAAGGCCCA AAGGGTGAAC AAGGGCTACC TGGTCAACCT 
    GGAATTCAAG GTAAAAGAGG TCACCGAGGA GCACAAGGTG ATCAAGGACC ATGTGGAGAC 
    CCTGGCCTGA AAGGGCAGCC TGGAGAATAT GGTGTTCAAG GTTTGACAGG TTTCCAAGGA 
    TTCCCAGGCC CTAAAGGTCC TGAAGGGGAT GCTGGCATTG TTGGGATATC AGGTCCTAAA 
    GGTCCTATTG GACACAGAGG AAACACTGGT CCCCTTGGCA GAGAAGGTAT AATAGGCCCA 
    ACAGGTAGAA CTGGACCCAG AGGTGAAAAG GGCTTTAGAG GTGAAACTGG TCCTCAAGGA 
    CCAAGAGGTC AACCAGGGCC TCCAGGTCCA CCTGGAGCAC CAGGCCCAAG AAAGCAAATG 
    GATATCAATG CTGCTATTCA AGCCTTGATT GAATCAAATA CTGCCCTACA GATGGAGAGC 
    TACCAGAATA CTGAAGTGAC TTTAATTGAC CACAGTGAAG AGATATTCAA AACCCTGAAC 
    TACCTTAGCA ATTTATTGCA CAGCATCAAG AATCCTCTTG GCACACGAGA TAACCCAGCA 
    CGAATCTGCA AAGATTTACT TAACTGTGAA CAAAAAGTAT CAGATGGAAA ATACTGGATT 
    GACCCAAATC TTGGCTGTCC TTCAGATGCC ATTGAGGTTT TCTGCAATTT CAGTGCTGGT 
    GGCCAGACAT GCTTACCTCC TGTTTCTGTA ACAAAGTTGG AGTTTGGAGT TGGGAAAGTC 
    CAGATGAACT TCCTTCATTT ACTGAGTTCG GAAGCCACCC ATATCATCAC CATTCACTGT 
    CTAAACACCC CAAGGTGGAC AAGCACACAA ACAAGTGGCC CAGGATTGCC TATTGGTTTC 
    AAGGGATGGA ATGGCCAGAT TTTTAAAGTA AACACTCTAC TTGAACCTAA AGTGCTTTCA 
    GATGACTGCA AGATTCAAGA TGGCAGCTGG CATAAGGCAA CATTTCTTTT TCACACCCAG 
    GAACCTAATC AACTTCCAGT GATTGAAGTA CAAAAACTTC CTCATCTCAA AACTGAACGA 
    AAGTATTACA TTGACAGCAG TTCTGTATGC TTTCTGTAA

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

    COL24A1 ( XM_017000929.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856418.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu87184
    Clone ID Related Accession (Same CDS sequence) XM_017000929.1 , XM_017000929.2
    Accession Version XM_017000929.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2874bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGGACTCC TTGGAAATAG AGGACCTCCT 
    GGACCTCCTG GTCTCAAAGG AACTCAGGGA GAAGAAGGAC CAATTGGAGC CTTTGGGGAA 
    CTGGGGCCAA GAGGAAAACC AGGTCAAAAG GGGTATGCAG GTGAACCAGG ACCAGAAGGC 
    TTAAAGGGAG AAGTAGGAGA TCAAGGAAAT ATTGGAAAAA TTGGTGAAAC AGGACCTGTT 
    GGCTTACCTG GAGAAGTTGG GATGACTGGA AGCATTGGCG AAAAGGGAGA ACGTGGAAGT 
    CCAGGCCCAC TAGGTCCGCA GGGAGAAAAA GGTGTTATGG GATATCCAGG TCCTCCTGGG 
    GTTCCAGGAC CTATCGGTCC ATTGGGATTA CCTGGTCATG TGGGGGCAAG AGGACCACCT 
    GGGAGTCAAG GTCCTAAAGG ACAAAGAGGA TCAAGAGGAC CAGATGGTCT CTTAGGGGAA 
    CAAGGTATAC AAGGTGCCAA GGGTGAAAAA GGAGATCAAG GAAAAAGAGG GCCTCATGGT 
    CTTATTGGTA AGACTGGAAA CCCTGGAGAA AGAGGATTTC AAGGGAAACC AGGTTTACAG 
    GGATTGCCTG GAAGTACAGG TGACAGAGGA CTTCCAGGAG AGCCAGGACT GCGAGGACTG 
    CAAGGTGATG TTGGACCTCC TGGAGAAATG GGCATGGAGG GACCTCCAGG CACTGAGGGA 
    GAGTCTGGTC TGCAAGGTGA ACCAGGTGCA AAGGGAGATG TTGGAACTGC TGGCAGTGTT 
    GGAGGAACTG GGGAACCAGG TTTACGGGGT GAACCAGGAG CTCCTGGAGA AGAAGGTCTC 
    CAGGGAAAAG ATGGGTTAAA GGGAGTACCA GGAGGAAGGG GACTTCCTGG AGAGGATGGA 
    GAAAAAGGAG AGATGGGCTT ACCAGGAATT ATAGGACCCT TGGGTAGATC AGGCCAAACA 
    GGCCTTCCGG GACCTGAAGG AATTGTGGGA ATTCCAGGGC AAAGAGGTCG TCCAGGAAAA 
    AAGGGTGATA AAGGACAAAT AGGACCCACA GGAGAAGTTG GAAGCAGAGG TCCTCCTGGA 
    AAAATTGGGA AAAGTGGTCC TAAGGGTGCC AGAGGAACTA GAGGTGCTGT GGGACATTTA 
    GGATTGATGG GACCTGATGG AGAACCAGGA ATTCCAGGGT ACAGGGGCCA TCAGGGCCAA 
    CCAGGACCCT CTGGATTGCC AGGACCTAAA GGAGAAAAGG GCTACCCAGG AGAAGATAGC 
    ACAGTCCTAG GACCACCTGG GCCTCGAGGT GAACCAGGTC CAGTGGGGGA CCAAGGAGAG 
    AGAGGAGAGC CTGGAGCAGA GGGATATAAG GGCCATGTGG GTGTACCAGG ACTAAGAGGT 
    GCCACTGGAC AACAAGGACC CCCAGGCGAA CCAGGTGACC AGGGTGAACA AGGACTAAAA 
    GGAGAGAGAG GATCTGAAGG TAATAAGGGG AAAAAAGGAG CTCCTGGTCC TTCTGGGAAA 
    CCTGGGATTC CTGGACTTCA AGGCCTACTT GGGCCAAAAG GCATACAAGG ATACCATGGA 
    GCAGATGGCA TTTCAGGAAA CCCTGGAAAA ATTGGGCCAC CAGGAAAACA GGGACTTCCT 
    GGCATCAGAG GCGGCCCAGG AAGAACAGGT CTTGCTGGGG CTCCAGGTCC TCCAGGAGTA 
    AAGGGTTCAT CAGGCTTGCC AGGAAGCCCA GGAATTCAAG GCCCAAAGGG TGAACAAGGG 
    CTACCTGGTC AACCTGGAAT TCAAGGTAAA AGAGGTCACC GAGGAGCACA AGGTGATCAA 
    GGACCATGTG GAGACCCTGG CCTGAAAGGG CAGCCTGGAG AATATGGTGT TCAAGGTTTG 
    ACAGGTTTCC AAGGATTCCC AGGCCCTAAA GGTCCTGAAG GGGATGCTGG CATTGTTGGG 
    ATATCAGGTC CTAAAGGTCC TATTGGACAC AGAGGAAACA CTGGTCCCCT TGGCAGAGAA 
    GGTATAATAG GCCCAACAGG TAGAACTGGA CCCAGAGGTG AAAAGGGCTT TAGAGGTGAA 
    ACTGGTCCTC AAGGACCAAG AGGTCAACCA GGGCCTCCAG GTCCACCTGG AGCACCAGGC 
    CCAAGAAAGC AAATGGATAT CAATGCTGCT ATTCAAGCCT TGATTGAATC AAATACTGCC 
    CTACAGATGG AGAGCTACCA GAATACTGAA GTGACTTTAA TTGACCACAG TGAAGAGATA 
    TTCAAAACCC TGAACTACCT TAGCAATTTA TTGCACAGCA TCAAGAATCC TCTTGGCACA 
    CGAGATAACC CAGCACGAAT CTGCAAAGAT TTACTTAACT GTGAACAAAA AGTATCAGAT 
    GGAAAATACT GGATTGACCC AAATCTTGGC TGTCCTTCAG ATGCCATTGA GGTTTTCTGC 
    AATTTCAGTG CTGGTGGCCA GACATGCTTA CCTCCTGTTT CTGTAACAAA GTTGGAGTTT 
    GGAGTTGGGA AAGTCCAGAT GAACTTCCTT CATTTACTGA GTTCGGAAGC CACCCATATC 
    ATCACCATTC ACTGTCTAAA CACCCCAAGG TGGACAAGCA CACAAACAAG TGGCCCAGGA 
    TTGCCTATTG GTTTCAAGGG ATGGAATGGC CAGATTTTTA AAGTAAACAC TCTACTTGAA 
    CCTAAAGTGC TTTCAGATGA CTGCAAGATT CAAGATGGCA GCTGGCATAA GGCAACATTT 
    CTTTTTCACA CCCAGGAACC TAATCAACTT CCAGTGATTG AAGTACAAAA ACTTCCTCAT 
    CTCAAAACTG AACGAAAGTA TTACATTGAC AGCAGTTCTG TATGCTTTCT GTAA

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

    RefSeq XP_016856418.1
    CDS1350..4223
    Translation

    Target ORF information:

    RefSeq Version XM_017000929.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000929.1

    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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGGACTCC TTGGAAATAG AGGACCTCCT 
    GGACCTCCTG GTCTCAAAGG AACTCAGGGA GAAGAAGGAC CAATTGGAGC CTTTGGGGAA 
    CTGGGGCCAA GAGGAAAACC AGGTCAAAAG GGGTATGCAG GTGAACCAGG ACCAGAAGGC 
    TTAAAGGGAG AAGTAGGAGA TCAAGGAAAT ATTGGAAAAA TTGGTGAAAC AGGACCTGTT 
    GGCTTACCTG GAGAAGTTGG GATGACTGGA AGCATTGGCG AAAAGGGAGA ACGTGGAAGT 
    CCAGGCCCAC TAGGTCCGCA GGGAGAAAAA GGTGTTATGG GATATCCAGG TCCTCCTGGG 
    GTTCCAGGAC CTATCGGTCC ATTGGGATTA CCTGGTCATG TGGGGGCAAG AGGACCACCT 
    GGGAGTCAAG GTCCTAAAGG ACAAAGAGGA TCAAGAGGAC CAGATGGTCT CTTAGGGGAA 
    CAAGGTATAC AAGGTGCCAA GGGTGAAAAA GGAGATCAAG GAAAAAGAGG GCCTCATGGT 
    CTTATTGGTA AGACTGGAAA CCCTGGAGAA AGAGGATTTC AAGGGAAACC AGGTTTACAG 
    GGATTGCCTG GAAGTACAGG TGACAGAGGA CTTCCAGGAG AGCCAGGACT GCGAGGACTG 
    CAAGGTGATG TTGGACCTCC TGGAGAAATG GGCATGGAGG GACCTCCAGG CACTGAGGGA 
    GAGTCTGGTC TGCAAGGTGA ACCAGGTGCA AAGGGAGATG TTGGAACTGC TGGCAGTGTT 
    GGAGGAACTG GGGAACCAGG TTTACGGGGT GAACCAGGAG CTCCTGGAGA AGAAGGTCTC 
    CAGGGAAAAG ATGGGTTAAA GGGAGTACCA GGAGGAAGGG GACTTCCTGG AGAGGATGGA 
    GAAAAAGGAG AGATGGGCTT ACCAGGAATT ATAGGACCCT TGGGTAGATC AGGCCAAACA 
    GGCCTTCCGG GACCTGAAGG AATTGTGGGA ATTCCAGGGC AAAGAGGTCG TCCAGGAAAA 
    AAGGGTGATA AAGGACAAAT AGGACCCACA GGAGAAGTTG GAAGCAGAGG TCCTCCTGGA 
    AAAATTGGGA AAAGTGGTCC TAAGGGTGCC AGAGGAACTA GAGGTGCTGT GGGACATTTA 
    GGATTGATGG GACCTGATGG AGAACCAGGA ATTCCAGGGT ACAGGGGCCA TCAGGGCCAA 
    CCAGGACCCT CTGGATTGCC AGGACCTAAA GGAGAAAAGG GCTACCCAGG AGAAGATAGC 
    ACAGTCCTAG GACCACCTGG GCCTCGAGGT GAACCAGGTC CAGTGGGGGA CCAAGGAGAG 
    AGAGGAGAGC CTGGAGCAGA GGGATATAAG GGCCATGTGG GTGTACCAGG ACTAAGAGGT 
    GCCACTGGAC AACAAGGACC CCCAGGCGAA CCAGGTGACC AGGGTGAACA AGGACTAAAA 
    GGAGAGAGAG GATCTGAAGG TAATAAGGGG AAAAAAGGAG CTCCTGGTCC TTCTGGGAAA 
    CCTGGGATTC CTGGACTTCA AGGCCTACTT GGGCCAAAAG GCATACAAGG ATACCATGGA 
    GCAGATGGCA TTTCAGGAAA CCCTGGAAAA ATTGGGCCAC CAGGAAAACA GGGACTTCCT 
    GGCATCAGAG GCGGCCCAGG AAGAACAGGT CTTGCTGGGG CTCCAGGTCC TCCAGGAGTA 
    AAGGGTTCAT CAGGCTTGCC AGGAAGCCCA GGAATTCAAG GCCCAAAGGG TGAACAAGGG 
    CTACCTGGTC AACCTGGAAT TCAAGGTAAA AGAGGTCACC GAGGAGCACA AGGTGATCAA 
    GGACCATGTG GAGACCCTGG CCTGAAAGGG CAGCCTGGAG AATATGGTGT TCAAGGTTTG 
    ACAGGTTTCC AAGGATTCCC AGGCCCTAAA GGTCCTGAAG GGGATGCTGG CATTGTTGGG 
    ATATCAGGTC CTAAAGGTCC TATTGGACAC AGAGGAAACA CTGGTCCCCT TGGCAGAGAA 
    GGTATAATAG GCCCAACAGG TAGAACTGGA CCCAGAGGTG AAAAGGGCTT TAGAGGTGAA 
    ACTGGTCCTC AAGGACCAAG AGGTCAACCA GGGCCTCCAG GTCCACCTGG AGCACCAGGC 
    CCAAGAAAGC AAATGGATAT CAATGCTGCT ATTCAAGCCT TGATTGAATC AAATACTGCC 
    CTACAGATGG AGAGCTACCA GAATACTGAA GTGACTTTAA TTGACCACAG TGAAGAGATA 
    TTCAAAACCC TGAACTACCT TAGCAATTTA TTGCACAGCA TCAAGAATCC TCTTGGCACA 
    CGAGATAACC CAGCACGAAT CTGCAAAGAT TTACTTAACT GTGAACAAAA AGTATCAGAT 
    GGAAAATACT GGATTGACCC AAATCTTGGC TGTCCTTCAG ATGCCATTGA GGTTTTCTGC 
    AATTTCAGTG CTGGTGGCCA GACATGCTTA CCTCCTGTTT CTGTAACAAA GTTGGAGTTT 
    GGAGTTGGGA AAGTCCAGAT GAACTTCCTT CATTTACTGA GTTCGGAAGC CACCCATATC 
    ATCACCATTC ACTGTCTAAA CACCCCAAGG TGGACAAGCA CACAAACAAG TGGCCCAGGA 
    TTGCCTATTG GTTTCAAGGG ATGGAATGGC CAGATTTTTA AAGTAAACAC TCTACTTGAA 
    CCTAAAGTGC TTTCAGATGA CTGCAAGATT CAAGATGGCA GCTGGCATAA GGCAACATTT 
    CTTTTTCACA CCCAGGAACC TAATCAACTT CCAGTGATTG AAGTACAAAA ACTTCCTCAT 
    CTCAAAACTG AACGAAAGTA TTACATTGAC AGCAGTTCTG TATGCTTTCT GTAA

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

    COL24A1 ( XM_017000929.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856418.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu87184
    Clone ID Related Accession (Same CDS sequence) XM_017000929.1 , XM_017000929.2
    Accession Version XM_017000929.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2874bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000929.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGGACTCC TTGGAAATAG AGGACCTCCT 
    GGACCTCCTG GTCTCAAAGG AACTCAGGGA GAAGAAGGAC CAATTGGAGC CTTTGGGGAA 
    CTGGGGCCAA GAGGAAAACC AGGTCAAAAG GGGTATGCAG GTGAACCAGG ACCAGAAGGC 
    TTAAAGGGAG AAGTAGGAGA TCAAGGAAAT ATTGGAAAAA TTGGTGAAAC AGGACCTGTT 
    GGCTTACCTG GAGAAGTTGG GATGACTGGA AGCATTGGCG AAAAGGGAGA ACGTGGAAGT 
    CCAGGCCCAC TAGGTCCGCA GGGAGAAAAA GGTGTTATGG GATATCCAGG TCCTCCTGGG 
    GTTCCAGGAC CTATCGGTCC ATTGGGATTA CCTGGTCATG TGGGGGCAAG AGGACCACCT 
    GGGAGTCAAG GTCCTAAAGG ACAAAGAGGA TCAAGAGGAC CAGATGGTCT CTTAGGGGAA 
    CAAGGTATAC AAGGTGCCAA GGGTGAAAAA GGAGATCAAG GAAAAAGAGG GCCTCATGGT 
    CTTATTGGTA AGACTGGAAA CCCTGGAGAA AGAGGATTTC AAGGGAAACC AGGTTTACAG 
    GGATTGCCTG GAAGTACAGG TGACAGAGGA CTTCCAGGAG AGCCAGGACT GCGAGGACTG 
    CAAGGTGATG TTGGACCTCC TGGAGAAATG GGCATGGAGG GACCTCCAGG CACTGAGGGA 
    GAGTCTGGTC TGCAAGGTGA ACCAGGTGCA AAGGGAGATG TTGGAACTGC TGGCAGTGTT 
    GGAGGAACTG GGGAACCAGG TTTACGGGGT GAACCAGGAG CTCCTGGAGA AGAAGGTCTC 
    CAGGGAAAAG ATGGGTTAAA GGGAGTACCA GGAGGAAGGG GACTTCCTGG AGAGGATGGA 
    GAAAAAGGAG AGATGGGCTT ACCAGGAATT ATAGGACCCT TGGGTAGATC AGGCCAAACA 
    GGCCTTCCGG GACCTGAAGG AATTGTGGGA ATTCCAGGGC AAAGAGGTCG TCCAGGAAAA 
    AAGGGTGATA AAGGACAAAT AGGACCCACA GGAGAAGTTG GAAGCAGAGG TCCTCCTGGA 
    AAAATTGGGA AAAGTGGTCC TAAGGGTGCC AGAGGAACTA GAGGTGCTGT GGGACATTTA 
    GGATTGATGG GACCTGATGG AGAACCAGGA ATTCCAGGGT ACAGGGGCCA TCAGGGCCAA 
    CCAGGACCCT CTGGATTGCC AGGACCTAAA GGAGAAAAGG GCTACCCAGG AGAAGATAGC 
    ACAGTCCTAG GACCACCTGG GCCTCGAGGT GAACCAGGTC CAGTGGGGGA CCAAGGAGAG 
    AGAGGAGAGC CTGGAGCAGA GGGATATAAG GGCCATGTGG GTGTACCAGG ACTAAGAGGT 
    GCCACTGGAC AACAAGGACC CCCAGGCGAA CCAGGTGACC AGGGTGAACA AGGACTAAAA 
    GGAGAGAGAG GATCTGAAGG TAATAAGGGG AAAAAAGGAG CTCCTGGTCC TTCTGGGAAA 
    CCTGGGATTC CTGGACTTCA AGGCCTACTT GGGCCAAAAG GCATACAAGG ATACCATGGA 
    GCAGATGGCA TTTCAGGAAA CCCTGGAAAA ATTGGGCCAC CAGGAAAACA GGGACTTCCT 
    GGCATCAGAG GCGGCCCAGG AAGAACAGGT CTTGCTGGGG CTCCAGGTCC TCCAGGAGTA 
    AAGGGTTCAT CAGGCTTGCC AGGAAGCCCA GGAATTCAAG GCCCAAAGGG TGAACAAGGG 
    CTACCTGGTC AACCTGGAAT TCAAGGTAAA AGAGGTCACC GAGGAGCACA AGGTGATCAA 
    GGACCATGTG GAGACCCTGG CCTGAAAGGG CAGCCTGGAG AATATGGTGT TCAAGGTTTG 
    ACAGGTTTCC AAGGATTCCC AGGCCCTAAA GGTCCTGAAG GGGATGCTGG CATTGTTGGG 
    ATATCAGGTC CTAAAGGTCC TATTGGACAC AGAGGAAACA CTGGTCCCCT TGGCAGAGAA 
    GGTATAATAG GCCCAACAGG TAGAACTGGA CCCAGAGGTG AAAAGGGCTT TAGAGGTGAA 
    ACTGGTCCTC AAGGACCAAG AGGTCAACCA GGGCCTCCAG GTCCACCTGG AGCACCAGGC 
    CCAAGAAAGC AAATGGATAT CAATGCTGCT ATTCAAGCCT TGATTGAATC AAATACTGCC 
    CTACAGATGG AGAGCTACCA GAATACTGAA GTGACTTTAA TTGACCACAG TGAAGAGATA 
    TTCAAAACCC TGAACTACCT TAGCAATTTA TTGCACAGCA TCAAGAATCC TCTTGGCACA 
    CGAGATAACC CAGCACGAAT CTGCAAAGAT TTACTTAACT GTGAACAAAA AGTATCAGAT 
    GGAAAATACT GGATTGACCC AAATCTTGGC TGTCCTTCAG ATGCCATTGA GGTTTTCTGC 
    AATTTCAGTG CTGGTGGCCA GACATGCTTA CCTCCTGTTT CTGTAACAAA GTTGGAGTTT 
    GGAGTTGGGA AAGTCCAGAT GAACTTCCTT CATTTACTGA GTTCGGAAGC CACCCATATC 
    ATCACCATTC ACTGTCTAAA CACCCCAAGG TGGACAAGCA CACAAACAAG TGGCCCAGGA 
    TTGCCTATTG GTTTCAAGGG ATGGAATGGC CAGATTTTTA AAGTAAACAC TCTACTTGAA 
    CCTAAAGTGC TTTCAGATGA CTGCAAGATT CAAGATGGCA GCTGGCATAA GGCAACATTT 
    CTTTTTCACA CCCAGGAACC TAATCAACTT CCAGTGATTG AAGTACAAAA ACTTCCTCAT 
    CTCAAAACTG AACGAAAGTA TTACATTGAC AGCAGTTCTG TATGCTTTCT GTAA

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

    RefSeq XP_016856418.1
    CDS1372..4245
    Translation

    Target ORF information:

    RefSeq Version XM_017000929.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000929.2

    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
    ATGGAACTTT CAGAGGCAGC AGAAGCTGGA ACATCCTTGG GTTTTCCAGG AGATATTGGG 
    ATTCCTGGAC AAAACGGCCC TGAAGGACCA AAGGGACTCC TTGGAAATAG AGGACCTCCT 
    GGACCTCCTG GTCTCAAAGG AACTCAGGGA GAAGAAGGAC CAATTGGAGC CTTTGGGGAA 
    CTGGGGCCAA GAGGAAAACC AGGTCAAAAG GGGTATGCAG GTGAACCAGG ACCAGAAGGC 
    TTAAAGGGAG AAGTAGGAGA TCAAGGAAAT ATTGGAAAAA TTGGTGAAAC AGGACCTGTT 
    GGCTTACCTG GAGAAGTTGG GATGACTGGA AGCATTGGCG AAAAGGGAGA ACGTGGAAGT 
    CCAGGCCCAC TAGGTCCGCA GGGAGAAAAA GGTGTTATGG GATATCCAGG TCCTCCTGGG 
    GTTCCAGGAC CTATCGGTCC ATTGGGATTA CCTGGTCATG TGGGGGCAAG AGGACCACCT 
    GGGAGTCAAG GTCCTAAAGG ACAAAGAGGA TCAAGAGGAC CAGATGGTCT CTTAGGGGAA 
    CAAGGTATAC AAGGTGCCAA GGGTGAAAAA GGAGATCAAG GAAAAAGAGG GCCTCATGGT 
    CTTATTGGTA AGACTGGAAA CCCTGGAGAA AGAGGATTTC AAGGGAAACC AGGTTTACAG 
    GGATTGCCTG GAAGTACAGG TGACAGAGGA CTTCCAGGAG AGCCAGGACT GCGAGGACTG 
    CAAGGTGATG TTGGACCTCC TGGAGAAATG GGCATGGAGG GACCTCCAGG CACTGAGGGA 
    GAGTCTGGTC TGCAAGGTGA ACCAGGTGCA AAGGGAGATG TTGGAACTGC TGGCAGTGTT 
    GGAGGAACTG GGGAACCAGG TTTACGGGGT GAACCAGGAG CTCCTGGAGA AGAAGGTCTC 
    CAGGGAAAAG ATGGGTTAAA GGGAGTACCA GGAGGAAGGG GACTTCCTGG AGAGGATGGA 
    GAAAAAGGAG AGATGGGCTT ACCAGGAATT ATAGGACCCT TGGGTAGATC AGGCCAAACA 
    GGCCTTCCGG GACCTGAAGG AATTGTGGGA ATTCCAGGGC AAAGAGGTCG TCCAGGAAAA 
    AAGGGTGATA AAGGACAAAT AGGACCCACA GGAGAAGTTG GAAGCAGAGG TCCTCCTGGA 
    AAAATTGGGA AAAGTGGTCC TAAGGGTGCC AGAGGAACTA GAGGTGCTGT GGGACATTTA 
    GGATTGATGG GACCTGATGG AGAACCAGGA ATTCCAGGGT ACAGGGGCCA TCAGGGCCAA 
    CCAGGACCCT CTGGATTGCC AGGACCTAAA GGAGAAAAGG GCTACCCAGG AGAAGATAGC 
    ACAGTCCTAG GACCACCTGG GCCTCGAGGT GAACCAGGTC CAGTGGGGGA CCAAGGAGAG 
    AGAGGAGAGC CTGGAGCAGA GGGATATAAG GGCCATGTGG GTGTACCAGG ACTAAGAGGT 
    GCCACTGGAC AACAAGGACC CCCAGGCGAA CCAGGTGACC AGGGTGAACA AGGACTAAAA 
    GGAGAGAGAG GATCTGAAGG TAATAAGGGG AAAAAAGGAG CTCCTGGTCC TTCTGGGAAA 
    CCTGGGATTC CTGGACTTCA AGGCCTACTT GGGCCAAAAG GCATACAAGG ATACCATGGA 
    GCAGATGGCA TTTCAGGAAA CCCTGGAAAA ATTGGGCCAC CAGGAAAACA GGGACTTCCT 
    GGCATCAGAG GCGGCCCAGG AAGAACAGGT CTTGCTGGGG CTCCAGGTCC TCCAGGAGTA 
    AAGGGTTCAT CAGGCTTGCC AGGAAGCCCA GGAATTCAAG GCCCAAAGGG TGAACAAGGG 
    CTACCTGGTC AACCTGGAAT TCAAGGTAAA AGAGGTCACC GAGGAGCACA AGGTGATCAA 
    GGACCATGTG GAGACCCTGG CCTGAAAGGG CAGCCTGGAG AATATGGTGT TCAAGGTTTG 
    ACAGGTTTCC AAGGATTCCC AGGCCCTAAA GGTCCTGAAG GGGATGCTGG CATTGTTGGG 
    ATATCAGGTC CTAAAGGTCC TATTGGACAC AGAGGAAACA CTGGTCCCCT TGGCAGAGAA 
    GGTATAATAG GCCCAACAGG TAGAACTGGA CCCAGAGGTG AAAAGGGCTT TAGAGGTGAA 
    ACTGGTCCTC AAGGACCAAG AGGTCAACCA GGGCCTCCAG GTCCACCTGG AGCACCAGGC 
    CCAAGAAAGC AAATGGATAT CAATGCTGCT ATTCAAGCCT TGATTGAATC AAATACTGCC 
    CTACAGATGG AGAGCTACCA GAATACTGAA GTGACTTTAA TTGACCACAG TGAAGAGATA 
    TTCAAAACCC TGAACTACCT TAGCAATTTA TTGCACAGCA TCAAGAATCC TCTTGGCACA 
    CGAGATAACC CAGCACGAAT CTGCAAAGAT TTACTTAACT GTGAACAAAA AGTATCAGAT 
    GGAAAATACT GGATTGACCC AAATCTTGGC TGTCCTTCAG ATGCCATTGA GGTTTTCTGC 
    AATTTCAGTG CTGGTGGCCA GACATGCTTA CCTCCTGTTT CTGTAACAAA GTTGGAGTTT 
    GGAGTTGGGA AAGTCCAGAT GAACTTCCTT CATTTACTGA GTTCGGAAGC CACCCATATC 
    ATCACCATTC ACTGTCTAAA CACCCCAAGG TGGACAAGCA CACAAACAAG TGGCCCAGGA 
    TTGCCTATTG GTTTCAAGGG ATGGAATGGC CAGATTTTTA AAGTAAACAC TCTACTTGAA 
    CCTAAAGTGC TTTCAGATGA CTGCAAGATT CAAGATGGCA GCTGGCATAA GGCAACATTT 
    CTTTTTCACA CCCAGGAACC TAATCAACTT CCAGTGATTG AAGTACAAAA ACTTCCTCAT 
    CTCAAAACTG AACGAAAGTA TTACATTGAC AGCAGTTCTG TATGCTTTCT GTAA

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

    COL24A1 ( XM_017000930.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856419.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu87185
    Clone ID Related Accession (Same CDS sequence) XM_017000930.1
    Accession Version XM_017000930.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2673bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAATGGAGTC TTGCTCTGTC 
    ACCCAAGCTG GAGCACAGTG GCATGATCTT GGCTCACTGC ATCCTCTGCC TCCCGGGTTC 
    AAGCGATTCT CCTGCCTCAG CCTCCCGGGA TAG

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

    RefSeq XP_016856419.1
    CDS368..3040
    Translation

    Target ORF information:

    RefSeq Version XM_017000930.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000930.1

    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
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAATGGAGTC TTGCTCTGTC 
    ACCCAAGCTG GAGCACAGTG GCATGATCTT GGCTCACTGC ATCCTCTGCC TCCCGGGTTC 
    AAGCGATTCT CCTGCCTCAG CCTCCCGGGA TAG

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

    COL24A1 ( NM_001349955.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001336884.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu78334
    Clone ID Related Accession (Same CDS sequence) NM_001349955.1
    Accession Version NM_001349955.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3045bp)
    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 2019-02-02
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL445427.23, AL356059.27, AC104455.2, AL359971.11 and AC099561.2. Transcript Variant: This variant (2) encodes isoform 2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: BC143717.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2146982, SAMEA2163459 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    RefSeq NP_001336884.1
    CDS2172..5216
    Translation

    Target ORF information:

    RefSeq Version NM_001349955.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001349955.1

    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
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGGACTC CTTGGAAATA GAGGACCTCC TGGACCTCCT 
    GGTCTCAAAG GAACTCAGGG AGAAGAAGGA CCAATTGGAG CCTTTGGGGA ACTGGGGCCA 
    AGAGGAAAAC CAGGTCAAAA GGGGTATGCA GGTGAACCAG GACCAGAAGG CTTAAAGGGA 
    GAAGTAGGAG ATCAAGGAAA TATTGGAAAA ATTGGTGAAA CAGGACCTGT TGGCTTACCT 
    GGAGAAGTTG GGATGACTGG AAGCATTGGC GAAAAGGGAG AACGTGGAAG TCCAGGCCCA 
    CTAGGTCCGC AGGGAGAAAA AGGTGTTATG GGATATCCAG GTCCTCCTGG GGTTCCAGGA 
    CCTATCGGTC CATTGGGATT ACCTGGTCAT GTGGGGGCAA GAGGACCACC TGGGAGTCAA 
    GGTCCTAAAG GACAAAGAGG ATCAAGAGGA CCAGATGGTC TCTTAGGGGA ACAAGGTATA 
    CAAGGTGCCA AGGGTGAAAA AGGAGATCAA GGAAAAAGAG GGCCTCATGG TCTTATTGGT 
    AAGACTGGAA ACCCTGGAGA AAGAGGATTT CAAGGGAAAC CAGGTTTACA GGGATTGCCT 
    GGAAGTACAG GTGACAGAGG ACTTCCAGGA GAGCCAGGAC TGCGAGGACT GCAAGGTGAT 
    GTTGGACCTC CTGGAGAAAT GGGCATGGAG GGACCTCCAG GCACTGAGGG AGAGTCTGGT 
    CTGCAAGGTG AACCAGGTGC AAAGGGAGAT GTTGGAACTG CTGGCAGTGT TGGAGGAACT 
    GGGGAACCAG GTTTACGGGG TGAACCAGGA GCTCCTGGAG AAGAAGGTCT CCAGGGAAAA 
    GATGGGTTAA AGGGAGTACC AGGAGGAAGG GGACTTCCTG GAGAGGATGG AGAAAAAGGA 
    GAGATGGGCT TACCAGGAAT TATAGGACCC TTGGGTAGAT CAGGCCAAAC AGGCCTTCCG 
    GGACCTGAAG GAATTGTGGG AATTCCAGGG CAAAGAGGTC GTCCAGGAAA AAAGGGTGAT 
    AAAGGACAAA TAGGACCCAC AGGAGAAGTT GGAAGCAGAG GTCCTCCTGG AAAAATTGGG 
    AAAAGTGGTC CTAAGGGTGC CAGAGGAACT AGAGGTGCTG TGGGACATTT AGGATTGATG 
    GGACCTGATG GAGAACCAGG AATTCCAGGG TACAGGGGCC ATCAGGGCCA ACCAGGACCC 
    TCTGGATTGC CAGGACCTAA AGGAGAAAAG GGCTACCCAG GAGAAGATAG CACAGTCCTA 
    GGACCACCTG GGCCTCGAGG TGAACCAGGT CCAGTGGGGG ACCAAGGAGA GAGAGGAGAG 
    CCTGGAGCAG AGGGATATAA GGGCCATGTG GGTGTACCAG GACTAAGAGG TGCCACTGGA 
    CAACAAGGAC CCCCAGGCGA ACCAGGTGAC CAGGGTGAAC AAGGACTAAA AGGAGAGAGA 
    GGATCTGAAG GTAATAAGGG GAAAAAAGGA GCTCCTGGTC CTTCTGGGAA ACCTGGGATT 
    CCTGGACTTC AAGGCCTACT TGGGCCAAAA GGCATACAAG GATACCATGG AGCAGATGGC 
    ATTTCAGGAA ACCCTGGAAA AATTGGGCCA CCAGGAAAAC AGGGACTTCC TGGCATCAGA 
    GGCGGCCCAG GAAGAACAGG TCTTGCTGGG GCTCCAGGTC CTCCAGGAGT AAAGGGTTCA 
    TCAGGCTTGC CAGGAAGCCC AGGAATTCAA GGCCCAAAGG GTGAACAAGG GCTACCTGGT 
    CAACCTGGAA TTCAAGGTAA AAGAGGTCAC CGAGGAGCAC AAGGTGATCA AGGACCATGT 
    GGAGACCCTG GCCTGAAAGG GCAGCCTGGA GAATATGGTG TTCAAGGTTT GACAGGTTTC 
    CAAGGATTCC CAGGCCCTAA AGGTCCTGAA GGGGATGCTG GCATTGTTGG GATATCAGGT 
    CCTAAAGGTC CTATTGGACA CAGAGGAAAC ACTGGTCCCC TTGGCAGAGA AGGTATAATA 
    GGCCCAACAG GTAGAACTGG ACCCAGAGGT GAAAAGGGCT TTAGAGGTGA AACTGGTCCT 
    CAAGGACCAA GAGGTCAACC AGGGCCTCCA GGTCCACCTG GAGCACCAGG CCCAAGAAAG 
    CAAATGGATA TCAATGCTGC TATTCAAGCC TTGATTGAAT CAAATACTGC CCTACAGATG 
    GAGAGCTACC AGAATACTGA AGTGACTTTA ATTGACCACA GTGAAGAGAT ATTCAAAACC 
    CTGAACTACC TTAGCAATTT ATTGCACAGC ATCAAGAATC CTCTTGGCAC ACGAGATAAC 
    CCAGCACGAA TCTGCAAAGA TTTACTTAAC TGTGAACAAA AAGTATCAGA TGGAAAATAC 
    TGGATTGACC CAAATCTTGG CTGTCCTTCA GATGCCATTG AGGTTTTCTG CAATTTCAGT 
    GCTGGTGGCC AGACATGCTT ACCTCCTGTT TCTGTAACAA AGTTGGAGTT TGGAGTTGGG 
    AAAGTCCAGA TGAACTTCCT TCATTTACTG AGTTCGGAAG CCACCCATAT CATCACCATT 
    CACTGTCTAA ACACCCCAAG GTGGACAAGC ACACAAACAA GTGGCCCAGG ATTGCCTATT 
    GGTTTCAAGG GATGGAATGG CCAGATTTTT AAAGTAAACA CTCTACTTGA ACCTAAAGTG 
    CTTTCAGATG ACTGCAAGAT TCAAGATGGC AGCTGGCATA AGGCAACATT TCTTTTTCAC 
    ACCCAGGAAC CTAATCAACT TCCAGTGATT GAAGTACAAA AACTTCCTCA TCTCAAAACT 
    GAACGAAAGT ATTACATTGA CAGCAGTTCT GTATGCTTTC TGTAA

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

    COL24A1 ( XM_017000925.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856414.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu87180
    Clone ID Related Accession (Same CDS sequence) XM_017000925.1 , XM_017000924.1 , XM_017000924.2 , XM_017000925.2
    Accession Version XM_017000925.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    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_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    RefSeq XP_016856414.1
    CDS126..5315
    Translation

    Target ORF information:

    RefSeq Version XM_017000925.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017000925.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    COL24A1 ( XM_017000924.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856413.1 Homo sapiens collagen type XXIV alpha 1 (COL24A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu87180
    Clone ID Related Accession (Same CDS sequence) XM_017000925.1 , XM_017000924.1 , XM_017000924.2 , XM_017000925.2
    Accession Version XM_017000924.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    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_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    RefSeq XP_016856413.1
    CDS171..5360
    Translation

    Target ORF information:

    RefSeq Version XM_017000924.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017000924.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    COL24A1 ( XM_017000924.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856413.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu87180
    Clone ID Related Accession (Same CDS sequence) XM_017000925.1 , XM_017000924.1 , XM_017000924.2 , XM_017000925.2
    Accession Version XM_017000924.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000924.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    RefSeq XP_016856413.1
    CDS171..5360
    Translation

    Target ORF information:

    RefSeq Version XM_017000924.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000924.2

    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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    COL24A1 ( XM_017000925.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856414.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu87180
    Clone ID Related Accession (Same CDS sequence) XM_017000925.1 , XM_017000924.1 , XM_017000924.2 , XM_017000925.2
    Accession Version XM_017000925.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000925.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    RefSeq XP_016856414.1
    CDS127..5316
    Translation

    Target ORF information:

    RefSeq Version XM_017000925.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000925.2

    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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGGAA AATACTGGAT TGACCCAAAT 
    CTTGGCTGTC CTTCAGATGC CATTGAGGTT TTCTGCAATT TCAGTGCTGG TGGCCAGACA 
    TGCTTACCTC CTGTTTCTGT AACAAAGTTG GAGTTTGGAG TTGGGAAAGT CCAGATGAAC 
    TTCCTTCATT TACTGAGTTC GGAAGCCACC CATATCATCA CCATTCACTG TCTAAACACC 
    CCAAGGTGGA CAAGCACACA AACAAGTGGC CCAGGATTGC CTATTGGTTT CAAGGGATGG 
    AATGGCCAGA TTTTTAAAGT AAACACTCTA CTTGAACCTA AAGTGCTTTC AGATGACTGC 
    AAGATTCAAG ATGGCAGCTG GCATAAGGCA ACATTTCTTT TTCACACCCA GGAACCTAAT 
    CAACTTCCAG TGATTGAAGT ACAAAAACTT CCTCATCTCA AAACTGAACG AAAGTATTAC 
    ATTGACAGCA GTTCTGTATG CTTTCTGTAA

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

    COL24A1 ( XM_017000926.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856415.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu87181
    Clone ID Related Accession (Same CDS sequence) XM_017000926.1
    Accession Version XM_017000926.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5151bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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 (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGATG CCATTGAGGT TTTCTGCAAT 
    TTCAGTGCTG GTGGCCAGAC ATGCTTACCT CCTGTTTCTG TAACAAAGTT GGAGTTTGGA 
    GTTGGGAAAG TCCAGATGAA CTTCCTTCAT TTACTGAGTT CGGAAGCCAC CCATATCATC 
    ACCATTCACT GTCTAAACAC CCCAAGGTGG ACAAGCACAC AAACAAGTGG CCCAGGATTG 
    CCTATTGGTT TCAAGGGATG GAATGGCCAG ATTTTTAAAG TAAACACTCT ACTTGAACCT 
    AAAGTGCTTT CAGATGACTG CAAGATTCAA GATGGCAGCT GGCATAAGGC AACATTTCTT 
    TTTCACACCC AGGAACCTAA TCAACTTCCA GTGATTGAAG TACAAAAACT TCCTCATCTC 
    AAAACTGAAC GAAAGTATTA CATTGACAGC AGTTCTGTAT GCTTTCTGTA A

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

    RefSeq XP_016856415.1
    CDS368..5518
    Translation

    Target ORF information:

    RefSeq Version XM_017000926.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000926.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GTCATGTGGG GGCAAGAGGA CCACCTGGGA GTCAAGGTCC TAAAGGACAA 
    AGAGGATCAA GAGGACCAGA TGGTCTCTTA GGGGAACAAG GTATACAAGG TGCCAAGGGT 
    GAAAAAGGAG ATCAAGGAAA AAGAGGGCCT CATGGTCTTA TTGGTAAGAC TGGAAACCCT 
    GGAGAAAGAG GATTTCAAGG GAAACCAGGT TTACAGGGAT TGCCTGGAAG TACAGGTGAC 
    AGAGGACTTC CAGGAGAGCC AGGACTGCGA GGACTGCAAG GTGATGTTGG ACCTCCTGGA 
    GAAATGGGCA TGGAGGGACC TCCAGGCACT GAGGGAGAGT CTGGTCTGCA AGGTGAACCA 
    GGTGCAAAGG GAGATGTTGG AACTGCTGGC AGTGTTGGAG GAACTGGGGA ACCAGGTTTA 
    CGGGGTGAAC CAGGAGCTCC TGGAGAAGAA GGTCTCCAGG GAAAAGATGG GTTAAAGGGA 
    GTACCAGGAG GAAGGGGACT TCCTGGAGAG GATGGAGAAA AAGGAGAGAT GGGCTTACCA 
    GGAATTATAG GACCCTTGGG TAGATCAGGC CAAACAGGCC TTCCGGGACC TGAAGGAATT 
    GTGGGAATTC CAGGGCAAAG AGGTCGTCCA GGAAAAAAGG GTGATAAAGG ACAAATAGGA 
    CCCACAGGAG AAGTTGGAAG CAGAGGTCCT CCTGGAAAAA TTGGGAAAAG TGGTCCTAAG 
    GGTGCCAGAG GAACTAGAGG TGCTGTGGGA CATTTAGGAT TGATGGGACC TGATGGAGAA 
    CCAGGAATTC CAGGGTACAG GGGCCATCAG GGCCAACCAG GACCCTCTGG ATTGCCAGGA 
    CCTAAAGGAG AAAAGGGCTA CCCAGGAGAA GATAGCACAG TCCTAGGACC ACCTGGGCCT 
    CGAGGTGAAC CAGGTCCAGT GGGGGACCAA GGAGAGAGAG GAGAGCCTGG AGCAGAGGGA 
    TATAAGGGCC ATGTGGGTGT ACCAGGACTA AGAGGTGCCA CTGGACAACA AGGACCCCCA 
    GGCGAACCAG GTGACCAGGG TGAACAAGGA CTAAAAGGAG AGAGAGGATC TGAAGGTAAT 
    AAGGGGAAAA AAGGAGCTCC TGGTCCTTCT GGGAAACCTG GGATTCCTGG ACTTCAAGGC 
    CTACTTGGGC CAAAAGGCAT ACAAGGATAC CATGGAGCAG ATGGCATTTC AGGAAACCCT 
    GGAAAAATTG GGCCACCAGG AAAACAGGGA CTTCCTGGCA TCAGAGGCGG CCCAGGAAGA 
    ACAGGTCTTG CTGGGGCTCC AGGTCCTCCA GGAGTAAAGG GTTCATCAGG CTTGCCAGGA 
    AGCCCAGGAA TTCAAGGCCC AAAGGGTGAA CAAGGGCTAC CTGGTCAACC TGGAATTCAA 
    GGTAAAAGAG GTCACCGAGG AGCACAAGGT GATCAAGGAC CATGTGGAGA CCCTGGCCTG 
    AAAGGGCAGC CTGGAGAATA TGGTGTTCAA GGTTTGACAG GTTTCCAAGG ATTCCCAGGC 
    CCTAAAGGTC CTGAAGGGGA TGCTGGCATT GTTGGGATAT CAGGTCCTAA AGGTCCTATT 
    GGACACAGAG GAAACACTGG TCCCCTTGGC AGAGAAGGTA TAATAGGCCC AACAGGTAGA 
    ACTGGACCCA GAGGTGAAAA GGGCTTTAGA GGTGAAACTG GTCCTCAAGG ACCAAGAGGT 
    CAACCAGGGC CTCCAGGTCC ACCTGGAGCA CCAGGCCCAA GAAAGCAAAT GGATATCAAT 
    GCTGCTATTC AAGCCTTGAT TGAATCAAAT ACTGCCCTAC AGATGGAGAG CTACCAGAAT 
    ACTGAAGTGA CTTTAATTGA CCACAGTGAA GAGATATTCA AAACCCTGAA CTACCTTAGC 
    AATTTATTGC ACAGCATCAA GAATCCTCTT GGCACACGAG ATAACCCAGC ACGAATCTGC 
    AAAGATTTAC TTAACTGTGA ACAAAAAGTA TCAGATGATG CCATTGAGGT TTTCTGCAAT 
    TTCAGTGCTG GTGGCCAGAC ATGCTTACCT CCTGTTTCTG TAACAAAGTT GGAGTTTGGA 
    GTTGGGAAAG TCCAGATGAA CTTCCTTCAT TTACTGAGTT CGGAAGCCAC CCATATCATC 
    ACCATTCACT GTCTAAACAC CCCAAGGTGG ACAAGCACAC AAACAAGTGG CCCAGGATTG 
    CCTATTGGTT TCAAGGGATG GAATGGCCAG ATTTTTAAAG TAAACACTCT ACTTGAACCT 
    AAAGTGCTTT CAGATGACTG CAAGATTCAA GATGGCAGCT GGCATAAGGC AACATTTCTT 
    TTTCACACCC AGGAACCTAA TCAACTTCCA GTGATTGAAG TACAAAAACT TCCTCATCTC 
    AAAACTGAAC GAAAGTATTA CATTGACAGC AGTTCTGTAT GCTTTCTGTA A

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

    COL24A1 ( XM_017000927.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856416.1 Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu87182
    Clone ID Related Accession (Same CDS sequence) XM_017000927.1
    Accession Version XM_017000927.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5136bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXIV) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GATCAAGAGG ACCAGATGGT CTCTTAGGGG AACAAGGTAT ACAAGGTGCC 
    AAGGGTGAAA AAGGAGATCA AGGAAAAAGA GGGCCTCATG GTCTTATTGG TAAGACTGGA 
    AACCCTGGAG AAAGAGGATT TCAAGGGAAA CCAGGTTTAC AGGGATTGCC TGGAAGTACA 
    GGTGACAGAG GACTTCCAGG AGAGCCAGGA CTGCGAGGAC TGCAAGGTGA TGTTGGACCT 
    CCTGGAGAAA TGGGCATGGA GGGACCTCCA GGCACTGAGG GAGAGTCTGG TCTGCAAGGT 
    GAACCAGGTG CAAAGGGAGA TGTTGGAACT GCTGGCAGTG TTGGAGGAAC TGGGGAACCA 
    GGTTTACGGG GTGAACCAGG AGCTCCTGGA GAAGAAGGTC TCCAGGGAAA AGATGGGTTA 
    AAGGGAGTAC CAGGAGGAAG GGGACTTCCT GGAGAGGATG GAGAAAAAGG AGAGATGGGC 
    TTACCAGGAA TTATAGGACC CTTGGGTAGA TCAGGCCAAA CAGGCCTTCC GGGACCTGAA 
    GGAATTGTGG GAATTCCAGG GCAAAGAGGT CGTCCAGGAA AAAAGGGTGA TAAAGGACAA 
    ATAGGACCCA CAGGAGAAGT TGGAAGCAGA GGTCCTCCTG GAAAAATTGG GAAAAGTGGT 
    CCTAAGGGTG CCAGAGGAAC TAGAGGTGCT GTGGGACATT TAGGATTGAT GGGACCTGAT 
    GGAGAACCAG GAATTCCAGG GTACAGGGGC CATCAGGGCC AACCAGGACC CTCTGGATTG 
    CCAGGACCTA AAGGAGAAAA GGGCTACCCA GGAGAAGATA GCACAGTCCT AGGACCACCT 
    GGGCCTCGAG GTGAACCAGG TCCAGTGGGG GACCAAGGAG AGAGAGGAGA GCCTGGAGCA 
    GAGGGATATA AGGGCCATGT GGGTGTACCA GGACTAAGAG GTGCCACTGG ACAACAAGGA 
    CCCCCAGGCG AACCAGGTGA CCAGGGTGAA CAAGGACTAA AAGGAGAGAG AGGATCTGAA 
    GGTAATAAGG GGAAAAAAGG AGCTCCTGGT CCTTCTGGGA AACCTGGGAT TCCTGGACTT 
    CAAGGCCTAC TTGGGCCAAA AGGCATACAA GGATACCATG GAGCAGATGG CATTTCAGGA 
    AACCCTGGAA AAATTGGGCC ACCAGGAAAA CAGGGACTTC CTGGCATCAG AGGCGGCCCA 
    GGAAGAACAG GTCTTGCTGG GGCTCCAGGT CCTCCAGGAG TAAAGGGTTC ATCAGGCTTG 
    CCAGGAAGCC CAGGAATTCA AGGCCCAAAG GGTGAACAAG GGCTACCTGG TCAACCTGGA 
    ATTCAAGGTA AAAGAGGTCA CCGAGGAGCA CAAGGTGATC AAGGACCATG TGGAGACCCT 
    GGCCTGAAAG GGCAGCCTGG AGAATATGGT GTTCAAGGTT TGACAGGTTT CCAAGGATTC 
    CCAGGCCCTA AAGGTCCTGA AGGGGATGCT GGCATTGTTG GGATATCAGG TCCTAAAGGT 
    CCTATTGGAC ACAGAGGAAA CACTGGTCCC CTTGGCAGAG AAGGTATAAT AGGCCCAACA 
    GGTAGAACTG GACCCAGAGG TGAAAAGGGC TTTAGAGGTG AAACTGGTCC TCAAGGACCA 
    AGAGGTCAAC CAGGGCCTCC AGGTCCACCT GGAGCACCAG GCCCAAGAAA GCAAATGGAT 
    ATCAATGCTG CTATTCAAGC CTTGATTGAA TCAAATACTG CCCTACAGAT GGAGAGCTAC 
    CAGAATACTG AAGTGACTTT AATTGACCAC AGTGAAGAGA TATTCAAAAC CCTGAACTAC 
    CTTAGCAATT TATTGCACAG CATCAAGAAT CCTCTTGGCA CACGAGATAA CCCAGCACGA 
    ATCTGCAAAG ATTTACTTAA CTGTGAACAA AAAGTATCAG ATGGAAAATA CTGGATTGAC 
    CCAAATCTTG GCTGTCCTTC AGATGCCATT GAGGTTTTCT GCAATTTCAG TGCTGGTGGC 
    CAGACATGCT TACCTCCTGT TTCTGTAACA AAGTTGGAGT TTGGAGTTGG GAAAGTCCAG 
    ATGAACTTCC TTCATTTACT GAGTTCGGAA GCCACCCATA TCATCACCAT TCACTGTCTA 
    AACACCCCAA GGTGGACAAG CACACAAACA AGTGGCCCAG GATTGCCTAT TGGTTTCAAG 
    GGATGGAATG GCCAGATTTT TAAAGTAAAC ACTCTACTTG AACCTAAAGT GCTTTCAGAT 
    GACTGCAAGA TTCAAGATGG CAGCTGGCAT AAGGCAACAT TTCTTTTTCA CACCCAGGAA 
    CCTAATCAAC TTCCAGTGAT TGAAGTACAA AAACTTCCTC ATCTCAAAAC TGAACGAAAG 
    TATTACATTG ACAGCAGTTC TGTATGCTTT CTGTAA

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

    RefSeq XP_016856416.1
    CDS368..5503
    Translation

    Target ORF information:

    RefSeq Version XM_017000927.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXIV alpha 1 chain (COL24A1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000927.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCATTTAA GAGCCCACAG AACAAGGCGT GGAAAAGTCT CCCCCACGGC AAAAACGAAA 
    TCACTTCTTC ATTTTATTGT ACTATGTGTG GCTGGGGTGG TTGTTCATGC ACAAGAACAA 
    GGCATAGATA TTCTTCATCA ACTAGGCCTT GGAGGCAAAG ACGTAAGACA CTCATCACCA 
    GCGACTGCTG TACCATCAGC ATCTACACCG TTACCTCAGG GGGTCCATTT AACAGAATCA 
    GGAGTCATTT TTAAAAATGA TGCTTATATC GAGACACCTT TCGTGAAAAT TTTACCAGTC 
    AACTTGGGGC AGCCGTTTAC AATATTAACT GGGTTACAGT CACATCGGGT GAACAATGCA 
    TTTCTCTTCA GCATTAGAAA TAAAAATAGA CTGCAATTAG GAGTACAATT ACTACCTAAA 
    AAATTAGTAG TACACATTAG AGGAAAGCAG CCTGCAGTTT TCAACTACAG TGTTCATGAT 
    GAGCAATGGC ACTCATTTGC CATTACTATT AGAAACCAAA GTGTCTCAAT GTTTGTTGAG 
    TGTGGAAAGA AATATTTTAG CACAGAGACT ATTCCAGAAG TTCAGACCTT TGATTCTAAT 
    AGTGTGTTTA CTTTAGGAAG TATGAATAAT AATTCTATCC ATTTTGAAGG AATAGTATGT 
    CAGTTAGATA TTATTCCTTC TGCAGAAGCA TCTGCAGACT ACTGCAGATA TGTGAAACAG 
    CAGTGTCGCC AAGCAGACAA ATACCAACCT GAAACAAGCA TTCCTTGTAC AACTCTCATA 
    CCAACAAAGA TACCGGAACA CTCTCCCCCG CCCAAACTAT TTGCTGAAAA AGTACTGTCA 
    GAGGATACAT TTACTGAAGG CAAAAGCATT CCAAATATCA TAAAAAATGA TTCTGAAACC 
    GTGTATAAAA GACAAGAACA CCAGATATCA AGATCTCAGT TATCTTCTCT TCAGTCAGGA 
    AATGTCTCTG CTGTGGATCT CACAAACCAT GGGATTCAGG CCAAAGAAAT GATCACTGAG 
    GAAGATACTC AGACAAATTT CAGCCTGTCA GTGACCACTC ATCGCATCAG TGAGGCAAAA 
    ATGAATACCA AAGAGAAATT TAGCTCTCTC CTAAACATGT CTGACAATAT CACACAACAT 
    GATGATAGAG TAACTGGTCT GTCACTGTTT AAGAAGATGC CATCTATTCT TCCACAAATT 
    AAACAAGATA CAATTACTAA TCTCAAGAAG GCTATCACAG CAAATCTACA CACTAACGAA 
    CTCATGGAAA TGCAACCAAT TTTAAACACA AGCTTGCATA GAGTGACAAA TGAGCCATCT 
    GTGGATAATC ACCTTGATCT AAGGAAAGAA GGTGAATTTT ATCCTGATGC TACTTATCCC 
    ATCGAAAATA GCTATGAAAC TGAGCTTTAT GATTATTATT ATTATGAGGA TCTAAATACA 
    ATGCTTGAAA TGGAGTATCT GAGAGGGCCA AAAGGAGACA CTGGACCTCC CGGTCCACCT 
    GGTCCAGCAG GTATCCCAGG TCCGTCAGGG AAGAGAGGTC CACGGGGCAT ACCAGGGCCA 
    CATGGAAATC CTGGTTTACC TGGATTACCT GGTCCAAAGG GCCCCAAAGG AGATCCAGGA 
    TTTTCCCCAG GTCAACCTGT TCCTGGAGAA AAGGGTGATC AAGGCCTTTC TGGATTAATG 
    GGCCCCCCTG GTATGCAAGG TGATAAGGGT CTCAAAGGAC ATCCTGGACT CCCAGGACTT 
    CCAGGTGAAC AAGGAATTCC AGGATTTGCT GGTAATATTG GTTCACCCGG TTACCCTGGC 
    AGGCAGGGTT TAGCTGGACC AGAAGGTAAT CCAGGTCCTA AAGGTGCACA AGGTTTTATT 
    GGCTCTCCTG GAGAAGCGGG ACAACTGGGA CCTGAAGGAG AACGGGGCAT TCCTGGGATC 
    CGTGGAAAGA AGGGTTTTAA GGGGAGACAG GGTTTTCCAG GTGACTTTGG AGACAGAGGC 
    CCTGCTGGTC TTGATGGCAG TCCTGGACTT GTAGGTGGCA CTGGTCCTCC GGGGTTTCCT 
    GGGCTTAGAG GCAGTGTTGG CCCTGTGGGA CCAATTGGAC CTGCTGGAAT TCCTGGCCCA 
    ATGGGCCTTT CAGGGAATAA AGGACTACCT GGAATCAAAG GTGATAAGGG TGAACAAGGC 
    ACAGCAGGAG AGCTAGGAGA ACCCGGGTAT CCTGGAGACA AGGGTGCTGT TGGTTTACCA 
    GGACCACCAG GGATGAGAGG AAAGTCAGGG CCTTCAGGCC AAACAGGTGA CCCAGGACTC 
    CAAGGACCAT CTGGCCCTCC AGGACCAGAG GGTTTTCCAG GAGATATTGG GATTCCTGGA 
    CAAAACGGCC CTGAAGGACC AAAGGAACTT GTAATTCTCT GGAAACATGA GCCCTTCATA 
    AGTGAAAAGG GACTCCTTGG AAATAGAGGA CCTCCTGGAC CTCCTGGTCT CAAAGGAACT 
    CAGGGAGAAG AAGGACCAAT TGGAGCCTTT GGGGAACTGG GGCCAAGAGG AAAACCAGGT 
    CAAAAGGGGT ATGCAGGTGA ACCAGGACCA GAAGGCTTAA AGGGAGAAGT AGGAGATCAA 
    GGAAATATTG GAAAAATTGG TGAAACAGGA CCTGTTGGCT TACCTGGAGA AGTTGGGATG 
    ACTGGAAGCA TTGGCGAAAA GGGAGAACGT GGAAGTCCAG GCCCACTAGG TCCGCAGGGA 
    GAAAAAGGTG TTATGGGATA TCCAGGTCCT CCTGGGGTTC CAGGACCTAT CGGTCCATTG 
    GGATTACCTG GATCAAGAGG ACCAGATGGT CTCTTAGGGG AACAAGGTAT ACAAGGTGCC 
    AAGGGTGAAA AAGGAGATCA AGGAAAAAGA GGGCCTCATG GTCTTATTGG TAAGACTGGA 
    AACCCTGGAG AAAGAGGATT TCAAGGGAAA CCAGGTTTAC AGGGATTGCC TGGAAGTACA 
    GGTGACAGAG GACTTCCAGG AGAGCCAGGA CTGCGAGGAC TGCAAGGTGA TGTTGGACCT 
    CCTGGAGAAA TGGGCATGGA GGGACCTCCA GGCACTGAGG GAGAGTCTGG TCTGCAAGGT 
    GAACCAGGTG CAAAGGGAGA TGTTGGAACT GCTGGCAGTG TTGGAGGAAC TGGGGAACCA 
    GGTTTACGGG GTGAACCAGG AGCTCCTGGA GAAGAAGGTC TCCAGGGAAA AGATGGGTTA 
    AAGGGAGTAC CAGGAGGAAG GGGACTTCCT GGAGAGGATG GAGAAAAAGG AGAGATGGGC 
    TTACCAGGAA TTATAGGACC CTTGGGTAGA TCAGGCCAAA CAGGCCTTCC GGGACCTGAA 
    GGAATTGTGG GAATTCCAGG GCAAAGAGGT CGTCCAGGAA AAAAGGGTGA TAAAGGACAA 
    ATAGGACCCA CAGGAGAAGT TGGAAGCAGA GGTCCTCCTG GAAAAATTGG GAAAAGTGGT 
    CCTAAGGGTG CCAGAGGAAC TAGAGGTGCT GTGGGACATT TAGGATTGAT GGGACCTGAT 
    GGAGAACCAG GAATTCCAGG GTACAGGGGC CATCAGGGCC AACCAGGACC CTCTGGATTG 
    CCAGGACCTA AAGGAGAAAA GGGCTACCCA GGAGAAGATA GCACAGTCCT AGGACCACCT 
    GGGCCTCGAG GTGAACCAGG TCCAGTGGGG GACCAAGGAG AGAGAGGAGA GCCTGGAGCA 
    GAGGGATATA AGGGCCATGT GGGTGTACCA GGACTAAGAG GTGCCACTGG ACAACAAGGA 
    CCCCCAGGCG AACCAGGTGA CCAGGGTGAA CAAGGACTAA AAGGAGAGAG AGGATCTGAA 
    GGTAATAAGG GGAAAAAAGG AGCTCCTGGT CCTTCTGGGA AACCTGGGAT TCCTGGACTT 
    CAAGGCCTAC TTGGGCCAAA AGGCATACAA GGATACCATG GAGCAGATGG CATTTCAGGA 
    AACCCTGGAA AAATTGGGCC ACCAGGAAAA CAGGGACTTC CTGGCATCAG AGGCGGCCCA 
    GGAAGAACAG GTCTTGCTGG GGCTCCAGGT CCTCCAGGAG TAAAGGGTTC ATCAGGCTTG 
    CCAGGAAGCC CAGGAATTCA AGGCCCAAAG GGTGAACAAG GGCTACCTGG TCAACCTGGA 
    ATTCAAGGTA AAAGAGGTCA CCGAGGAGCA CAAGGTGATC AAGGACCATG TGGAGACCCT 
    GGCCTGAAAG GGCAGCCTGG AGAATATGGT GTTCAAGGTT TGACAGGTTT CCAAGGATTC 
    CCAGGCCCTA AAGGTCCTGA AGGGGATGCT GGCATTGTTG GGATATCAGG TCCTAAAGGT 
    CCTATTGGAC ACAGAGGAAA CACTGGTCCC CTTGGCAGAG AAGGTATAAT AGGCCCAACA 
    GGTAGAACTG GACCCAGAGG TGAAAAGGGC TTTAGAGGTG AAACTGGTCC TCAAGGACCA 
    AGAGGTCAAC CAGGGCCTCC AGGTCCACCT GGAGCACCAG GCCCAAGAAA GCAAATGGAT 
    ATCAATGCTG CTATTCAAGC CTTGATTGAA TCAAATACTG CCCTACAGAT GGAGAGCTAC 
    CAGAATACTG AAGTGACTTT AATTGACCAC AGTGAAGAGA TATTCAAAAC CCTGAACTAC 
    CTTAGCAATT TATTGCACAG CATCAAGAAT CCTCTTGGCA CACGAGATAA CCCAGCACGA 
    ATCTGCAAAG ATTTACTTAA CTGTGAACAA AAAGTATCAG ATGGAAAATA CTGGATTGAC 
    CCAAATCTTG GCTGTCCTTC AGATGCCATT GAGGTTTTCT GCAATTTCAG TGCTGGTGGC 
    CAGACATGCT TACCTCCTGT TTCTGTAACA AAGTTGGAGT TTGGAGTTGG GAAAGTCCAG 
    ATGAACTTCC TTCATTTACT GAGTTCGGAA GCCACCCATA TCATCACCAT TCACTGTCTA 
    AACACCCCAA GGTGGACAAG CACACAAACA AGTGGCCCAG GATTGCCTAT TGGTTTCAAG 
    GGATGGAATG GCCAGATTTT TAAAGTAAAC ACTCTACTTG AACCTAAAGT GCTTTCAGAT 
    GACTGCAAGA TTCAAGATGG CAGCTGGCAT AAGGCAACAT TTCTTTTTCA CACCCAGGAA 
    CCTAATCAAC TTCCAGTGAT TGAAGTACAA AAACTTCCTC ATCTCAAAAC TGAACGAAAG 
    TATTACATTG ACAGCAGTTC TGTATGCTTT CTGTAA

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

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