COL11A2 cDNA ORF clone, Homo sapiens(human)

The following COL11A2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL11A2 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
OHu22994 NM_001163771.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $216.30
$309.00
OHu25966 NM_080680.3
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu25742 NM_080681.3
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu25827 NM_080679.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu25966 XM_017010250.1
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu57010 XM_011514299.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu57011 XM_011514300.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu57013 XM_011514302.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu96292 XM_017010251.2
Latest version!
Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
View Old Accession Versions >>
OHu96292 XM_017010251.1 Homo sapiens collagen type XI alpha 2 (COL11A2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu25966 NM_080680.2 Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu25742 NM_080681.2 Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu22994 NM_001163771.1 Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $216.30
$309.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu22994
    Clone ID Related Accession (Same CDS sequence) NM_001163771.1 , NM_001163771.2
    Accession Version NM_001163771.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 873bp)
    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 2019-02-22
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 4 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4 and BC053886.1. Transcript Variant: This variant (4) lacks several exons at the 3' end and has a distinct 3' coding region and 3' UTR, compared to variant 1. The encoded isoform (4) has a distinct C-terminus and is considerably shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC053886.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142586, SAMEA2145240 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGT GAGGGAGCTG GGAGAACCCC CAAGTGCAGC ACACCCCAGA
    GAGGGAAGAC ACCCAGGCAT CTCTCCTCCT TAG

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

    RefSeq NP_001157243.1
    CDS229..1101
    Translation

    Target ORF information:

    RefSeq Version NM_001163771.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001163771.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGT GAGGGAGCTG GGAGAACCCC CAAGTGCAGC ACACCCCAGA
    GAGGGAAGAC ACCCAGGCAT CTCTCCTCCT TAG

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

    CloneID OHu22994
    Clone ID Related Accession (Same CDS sequence) NM_001163771.1 , NM_001163771.2
    Accession Version NM_001163771.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 873bp)
    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 2019-09-29
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 4 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4 and BC053886.1. On Jun 2, 2019 this sequence version replaced NM_001163771.1. Transcript Variant: This variant (4) lacks several exons at the 3' end and has a distinct 3' coding region and 3' UTR, compared to variant 1. The encoded isoform (4) has a distinct C-terminus and is considerably shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC053886.1, SRR5189652.82386.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142586, SAMEA2145240 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGT GAGGGAGCTG GGAGAACCCC CAAGTGCAGC ACACCCCAGA
    GAGGGAAGAC ACCCAGGCAT CTCTCCTCCT TAG

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

    RefSeq NP_001157243.1
    CDS228..1100
    Translation

    Target ORF information:

    RefSeq Version NM_001163771.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001163771.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGT GAGGGAGCTG GGAGAACCCC CAAGTGCAGC ACACCCCAGA
    GAGGGAAGAC ACCCAGGCAT CTCTCCTCCT TAG

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

    CloneID OHu25966
    Clone ID Related Accession (Same CDS sequence) NM_080680.2 , NM_080680.3 , XM_017010250.1
    Accession Version NM_080680.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5211bp)
    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 2019-09-14
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 1 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4. This sequence is a reference standard in the RefSeqGene project. On Jul 25, 2019 this sequence version replaced NM_080680.2. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). There are no publicly available human transcripts representing the full-length exon combination of this variant, but the region of variation is supported by experimental data in PMIDs 8663204 and 8838804, by homology data in mouse, and the full-length sequence is represented in accession U32169.1:AAC50214.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##RefSeq-Attributes-START## RefSeq Select criteria :: based on manual assertion, conservation, expression, longest protein ##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
    5161
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    RefSeq NP_542411.2
    CDS228..5438
    Translation

    Target ORF information:

    RefSeq Version NM_080680.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080680.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    CloneID OHu25742
    Clone ID Related Accession (Same CDS sequence) NM_080681.2 , NM_080681.3
    Accession Version NM_080681.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4953bp)
    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 2019-02-16
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 2 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4. On Aug 2, 2006 this sequence version replaced NM_080681.1. Transcript Variant: This variant (2) lacks two alternate in-frame exons, compared to variant 1, resulting in a shorter protein (isoform 2), compared to isoform 1. There are no publicly available human transcripts representing the full-length exon combination of this variant, but the region of variation is supported by experimental data in PMIDs 8663204 and 8838804, by homology data in mouse, and the full-length sequence is represented in accession U32169.1:AAC50213.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMN03465420 [ECO:0000348] ##Evidence-Data-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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGA CCCCACCCCA GGTGAAGAGG AAGAAATCCT GGAGTCGAGC
    CTCTTGCCAC CCCTTGAGGA GGCTGCCCAT GGACCCCGAG GGCTGAAGGG AGAGAAAGGA
    GAGCCTGCAG TGTTGGAACC TGGTATGCTC GTGGAGGGGC CCCCTGGCCC AGAAGGCCCT
    GCGGGATTGA TTGGTCCCCC TGGCATCCAG GGGAACCCAG GCCCAGTTGG AGACCCTGGA
    GAGAGGGGCC CCCCTGGCCG AGCAGGGCTC CCTGGATCAG ATGGGGCTCC TGGTCCTCCT
    GGCACATCTC TCATGCTCCC ATTCCGGTTT GGCAGTGGTG GGGGTGACAA GGGCCCTGTG
    GTGGCGGCCC AGGAGGCTCA GGCCCAGGCG ATCCTGCAGC AGGCGAGGCT GGCGCTCCGT
    GGACCCCCTG GCCCCATGGG ATACACAGGG CGCCCTGGAC CCTTGGGCCA ACCTGGGAGC
    CCTGGCCTGA AAGGAGAGTC TGGAGACTTA GGACCTCAGG GCCCCAGAGG ACCTCAGGGC
    CTCACAGGCC CTCCTGGCAA GGCTGGGCGA AGGGGCCGGG CAGGTGCTGA TGGAGCCCGA
    GGGATGCCTG GAGATCCTGG AGTGAAGGGT GACCGAGGTT TTGATGGACT CCCAGGGCTC
    CCTGGAGAGA AGGGCCATAG GGGTGATACT GGTGCCCAGG GCCTTCCTGG TCCCCCTGGT
    GAGGATGGAG AGAGGGGAGA TGACGGGGAG ATTGGGCCTC GAGGGCTGCC TGGAGAGTCG
    GGACCTCGAG GTCTCCTTGG CCCCAAAGGC CCACCTGGTA TTCCTGGACC CCCTGGCGTC
    CGAGGCATGG ATGGTCCCCA GGGCCCCAAA GGGAGCTTGG GACCCCAGGG AGAGCCAGGA
    CCTCCTGGAC AACAGGGCAC CCCTGGGACC CAGGGTCTTC CCGGGCCCCA GGGTGCCATC
    GGCCCTCATG GAGAGAAGGG TCCTCAAGGG AAGCCAGGGC TCCCCGGCAT GCCTGGCTCA
    GACGGACCCC CGGGTCACCC AGGGAAGGAA GGTCCCCCTG GAACCAAAGG AAACCAGGGT
    CCCTCTGGAC CTCAGGGACC TCTAGGATAC CCAGGACCTC GAGGGGTCAA GGGTGTGGAC
    GGAATTCGGG GTCTGAAGGG TCATAAGGGT GAGAAGGGTG AGGATGGCTT TCCTGGGTTC
    AAAGGTGACA TAGGCGTGAA AGGTGACAGG GGCGAAGTTG GAGTCCCTGG TTCCAGGGGA
    GAGGATGGTC CTGAGGGGCC AAAGGGACGC ACTGGACCGA CTGGAGACCC TGGGCCCCCA
    GGGCTCATGG GCGAGAAGGG CAAGCTGGGT GTTCCTGGTC TGCCTGGCTA TCCTGGACGT
    CAGGGACCCA AGGGGTCCCT AGGATTTCCT GGCTTTCCTG GTGCCAGTGG AGAGAAGGGA
    GCCCGGGGCC TGTCGGGGAA GTCAGGGCCT CGGGGAGAAC GGGGCCCCAC GGGTCCACGG
    GGTCAGCGGG GACCCCGAGG TGCCACTGGG AAGTCTGGAG CTAAGGGAAC ATCTGGTGGT
    GATGGCCCCC ATGGGCCCCC TGGAGAGAGG GGCCTCCCTG GACCTCAGGG TCCCAACGGG
    TTTCCTGGAC CGAAAGGACC CCCGGGCCCC CCTGGGAAGG ATGGGCTGCC GGGACACCCA
    GGCCAAAGAG GAGAAGTGGG TTTCCAAGGG AAGACCGGCC CCCCTGGTCC TCCAGGAGTG
    GTGGGACCTC AGGGAGCAGC AGGAGAAACC GGCCCTATGG GGGAGAGAGG TCACCCAGGC
    CCCCCGGGGC CCCCTGGAGA GCAGGGACTA CCTGGGACAG CTGGAAAAGA AGGAACAAAG
    GGTGACCCTG GTCCCCCTGG GGCCCCAGGG AAGGATGGTC CTGCTGGTCT GAGGGGATTC
    CCAGGAGAGA GAGGCCTCCC AGGCACTGCT GGTGGACCTG GTTTGAAGGG GAATGAAGGT
    CCGTCTGGCC CCCCTGGCCC TGCAGGCTCC CCTGGGGAAC GAGGTGCAGC AGGATCAGGG
    GGACCCATTG GTCCGCCAGG GCGCCCAGGC CCGCAGGGTC CCCCTGGAGC AGCAGGAGAG
    AAAGGTGTCC CAGGTGAGAA GGGCCCCATT GGCCCGACTG GCCGAGATGG AGTGCAGGGT
    CCTGTGGGGC TTCCTGGTCC TGCTGGGCCT CCAGGTGTGG CTGGAGAGGA TGGAGACAAG
    GGTGAGGTGG GGGACCCCGG ACAGAAGGGC ACCAAAGGGA ACAAGGGTGA ACATGGCCCT
    CCTGGACCCC CTGGACCCAT TGGTCCTGTG GGGCAGCCTG GAGCAGCGGG AGCAGATGGG
    GAGCCCGGAG CTCGGGGACC CCAGGGACAC TTTGGAGCCA AAGGTGATGA AGGAACAAGA
    GGATTCAATG GGCCCCCAGG ACCCATTGGC CTACAGGGTT TGCCAGGCCC CTCTGGGGAG
    AAGGGAGAAA CAGGAGATGT GGGTCCTATG GGACCACCTG GCCCCCCAGG ACCTCGAGGT
    CCAGCTGGAC CCAATGGCGC TGATGGCCCA CAAGGTCCCC CAGGAGGTGT TGGGAACCTG
    GGTCCCCCTG GAGAGAAGGG GGAACCAGGA GAGTCAGGAT CTCCAGGGAT CCAGGGCGAG
    CCAGGTGTCA AGGGTCCACG CGGGGAACGT GGAGAGAAAG GAGAGTCGGG GCAGCCAGGA
    GAGCCAGGGC CACCAGGGCC TAAAGGCCCC ACAGGCGATG ATGGCCCCAA AGGGAACCCT
    GGTCCTGTTG GTTTTCCTGG TGACCCTGGC CCCCCTGGAG AAGGTGGCCC TCGGGGCCAG
    GATGGTGCTA AGGGTGACCG AGGCGAGGAT GGTGAGCCAG GACAGCCTGG ATCCCCTGGT
    CCCACCGGGG AGAATGGACC CCCAGGGCCA CTTGGAAAGC GAGGTCCTGC TGGCTCGCCT
    GGTTCCGAGG GGCGACAAGG AGGGAAGGGA GCCAAGGGAG ATCCTGGCGC TATAGGTGCC
    CCGGGGAAGA CAGGCCCGGT GGGTCCTGCA GGCCCAGCAG GGAAACCTGG CCCTGATGGT
    CTGAGGGGGC TCCCAGGCTC AGTGGGTCAG CAAGGCCGAC CTGGAGCTAC AGGCCAGGCT
    GGGCCCCCAG GTCCTGTGGG ACCCCCAGGG CTGCCTGGTC TCCGGGGCGA TGCTGGAGCC
    AAGGGAGAGA AGGGCCACCC AGGTCTCATT GGACTGATTG GGCCCCCGGG TGAGCAGGGA
    GAGAAGGGAG ATCGGGGACT TCCTGGGCCT CAGGGCTCCC CTGGGCAGAA GGGTGAGATG
    GGTATCCCAG GAGCATCCGG CCCCATTGGT CCTGGAGGTC CCCCCGGCCT CCCCGGACCT
    GCTGGCCCCA AAGGAGCCAA AGGAGCCACA GGCCCAGGCG GACCCAAGGG AGAGAAGGGT
    GTGCAGGGCC CTCCAGGACA CCCGGGTCCC CCAGGCGAGG TGATCCAGCC ACTGCCCATT
    CAGATGCCCA AGAAGACTCG GCGCTCGGTG GATGGAAGCC GTCTGATGCA GGAAGATGAG
    GCCATACCGA CCGGGGGAGC CCCCGGCAGT CCTGGGGGGC TGGAGGAGAT CTTTGGCTCA
    CTCGACTCCC TGCGGGAGGA GATCGAGCAG ATGAGGCGGC CAACAGGGAC CCAGGACAGC
    CCTGCTCGCA CCTGCCAGGA CCTGAAGCTG TGCCACCCAG AGCTTCCCGA TGGAGAGTAC
    TGGGTCGACC CCAACCAGGG CTGTGCTCGG GATGCCTTCC GAGTTTTCTG CAACTTCACA
    GCAGGGGGTG AGACCTGTGT GACGCCTAGG GATGACGTCA CGCAGTTCTC TTACGTGGAC
    TCAGAGGGCT CCCCAGTGGG TGTGGTCCAG CTCACCTTCC TGCGGCTGCT CAGCGTCTCA
    GCCCACCAGG ACGTCTCCTA CCCCTGCTCT GGAGCAGCCC GTGACGGTCC CCTGAGACTC
    CGTGGGGCCA ATGAGGATGA GCTGAGCCCG GAGACTAGCC CCTATGTCAA AGAATTCAGA
    GATGGCTGCC AGACACAGCA AGGCCGGACG GTGCTGGAGG TGCGAACGCC TGTGCTGGAG
    CAGCTGCCAG TGCTGGATGC CTCCTTCTCA GACCTGGGAG CCCCACCGAG GCGGGGAGGG
    GTGCTGCTGG GGCCTGTCTG CTTCATGGGA TAG

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

    RefSeq NP_542412.2
    CDS229..5181
    Translation

    Target ORF information:

    RefSeq Version NM_080681.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080681.2

    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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGA CCCCACCCCA GGTGAAGAGG AAGAAATCCT GGAGTCGAGC
    CTCTTGCCAC CCCTTGAGGA GGCTGCCCAT GGACCCCGAG GGCTGAAGGG AGAGAAAGGA
    GAGCCTGCAG TGTTGGAACC TGGTATGCTC GTGGAGGGGC CCCCTGGCCC AGAAGGCCCT
    GCGGGATTGA TTGGTCCCCC TGGCATCCAG GGGAACCCAG GCCCAGTTGG AGACCCTGGA
    GAGAGGGGCC CCCCTGGCCG AGCAGGGCTC CCTGGATCAG ATGGGGCTCC TGGTCCTCCT
    GGCACATCTC TCATGCTCCC ATTCCGGTTT GGCAGTGGTG GGGGTGACAA GGGCCCTGTG
    GTGGCGGCCC AGGAGGCTCA GGCCCAGGCG ATCCTGCAGC AGGCGAGGCT GGCGCTCCGT
    GGACCCCCTG GCCCCATGGG ATACACAGGG CGCCCTGGAC CCTTGGGCCA ACCTGGGAGC
    CCTGGCCTGA AAGGAGAGTC TGGAGACTTA GGACCTCAGG GCCCCAGAGG ACCTCAGGGC
    CTCACAGGCC CTCCTGGCAA GGCTGGGCGA AGGGGCCGGG CAGGTGCTGA TGGAGCCCGA
    GGGATGCCTG GAGATCCTGG AGTGAAGGGT GACCGAGGTT TTGATGGACT CCCAGGGCTC
    CCTGGAGAGA AGGGCCATAG GGGTGATACT GGTGCCCAGG GCCTTCCTGG TCCCCCTGGT
    GAGGATGGAG AGAGGGGAGA TGACGGGGAG ATTGGGCCTC GAGGGCTGCC TGGAGAGTCG
    GGACCTCGAG GTCTCCTTGG CCCCAAAGGC CCACCTGGTA TTCCTGGACC CCCTGGCGTC
    CGAGGCATGG ATGGTCCCCA GGGCCCCAAA GGGAGCTTGG GACCCCAGGG AGAGCCAGGA
    CCTCCTGGAC AACAGGGCAC CCCTGGGACC CAGGGTCTTC CCGGGCCCCA GGGTGCCATC
    GGCCCTCATG GAGAGAAGGG TCCTCAAGGG AAGCCAGGGC TCCCCGGCAT GCCTGGCTCA
    GACGGACCCC CGGGTCACCC AGGGAAGGAA GGTCCCCCTG GAACCAAAGG AAACCAGGGT
    CCCTCTGGAC CTCAGGGACC TCTAGGATAC CCAGGACCTC GAGGGGTCAA GGGTGTGGAC
    GGAATTCGGG GTCTGAAGGG TCATAAGGGT GAGAAGGGTG AGGATGGCTT TCCTGGGTTC
    AAAGGTGACA TAGGCGTGAA AGGTGACAGG GGCGAAGTTG GAGTCCCTGG TTCCAGGGGA
    GAGGATGGTC CTGAGGGGCC AAAGGGACGC ACTGGACCGA CTGGAGACCC TGGGCCCCCA
    GGGCTCATGG GCGAGAAGGG CAAGCTGGGT GTTCCTGGTC TGCCTGGCTA TCCTGGACGT
    CAGGGACCCA AGGGGTCCCT AGGATTTCCT GGCTTTCCTG GTGCCAGTGG AGAGAAGGGA
    GCCCGGGGCC TGTCGGGGAA GTCAGGGCCT CGGGGAGAAC GGGGCCCCAC GGGTCCACGG
    GGTCAGCGGG GACCCCGAGG TGCCACTGGG AAGTCTGGAG CTAAGGGAAC ATCTGGTGGT
    GATGGCCCCC ATGGGCCCCC TGGAGAGAGG GGCCTCCCTG GACCTCAGGG TCCCAACGGG
    TTTCCTGGAC CGAAAGGACC CCCGGGCCCC CCTGGGAAGG ATGGGCTGCC GGGACACCCA
    GGCCAAAGAG GAGAAGTGGG TTTCCAAGGG AAGACCGGCC CCCCTGGTCC TCCAGGAGTG
    GTGGGACCTC AGGGAGCAGC AGGAGAAACC GGCCCTATGG GGGAGAGAGG TCACCCAGGC
    CCCCCGGGGC CCCCTGGAGA GCAGGGACTA CCTGGGACAG CTGGAAAAGA AGGAACAAAG
    GGTGACCCTG GTCCCCCTGG GGCCCCAGGG AAGGATGGTC CTGCTGGTCT GAGGGGATTC
    CCAGGAGAGA GAGGCCTCCC AGGCACTGCT GGTGGACCTG GTTTGAAGGG GAATGAAGGT
    CCGTCTGGCC CCCCTGGCCC TGCAGGCTCC CCTGGGGAAC GAGGTGCAGC AGGATCAGGG
    GGACCCATTG GTCCGCCAGG GCGCCCAGGC CCGCAGGGTC CCCCTGGAGC AGCAGGAGAG
    AAAGGTGTCC CAGGTGAGAA GGGCCCCATT GGCCCGACTG GCCGAGATGG AGTGCAGGGT
    CCTGTGGGGC TTCCTGGTCC TGCTGGGCCT CCAGGTGTGG CTGGAGAGGA TGGAGACAAG
    GGTGAGGTGG GGGACCCCGG ACAGAAGGGC ACCAAAGGGA ACAAGGGTGA ACATGGCCCT
    CCTGGACCCC CTGGACCCAT TGGTCCTGTG GGGCAGCCTG GAGCAGCGGG AGCAGATGGG
    GAGCCCGGAG CTCGGGGACC CCAGGGACAC TTTGGAGCCA AAGGTGATGA AGGAACAAGA
    GGATTCAATG GGCCCCCAGG ACCCATTGGC CTACAGGGTT TGCCAGGCCC CTCTGGGGAG
    AAGGGAGAAA CAGGAGATGT GGGTCCTATG GGACCACCTG GCCCCCCAGG ACCTCGAGGT
    CCAGCTGGAC CCAATGGCGC TGATGGCCCA CAAGGTCCCC CAGGAGGTGT TGGGAACCTG
    GGTCCCCCTG GAGAGAAGGG GGAACCAGGA GAGTCAGGAT CTCCAGGGAT CCAGGGCGAG
    CCAGGTGTCA AGGGTCCACG CGGGGAACGT GGAGAGAAAG GAGAGTCGGG GCAGCCAGGA
    GAGCCAGGGC CACCAGGGCC TAAAGGCCCC ACAGGCGATG ATGGCCCCAA AGGGAACCCT
    GGTCCTGTTG GTTTTCCTGG TGACCCTGGC CCCCCTGGAG AAGGTGGCCC TCGGGGCCAG
    GATGGTGCTA AGGGTGACCG AGGCGAGGAT GGTGAGCCAG GACAGCCTGG ATCCCCTGGT
    CCCACCGGGG AGAATGGACC CCCAGGGCCA CTTGGAAAGC GAGGTCCTGC TGGCTCGCCT
    GGTTCCGAGG GGCGACAAGG AGGGAAGGGA GCCAAGGGAG ATCCTGGCGC TATAGGTGCC
    CCGGGGAAGA CAGGCCCGGT GGGTCCTGCA GGCCCAGCAG GGAAACCTGG CCCTGATGGT
    CTGAGGGGGC TCCCAGGCTC AGTGGGTCAG CAAGGCCGAC CTGGAGCTAC AGGCCAGGCT
    GGGCCCCCAG GTCCTGTGGG ACCCCCAGGG CTGCCTGGTC TCCGGGGCGA TGCTGGAGCC
    AAGGGAGAGA AGGGCCACCC AGGTCTCATT GGACTGATTG GGCCCCCGGG TGAGCAGGGA
    GAGAAGGGAG ATCGGGGACT TCCTGGGCCT CAGGGCTCCC CTGGGCAGAA GGGTGAGATG
    GGTATCCCAG GAGCATCCGG CCCCATTGGT CCTGGAGGTC CCCCCGGCCT CCCCGGACCT
    GCTGGCCCCA AAGGAGCCAA AGGAGCCACA GGCCCAGGCG GACCCAAGGG AGAGAAGGGT
    GTGCAGGGCC CTCCAGGACA CCCGGGTCCC CCAGGCGAGG TGATCCAGCC ACTGCCCATT
    CAGATGCCCA AGAAGACTCG GCGCTCGGTG GATGGAAGCC GTCTGATGCA GGAAGATGAG
    GCCATACCGA CCGGGGGAGC CCCCGGCAGT CCTGGGGGGC TGGAGGAGAT CTTTGGCTCA
    CTCGACTCCC TGCGGGAGGA GATCGAGCAG ATGAGGCGGC CAACAGGGAC CCAGGACAGC
    CCTGCTCGCA CCTGCCAGGA CCTGAAGCTG TGCCACCCAG AGCTTCCCGA TGGAGAGTAC
    TGGGTCGACC CCAACCAGGG CTGTGCTCGG GATGCCTTCC GAGTTTTCTG CAACTTCACA
    GCAGGGGGTG AGACCTGTGT GACGCCTAGG GATGACGTCA CGCAGTTCTC TTACGTGGAC
    TCAGAGGGCT CCCCAGTGGG TGTGGTCCAG CTCACCTTCC TGCGGCTGCT CAGCGTCTCA
    GCCCACCAGG ACGTCTCCTA CCCCTGCTCT GGAGCAGCCC GTGACGGTCC CCTGAGACTC
    CGTGGGGCCA ATGAGGATGA GCTGAGCCCG GAGACTAGCC CCTATGTCAA AGAATTCAGA
    GATGGCTGCC AGACACAGCA AGGCCGGACG GTGCTGGAGG TGCGAACGCC TGTGCTGGAG
    CAGCTGCCAG TGCTGGATGC CTCCTTCTCA GACCTGGGAG CCCCACCGAG GCGGGGAGGG
    GTGCTGCTGG GGCCTGTCTG CTTCATGGGA TAG

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

    CloneID OHu25742
    Clone ID Related Accession (Same CDS sequence) NM_080681.2 , NM_080681.3
    Accession Version NM_080681.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4953bp)
    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 2019-09-29
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 2 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4. On Jun 2, 2019 this sequence version replaced NM_080681.2. Transcript Variant: This variant (2) lacks two alternate in-frame exons, compared to variant 1, resulting in a shorter protein (isoform 2), compared to isoform 1. There are no publicly available human transcripts representing the full-length exon combination of this variant, but the region of variation is supported by experimental data in PMIDs 8663204 and 8838804, by homology data in mouse, and the full-length sequence is represented in accession U32169.1:AAC50213.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMN03465420 [ECO:0000348] ##Evidence-Data-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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGA CCCCACCCCA GGTGAAGAGG AAGAAATCCT GGAGTCGAGC
    CTCTTGCCAC CCCTTGAGGA GGCTGCCCAT GGACCCCGAG GGCTGAAGGG AGAGAAAGGA
    GAGCCTGCAG TGTTGGAACC TGGTATGCTC GTGGAGGGGC CCCCTGGCCC AGAAGGCCCT
    GCGGGATTGA TTGGTCCCCC TGGCATCCAG GGGAACCCAG GCCCAGTTGG AGACCCTGGA
    GAGAGGGGCC CCCCTGGCCG AGCAGGGCTC CCTGGATCAG ATGGGGCTCC TGGTCCTCCT
    GGCACATCTC TCATGCTCCC ATTCCGGTTT GGCAGTGGTG GGGGTGACAA GGGCCCTGTG
    GTGGCGGCCC AGGAGGCTCA GGCCCAGGCG ATCCTGCAGC AGGCGAGGCT GGCGCTCCGT
    GGACCCCCTG GCCCCATGGG ATACACAGGG CGCCCTGGAC CCTTGGGCCA ACCTGGGAGC
    CCTGGCCTGA AAGGAGAGTC TGGAGACTTA GGACCTCAGG GCCCCAGAGG ACCTCAGGGC
    CTCACAGGCC CTCCTGGCAA GGCTGGGCGA AGGGGCCGGG CAGGTGCTGA TGGAGCCCGA
    GGGATGCCTG GAGATCCTGG AGTGAAGGGT GACCGAGGTT TTGATGGACT CCCAGGGCTC
    CCTGGAGAGA AGGGCCATAG GGGTGATACT GGTGCCCAGG GCCTTCCTGG TCCCCCTGGT
    GAGGATGGAG AGAGGGGAGA TGACGGGGAG ATTGGGCCTC GAGGGCTGCC TGGAGAGTCG
    GGACCTCGAG GTCTCCTTGG CCCCAAAGGC CCACCTGGTA TTCCTGGACC CCCTGGCGTC
    CGAGGCATGG ATGGTCCCCA GGGCCCCAAA GGGAGCTTGG GACCCCAGGG AGAGCCAGGA
    CCTCCTGGAC AACAGGGCAC CCCTGGGACC CAGGGTCTTC CCGGGCCCCA GGGTGCCATC
    GGCCCTCATG GAGAGAAGGG TCCTCAAGGG AAGCCAGGGC TCCCCGGCAT GCCTGGCTCA
    GACGGACCCC CGGGTCACCC AGGGAAGGAA GGTCCCCCTG GAACCAAAGG AAACCAGGGT
    CCCTCTGGAC CTCAGGGACC TCTAGGATAC CCAGGACCTC GAGGGGTCAA GGGTGTGGAC
    GGAATTCGGG GTCTGAAGGG TCATAAGGGT GAGAAGGGTG AGGATGGCTT TCCTGGGTTC
    AAAGGTGACA TAGGCGTGAA AGGTGACAGG GGCGAAGTTG GAGTCCCTGG TTCCAGGGGA
    GAGGATGGTC CTGAGGGGCC AAAGGGACGC ACTGGACCGA CTGGAGACCC TGGGCCCCCA
    GGGCTCATGG GCGAGAAGGG CAAGCTGGGT GTTCCTGGTC TGCCTGGCTA TCCTGGACGT
    CAGGGACCCA AGGGGTCCCT AGGATTTCCT GGCTTTCCTG GTGCCAGTGG AGAGAAGGGA
    GCCCGGGGCC TGTCGGGGAA GTCAGGGCCT CGGGGAGAAC GGGGCCCCAC GGGTCCACGG
    GGTCAGCGGG GACCCCGAGG TGCCACTGGG AAGTCTGGAG CTAAGGGAAC ATCTGGTGGT
    GATGGCCCCC ATGGGCCCCC TGGAGAGAGG GGCCTCCCTG GACCTCAGGG TCCCAACGGG
    TTTCCTGGAC CGAAAGGACC CCCGGGCCCC CCTGGGAAGG ATGGGCTGCC GGGACACCCA
    GGCCAAAGAG GAGAAGTGGG TTTCCAAGGG AAGACCGGCC CCCCTGGTCC TCCAGGAGTG
    GTGGGACCTC AGGGAGCAGC AGGAGAAACC GGCCCTATGG GGGAGAGAGG TCACCCAGGC
    CCCCCGGGGC CCCCTGGAGA GCAGGGACTA CCTGGGACAG CTGGAAAAGA AGGAACAAAG
    GGTGACCCTG GTCCCCCTGG GGCCCCAGGG AAGGATGGTC CTGCTGGTCT GAGGGGATTC
    CCAGGAGAGA GAGGCCTCCC AGGCACTGCT GGTGGACCTG GTTTGAAGGG GAATGAAGGT
    CCGTCTGGCC CCCCTGGCCC TGCAGGCTCC CCTGGGGAAC GAGGTGCAGC AGGATCAGGG
    GGACCCATTG GTCCGCCAGG GCGCCCAGGC CCGCAGGGTC CCCCTGGAGC AGCAGGAGAG
    AAAGGTGTCC CAGGTGAGAA GGGCCCCATT GGCCCGACTG GCCGAGATGG AGTGCAGGGT
    CCTGTGGGGC TTCCTGGTCC TGCTGGGCCT CCAGGTGTGG CTGGAGAGGA TGGAGACAAG
    GGTGAGGTGG GGGACCCCGG ACAGAAGGGC ACCAAAGGGA ACAAGGGTGA ACATGGCCCT
    CCTGGACCCC CTGGACCCAT TGGTCCTGTG GGGCAGCCTG GAGCAGCGGG AGCAGATGGG
    GAGCCCGGAG CTCGGGGACC CCAGGGACAC TTTGGAGCCA AAGGTGATGA AGGAACAAGA
    GGATTCAATG GGCCCCCAGG ACCCATTGGC CTACAGGGTT TGCCAGGCCC CTCTGGGGAG
    AAGGGAGAAA CAGGAGATGT GGGTCCTATG GGACCACCTG GCCCCCCAGG ACCTCGAGGT
    CCAGCTGGAC CCAATGGCGC TGATGGCCCA CAAGGTCCCC CAGGAGGTGT TGGGAACCTG
    GGTCCCCCTG GAGAGAAGGG GGAACCAGGA GAGTCAGGAT CTCCAGGGAT CCAGGGCGAG
    CCAGGTGTCA AGGGTCCACG CGGGGAACGT GGAGAGAAAG GAGAGTCGGG GCAGCCAGGA
    GAGCCAGGGC CACCAGGGCC TAAAGGCCCC ACAGGCGATG ATGGCCCCAA AGGGAACCCT
    GGTCCTGTTG GTTTTCCTGG TGACCCTGGC CCCCCTGGAG AAGGTGGCCC TCGGGGCCAG
    GATGGTGCTA AGGGTGACCG AGGCGAGGAT GGTGAGCCAG GACAGCCTGG ATCCCCTGGT
    CCCACCGGGG AGAATGGACC CCCAGGGCCA CTTGGAAAGC GAGGTCCTGC TGGCTCGCCT
    GGTTCCGAGG GGCGACAAGG AGGGAAGGGA GCCAAGGGAG ATCCTGGCGC TATAGGTGCC
    CCGGGGAAGA CAGGCCCGGT GGGTCCTGCA GGCCCAGCAG GGAAACCTGG CCCTGATGGT
    CTGAGGGGGC TCCCAGGCTC AGTGGGTCAG CAAGGCCGAC CTGGAGCTAC AGGCCAGGCT
    GGGCCCCCAG GTCCTGTGGG ACCCCCAGGG CTGCCTGGTC TCCGGGGCGA TGCTGGAGCC
    AAGGGAGAGA AGGGCCACCC AGGTCTCATT GGACTGATTG GGCCCCCGGG TGAGCAGGGA
    GAGAAGGGAG ATCGGGGACT TCCTGGGCCT CAGGGCTCCC CTGGGCAGAA GGGTGAGATG
    GGTATCCCAG GAGCATCCGG CCCCATTGGT CCTGGAGGTC CCCCCGGCCT CCCCGGACCT
    GCTGGCCCCA AAGGAGCCAA AGGAGCCACA GGCCCAGGCG GACCCAAGGG AGAGAAGGGT
    GTGCAGGGCC CTCCAGGACA CCCGGGTCCC CCAGGCGAGG TGATCCAGCC ACTGCCCATT
    CAGATGCCCA AGAAGACTCG GCGCTCGGTG GATGGAAGCC GTCTGATGCA GGAAGATGAG
    GCCATACCGA CCGGGGGAGC CCCCGGCAGT CCTGGGGGGC TGGAGGAGAT CTTTGGCTCA
    CTCGACTCCC TGCGGGAGGA GATCGAGCAG ATGAGGCGGC CAACAGGGAC CCAGGACAGC
    CCTGCTCGCA CCTGCCAGGA CCTGAAGCTG TGCCACCCAG AGCTTCCCGA TGGAGAGTAC
    TGGGTCGACC CCAACCAGGG CTGTGCTCGG GATGCCTTCC GAGTTTTCTG CAACTTCACA
    GCAGGGGGTG AGACCTGTGT GACGCCTAGG GATGACGTCA CGCAGTTCTC TTACGTGGAC
    TCAGAGGGCT CCCCAGTGGG TGTGGTCCAG CTCACCTTCC TGCGGCTGCT CAGCGTCTCA
    GCCCACCAGG ACGTCTCCTA CCCCTGCTCT GGAGCAGCCC GTGACGGTCC CCTGAGACTC
    CGTGGGGCCA ATGAGGATGA GCTGAGCCCG GAGACTAGCC CCTATGTCAA AGAATTCAGA
    GATGGCTGCC AGACACAGCA AGGCCGGACG GTGCTGGAGG TGCGAACGCC TGTGCTGGAG
    CAGCTGCCAG TGCTGGATGC CTCCTTCTCA GACCTGGGAG CCCCACCGAG GCGGGGAGGG
    GTGCTGCTGG GGCCTGTCTG CTTCATGGGA TAG

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

    RefSeq NP_542412.2
    CDS228..5180
    Translation

    Target ORF information:

    RefSeq Version NM_080681.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080681.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGA CCCCACCCCA GGTGAAGAGG AAGAAATCCT GGAGTCGAGC
    CTCTTGCCAC CCCTTGAGGA GGCTGCCCAT GGACCCCGAG GGCTGAAGGG AGAGAAAGGA
    GAGCCTGCAG TGTTGGAACC TGGTATGCTC GTGGAGGGGC CCCCTGGCCC AGAAGGCCCT
    GCGGGATTGA TTGGTCCCCC TGGCATCCAG GGGAACCCAG GCCCAGTTGG AGACCCTGGA
    GAGAGGGGCC CCCCTGGCCG AGCAGGGCTC CCTGGATCAG ATGGGGCTCC TGGTCCTCCT
    GGCACATCTC TCATGCTCCC ATTCCGGTTT GGCAGTGGTG GGGGTGACAA GGGCCCTGTG
    GTGGCGGCCC AGGAGGCTCA GGCCCAGGCG ATCCTGCAGC AGGCGAGGCT GGCGCTCCGT
    GGACCCCCTG GCCCCATGGG ATACACAGGG CGCCCTGGAC CCTTGGGCCA ACCTGGGAGC
    CCTGGCCTGA AAGGAGAGTC TGGAGACTTA GGACCTCAGG GCCCCAGAGG ACCTCAGGGC
    CTCACAGGCC CTCCTGGCAA GGCTGGGCGA AGGGGCCGGG CAGGTGCTGA TGGAGCCCGA
    GGGATGCCTG GAGATCCTGG AGTGAAGGGT GACCGAGGTT TTGATGGACT CCCAGGGCTC
    CCTGGAGAGA AGGGCCATAG GGGTGATACT GGTGCCCAGG GCCTTCCTGG TCCCCCTGGT
    GAGGATGGAG AGAGGGGAGA TGACGGGGAG ATTGGGCCTC GAGGGCTGCC TGGAGAGTCG
    GGACCTCGAG GTCTCCTTGG CCCCAAAGGC CCACCTGGTA TTCCTGGACC CCCTGGCGTC
    CGAGGCATGG ATGGTCCCCA GGGCCCCAAA GGGAGCTTGG GACCCCAGGG AGAGCCAGGA
    CCTCCTGGAC AACAGGGCAC CCCTGGGACC CAGGGTCTTC CCGGGCCCCA GGGTGCCATC
    GGCCCTCATG GAGAGAAGGG TCCTCAAGGG AAGCCAGGGC TCCCCGGCAT GCCTGGCTCA
    GACGGACCCC CGGGTCACCC AGGGAAGGAA GGTCCCCCTG GAACCAAAGG AAACCAGGGT
    CCCTCTGGAC CTCAGGGACC TCTAGGATAC CCAGGACCTC GAGGGGTCAA GGGTGTGGAC
    GGAATTCGGG GTCTGAAGGG TCATAAGGGT GAGAAGGGTG AGGATGGCTT TCCTGGGTTC
    AAAGGTGACA TAGGCGTGAA AGGTGACAGG GGCGAAGTTG GAGTCCCTGG TTCCAGGGGA
    GAGGATGGTC CTGAGGGGCC AAAGGGACGC ACTGGACCGA CTGGAGACCC TGGGCCCCCA
    GGGCTCATGG GCGAGAAGGG CAAGCTGGGT GTTCCTGGTC TGCCTGGCTA TCCTGGACGT
    CAGGGACCCA AGGGGTCCCT AGGATTTCCT GGCTTTCCTG GTGCCAGTGG AGAGAAGGGA
    GCCCGGGGCC TGTCGGGGAA GTCAGGGCCT CGGGGAGAAC GGGGCCCCAC GGGTCCACGG
    GGTCAGCGGG GACCCCGAGG TGCCACTGGG AAGTCTGGAG CTAAGGGAAC ATCTGGTGGT
    GATGGCCCCC ATGGGCCCCC TGGAGAGAGG GGCCTCCCTG GACCTCAGGG TCCCAACGGG
    TTTCCTGGAC CGAAAGGACC CCCGGGCCCC CCTGGGAAGG ATGGGCTGCC GGGACACCCA
    GGCCAAAGAG GAGAAGTGGG TTTCCAAGGG AAGACCGGCC CCCCTGGTCC TCCAGGAGTG
    GTGGGACCTC AGGGAGCAGC AGGAGAAACC GGCCCTATGG GGGAGAGAGG TCACCCAGGC
    CCCCCGGGGC CCCCTGGAGA GCAGGGACTA CCTGGGACAG CTGGAAAAGA AGGAACAAAG
    GGTGACCCTG GTCCCCCTGG GGCCCCAGGG AAGGATGGTC CTGCTGGTCT GAGGGGATTC
    CCAGGAGAGA GAGGCCTCCC AGGCACTGCT GGTGGACCTG GTTTGAAGGG GAATGAAGGT
    CCGTCTGGCC CCCCTGGCCC TGCAGGCTCC CCTGGGGAAC GAGGTGCAGC AGGATCAGGG
    GGACCCATTG GTCCGCCAGG GCGCCCAGGC CCGCAGGGTC CCCCTGGAGC AGCAGGAGAG
    AAAGGTGTCC CAGGTGAGAA GGGCCCCATT GGCCCGACTG GCCGAGATGG AGTGCAGGGT
    CCTGTGGGGC TTCCTGGTCC TGCTGGGCCT CCAGGTGTGG CTGGAGAGGA TGGAGACAAG
    GGTGAGGTGG GGGACCCCGG ACAGAAGGGC ACCAAAGGGA ACAAGGGTGA ACATGGCCCT
    CCTGGACCCC CTGGACCCAT TGGTCCTGTG GGGCAGCCTG GAGCAGCGGG AGCAGATGGG
    GAGCCCGGAG CTCGGGGACC CCAGGGACAC TTTGGAGCCA AAGGTGATGA AGGAACAAGA
    GGATTCAATG GGCCCCCAGG ACCCATTGGC CTACAGGGTT TGCCAGGCCC CTCTGGGGAG
    AAGGGAGAAA CAGGAGATGT GGGTCCTATG GGACCACCTG GCCCCCCAGG ACCTCGAGGT
    CCAGCTGGAC CCAATGGCGC TGATGGCCCA CAAGGTCCCC CAGGAGGTGT TGGGAACCTG
    GGTCCCCCTG GAGAGAAGGG GGAACCAGGA GAGTCAGGAT CTCCAGGGAT CCAGGGCGAG
    CCAGGTGTCA AGGGTCCACG CGGGGAACGT GGAGAGAAAG GAGAGTCGGG GCAGCCAGGA
    GAGCCAGGGC CACCAGGGCC TAAAGGCCCC ACAGGCGATG ATGGCCCCAA AGGGAACCCT
    GGTCCTGTTG GTTTTCCTGG TGACCCTGGC CCCCCTGGAG AAGGTGGCCC TCGGGGCCAG
    GATGGTGCTA AGGGTGACCG AGGCGAGGAT GGTGAGCCAG GACAGCCTGG ATCCCCTGGT
    CCCACCGGGG AGAATGGACC CCCAGGGCCA CTTGGAAAGC GAGGTCCTGC TGGCTCGCCT
    GGTTCCGAGG GGCGACAAGG AGGGAAGGGA GCCAAGGGAG ATCCTGGCGC TATAGGTGCC
    CCGGGGAAGA CAGGCCCGGT GGGTCCTGCA GGCCCAGCAG GGAAACCTGG CCCTGATGGT
    CTGAGGGGGC TCCCAGGCTC AGTGGGTCAG CAAGGCCGAC CTGGAGCTAC AGGCCAGGCT
    GGGCCCCCAG GTCCTGTGGG ACCCCCAGGG CTGCCTGGTC TCCGGGGCGA TGCTGGAGCC
    AAGGGAGAGA AGGGCCACCC AGGTCTCATT GGACTGATTG GGCCCCCGGG TGAGCAGGGA
    GAGAAGGGAG ATCGGGGACT TCCTGGGCCT CAGGGCTCCC CTGGGCAGAA GGGTGAGATG
    GGTATCCCAG GAGCATCCGG CCCCATTGGT CCTGGAGGTC CCCCCGGCCT CCCCGGACCT
    GCTGGCCCCA AAGGAGCCAA AGGAGCCACA GGCCCAGGCG GACCCAAGGG AGAGAAGGGT
    GTGCAGGGCC CTCCAGGACA CCCGGGTCCC CCAGGCGAGG TGATCCAGCC ACTGCCCATT
    CAGATGCCCA AGAAGACTCG GCGCTCGGTG GATGGAAGCC GTCTGATGCA GGAAGATGAG
    GCCATACCGA CCGGGGGAGC CCCCGGCAGT CCTGGGGGGC TGGAGGAGAT CTTTGGCTCA
    CTCGACTCCC TGCGGGAGGA GATCGAGCAG ATGAGGCGGC CAACAGGGAC CCAGGACAGC
    CCTGCTCGCA CCTGCCAGGA CCTGAAGCTG TGCCACCCAG AGCTTCCCGA TGGAGAGTAC
    TGGGTCGACC CCAACCAGGG CTGTGCTCGG GATGCCTTCC GAGTTTTCTG CAACTTCACA
    GCAGGGGGTG AGACCTGTGT GACGCCTAGG GATGACGTCA CGCAGTTCTC TTACGTGGAC
    TCAGAGGGCT CCCCAGTGGG TGTGGTCCAG CTCACCTTCC TGCGGCTGCT CAGCGTCTCA
    GCCCACCAGG ACGTCTCCTA CCCCTGCTCT GGAGCAGCCC GTGACGGTCC CCTGAGACTC
    CGTGGGGCCA ATGAGGATGA GCTGAGCCCG GAGACTAGCC CCTATGTCAA AGAATTCAGA
    GATGGCTGCC AGACACAGCA AGGCCGGACG GTGCTGGAGG TGCGAACGCC TGTGCTGGAG
    CAGCTGCCAG TGCTGGATGC CTCCTTCTCA GACCTGGGAG CCCCACCGAG GCGGGGAGGG
    GTGCTGCTGG GGCCTGTCTG CTTCATGGGA TAG

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

    CloneID OHu25827
    Clone ID Related Accession (Same CDS sequence) NM_080679.2
    Accession Version NM_080679.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4890bp)
    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 2019-09-23
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 3 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4. On Aug 2, 2006 this sequence version replaced NM_080679.1. Transcript Variant: This variant (3) lacks three alternate in-frame exons, compared to variant 1, resulting in a shorter protein (isoform 3), compared to isoform 1. There are no publicly available human transcripts representing the full-length exon combination of this variant, but the region of variation is supported by experimental data in PMIDs 8663204 and 8838804, by homology data in mouse, and the full-length sequence is represented in accession U32169.1:AAC50215.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMN03465420 [ECO:0000348] ##Evidence-Data-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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGC TGCCCATGGA CCCCGAGGGC TGAAGGGAGA GAAAGGAGAG
    CCTGCAGTGT TGGAACCTGG TATGCTCGTG GAGGGGCCCC CTGGCCCAGA AGGCCCTGCG
    GGATTGATTG GTCCCCCTGG CATCCAGGGG AACCCAGGCC CAGTTGGAGA CCCTGGAGAG
    AGGGGCCCCC CTGGCCGAGC AGGGCTCCCT GGATCAGATG GGGCTCCTGG TCCTCCTGGC
    ACATCTCTCA TGCTCCCATT CCGGTTTGGC AGTGGTGGGG GTGACAAGGG CCCTGTGGTG
    GCGGCCCAGG AGGCTCAGGC CCAGGCGATC CTGCAGCAGG CGAGGCTGGC GCTCCGTGGA
    CCCCCTGGCC CCATGGGATA CACAGGGCGC CCTGGACCCT TGGGCCAACC TGGGAGCCCT
    GGCCTGAAAG GAGAGTCTGG AGACTTAGGA CCTCAGGGCC CCAGAGGACC TCAGGGCCTC
    ACAGGCCCTC CTGGCAAGGC TGGGCGAAGG GGCCGGGCAG GTGCTGATGG AGCCCGAGGG
    ATGCCTGGAG ATCCTGGAGT GAAGGGTGAC CGAGGTTTTG ATGGACTCCC AGGGCTCCCT
    GGAGAGAAGG GCCATAGGGG TGATACTGGT GCCCAGGGCC TTCCTGGTCC CCCTGGTGAG
    GATGGAGAGA GGGGAGATGA CGGGGAGATT GGGCCTCGAG GGCTGCCTGG AGAGTCGGGA
    CCTCGAGGTC TCCTTGGCCC CAAAGGCCCA CCTGGTATTC CTGGACCCCC TGGCGTCCGA
    GGCATGGATG GTCCCCAGGG CCCCAAAGGG AGCTTGGGAC CCCAGGGAGA GCCAGGACCT
    CCTGGACAAC AGGGCACCCC TGGGACCCAG GGTCTTCCCG GGCCCCAGGG TGCCATCGGC
    CCTCATGGAG AGAAGGGTCC TCAAGGGAAG CCAGGGCTCC CCGGCATGCC TGGCTCAGAC
    GGACCCCCGG GTCACCCAGG GAAGGAAGGT CCCCCTGGAA CCAAAGGAAA CCAGGGTCCC
    TCTGGACCTC AGGGACCTCT AGGATACCCA GGACCTCGAG GGGTCAAGGG TGTGGACGGA
    ATTCGGGGTC TGAAGGGTCA TAAGGGTGAG AAGGGTGAGG ATGGCTTTCC TGGGTTCAAA
    GGTGACATAG GCGTGAAAGG TGACAGGGGC GAAGTTGGAG TCCCTGGTTC CAGGGGAGAG
    GATGGTCCTG AGGGGCCAAA GGGACGCACT GGACCGACTG GAGACCCTGG GCCCCCAGGG
    CTCATGGGCG AGAAGGGCAA GCTGGGTGTT CCTGGTCTGC CTGGCTATCC TGGACGTCAG
    GGACCCAAGG GGTCCCTAGG ATTTCCTGGC TTTCCTGGTG CCAGTGGAGA GAAGGGAGCC
    CGGGGCCTGT CGGGGAAGTC AGGGCCTCGG GGAGAACGGG GCCCCACGGG TCCACGGGGT
    CAGCGGGGAC CCCGAGGTGC CACTGGGAAG TCTGGAGCTA AGGGAACATC TGGTGGTGAT
    GGCCCCCATG GGCCCCCTGG AGAGAGGGGC CTCCCTGGAC CTCAGGGTCC CAACGGGTTT
    CCTGGACCGA AAGGACCCCC GGGCCCCCCT GGGAAGGATG GGCTGCCGGG ACACCCAGGC
    CAAAGAGGAG AAGTGGGTTT CCAAGGGAAG ACCGGCCCCC CTGGTCCTCC AGGAGTGGTG
    GGACCTCAGG GAGCAGCAGG AGAAACCGGC CCTATGGGGG AGAGAGGTCA CCCAGGCCCC
    CCGGGGCCCC CTGGAGAGCA GGGACTACCT GGGACAGCTG GAAAAGAAGG AACAAAGGGT
    GACCCTGGTC CCCCTGGGGC CCCAGGGAAG GATGGTCCTG CTGGTCTGAG GGGATTCCCA
    GGAGAGAGAG GCCTCCCAGG CACTGCTGGT GGACCTGGTT TGAAGGGGAA TGAAGGTCCG
    TCTGGCCCCC CTGGCCCTGC AGGCTCCCCT GGGGAACGAG GTGCAGCAGG ATCAGGGGGA
    CCCATTGGTC CGCCAGGGCG CCCAGGCCCG CAGGGTCCCC CTGGAGCAGC AGGAGAGAAA
    GGTGTCCCAG GTGAGAAGGG CCCCATTGGC CCGACTGGCC GAGATGGAGT GCAGGGTCCT
    GTGGGGCTTC CTGGTCCTGC TGGGCCTCCA GGTGTGGCTG GAGAGGATGG AGACAAGGGT
    GAGGTGGGGG ACCCCGGACA GAAGGGCACC AAAGGGAACA AGGGTGAACA TGGCCCTCCT
    GGACCCCCTG GACCCATTGG TCCTGTGGGG CAGCCTGGAG CAGCGGGAGC AGATGGGGAG
    CCCGGAGCTC GGGGACCCCA GGGACACTTT GGAGCCAAAG GTGATGAAGG AACAAGAGGA
    TTCAATGGGC CCCCAGGACC CATTGGCCTA CAGGGTTTGC CAGGCCCCTC TGGGGAGAAG
    GGAGAAACAG GAGATGTGGG TCCTATGGGA CCACCTGGCC CCCCAGGACC TCGAGGTCCA
    GCTGGACCCA ATGGCGCTGA TGGCCCACAA GGTCCCCCAG GAGGTGTTGG GAACCTGGGT
    CCCCCTGGAG AGAAGGGGGA ACCAGGAGAG TCAGGATCTC CAGGGATCCA GGGCGAGCCA
    GGTGTCAAGG GTCCACGCGG GGAACGTGGA GAGAAAGGAG AGTCGGGGCA GCCAGGAGAG
    CCAGGGCCAC CAGGGCCTAA AGGCCCCACA GGCGATGATG GCCCCAAAGG GAACCCTGGT
    CCTGTTGGTT TTCCTGGTGA CCCTGGCCCC CCTGGAGAAG GTGGCCCTCG GGGCCAGGAT
    GGTGCTAAGG GTGACCGAGG CGAGGATGGT GAGCCAGGAC AGCCTGGATC CCCTGGTCCC
    ACCGGGGAGA ATGGACCCCC AGGGCCACTT GGAAAGCGAG GTCCTGCTGG CTCGCCTGGT
    TCCGAGGGGC GACAAGGAGG GAAGGGAGCC AAGGGAGATC CTGGCGCTAT AGGTGCCCCG
    GGGAAGACAG GCCCGGTGGG TCCTGCAGGC CCAGCAGGGA AACCTGGCCC TGATGGTCTG
    AGGGGGCTCC CAGGCTCAGT GGGTCAGCAA GGCCGACCTG GAGCTACAGG CCAGGCTGGG
    CCCCCAGGTC CTGTGGGACC CCCAGGGCTG CCTGGTCTCC GGGGCGATGC TGGAGCCAAG
    GGAGAGAAGG GCCACCCAGG TCTCATTGGA CTGATTGGGC CCCCGGGTGA GCAGGGAGAG
    AAGGGAGATC GGGGACTTCC TGGGCCTCAG GGCTCCCCTG GGCAGAAGGG TGAGATGGGT
    ATCCCAGGAG CATCCGGCCC CATTGGTCCT GGAGGTCCCC CCGGCCTCCC CGGACCTGCT
    GGCCCCAAAG GAGCCAAAGG AGCCACAGGC CCAGGCGGAC CCAAGGGAGA GAAGGGTGTG
    CAGGGCCCTC CAGGACACCC GGGTCCCCCA GGCGAGGTGA TCCAGCCACT GCCCATTCAG
    ATGCCCAAGA AGACTCGGCG CTCGGTGGAT GGAAGCCGTC TGATGCAGGA AGATGAGGCC
    ATACCGACCG GGGGAGCCCC CGGCAGTCCT GGGGGGCTGG AGGAGATCTT TGGCTCACTC
    GACTCCCTGC GGGAGGAGAT CGAGCAGATG AGGCGGCCAA CAGGGACCCA GGACAGCCCT
    GCTCGCACCT GCCAGGACCT GAAGCTGTGC CACCCAGAGC TTCCCGATGG AGAGTACTGG
    GTCGACCCCA ACCAGGGCTG TGCTCGGGAT GCCTTCCGAG TTTTCTGCAA CTTCACAGCA
    GGGGGTGAGA CCTGTGTGAC GCCTAGGGAT GACGTCACGC AGTTCTCTTA CGTGGACTCA
    GAGGGCTCCC CAGTGGGTGT GGTCCAGCTC ACCTTCCTGC GGCTGCTCAG CGTCTCAGCC
    CACCAGGACG TCTCCTACCC CTGCTCTGGA GCAGCCCGTG ACGGTCCCCT GAGACTCCGT
    GGGGCCAATG AGGATGAGCT GAGCCCGGAG ACTAGCCCCT ATGTCAAAGA ATTCAGAGAT
    GGCTGCCAGA CACAGCAAGG CCGGACGGTG CTGGAGGTGC GAACGCCTGT GCTGGAGCAG
    CTGCCAGTGC TGGATGCCTC CTTCTCAGAC CTGGGAGCCC CACCGAGGCG GGGAGGGGTG
    CTGCTGGGGC CTGTCTGCTT CATGGGATAG

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

    RefSeq NP_542410.2
    CDS229..5118
    Translation

    Target ORF information:

    RefSeq Version NM_080679.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080679.2

    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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGGC TGCCCATGGA CCCCGAGGGC TGAAGGGAGA GAAAGGAGAG
    CCTGCAGTGT TGGAACCTGG TATGCTCGTG GAGGGGCCCC CTGGCCCAGA AGGCCCTGCG
    GGATTGATTG GTCCCCCTGG CATCCAGGGG AACCCAGGCC CAGTTGGAGA CCCTGGAGAG
    AGGGGCCCCC CTGGCCGAGC AGGGCTCCCT GGATCAGATG GGGCTCCTGG TCCTCCTGGC
    ACATCTCTCA TGCTCCCATT CCGGTTTGGC AGTGGTGGGG GTGACAAGGG CCCTGTGGTG
    GCGGCCCAGG AGGCTCAGGC CCAGGCGATC CTGCAGCAGG CGAGGCTGGC GCTCCGTGGA
    CCCCCTGGCC CCATGGGATA CACAGGGCGC CCTGGACCCT TGGGCCAACC TGGGAGCCCT
    GGCCTGAAAG GAGAGTCTGG AGACTTAGGA CCTCAGGGCC CCAGAGGACC TCAGGGCCTC
    ACAGGCCCTC CTGGCAAGGC TGGGCGAAGG GGCCGGGCAG GTGCTGATGG AGCCCGAGGG
    ATGCCTGGAG ATCCTGGAGT GAAGGGTGAC CGAGGTTTTG ATGGACTCCC AGGGCTCCCT
    GGAGAGAAGG GCCATAGGGG TGATACTGGT GCCCAGGGCC TTCCTGGTCC CCCTGGTGAG
    GATGGAGAGA GGGGAGATGA CGGGGAGATT GGGCCTCGAG GGCTGCCTGG AGAGTCGGGA
    CCTCGAGGTC TCCTTGGCCC CAAAGGCCCA CCTGGTATTC CTGGACCCCC TGGCGTCCGA
    GGCATGGATG GTCCCCAGGG CCCCAAAGGG AGCTTGGGAC CCCAGGGAGA GCCAGGACCT
    CCTGGACAAC AGGGCACCCC TGGGACCCAG GGTCTTCCCG GGCCCCAGGG TGCCATCGGC
    CCTCATGGAG AGAAGGGTCC TCAAGGGAAG CCAGGGCTCC CCGGCATGCC TGGCTCAGAC
    GGACCCCCGG GTCACCCAGG GAAGGAAGGT CCCCCTGGAA CCAAAGGAAA CCAGGGTCCC
    TCTGGACCTC AGGGACCTCT AGGATACCCA GGACCTCGAG GGGTCAAGGG TGTGGACGGA
    ATTCGGGGTC TGAAGGGTCA TAAGGGTGAG AAGGGTGAGG ATGGCTTTCC TGGGTTCAAA
    GGTGACATAG GCGTGAAAGG TGACAGGGGC GAAGTTGGAG TCCCTGGTTC CAGGGGAGAG
    GATGGTCCTG AGGGGCCAAA GGGACGCACT GGACCGACTG GAGACCCTGG GCCCCCAGGG
    CTCATGGGCG AGAAGGGCAA GCTGGGTGTT CCTGGTCTGC CTGGCTATCC TGGACGTCAG
    GGACCCAAGG GGTCCCTAGG ATTTCCTGGC TTTCCTGGTG CCAGTGGAGA GAAGGGAGCC
    CGGGGCCTGT CGGGGAAGTC AGGGCCTCGG GGAGAACGGG GCCCCACGGG TCCACGGGGT
    CAGCGGGGAC CCCGAGGTGC CACTGGGAAG TCTGGAGCTA AGGGAACATC TGGTGGTGAT
    GGCCCCCATG GGCCCCCTGG AGAGAGGGGC CTCCCTGGAC CTCAGGGTCC CAACGGGTTT
    CCTGGACCGA AAGGACCCCC GGGCCCCCCT GGGAAGGATG GGCTGCCGGG ACACCCAGGC
    CAAAGAGGAG AAGTGGGTTT CCAAGGGAAG ACCGGCCCCC CTGGTCCTCC AGGAGTGGTG
    GGACCTCAGG GAGCAGCAGG AGAAACCGGC CCTATGGGGG AGAGAGGTCA CCCAGGCCCC
    CCGGGGCCCC CTGGAGAGCA GGGACTACCT GGGACAGCTG GAAAAGAAGG AACAAAGGGT
    GACCCTGGTC CCCCTGGGGC CCCAGGGAAG GATGGTCCTG CTGGTCTGAG GGGATTCCCA
    GGAGAGAGAG GCCTCCCAGG CACTGCTGGT GGACCTGGTT TGAAGGGGAA TGAAGGTCCG
    TCTGGCCCCC CTGGCCCTGC AGGCTCCCCT GGGGAACGAG GTGCAGCAGG ATCAGGGGGA
    CCCATTGGTC CGCCAGGGCG CCCAGGCCCG CAGGGTCCCC CTGGAGCAGC AGGAGAGAAA
    GGTGTCCCAG GTGAGAAGGG CCCCATTGGC CCGACTGGCC GAGATGGAGT GCAGGGTCCT
    GTGGGGCTTC CTGGTCCTGC TGGGCCTCCA GGTGTGGCTG GAGAGGATGG AGACAAGGGT
    GAGGTGGGGG ACCCCGGACA GAAGGGCACC AAAGGGAACA AGGGTGAACA TGGCCCTCCT
    GGACCCCCTG GACCCATTGG TCCTGTGGGG CAGCCTGGAG CAGCGGGAGC AGATGGGGAG
    CCCGGAGCTC GGGGACCCCA GGGACACTTT GGAGCCAAAG GTGATGAAGG AACAAGAGGA
    TTCAATGGGC CCCCAGGACC CATTGGCCTA CAGGGTTTGC CAGGCCCCTC TGGGGAGAAG
    GGAGAAACAG GAGATGTGGG TCCTATGGGA CCACCTGGCC CCCCAGGACC TCGAGGTCCA
    GCTGGACCCA ATGGCGCTGA TGGCCCACAA GGTCCCCCAG GAGGTGTTGG GAACCTGGGT
    CCCCCTGGAG AGAAGGGGGA ACCAGGAGAG TCAGGATCTC CAGGGATCCA GGGCGAGCCA
    GGTGTCAAGG GTCCACGCGG GGAACGTGGA GAGAAAGGAG AGTCGGGGCA GCCAGGAGAG
    CCAGGGCCAC CAGGGCCTAA AGGCCCCACA GGCGATGATG GCCCCAAAGG GAACCCTGGT
    CCTGTTGGTT TTCCTGGTGA CCCTGGCCCC CCTGGAGAAG GTGGCCCTCG GGGCCAGGAT
    GGTGCTAAGG GTGACCGAGG CGAGGATGGT GAGCCAGGAC AGCCTGGATC CCCTGGTCCC
    ACCGGGGAGA ATGGACCCCC AGGGCCACTT GGAAAGCGAG GTCCTGCTGG CTCGCCTGGT
    TCCGAGGGGC GACAAGGAGG GAAGGGAGCC AAGGGAGATC CTGGCGCTAT AGGTGCCCCG
    GGGAAGACAG GCCCGGTGGG TCCTGCAGGC CCAGCAGGGA AACCTGGCCC TGATGGTCTG
    AGGGGGCTCC CAGGCTCAGT GGGTCAGCAA GGCCGACCTG GAGCTACAGG CCAGGCTGGG
    CCCCCAGGTC CTGTGGGACC CCCAGGGCTG CCTGGTCTCC GGGGCGATGC TGGAGCCAAG
    GGAGAGAAGG GCCACCCAGG TCTCATTGGA CTGATTGGGC CCCCGGGTGA GCAGGGAGAG
    AAGGGAGATC GGGGACTTCC TGGGCCTCAG GGCTCCCCTG GGCAGAAGGG TGAGATGGGT
    ATCCCAGGAG CATCCGGCCC CATTGGTCCT GGAGGTCCCC CCGGCCTCCC CGGACCTGCT
    GGCCCCAAAG GAGCCAAAGG AGCCACAGGC CCAGGCGGAC CCAAGGGAGA GAAGGGTGTG
    CAGGGCCCTC CAGGACACCC GGGTCCCCCA GGCGAGGTGA TCCAGCCACT GCCCATTCAG
    ATGCCCAAGA AGACTCGGCG CTCGGTGGAT GGAAGCCGTC TGATGCAGGA AGATGAGGCC
    ATACCGACCG GGGGAGCCCC CGGCAGTCCT GGGGGGCTGG AGGAGATCTT TGGCTCACTC
    GACTCCCTGC GGGAGGAGAT CGAGCAGATG AGGCGGCCAA CAGGGACCCA GGACAGCCCT
    GCTCGCACCT GCCAGGACCT GAAGCTGTGC CACCCAGAGC TTCCCGATGG AGAGTACTGG
    GTCGACCCCA ACCAGGGCTG TGCTCGGGAT GCCTTCCGAG TTTTCTGCAA CTTCACAGCA
    GGGGGTGAGA CCTGTGTGAC GCCTAGGGAT GACGTCACGC AGTTCTCTTA CGTGGACTCA
    GAGGGCTCCC CAGTGGGTGT GGTCCAGCTC ACCTTCCTGC GGCTGCTCAG CGTCTCAGCC
    CACCAGGACG TCTCCTACCC CTGCTCTGGA GCAGCCCGTG ACGGTCCCCT GAGACTCCGT
    GGGGCCAATG AGGATGAGCT GAGCCCGGAG ACTAGCCCCT ATGTCAAAGA ATTCAGAGAT
    GGCTGCCAGA CACAGCAAGG CCGGACGGTG CTGGAGGTGC GAACGCCTGT GCTGGAGCAG
    CTGCCAGTGC TGGATGCCTC CTTCTCAGAC CTGGGAGCCC CACCGAGGCG GGGAGGGGTG
    CTGCTGGGGC CTGTCTGCTT CATGGGATAG

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

    CloneID OHu25966
    Clone ID Related Accession (Same CDS sequence) NM_080680.2 , NM_080680.3 , XM_017010250.1
    Accession Version NM_080680.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5211bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-07
    Organism Homo sapiens(human)
    Product collagen alpha-2(XI) chain isoform 1 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL645940.4. This sequence is a reference standard in the RefSeqGene project. On Aug 2, 2006 this sequence version replaced NM_080680.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). There are no publicly available human transcripts representing the full-length exon combination of this variant, but the region of variation is supported by experimental data in PMIDs 8663204 and 8838804, by homology data in mouse, and the full-length sequence is represented in accession U32169.1:AAC50214.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##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
    5161
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    RefSeq NP_542411.2
    CDS229..5439
    Translation

    Target ORF information:

    RefSeq Version NM_080680.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080680.2

    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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    CloneID OHu25966
    Clone ID Related Accession (Same CDS sequence) NM_080680.2 , NM_080680.3 , XM_017010250.1
    Accession Version XM_017010250.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5211bp)
    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-2(XI) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    RefSeq XP_016865739.1
    CDS494..5704
    Translation

    Target ORF information:

    RefSeq Version XM_017010250.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010250.1

    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
    ATGGAGCGGT GCAGCCGCTG CCATCGCCTC CTCCTCCTCC TACCTCTGGT GCTGGGGCTG 
    AGCGCGGCCC CAGGCTGGGC AGGTGCACCC CCTGTGGATG TGCTCCGGGC CCTGAGGTTC
    CCCTCCCTCC CTGATGGTGT CCGGAGAGCG AAAGGCATCT GTCCAGCTGA TGTGGCCTAC
    CGAGTGGCAC GACCTGCCCA GCTCAGTGCA CCCACTCGCC AGCTTTTCCC AGGAGGATTT
    CCCAAAGATT TCTCTCTGCT GACTGTTGTC CGGACCCGCC CTGGTCTCCA AGCTCCCCTC
    CTGACTCTCT ACAGTGCCCA GGGTGTCCGA CAGCTGGGCC TGGAGCTGGG CCGACCTGTC
    CGCTTCCTGT ATGAAGACCA GACTGGGCGG CCTCAACCTC CCTCTCAGCC AGTCTTCCGA
    GGCCTCAGCC TAGCAGATGG CAAGTGGCAC CGTGTGGCTG TGGCTGTGAA GGGCCAGTCT
    GTCACCCTCA TTGTTGACTG CAAGAAGCGA GTCACCCGGC CTCTCCCCCG AAGTGCTCGT
    CCAGTATTGG ACACCCATGG AGTGATCATC TTTGGTGCCC GTATTCTGGA TGAAGAAGTC
    TTTGAGGGTG ATGTCCAGGA GCTGGCCATT GTCCCAGGGG TCCAGGCAGC CTATGAATCA
    TGTGAACAGA AGGAGCTGGA ATGCGAGGGG GGCCAGAGGG AAAGACCCCA AAACCAACAG
    CCTCACAGAG CCCAGAGATC TCCACAGCAG CAACCATCAA GACTTCACAG GCCACAAAAT
    CAGGAACCCC AGAGCCAGCC CACTGAGTCT CTCTACTATG ACTACGAGCC CCCCTATTAT
    GATGTGATGA CTACGGGGAC AACCCCTGAT TATCAGGACC CCACCCCAGG TGAAGAGGAA
    GAAATCCTGG AGTCGAGCCT CTTGCCACCC CTTGAGGAGG AGCAGACAGA TCTCCAGGTC
    CCCCCCACAG CCGACAGGTT CCAGGCAGAG GAATATGGGG AGGGTGGCAC AGACCCCCCT
    GAAGGGCCCT ACGATTACAC CTATGGCTAT GGGGATGATT ATCGTGAGGA GACAGAGCTT
    GGCCCTGCCC TCTCTGCGGA GACAGCCCAC TCAGGAGCCG CTGCCCATGG ACCCCGAGGG
    CTGAAGGGAG AGAAAGGAGA GCCTGCAGTG TTGGAACCTG GTATGCTCGT GGAGGGGCCC
    CCTGGCCCAG AAGGCCCTGC GGGATTGATT GGTCCCCCTG GCATCCAGGG GAACCCAGGC
    CCAGTTGGAG ACCCTGGAGA GAGGGGCCCC CCTGGCCGAG CAGGGCTCCC TGGATCAGAT
    GGGGCTCCTG GTCCTCCTGG CACATCTCTC ATGCTCCCAT TCCGGTTTGG CAGTGGTGGG
    GGTGACAAGG GCCCTGTGGT GGCGGCCCAG GAGGCTCAGG CCCAGGCGAT CCTGCAGCAG
    GCGAGGCTGG CGCTCCGTGG ACCCCCTGGC CCCATGGGAT ACACAGGGCG CCCTGGACCC
    TTGGGCCAAC CTGGGAGCCC TGGCCTGAAA GGAGAGTCTG GAGACTTAGG ACCTCAGGGC
    CCCAGAGGAC CTCAGGGCCT CACAGGCCCT CCTGGCAAGG CTGGGCGAAG GGGCCGGGCA
    GGTGCTGATG GAGCCCGAGG GATGCCTGGA GATCCTGGAG TGAAGGGTGA CCGAGGTTTT
    GATGGACTCC CAGGGCTCCC TGGAGAGAAG GGCCATAGGG GTGATACTGG TGCCCAGGGC
    CTTCCTGGTC CCCCTGGTGA GGATGGAGAG AGGGGAGATG ACGGGGAGAT TGGGCCTCGA
    GGGCTGCCTG GAGAGTCGGG ACCTCGAGGT CTCCTTGGCC CCAAAGGCCC ACCTGGTATT
    CCTGGACCCC CTGGCGTCCG AGGCATGGAT GGTCCCCAGG GCCCCAAAGG GAGCTTGGGA
    CCCCAGGGAG AGCCAGGACC TCCTGGACAA CAGGGCACCC CTGGGACCCA GGGTCTTCCC
    GGGCCCCAGG GTGCCATCGG CCCTCATGGA GAGAAGGGTC CTCAAGGGAA GCCAGGGCTC
    CCCGGCATGC CTGGCTCAGA CGGACCCCCG GGTCACCCAG GGAAGGAAGG TCCCCCTGGA
    ACCAAAGGAA ACCAGGGTCC CTCTGGACCT CAGGGACCTC TAGGATACCC AGGACCTCGA
    GGGGTCAAGG GTGTGGACGG AATTCGGGGT CTGAAGGGTC ATAAGGGTGA GAAGGGTGAG
    GATGGCTTTC CTGGGTTCAA AGGTGACATA GGCGTGAAAG GTGACAGGGG CGAAGTTGGA
    GTCCCTGGTT CCAGGGGAGA GGATGGTCCT GAGGGGCCAA AGGGACGCAC TGGACCGACT
    GGAGACCCTG GGCCCCCAGG GCTCATGGGC GAGAAGGGCA AGCTGGGTGT TCCTGGTCTG
    CCTGGCTATC CTGGACGTCA GGGACCCAAG GGGTCCCTAG GATTTCCTGG CTTTCCTGGT
    GCCAGTGGAG AGAAGGGAGC CCGGGGCCTG TCGGGGAAGT CAGGGCCTCG GGGAGAACGG
    GGCCCCACGG GTCCACGGGG TCAGCGGGGA CCCCGAGGTG CCACTGGGAA GTCTGGAGCT
    AAGGGAACAT CTGGTGGTGA TGGCCCCCAT GGGCCCCCTG GAGAGAGGGG CCTCCCTGGA
    CCTCAGGGTC CCAACGGGTT TCCTGGACCG AAAGGACCCC CGGGCCCCCC TGGGAAGGAT
    GGGCTGCCGG GACACCCAGG CCAAAGAGGA GAAGTGGGTT TCCAAGGGAA GACCGGCCCC
    CCTGGTCCTC CAGGAGTGGT GGGACCTCAG GGAGCAGCAG GAGAAACCGG CCCTATGGGG
    GAGAGAGGTC ACCCAGGCCC CCCGGGGCCC CCTGGAGAGC AGGGACTACC TGGGACAGCT
    GGAAAAGAAG GAACAAAGGG TGACCCTGGT CCCCCTGGGG CCCCAGGGAA GGATGGTCCT
    GCTGGTCTGA GGGGATTCCC AGGAGAGAGA GGCCTCCCAG GCACTGCTGG TGGACCTGGT
    TTGAAGGGGA ATGAAGGTCC GTCTGGCCCC CCTGGCCCTG CAGGCTCCCC TGGGGAACGA
    GGTGCAGCAG GATCAGGGGG ACCCATTGGT CCGCCAGGGC GCCCAGGCCC GCAGGGTCCC
    CCTGGAGCAG CAGGAGAGAA AGGTGTCCCA GGTGAGAAGG GCCCCATTGG CCCGACTGGC
    CGAGATGGAG TGCAGGGTCC TGTGGGGCTT CCTGGTCCTG CTGGGCCTCC AGGTGTGGCT
    GGAGAGGATG GAGACAAGGG TGAGGTGGGG GACCCCGGAC AGAAGGGCAC CAAAGGGAAC
    AAGGGTGAAC ATGGCCCTCC TGGACCCCCT GGACCCATTG GTCCTGTGGG GCAGCCTGGA
    GCAGCGGGAG CAGATGGGGA GCCCGGAGCT CGGGGACCCC AGGGACACTT TGGAGCCAAA
    GGTGATGAAG GAACAAGAGG ATTCAATGGG CCCCCAGGAC CCATTGGCCT ACAGGGTTTG
    CCAGGCCCCT CTGGGGAGAA GGGAGAAACA GGAGATGTGG GTCCTATGGG ACCACCTGGC
    CCCCCAGGAC CTCGAGGTCC AGCTGGACCC AATGGCGCTG ATGGCCCACA AGGTCCCCCA
    GGAGGTGTTG GGAACCTGGG TCCCCCTGGA GAGAAGGGGG AACCAGGAGA GTCAGGATCT
    CCAGGGATCC AGGGCGAGCC AGGTGTCAAG GGTCCACGCG GGGAACGTGG AGAGAAAGGA
    GAGTCGGGGC AGCCAGGAGA GCCAGGGCCA CCAGGGCCTA AAGGCCCCAC AGGCGATGAT
    GGCCCCAAAG GGAACCCTGG TCCTGTTGGT TTTCCTGGTG ACCCTGGCCC CCCTGGAGAA
    GGTGGCCCTC GGGGCCAGGA TGGTGCTAAG GGTGACCGAG GCGAGGATGG TGAGCCAGGA
    CAGCCTGGAT CCCCTGGTCC CACCGGGGAG AATGGACCCC CAGGGCCACT TGGAAAGCGA
    GGTCCTGCTG GCTCGCCTGG TTCCGAGGGG CGACAAGGAG GGAAGGGAGC CAAGGGAGAT
    CCTGGCGCTA TAGGTGCCCC GGGGAAGACA GGCCCGGTGG GTCCTGCAGG CCCAGCAGGG
    AAACCTGGCC CTGATGGTCT GAGGGGGCTC CCAGGCTCAG TGGGTCAGCA AGGCCGACCT
    GGAGCTACAG GCCAGGCTGG GCCCCCAGGT CCTGTGGGAC CCCCAGGGCT GCCTGGTCTC
    CGGGGCGATG CTGGAGCCAA GGGAGAGAAG GGCCACCCAG GTCTCATTGG ACTGATTGGG
    CCCCCGGGTG AGCAGGGAGA GAAGGGAGAT CGGGGACTTC CTGGGCCTCA GGGCTCCCCT
    GGGCAGAAGG GTGAGATGGG TATCCCAGGA GCATCCGGCC CCATTGGTCC TGGAGGTCCC
    CCCGGCCTCC CCGGACCTGC TGGCCCCAAA GGAGCCAAAG GAGCCACAGG CCCAGGCGGA
    CCCAAGGGAG AGAAGGGTGT GCAGGGCCCT CCAGGACACC CGGGTCCCCC AGGCGAGGTG
    ATCCAGCCAC TGCCCATTCA GATGCCCAAG AAGACTCGGC GCTCGGTGGA TGGAAGCCGT
    CTGATGCAGG AAGATGAGGC CATACCGACC GGGGGAGCCC CCGGCAGTCC TGGGGGGCTG
    GAGGAGATCT TTGGCTCACT CGACTCCCTG CGGGAGGAGA TCGAGCAGAT GAGGCGGCCA
    ACAGGGACCC AGGACAGCCC TGCTCGCACC TGCCAGGACC TGAAGCTGTG CCACCCAGAG
    CTTCCCGATG GAGAGTACTG GGTCGACCCC AACCAGGGCT GTGCTCGGGA TGCCTTCCGA
    GTTTTCTGCA ACTTCACAGC AGGGGGTGAG ACCTGTGTGA CGCCTAGGGA TGACGTCACG
    CAGTTCTCTT ACGTGGACTC AGAGGGCTCC CCAGTGGGTG TGGTCCAGCT CACCTTCCTG
    CGGCTGCTCA GCGTCTCAGC CCACCAGGAC GTCTCCTACC CCTGCTCTGG AGCAGCCCGT
    GACGGTCCCC TGAGACTCCG TGGGGCCAAT GAGGATGAGC TGAGCCCGGA GACTAGCCCC
    TATGTCAAAG AATTCAGAGA TGGCTGCCAG ACACAGCAAG GCCGGACGGT GCTGGAGGTG
    CGAACGCCTG TGCTGGAGCA GCTGCCAGTG CTGGATGCCT CCTTCTCAGA CCTGGGAGCC
    CCACCGAGGC GGGGAGGGGT GCTGCTGGGG CCTGTCTGCT TCATGGGATA G

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

    CloneID OHu57010
    Clone ID Related Accession (Same CDS sequence) XM_011514299.2
    Accession Version XM_011514299.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4497bp)
    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-2(XI) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011514299.1. ##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
    ATGACCTGGC AGGCGTCCCC CTCACCAGGC CGGAGGCCCT CTCCAACTGC AGGCTTTGAC 
    CCAGCATGGG AGCAGCCTCC CCTTTCCCGA TGCCCAGCTC GGAGGGCAGC TTCCCCCACT
    GCCTGGCCCC GCCCCAGGAC CAGAGGCAGC AGTTACCGGC AGGACCCCAC CCCAGGTGAA
    GAGGAAGAAA TCCTGGAGTC GAGCCTCTTG CCACCCCTTG AGGAGGAGCA GACAGATCTC
    CAGGTCCCCC CCACAGCCGA CAGGTTCCAG GCAGAGGAAT ATGGGGAGGG TGGCACAGAC
    CCCCCTGAAG GGCCCTACGA TTACACCTAT GGCTATGGGG ATGATTATCG TGAGGAGACA
    GAGCTTGGCC CTGCCCTCTC TGCGGAGACA GCCCACTCAG GAGCCGCTGC CCATGGACCC
    CGAGGGCTGA AGGGAGAGAA AGGAGAGCCT GCAGTGTTGG AACCTGGTAT GCTCGTGGAG
    GGGCCCCCTG GCCCAGAAGG CCCTGCGGGA TTGATTGGTC CCCCTGGCAT CCAGGGGAAC
    CCAGGCCCAG TTGGAGACCC TGGAGAGAGG GGCCCCCCTG GCCGAGCAGG GCTCCCTGGA
    TCAGATGGGG CTCCTGGTCC TCCTGGCACA TCTCTCATGC TCCCATTCCG GTTTGGCAGT
    GGTGGGGGTG ACAAGGGCCC TGTGGTGGCG GCCCAGGAGG CTCAGGCCCA GGCGATCCTG
    CAGCAGGCGA GGCTGGCGCT CCGTGGACCC CCTGGCCCCA TGGGATACAC AGGGCGCCCT
    GGACCCTTGG GCCAACCTGG GAGCCCTGGC CTGAAAGGAG AGTCTGGAGA CTTAGGACCT
    CAGGGCCCCA GAGGACCTCA GGGCCTCACA GGCCCTCCTG GCAAGGCTGG GCGAAGGGGC
    CGGGCAGGTG CTGATGGAGC CCGAGGGATG CCTGGAGATC CTGGAGTGAA GGGTGACCGA
    GGTTTTGATG GACTCCCAGG GCTCCCTGGA GAGAAGGGCC ATAGGGGTGA TACTGGTGCC
    CAGGGCCTTC CTGGTCCCCC TGGTGAGGAT GGAGAGAGGG GAGATGACGG GGAGATTGGG
    CCTCGAGGGC TGCCTGGAGA GTCGGGACCT CGAGGTCTCC TTGGCCCCAA AGGCCCACCT
    GGTATTCCTG GACCCCCTGG CGTCCGAGGC ATGGATGGTC CCCAGGGCCC CAAAGGGAGC
    TTGGGACCCC AGGGAGAGCC AGGACCTCCT GGACAACAGG GCACCCCTGG GACCCAGGGT
    CTTCCCGGGC CCCAGGGTGC CATCGGCCCT CATGGAGAGA AGGGTCCTCA AGGGAAGCCA
    GGGCTCCCCG GCATGCCTGG CTCAGACGGA CCCCCGGGTC ACCCAGGGAA GGAAGGTCCC
    CCTGGAACCA AAGGAAACCA GGGTCCCTCT GGACCTCAGG GACCTCTAGG ATACCCAGGA
    CCTCGAGGGG TCAAGGGTGT GGACGGAATT CGGGGTCTGA AGGGTCATAA GGGTGAGAAG
    GGTGAGGATG GCTTTCCTGG GTTCAAAGGT GACATAGGCG TGAAAGGTGA CAGGGGCGAA
    GTTGGAGTCC CTGGTTCCAG GGGAGAGGAT GGTCCTGAGG GGCCAAAGGG ACGCACTGGA
    CCGACTGGAG ACCCTGGGCC CCCAGGGCTC ATGGGCGAGA AGGGCAAGCT GGGTGTTCCT
    GGTCTGCCTG GCTATCCTGG ACGTCAGGGA CCCAAGGGGT CCCTAGGATT TCCTGGCTTT
    CCTGGTGCCA GTGGAGAGAA GGGAGCCCGG GGCCTGTCGG GGAAGTCAGG GCCTCGGGGA
    GAACGGGGCC CCACGGGTCC ACGGGGTCAG CGGGGACCCC GAGGTGCCAC TGGGAAGTCT
    GGAGCTAAGG GAACATCTGG TGGTGATGGC CCCCATGGGC CCCCTGGAGA GAGGGGCCTC
    CCTGGACCTC AGGGTCCCAA CGGGTTTCCT GGACCGAAAG GACCCCCGGG CCCCCCTGGG
    AAGGATGGGC TGCCGGGACA CCCAGGCCAA AGAGGAGAAG TGGGTTTCCA AGGGAAGACC
    GGCCCCCCTG GTCCTCCAGG AGTGGTGGGA CCTCAGGGAG CAGCAGGAGA AACCGGCCCT
    ATGGGGGAGA GAGGTCACCC AGGCCCCCCG GGGCCCCCTG GAGAGCAGGG ACTACCTGGG
    ACAGCTGGAA AAGAAGGAAC AAAGGGTGAC CCTGGTCCCC CTGGGGCCCC AGGGAAGGAT
    GGTCCTGCTG GTCTGAGGGG ATTCCCAGGA GAGAGAGGCC TCCCAGGCAC TGCTGGTGGA
    CCTGGTTTGA AGGGGAATGA AGGTCCGTCT GGCCCCCCTG GCCCTGCAGG CTCCCCTGGG
    GAACGAGGTG CAGCAGGATC AGGGGGACCC ATTGGTCCGC CAGGGCGCCC AGGCCCGCAG
    GGTCCCCCTG GAGCAGCAGG AGAGAAAGGT GTCCCAGGTG AGAAGGGCCC CATTGGCCCG
    ACTGGCCGAG ATGGAGTGCA GGGTCCTGTG GGGCTTCCTG GTCCTGCTGG GCCTCCAGGT
    GTGGCTGGAG AGGATGGAGA CAAGGGTGAG GTGGGGGACC CCGGACAGAA GGGCACCAAA
    GGGAACAAGG GTGAACATGG CCCTCCTGGA CCCCCTGGAC CCATTGGTCC TGTGGGGCAG
    CCTGGAGCAG CGGGAGCAGA TGGGGAGCCC GGAGCTCGGG GACCCCAGGG ACACTTTGGA
    GCCAAAGGTG ATGAAGGAAC AAGAGGATTC AATGGGCCCC CAGGACCCAT TGGCCTACAG
    GGTTTGCCAG GCCCCTCTGG GGAGAAGGGA GAAACAGGAG ATGTGGGTCC TATGGGACCA
    CCTGGCCCCC CAGGACCTCG AGGTCCAGCT GGACCCAATG GCGCTGATGG CCCACAAGGT
    CCCCCAGGAG GTGTTGGGAA CCTGGGTCCC CCTGGAGAGA AGGGGGAACC AGGAGAGTCA
    GGATCTCCAG GGATCCAGGG CGAGCCAGGT GTCAAGGGTC CACGCGGGGA ACGTGGAGAG
    AAAGGAGAGT CGGGGCAGCC AGGAGAGCCA GGGCCACCAG GGCCTAAAGG CCCCACAGGC
    GATGATGGCC CCAAAGGGAA CCCTGGTCCT GTTGGTTTTC CTGGTGACCC TGGCCCCCCT
    GGAGAAGGTG GCCCTCGGGG CCAGGATGGT GCTAAGGGTG ACCGAGGCGA GGATGGTGAG
    CCAGGACAGC CTGGATCCCC TGGTCCCACC GGGGAGAATG GACCCCCAGG GCCACTTGGA
    AAGCGAGGTC CTGCTGGCTC GCCTGGTTCC GAGGGGCGAC AAGGAGGGAA GGGAGCCAAG
    GGAGATCCTG GCGCTATAGG TGCCCCGGGG AAGACAGGCC CGGTGGGTCC TGCAGGCCCA
    GCAGGGAAAC CTGGCCCTGA TGGTCTGAGG GGGCTCCCAG GCTCAGTGGG TCAGCAAGGC
    CGACCTGGAG CTACAGGCCA GGCTGGGCCC CCAGGTCCTG TGGGACCCCC AGGGCTGCCT
    GGTCTCCGGG GCGATGCTGG AGCCAAGGGA GAGAAGGGCC ACCCAGGTCT CATTGGACTG
    ATTGGGCCCC CGGGTGAGCA GGGAGAGAAG GGAGATCGGG GACTTCCTGG GCCTCAGGGC
    TCCCCTGGGC AGAAGGGTGA GATGGGTATC CCAGGAGCAT CCGGCCCCAT TGGTCCTGGA
    GGTCCCCCCG GCCTCCCCGG ACCTGCTGGC CCCAAAGGAG CCAAAGGAGC CACAGGCCCA
    GGCGGACCCA AGGGAGAGAA GGGTGTGCAG GGCCCTCCAG GACACCCGGG TCCCCCAGGC
    GAGGTGATCC AGCCACTGCC CATTCAGATG CCCAAGAAGA CTCGGCGCTC GGTGGATGGA
    AGCCGTCTGA TGCAGGAAGA TGAGGCCATA CCGACCGGGG GAGCCCCCGG CAGTCCTGGG
    GGGCTGGAGG AGATCTTTGG CTCACTCGAC TCCCTGCGGG AGGAGATCGA GCAGATGAGG
    CGGCCAACAG GGACCCAGGA CAGCCCTGCT CGCACCTGCC AGGACCTGAA GCTGTGCCAC
    CCAGAGCTTC CCGATGGAGA GTACTGGGTC GACCCCAACC AGGGCTGTGC TCGGGATGCC
    TTCCGAGTTT TCTGCAACTT CACAGCAGGG GGTGAGACCT GTGTGACGCC TAGGGATGAC
    GTCACGCAGT TCTCTTACGT GGACTCAGAG GGCTCCCCAG TGGGTGTGGT CCAGCTCACC
    TTCCTGCGGC TGCTCAGCGT CTCAGCCCAC CAGGACGTCT CCTACCCCTG CTCTGGAGCA
    GCCCGTGACG GTCCCCTGAG ACTCCGTGGG GCCAATGAGG ATGAGCTGAG CCCGGAGACT
    AGCCCCTATG TCAAAGAATT CAGAGATGGC TGCCAGACAC AGCAAGGCCG GACGGTGCTG
    GAGGTGCGAA CGCCTGTGCT GGAGCAGCTG CCAGTGCTGG ATGCCTCCTT CTCAGACCTG
    GGAGCCCCAC CGAGGCGGGG AGGGGTGCTG CTGGGGCCTG TCTGCTTCAT GGGATAG

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

    RefSeq XP_011512601.1
    CDS234..4730
    Translation

    Target ORF information:

    RefSeq Version XM_011514299.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514299.2

    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
    ATGACCTGGC AGGCGTCCCC CTCACCAGGC CGGAGGCCCT CTCCAACTGC AGGCTTTGAC 
    CCAGCATGGG AGCAGCCTCC CCTTTCCCGA TGCCCAGCTC GGAGGGCAGC TTCCCCCACT
    GCCTGGCCCC GCCCCAGGAC CAGAGGCAGC AGTTACCGGC AGGACCCCAC CCCAGGTGAA
    GAGGAAGAAA TCCTGGAGTC GAGCCTCTTG CCACCCCTTG AGGAGGAGCA GACAGATCTC
    CAGGTCCCCC CCACAGCCGA CAGGTTCCAG GCAGAGGAAT ATGGGGAGGG TGGCACAGAC
    CCCCCTGAAG GGCCCTACGA TTACACCTAT GGCTATGGGG ATGATTATCG TGAGGAGACA
    GAGCTTGGCC CTGCCCTCTC TGCGGAGACA GCCCACTCAG GAGCCGCTGC CCATGGACCC
    CGAGGGCTGA AGGGAGAGAA AGGAGAGCCT GCAGTGTTGG AACCTGGTAT GCTCGTGGAG
    GGGCCCCCTG GCCCAGAAGG CCCTGCGGGA TTGATTGGTC CCCCTGGCAT CCAGGGGAAC
    CCAGGCCCAG TTGGAGACCC TGGAGAGAGG GGCCCCCCTG GCCGAGCAGG GCTCCCTGGA
    TCAGATGGGG CTCCTGGTCC TCCTGGCACA TCTCTCATGC TCCCATTCCG GTTTGGCAGT
    GGTGGGGGTG ACAAGGGCCC TGTGGTGGCG GCCCAGGAGG CTCAGGCCCA GGCGATCCTG
    CAGCAGGCGA GGCTGGCGCT CCGTGGACCC CCTGGCCCCA TGGGATACAC AGGGCGCCCT
    GGACCCTTGG GCCAACCTGG GAGCCCTGGC CTGAAAGGAG AGTCTGGAGA CTTAGGACCT
    CAGGGCCCCA GAGGACCTCA GGGCCTCACA GGCCCTCCTG GCAAGGCTGG GCGAAGGGGC
    CGGGCAGGTG CTGATGGAGC CCGAGGGATG CCTGGAGATC CTGGAGTGAA GGGTGACCGA
    GGTTTTGATG GACTCCCAGG GCTCCCTGGA GAGAAGGGCC ATAGGGGTGA TACTGGTGCC
    CAGGGCCTTC CTGGTCCCCC TGGTGAGGAT GGAGAGAGGG GAGATGACGG GGAGATTGGG
    CCTCGAGGGC TGCCTGGAGA GTCGGGACCT CGAGGTCTCC TTGGCCCCAA AGGCCCACCT
    GGTATTCCTG GACCCCCTGG CGTCCGAGGC ATGGATGGTC CCCAGGGCCC CAAAGGGAGC
    TTGGGACCCC AGGGAGAGCC AGGACCTCCT GGACAACAGG GCACCCCTGG GACCCAGGGT
    CTTCCCGGGC CCCAGGGTGC CATCGGCCCT CATGGAGAGA AGGGTCCTCA AGGGAAGCCA
    GGGCTCCCCG GCATGCCTGG CTCAGACGGA CCCCCGGGTC ACCCAGGGAA GGAAGGTCCC
    CCTGGAACCA AAGGAAACCA GGGTCCCTCT GGACCTCAGG GACCTCTAGG ATACCCAGGA
    CCTCGAGGGG TCAAGGGTGT GGACGGAATT CGGGGTCTGA AGGGTCATAA GGGTGAGAAG
    GGTGAGGATG GCTTTCCTGG GTTCAAAGGT GACATAGGCG TGAAAGGTGA CAGGGGCGAA
    GTTGGAGTCC CTGGTTCCAG GGGAGAGGAT GGTCCTGAGG GGCCAAAGGG ACGCACTGGA
    CCGACTGGAG ACCCTGGGCC CCCAGGGCTC ATGGGCGAGA AGGGCAAGCT GGGTGTTCCT
    GGTCTGCCTG GCTATCCTGG ACGTCAGGGA CCCAAGGGGT CCCTAGGATT TCCTGGCTTT
    CCTGGTGCCA GTGGAGAGAA GGGAGCCCGG GGCCTGTCGG GGAAGTCAGG GCCTCGGGGA
    GAACGGGGCC CCACGGGTCC ACGGGGTCAG CGGGGACCCC GAGGTGCCAC TGGGAAGTCT
    GGAGCTAAGG GAACATCTGG TGGTGATGGC CCCCATGGGC CCCCTGGAGA GAGGGGCCTC
    CCTGGACCTC AGGGTCCCAA CGGGTTTCCT GGACCGAAAG GACCCCCGGG CCCCCCTGGG
    AAGGATGGGC TGCCGGGACA CCCAGGCCAA AGAGGAGAAG TGGGTTTCCA AGGGAAGACC
    GGCCCCCCTG GTCCTCCAGG AGTGGTGGGA CCTCAGGGAG CAGCAGGAGA AACCGGCCCT
    ATGGGGGAGA GAGGTCACCC AGGCCCCCCG GGGCCCCCTG GAGAGCAGGG ACTACCTGGG
    ACAGCTGGAA AAGAAGGAAC AAAGGGTGAC CCTGGTCCCC CTGGGGCCCC AGGGAAGGAT
    GGTCCTGCTG GTCTGAGGGG ATTCCCAGGA GAGAGAGGCC TCCCAGGCAC TGCTGGTGGA
    CCTGGTTTGA AGGGGAATGA AGGTCCGTCT GGCCCCCCTG GCCCTGCAGG CTCCCCTGGG
    GAACGAGGTG CAGCAGGATC AGGGGGACCC ATTGGTCCGC CAGGGCGCCC AGGCCCGCAG
    GGTCCCCCTG GAGCAGCAGG AGAGAAAGGT GTCCCAGGTG AGAAGGGCCC CATTGGCCCG
    ACTGGCCGAG ATGGAGTGCA GGGTCCTGTG GGGCTTCCTG GTCCTGCTGG GCCTCCAGGT
    GTGGCTGGAG AGGATGGAGA CAAGGGTGAG GTGGGGGACC CCGGACAGAA GGGCACCAAA
    GGGAACAAGG GTGAACATGG CCCTCCTGGA CCCCCTGGAC CCATTGGTCC TGTGGGGCAG
    CCTGGAGCAG CGGGAGCAGA TGGGGAGCCC GGAGCTCGGG GACCCCAGGG ACACTTTGGA
    GCCAAAGGTG ATGAAGGAAC AAGAGGATTC AATGGGCCCC CAGGACCCAT TGGCCTACAG
    GGTTTGCCAG GCCCCTCTGG GGAGAAGGGA GAAACAGGAG ATGTGGGTCC TATGGGACCA
    CCTGGCCCCC CAGGACCTCG AGGTCCAGCT GGACCCAATG GCGCTGATGG CCCACAAGGT
    CCCCCAGGAG GTGTTGGGAA CCTGGGTCCC CCTGGAGAGA AGGGGGAACC AGGAGAGTCA
    GGATCTCCAG GGATCCAGGG CGAGCCAGGT GTCAAGGGTC CACGCGGGGA ACGTGGAGAG
    AAAGGAGAGT CGGGGCAGCC AGGAGAGCCA GGGCCACCAG GGCCTAAAGG CCCCACAGGC
    GATGATGGCC CCAAAGGGAA CCCTGGTCCT GTTGGTTTTC CTGGTGACCC TGGCCCCCCT
    GGAGAAGGTG GCCCTCGGGG CCAGGATGGT GCTAAGGGTG ACCGAGGCGA GGATGGTGAG
    CCAGGACAGC CTGGATCCCC TGGTCCCACC GGGGAGAATG GACCCCCAGG GCCACTTGGA
    AAGCGAGGTC CTGCTGGCTC GCCTGGTTCC GAGGGGCGAC AAGGAGGGAA GGGAGCCAAG
    GGAGATCCTG GCGCTATAGG TGCCCCGGGG AAGACAGGCC CGGTGGGTCC TGCAGGCCCA
    GCAGGGAAAC CTGGCCCTGA TGGTCTGAGG GGGCTCCCAG GCTCAGTGGG TCAGCAAGGC
    CGACCTGGAG CTACAGGCCA GGCTGGGCCC CCAGGTCCTG TGGGACCCCC AGGGCTGCCT
    GGTCTCCGGG GCGATGCTGG AGCCAAGGGA GAGAAGGGCC ACCCAGGTCT CATTGGACTG
    ATTGGGCCCC CGGGTGAGCA GGGAGAGAAG GGAGATCGGG GACTTCCTGG GCCTCAGGGC
    TCCCCTGGGC AGAAGGGTGA GATGGGTATC CCAGGAGCAT CCGGCCCCAT TGGTCCTGGA
    GGTCCCCCCG GCCTCCCCGG ACCTGCTGGC CCCAAAGGAG CCAAAGGAGC CACAGGCCCA
    GGCGGACCCA AGGGAGAGAA GGGTGTGCAG GGCCCTCCAG GACACCCGGG TCCCCCAGGC
    GAGGTGATCC AGCCACTGCC CATTCAGATG CCCAAGAAGA CTCGGCGCTC GGTGGATGGA
    AGCCGTCTGA TGCAGGAAGA TGAGGCCATA CCGACCGGGG GAGCCCCCGG CAGTCCTGGG
    GGGCTGGAGG AGATCTTTGG CTCACTCGAC TCCCTGCGGG AGGAGATCGA GCAGATGAGG
    CGGCCAACAG GGACCCAGGA CAGCCCTGCT CGCACCTGCC AGGACCTGAA GCTGTGCCAC
    CCAGAGCTTC CCGATGGAGA GTACTGGGTC GACCCCAACC AGGGCTGTGC TCGGGATGCC
    TTCCGAGTTT TCTGCAACTT CACAGCAGGG GGTGAGACCT GTGTGACGCC TAGGGATGAC
    GTCACGCAGT TCTCTTACGT GGACTCAGAG GGCTCCCCAG TGGGTGTGGT CCAGCTCACC
    TTCCTGCGGC TGCTCAGCGT CTCAGCCCAC CAGGACGTCT CCTACCCCTG CTCTGGAGCA
    GCCCGTGACG GTCCCCTGAG ACTCCGTGGG GCCAATGAGG ATGAGCTGAG CCCGGAGACT
    AGCCCCTATG TCAAAGAATT CAGAGATGGC TGCCAGACAC AGCAAGGCCG GACGGTGCTG
    GAGGTGCGAA CGCCTGTGCT GGAGCAGCTG CCAGTGCTGG ATGCCTCCTT CTCAGACCTG
    GGAGCCCCAC CGAGGCGGGG AGGGGTGCTG CTGGGGCCTG TCTGCTTCAT GGGATAG

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

    CloneID OHu57011
    Clone ID Related Accession (Same CDS sequence) XM_011514300.2
    Accession Version XM_011514300.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4317bp)
    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-2(XI) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011514300.1. ##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
    ATGACCTGGC AGGCGTCCCC CTCACCAGGC CGGAGGCCCT CTCCAACTGC AGGCTTTGAC 
    CCAGCATGGG AGCAGCCTCC CCTTTCCCGA TGCCCAGCTC GGAGGGCAGC TTCCCCCACT
    GCCTGGCCCC GCCCCAGGAC CAGAGGCAGC AGTTACCGGC AGGACCCCAC CCCAGGTGAA
    GAGGAAGAAA TCCTGGAGTC GAGCCTCTTG CCACCCCTTG AGGAGGCTGC CCATGGACCC
    CGAGGGCTGA AGGGAGAGAA AGGAGAGCCT GCAGTGTTGG AACCTGGTAT GCTCGTGGAG
    GGGCCCCCTG GCCCAGAAGG CCCTGCGGGA TTGATTGGTC CCCCTGGCAT CCAGGGGAAC
    CCAGGCCCAG TTGGAGACCC TGGAGAGAGG GGCCCCCCTG GCCGAGCAGG GCTCCCTGGA
    TCAGATGGGG CTCCTGGTCC TCCTGGCACA TCTCTCATGC TCCCATTCCG GTTTGGCAGT
    GGTGGGGGTG ACAAGGGCCC TGTGGTGGCG GCCCAGGAGG CTCAGGCCCA GGCGATCCTG
    CAGCAGGCGA GGCTGGCGCT CCGTGGACCC CCTGGCCCCA TGGGATACAC AGGGCGCCCT
    GGACCCTTGG GCCAACCTGG GAGCCCTGGC CTGAAAGGAG AGTCTGGAGA CTTAGGACCT
    CAGGGCCCCA GAGGACCTCA GGGCCTCACA GGCCCTCCTG GCAAGGCTGG GCGAAGGGGC
    CGGGCAGGTG CTGATGGAGC CCGAGGGATG CCTGGAGATC CTGGAGTGAA GGGTGACCGA
    GGTTTTGATG GACTCCCAGG GCTCCCTGGA GAGAAGGGCC ATAGGGGTGA TACTGGTGCC
    CAGGGCCTTC CTGGTCCCCC TGGTGAGGAT GGAGAGAGGG GAGATGACGG GGAGATTGGG
    CCTCGAGGGC TGCCTGGAGA GTCGGGACCT CGAGGTCTCC TTGGCCCCAA AGGCCCACCT
    GGTATTCCTG GACCCCCTGG CGTCCGAGGC ATGGATGGTC CCCAGGGCCC CAAAGGGAGC
    TTGGGACCCC AGGGAGAGCC AGGACCTCCT GGACAACAGG GCACCCCTGG GACCCAGGGT
    CTTCCCGGGC CCCAGGGTGC CATCGGCCCT CATGGAGAGA AGGGTCCTCA AGGGAAGCCA
    GGGCTCCCCG GCATGCCTGG CTCAGACGGA CCCCCGGGTC ACCCAGGGAA GGAAGGTCCC
    CCTGGAACCA AAGGAAACCA GGGTCCCTCT GGACCTCAGG GACCTCTAGG ATACCCAGGA
    CCTCGAGGGG TCAAGGGTGT GGACGGAATT CGGGGTCTGA AGGGTCATAA GGGTGAGAAG
    GGTGAGGATG GCTTTCCTGG GTTCAAAGGT GACATAGGCG TGAAAGGTGA CAGGGGCGAA
    GTTGGAGTCC CTGGTTCCAG GGGAGAGGAT GGTCCTGAGG GGCCAAAGGG ACGCACTGGA
    CCGACTGGAG ACCCTGGGCC CCCAGGGCTC ATGGGCGAGA AGGGCAAGCT GGGTGTTCCT
    GGTCTGCCTG GCTATCCTGG ACGTCAGGGA CCCAAGGGGT CCCTAGGATT TCCTGGCTTT
    CCTGGTGCCA GTGGAGAGAA GGGAGCCCGG GGCCTGTCGG GGAAGTCAGG GCCTCGGGGA
    GAACGGGGCC CCACGGGTCC ACGGGGTCAG CGGGGACCCC GAGGTGCCAC TGGGAAGTCT
    GGAGCTAAGG GAACATCTGG TGGTGATGGC CCCCATGGGC CCCCTGGAGA GAGGGGCCTC
    CCTGGACCTC AGGGTCCCAA CGGGTTTCCT GGACCGAAAG GACCCCCGGG CCCCCCTGGG
    AAGGATGGGC TGCCGGGACA CCCAGGCCAA AGAGGAGAAG TGGGTTTCCA AGGGAAGACC
    GGCCCCCCTG GTCCTCCAGG AGTGGTGGGA CCTCAGGGAG CAGCAGGAGA AACCGGCCCT
    ATGGGGGAGA GAGGTCACCC AGGCCCCCCG GGGCCCCCTG GAGAGCAGGG ACTACCTGGG
    ACAGCTGGAA AAGAAGGAAC AAAGGGTGAC CCTGGTCCCC CTGGGGCCCC AGGGAAGGAT
    GGTCCTGCTG GTCTGAGGGG ATTCCCAGGA GAGAGAGGCC TCCCAGGCAC TGCTGGTGGA
    CCTGGTTTGA AGGGGAATGA AGGTCCGTCT GGCCCCCCTG GCCCTGCAGG CTCCCCTGGG
    GAACGAGGTG CAGCAGGATC AGGGGGACCC ATTGGTCCGC CAGGGCGCCC AGGCCCGCAG
    GGTCCCCCTG GAGCAGCAGG AGAGAAAGGT GTCCCAGGTG AGAAGGGCCC CATTGGCCCG
    ACTGGCCGAG ATGGAGTGCA GGGTCCTGTG GGGCTTCCTG GTCCTGCTGG GCCTCCAGGT
    GTGGCTGGAG AGGATGGAGA CAAGGGTGAG GTGGGGGACC CCGGACAGAA GGGCACCAAA
    GGGAACAAGG GTGAACATGG CCCTCCTGGA CCCCCTGGAC CCATTGGTCC TGTGGGGCAG
    CCTGGAGCAG CGGGAGCAGA TGGGGAGCCC GGAGCTCGGG GACCCCAGGG ACACTTTGGA
    GCCAAAGGTG ATGAAGGAAC AAGAGGATTC AATGGGCCCC CAGGACCCAT TGGCCTACAG
    GGTTTGCCAG GCCCCTCTGG GGAGAAGGGA GAAACAGGAG ATGTGGGTCC TATGGGACCA
    CCTGGCCCCC CAGGACCTCG AGGTCCAGCT GGACCCAATG GCGCTGATGG CCCACAAGGT
    CCCCCAGGAG GTGTTGGGAA CCTGGGTCCC CCTGGAGAGA AGGGGGAACC AGGAGAGTCA
    GGATCTCCAG GGATCCAGGG CGAGCCAGGT GTCAAGGGTC CACGCGGGGA ACGTGGAGAG
    AAAGGAGAGT CGGGGCAGCC AGGAGAGCCA GGGCCACCAG GGCCTAAAGG CCCCACAGGC
    GATGATGGCC CCAAAGGGAA CCCTGGTCCT GTTGGTTTTC CTGGTGACCC TGGCCCCCCT
    GGAGAAGGTG GCCCTCGGGG CCAGGATGGT GCTAAGGGTG ACCGAGGCGA GGATGGTGAG
    CCAGGACAGC CTGGATCCCC TGGTCCCACC GGGGAGAATG GACCCCCAGG GCCACTTGGA
    AAGCGAGGTC CTGCTGGCTC GCCTGGTTCC GAGGGGCGAC AAGGAGGGAA GGGAGCCAAG
    GGAGATCCTG GCGCTATAGG TGCCCCGGGG AAGACAGGCC CGGTGGGTCC TGCAGGCCCA
    GCAGGGAAAC CTGGCCCTGA TGGTCTGAGG GGGCTCCCAG GCTCAGTGGG TCAGCAAGGC
    CGACCTGGAG CTACAGGCCA GGCTGGGCCC CCAGGTCCTG TGGGACCCCC AGGGCTGCCT
    GGTCTCCGGG GCGATGCTGG AGCCAAGGGA GAGAAGGGCC ACCCAGGTCT CATTGGACTG
    ATTGGGCCCC CGGGTGAGCA GGGAGAGAAG GGAGATCGGG GACTTCCTGG GCCTCAGGGC
    TCCCCTGGGC AGAAGGGTGA GATGGGTATC CCAGGAGCAT CCGGCCCCAT TGGTCCTGGA
    GGTCCCCCCG GCCTCCCCGG ACCTGCTGGC CCCAAAGGAG CCAAAGGAGC CACAGGCCCA
    GGCGGACCCA AGGGAGAGAA GGGTGTGCAG GGCCCTCCAG GACACCCGGG TCCCCCAGGC
    GAGGTGATCC AGCCACTGCC CATTCAGATG CCCAAGAAGA CTCGGCGCTC GGTGGATGGA
    AGCCGTCTGA TGCAGGAAGA TGAGGCCATA CCGACCGGGG GAGCCCCCGG CAGTCCTGGG
    GGGCTGGAGG AGATCTTTGG CTCACTCGAC TCCCTGCGGG AGGAGATCGA GCAGATGAGG
    CGGCCAACAG GGACCCAGGA CAGCCCTGCT CGCACCTGCC AGGACCTGAA GCTGTGCCAC
    CCAGAGCTTC CCGATGGAGA GTACTGGGTC GACCCCAACC AGGGCTGTGC TCGGGATGCC
    TTCCGAGTTT TCTGCAACTT CACAGCAGGG GGTGAGACCT GTGTGACGCC TAGGGATGAC
    GTCACGCAGT TCTCTTACGT GGACTCAGAG GGCTCCCCAG TGGGTGTGGT CCAGCTCACC
    TTCCTGCGGC TGCTCAGCGT CTCAGCCCAC CAGGACGTCT CCTACCCCTG CTCTGGAGCA
    GCCCGTGACG GTCCCCTGAG ACTCCGTGGG GCCAATGAGG ATGAGCTGAG CCCGGAGACT
    AGCCCCTATG TCAAAGAATT CAGAGATGGC TGCCAGACAC AGCAAGGCCG GACGGTGCTG
    GAGGTGCGAA CGCCTGTGCT GGAGCAGCTG CCAGTGCTGG ATGCCTCCTT CTCAGACCTG
    GGAGCCCCAC CGAGGCGGGG AGGGGTGCTG CTGGGGCCTG TCTGCTTCAT GGGATAG

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

    RefSeq XP_011512602.1
    CDS234..4550
    Translation

    Target ORF information:

    RefSeq Version XM_011514300.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514300.2

    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
    ATGACCTGGC AGGCGTCCCC CTCACCAGGC CGGAGGCCCT CTCCAACTGC AGGCTTTGAC 
    CCAGCATGGG AGCAGCCTCC CCTTTCCCGA TGCCCAGCTC GGAGGGCAGC TTCCCCCACT
    GCCTGGCCCC GCCCCAGGAC CAGAGGCAGC AGTTACCGGC AGGACCCCAC CCCAGGTGAA
    GAGGAAGAAA TCCTGGAGTC GAGCCTCTTG CCACCCCTTG AGGAGGCTGC CCATGGACCC
    CGAGGGCTGA AGGGAGAGAA AGGAGAGCCT GCAGTGTTGG AACCTGGTAT GCTCGTGGAG
    GGGCCCCCTG GCCCAGAAGG CCCTGCGGGA TTGATTGGTC CCCCTGGCAT CCAGGGGAAC
    CCAGGCCCAG TTGGAGACCC TGGAGAGAGG GGCCCCCCTG GCCGAGCAGG GCTCCCTGGA
    TCAGATGGGG CTCCTGGTCC TCCTGGCACA TCTCTCATGC TCCCATTCCG GTTTGGCAGT
    GGTGGGGGTG ACAAGGGCCC TGTGGTGGCG GCCCAGGAGG CTCAGGCCCA GGCGATCCTG
    CAGCAGGCGA GGCTGGCGCT CCGTGGACCC CCTGGCCCCA TGGGATACAC AGGGCGCCCT
    GGACCCTTGG GCCAACCTGG GAGCCCTGGC CTGAAAGGAG AGTCTGGAGA CTTAGGACCT
    CAGGGCCCCA GAGGACCTCA GGGCCTCACA GGCCCTCCTG GCAAGGCTGG GCGAAGGGGC
    CGGGCAGGTG CTGATGGAGC CCGAGGGATG CCTGGAGATC CTGGAGTGAA GGGTGACCGA
    GGTTTTGATG GACTCCCAGG GCTCCCTGGA GAGAAGGGCC ATAGGGGTGA TACTGGTGCC
    CAGGGCCTTC CTGGTCCCCC TGGTGAGGAT GGAGAGAGGG GAGATGACGG GGAGATTGGG
    CCTCGAGGGC TGCCTGGAGA GTCGGGACCT CGAGGTCTCC TTGGCCCCAA AGGCCCACCT
    GGTATTCCTG GACCCCCTGG CGTCCGAGGC ATGGATGGTC CCCAGGGCCC CAAAGGGAGC
    TTGGGACCCC AGGGAGAGCC AGGACCTCCT GGACAACAGG GCACCCCTGG GACCCAGGGT
    CTTCCCGGGC CCCAGGGTGC CATCGGCCCT CATGGAGAGA AGGGTCCTCA AGGGAAGCCA
    GGGCTCCCCG GCATGCCTGG CTCAGACGGA CCCCCGGGTC ACCCAGGGAA GGAAGGTCCC
    CCTGGAACCA AAGGAAACCA GGGTCCCTCT GGACCTCAGG GACCTCTAGG ATACCCAGGA
    CCTCGAGGGG TCAAGGGTGT GGACGGAATT CGGGGTCTGA AGGGTCATAA GGGTGAGAAG
    GGTGAGGATG GCTTTCCTGG GTTCAAAGGT GACATAGGCG TGAAAGGTGA CAGGGGCGAA
    GTTGGAGTCC CTGGTTCCAG GGGAGAGGAT GGTCCTGAGG GGCCAAAGGG ACGCACTGGA
    CCGACTGGAG ACCCTGGGCC CCCAGGGCTC ATGGGCGAGA AGGGCAAGCT GGGTGTTCCT
    GGTCTGCCTG GCTATCCTGG ACGTCAGGGA CCCAAGGGGT CCCTAGGATT TCCTGGCTTT
    CCTGGTGCCA GTGGAGAGAA GGGAGCCCGG GGCCTGTCGG GGAAGTCAGG GCCTCGGGGA
    GAACGGGGCC CCACGGGTCC ACGGGGTCAG CGGGGACCCC GAGGTGCCAC TGGGAAGTCT
    GGAGCTAAGG GAACATCTGG TGGTGATGGC CCCCATGGGC CCCCTGGAGA GAGGGGCCTC
    CCTGGACCTC AGGGTCCCAA CGGGTTTCCT GGACCGAAAG GACCCCCGGG CCCCCCTGGG
    AAGGATGGGC TGCCGGGACA CCCAGGCCAA AGAGGAGAAG TGGGTTTCCA AGGGAAGACC
    GGCCCCCCTG GTCCTCCAGG AGTGGTGGGA CCTCAGGGAG CAGCAGGAGA AACCGGCCCT
    ATGGGGGAGA GAGGTCACCC AGGCCCCCCG GGGCCCCCTG GAGAGCAGGG ACTACCTGGG
    ACAGCTGGAA AAGAAGGAAC AAAGGGTGAC CCTGGTCCCC CTGGGGCCCC AGGGAAGGAT
    GGTCCTGCTG GTCTGAGGGG ATTCCCAGGA GAGAGAGGCC TCCCAGGCAC TGCTGGTGGA
    CCTGGTTTGA AGGGGAATGA AGGTCCGTCT GGCCCCCCTG GCCCTGCAGG CTCCCCTGGG
    GAACGAGGTG CAGCAGGATC AGGGGGACCC ATTGGTCCGC CAGGGCGCCC AGGCCCGCAG
    GGTCCCCCTG GAGCAGCAGG AGAGAAAGGT GTCCCAGGTG AGAAGGGCCC CATTGGCCCG
    ACTGGCCGAG ATGGAGTGCA GGGTCCTGTG GGGCTTCCTG GTCCTGCTGG GCCTCCAGGT
    GTGGCTGGAG AGGATGGAGA CAAGGGTGAG GTGGGGGACC CCGGACAGAA GGGCACCAAA
    GGGAACAAGG GTGAACATGG CCCTCCTGGA CCCCCTGGAC CCATTGGTCC TGTGGGGCAG
    CCTGGAGCAG CGGGAGCAGA TGGGGAGCCC GGAGCTCGGG GACCCCAGGG ACACTTTGGA
    GCCAAAGGTG ATGAAGGAAC AAGAGGATTC AATGGGCCCC CAGGACCCAT TGGCCTACAG
    GGTTTGCCAG GCCCCTCTGG GGAGAAGGGA GAAACAGGAG ATGTGGGTCC TATGGGACCA
    CCTGGCCCCC CAGGACCTCG AGGTCCAGCT GGACCCAATG GCGCTGATGG CCCACAAGGT
    CCCCCAGGAG GTGTTGGGAA CCTGGGTCCC CCTGGAGAGA AGGGGGAACC AGGAGAGTCA
    GGATCTCCAG GGATCCAGGG CGAGCCAGGT GTCAAGGGTC CACGCGGGGA ACGTGGAGAG
    AAAGGAGAGT CGGGGCAGCC AGGAGAGCCA GGGCCACCAG GGCCTAAAGG CCCCACAGGC
    GATGATGGCC CCAAAGGGAA CCCTGGTCCT GTTGGTTTTC CTGGTGACCC TGGCCCCCCT
    GGAGAAGGTG GCCCTCGGGG CCAGGATGGT GCTAAGGGTG ACCGAGGCGA GGATGGTGAG
    CCAGGACAGC CTGGATCCCC TGGTCCCACC GGGGAGAATG GACCCCCAGG GCCACTTGGA
    AAGCGAGGTC CTGCTGGCTC GCCTGGTTCC GAGGGGCGAC AAGGAGGGAA GGGAGCCAAG
    GGAGATCCTG GCGCTATAGG TGCCCCGGGG AAGACAGGCC CGGTGGGTCC TGCAGGCCCA
    GCAGGGAAAC CTGGCCCTGA TGGTCTGAGG GGGCTCCCAG GCTCAGTGGG TCAGCAAGGC
    CGACCTGGAG CTACAGGCCA GGCTGGGCCC CCAGGTCCTG TGGGACCCCC AGGGCTGCCT
    GGTCTCCGGG GCGATGCTGG AGCCAAGGGA GAGAAGGGCC ACCCAGGTCT CATTGGACTG
    ATTGGGCCCC CGGGTGAGCA GGGAGAGAAG GGAGATCGGG GACTTCCTGG GCCTCAGGGC
    TCCCCTGGGC AGAAGGGTGA GATGGGTATC CCAGGAGCAT CCGGCCCCAT TGGTCCTGGA
    GGTCCCCCCG GCCTCCCCGG ACCTGCTGGC CCCAAAGGAG CCAAAGGAGC CACAGGCCCA
    GGCGGACCCA AGGGAGAGAA GGGTGTGCAG GGCCCTCCAG GACACCCGGG TCCCCCAGGC
    GAGGTGATCC AGCCACTGCC CATTCAGATG CCCAAGAAGA CTCGGCGCTC GGTGGATGGA
    AGCCGTCTGA TGCAGGAAGA TGAGGCCATA CCGACCGGGG GAGCCCCCGG CAGTCCTGGG
    GGGCTGGAGG AGATCTTTGG CTCACTCGAC TCCCTGCGGG AGGAGATCGA GCAGATGAGG
    CGGCCAACAG GGACCCAGGA CAGCCCTGCT CGCACCTGCC AGGACCTGAA GCTGTGCCAC
    CCAGAGCTTC CCGATGGAGA GTACTGGGTC GACCCCAACC AGGGCTGTGC TCGGGATGCC
    TTCCGAGTTT TCTGCAACTT CACAGCAGGG GGTGAGACCT GTGTGACGCC TAGGGATGAC
    GTCACGCAGT TCTCTTACGT GGACTCAGAG GGCTCCCCAG TGGGTGTGGT CCAGCTCACC
    TTCCTGCGGC TGCTCAGCGT CTCAGCCCAC CAGGACGTCT CCTACCCCTG CTCTGGAGCA
    GCCCGTGACG GTCCCCTGAG ACTCCGTGGG GCCAATGAGG ATGAGCTGAG CCCGGAGACT
    AGCCCCTATG TCAAAGAATT CAGAGATGGC TGCCAGACAC AGCAAGGCCG GACGGTGCTG
    GAGGTGCGAA CGCCTGTGCT GGAGCAGCTG CCAGTGCTGG ATGCCTCCTT CTCAGACCTG
    GGAGCCCCAC CGAGGCGGGG AGGGGTGCTG CTGGGGCCTG TCTGCTTCAT GGGATAG

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

    CloneID OHu57013
    Clone ID Related Accession (Same CDS sequence) XM_011514302.2
    Accession Version XM_011514302.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    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-2(XI) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011514302.1. ##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
    ATGAAGGCTG CCCATGGACC CCGAGGGCTG AAGGGAGAGA AAGGAGAGCC TGCAGTGTTG 
    GAACCTGGTA TGCTCGTGGA GGGGCCCCCT GGCCCAGAAG GCCCTGCGGG ATTGATTGGT
    CCCCCTGGCA TCCAGGGGAA CCCAGGCCCA GTTGGAGACC CTGGAGAGAG GGGCCCCCCT
    GGCCGAGCAG GGCTCCCTGG ATCAGATGGG GCTCCTGGTC CTCCTGGCAC ATCTCTCATG
    CTCCCATTCC GGTTTGGCAG TGGTGGGGGT GACAAGGGCC CTGTGGTGGC GGCCCAGGAG
    GCTCAGGCCC AGGCGATCCT GCAGCAGGCG AGGCTGGCGC TCCGTGGACC CCCTGGCCCC
    ATGGGATACA CAGGGCGCCC TGGACCCTTG GGCCAACCTG GGAGCCCTGG CCTGAAAGGA
    GAGTCTGGAG ACTTAGGACC TCAGGGCCCC AGAGGACCTC AGGGCCTCAC AGGCCCTCCT
    GGCAAGGCTG GGCGAAGGGG CCGGGCAGGT GCTGATGGAG CCCGAGGGAT GCCTGGAGAT
    CCTGGAGTGA AGGGTGACCG AGGTTTTGAT GGACTCCCAG GGCTCCCTGG AGAGAAGGGC
    CATAGGGGTG ATACTGGTGC CCAGGGCCTT CCTGGTCCCC CTGGTGAGGA TGGAGAGAGG
    GGAGATGACG GGGAGATTGG GCCTCGAGGG CTGCCTGGAG AGTCGGGACC TCGAGGTCTC
    CTTGGCCCCA AAGGCCCACC TGGTATTCCT GGACCCCCTG GCGTCCGAGG CATGGATGGT
    CCCCAGGGCC CCAAAGGGAG CTTGGGACCC CAGGGAGAGC CAGGACCTCC TGGACAACAG
    GGCACCCCTG GGACCCAGGG TCTTCCCGGG CCCCAGGGTG CCATCGGCCC TCATGGAGAG
    AAGGGTCCTC AAGGGAAGCC AGGGCTCCCC GGCATGCCTG GCTCAGACGG ACCCCCGGGT
    CACCCAGGGA AGGAAGGTCC CCCTGGAACC AAAGGAAACC AGGGTCCCTC TGGACCTCAG
    GGACCTCTAG GATACCCAGG ACCTCGAGGG GTCAAGGGTG TGGACGGAAT TCGGGGTCTG
    AAGGGTCATA AGGGTGAGAA GGGTGAGGAT GGCTTTCCTG GGTTCAAAGG TGACATAGGC
    GTGAAAGGTG ACAGGGGCGA AGTTGGAGTC CCTGGTTCCA GGGGAGAGGA TGGTCCTGAG
    GGGCCAAAGG GACGCACTGG ACCGACTGGA GACCCTGGGC CCCCAGGGCT CATGGGCGAG
    AAGGGCAAGC TGGGTGTTCC TGGTCTGCCT GGCTATCCTG GACGTCAGGG ACCCAAGGGG
    TCCCTAGGAT TTCCTGGCTT TCCTGGTGCC AGTGGAGAGA AGGGAGCCCG GGGCCTGTCG
    GGGAAGTCAG GGCCTCGGGG AGAACGGGGC CCCACGGGTC CACGGGGTCA GCGGGGACCC
    CGAGGTGCCA CTGGGAAGTC TGGAGCTAAG GGAACATCTG GTGGTGATGG CCCCCATGGG
    CCCCCTGGAG AGAGGGGCCT CCCTGGACCT CAGGGTCCCA ACGGGTTTCC TGGACCGAAA
    GGACCCCCGG GCCCCCCTGG GAAGGATGGG CTGCCGGGAC ACCCAGGCCA AAGAGGAGAA
    GTGGGTTTCC AAGGGAAGAC CGGCCCCCCT GGTCCTCCAG GAGTGGTGGG ACCTCAGGGA
    GCAGCAGGAG AAACCGGCCC TATGGGGGAG AGAGGTCACC CAGGCCCCCC GGGGCCCCCT
    GGAGAGCAGG GACTACCTGG GACAGCTGGA AAAGAAGGAA CAAAGGGTGA CCCTGGTCCC
    CCTGGGGCCC CAGGGAAGGA TGGTCCTGCT GGTCTGAGGG GATTCCCAGG AGAGAGAGGC
    CTCCCAGGCA CTGCTGGTGG ACCTGGTTTG AAGGGGAATG AAGGTCCGTC TGGCCCCCCT
    GGCCCTGCAG GCTCCCCTGG GGAACGAGGT GCAGCAGGAT CAGGGGGACC CATTGGTCCG
    CCAGGGCGCC CAGGCCCGCA GGGTCCCCCT GGAGCAGCAG GAGAGAAAGG TGTCCCAGGT
    GAGAAGGGCC CCATTGGCCC GACTGGCCGA GATGGAGTGC AGGGTCCTGT GGGGCTTCCT
    GGTCCTGCTG GGCCTCCAGG TGTGGCTGGA GAGGATGGAG ACAAGGGTGA GGTGGGGGAC
    CCCGGACAGA AGGGCACCAA AGGGAACAAG GGTGAACATG GCCCTCCTGG ACCCCCTGGA
    CCCATTGGTC CTGTGGGGCA GCCTGGAGCA GCGGGAGCAG ATGGGGAGCC CGGAGCTCGG
    GGACCCCAGG GACACTTTGG AGCCAAAGGT GATGAAGGAA CAAGAGGATT CAATGGGCCC
    CCAGGACCCA TTGGCCTACA GGGTTTGCCA GGCCCCTCTG GGGAGAAGGG AGAAACAGGA
    GATGTGGGTC CTATGGGACC ACCTGGCCCC CCAGGACCTC GAGGTCCAGC TGGACCCAAT
    GGCGCTGATG GCCCACAAGG TCCCCCAGGA GGTGTTGGGA ACCTGGGTCC CCCTGGAGAG
    AAGGGGGAAC CAGGAGAGTC AGGATCTCCA GGGATCCAGG GCGAGCCAGG TGTCAAGGGT
    CCACGCGGGG AACGTGGAGA GAAAGGAGAG TCGGGGCAGC CAGGAGAGCC AGGGCCACCA
    GGGCCTAAAG GCCCCACAGG CGATGATGGC CCCAAAGGGA ACCCTGGTCC TGTTGGTTTT
    CCTGGTGACC CTGGCCCCCC TGGAGAAGGT GGCCCTCGGG GCCAGGATGG TGCTAAGGGT
    GACCGAGGCG AGGATGGTGA GCCAGGACAG CCTGGATCCC CTGGTCCCAC CGGGGAGAAT
    GGACCCCCAG GGCCACTTGG AAAGCGAGGT CCTGCTGGCT CGCCTGGTTC CGAGGGGCGA
    CAAGGAGGGA AGGGAGCCAA GGGAGATCCT GGCGCTATAG GTGCCCCGGG GAAGACAGGC
    CCGGTGGGTC CTGCAGGCCC AGCAGGGAAA CCTGGCCCTG ATGGTCTGAG GGGGCTCCCA
    GGCTCAGTGG GTCAGCAAGG CCGACCTGGA GCTACAGGCC AGGCTGGGCC CCCAGGTCCT
    GTGGGACCCC CAGGGCTGCC TGGTCTCCGG GGCGATGCTG GAGCCAAGGG AGAGAAGGGC
    CACCCAGGTC TCATTGGACT GATTGGGCCC CCGGGTGAGC AGGGAGAGAA GGGAGATCGG
    GGACTTCCTG GGCCTCAGGG CTCCCCTGGG CAGAAGGGTG AGATGGGTAT CCCAGGAGCA
    TCCGGCCCCA TTGGTCCTGG AGGTCCCCCC GGCCTCCCCG GACCTGCTGG CCCCAAAGGA
    GCCAAAGGAG CCACAGGCCC AGGCGGACCC AAGGGAGAGA AGGGTGTGCA GGGCCCTCCA
    GGACACCCGG GTCCCCCAGG CGAGGTGATC CAGCCACTGC CCATTCAGAT GCCCAAGAAG
    ACTCGGCGCT CGGTGGATGG AAGCCGTCTG ATGCAGGAAG ATGAGGCCAT ACCGACCGGG
    GGAGCCCCCG GCAGTCCTGG GGGGCTGGAG GAGATCTTTG GCTCACTCGA CTCCCTGCGG
    GAGGAGATCG AGCAGATGAG GCGGCCAACA GGGACCCAGG ACAGCCCTGC TCGCACCTGC
    CAGGACCTGA AGCTGTGCCA CCCAGAGCTT CCCGATGGAG AGTACTGGGT CGACCCCAAC
    CAGGGCTGTG CTCGGGATGC CTTCCGAGTT TTCTGCAACT TCACAGCAGG GGGTGAGACC
    TGTGTGACGC CTAGGGATGA CGTCACGCAG TTCTCTTACG TGGACTCAGA GGGCTCCCCA
    GTGGGTGTGG TCCAGCTCAC CTTCCTGCGG CTGCTCAGCG TCTCAGCCCA CCAGGACGTC
    TCCTACCCCT GCTCTGGAGC AGCCCGTGAC GGTCCCCTGA GACTCCGTGG GGCCAATGAG
    GATGAGCTGA GCCCGGAGAC TAGCCCCTAT GTCAAAGAAT TCAGAGATGG CTGCCAGACA
    CAGCAAGGCC GGACGGTGCT GGAGGTGCGA ACGCCTGTGC TGGAGCAGCT GCCAGTGCTG
    GATGCCTCCT TCTCAGACCT GGGAGCCCCA CCGAGGCGGG GAGGGGTGCT GCTGGGGCCT
    GTCTGCTTCA TGGGATAG

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

    RefSeq XP_011512604.1
    CDS654..4751
    Translation

    Target ORF information:

    RefSeq Version XM_011514302.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011514302.2

    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
    ATGAAGGCTG CCCATGGACC CCGAGGGCTG AAGGGAGAGA AAGGAGAGCC TGCAGTGTTG 
    GAACCTGGTA TGCTCGTGGA GGGGCCCCCT GGCCCAGAAG GCCCTGCGGG ATTGATTGGT
    CCCCCTGGCA TCCAGGGGAA CCCAGGCCCA GTTGGAGACC CTGGAGAGAG GGGCCCCCCT
    GGCCGAGCAG GGCTCCCTGG ATCAGATGGG GCTCCTGGTC CTCCTGGCAC ATCTCTCATG
    CTCCCATTCC GGTTTGGCAG TGGTGGGGGT GACAAGGGCC CTGTGGTGGC GGCCCAGGAG
    GCTCAGGCCC AGGCGATCCT GCAGCAGGCG AGGCTGGCGC TCCGTGGACC CCCTGGCCCC
    ATGGGATACA CAGGGCGCCC TGGACCCTTG GGCCAACCTG GGAGCCCTGG CCTGAAAGGA
    GAGTCTGGAG ACTTAGGACC TCAGGGCCCC AGAGGACCTC AGGGCCTCAC AGGCCCTCCT
    GGCAAGGCTG GGCGAAGGGG CCGGGCAGGT GCTGATGGAG CCCGAGGGAT GCCTGGAGAT
    CCTGGAGTGA AGGGTGACCG AGGTTTTGAT GGACTCCCAG GGCTCCCTGG AGAGAAGGGC
    CATAGGGGTG ATACTGGTGC CCAGGGCCTT CCTGGTCCCC CTGGTGAGGA TGGAGAGAGG
    GGAGATGACG GGGAGATTGG GCCTCGAGGG CTGCCTGGAG AGTCGGGACC TCGAGGTCTC
    CTTGGCCCCA AAGGCCCACC TGGTATTCCT GGACCCCCTG GCGTCCGAGG CATGGATGGT
    CCCCAGGGCC CCAAAGGGAG CTTGGGACCC CAGGGAGAGC CAGGACCTCC TGGACAACAG
    GGCACCCCTG GGACCCAGGG TCTTCCCGGG CCCCAGGGTG CCATCGGCCC TCATGGAGAG
    AAGGGTCCTC AAGGGAAGCC AGGGCTCCCC GGCATGCCTG GCTCAGACGG ACCCCCGGGT
    CACCCAGGGA AGGAAGGTCC CCCTGGAACC AAAGGAAACC AGGGTCCCTC TGGACCTCAG
    GGACCTCTAG GATACCCAGG ACCTCGAGGG GTCAAGGGTG TGGACGGAAT TCGGGGTCTG
    AAGGGTCATA AGGGTGAGAA GGGTGAGGAT GGCTTTCCTG GGTTCAAAGG TGACATAGGC
    GTGAAAGGTG ACAGGGGCGA AGTTGGAGTC CCTGGTTCCA GGGGAGAGGA TGGTCCTGAG
    GGGCCAAAGG GACGCACTGG ACCGACTGGA GACCCTGGGC CCCCAGGGCT CATGGGCGAG
    AAGGGCAAGC TGGGTGTTCC TGGTCTGCCT GGCTATCCTG GACGTCAGGG ACCCAAGGGG
    TCCCTAGGAT TTCCTGGCTT TCCTGGTGCC AGTGGAGAGA AGGGAGCCCG GGGCCTGTCG
    GGGAAGTCAG GGCCTCGGGG AGAACGGGGC CCCACGGGTC CACGGGGTCA GCGGGGACCC
    CGAGGTGCCA CTGGGAAGTC TGGAGCTAAG GGAACATCTG GTGGTGATGG CCCCCATGGG
    CCCCCTGGAG AGAGGGGCCT CCCTGGACCT CAGGGTCCCA ACGGGTTTCC TGGACCGAAA
    GGACCCCCGG GCCCCCCTGG GAAGGATGGG CTGCCGGGAC ACCCAGGCCA AAGAGGAGAA
    GTGGGTTTCC AAGGGAAGAC CGGCCCCCCT GGTCCTCCAG GAGTGGTGGG ACCTCAGGGA
    GCAGCAGGAG AAACCGGCCC TATGGGGGAG AGAGGTCACC CAGGCCCCCC GGGGCCCCCT
    GGAGAGCAGG GACTACCTGG GACAGCTGGA AAAGAAGGAA CAAAGGGTGA CCCTGGTCCC
    CCTGGGGCCC CAGGGAAGGA TGGTCCTGCT GGTCTGAGGG GATTCCCAGG AGAGAGAGGC
    CTCCCAGGCA CTGCTGGTGG ACCTGGTTTG AAGGGGAATG AAGGTCCGTC TGGCCCCCCT
    GGCCCTGCAG GCTCCCCTGG GGAACGAGGT GCAGCAGGAT CAGGGGGACC CATTGGTCCG
    CCAGGGCGCC CAGGCCCGCA GGGTCCCCCT GGAGCAGCAG GAGAGAAAGG TGTCCCAGGT
    GAGAAGGGCC CCATTGGCCC GACTGGCCGA GATGGAGTGC AGGGTCCTGT GGGGCTTCCT
    GGTCCTGCTG GGCCTCCAGG TGTGGCTGGA GAGGATGGAG ACAAGGGTGA GGTGGGGGAC
    CCCGGACAGA AGGGCACCAA AGGGAACAAG GGTGAACATG GCCCTCCTGG ACCCCCTGGA
    CCCATTGGTC CTGTGGGGCA GCCTGGAGCA GCGGGAGCAG ATGGGGAGCC CGGAGCTCGG
    GGACCCCAGG GACACTTTGG AGCCAAAGGT GATGAAGGAA CAAGAGGATT CAATGGGCCC
    CCAGGACCCA TTGGCCTACA GGGTTTGCCA GGCCCCTCTG GGGAGAAGGG AGAAACAGGA
    GATGTGGGTC CTATGGGACC ACCTGGCCCC CCAGGACCTC GAGGTCCAGC TGGACCCAAT
    GGCGCTGATG GCCCACAAGG TCCCCCAGGA GGTGTTGGGA ACCTGGGTCC CCCTGGAGAG
    AAGGGGGAAC CAGGAGAGTC AGGATCTCCA GGGATCCAGG GCGAGCCAGG TGTCAAGGGT
    CCACGCGGGG AACGTGGAGA GAAAGGAGAG TCGGGGCAGC CAGGAGAGCC AGGGCCACCA
    GGGCCTAAAG GCCCCACAGG CGATGATGGC CCCAAAGGGA ACCCTGGTCC TGTTGGTTTT
    CCTGGTGACC CTGGCCCCCC TGGAGAAGGT GGCCCTCGGG GCCAGGATGG TGCTAAGGGT
    GACCGAGGCG AGGATGGTGA GCCAGGACAG CCTGGATCCC CTGGTCCCAC CGGGGAGAAT
    GGACCCCCAG GGCCACTTGG AAAGCGAGGT CCTGCTGGCT CGCCTGGTTC CGAGGGGCGA
    CAAGGAGGGA AGGGAGCCAA GGGAGATCCT GGCGCTATAG GTGCCCCGGG GAAGACAGGC
    CCGGTGGGTC CTGCAGGCCC AGCAGGGAAA CCTGGCCCTG ATGGTCTGAG GGGGCTCCCA
    GGCTCAGTGG GTCAGCAAGG CCGACCTGGA GCTACAGGCC AGGCTGGGCC CCCAGGTCCT
    GTGGGACCCC CAGGGCTGCC TGGTCTCCGG GGCGATGCTG GAGCCAAGGG AGAGAAGGGC
    CACCCAGGTC TCATTGGACT GATTGGGCCC CCGGGTGAGC AGGGAGAGAA GGGAGATCGG
    GGACTTCCTG GGCCTCAGGG CTCCCCTGGG CAGAAGGGTG AGATGGGTAT CCCAGGAGCA
    TCCGGCCCCA TTGGTCCTGG AGGTCCCCCC GGCCTCCCCG GACCTGCTGG CCCCAAAGGA
    GCCAAAGGAG CCACAGGCCC AGGCGGACCC AAGGGAGAGA AGGGTGTGCA GGGCCCTCCA
    GGACACCCGG GTCCCCCAGG CGAGGTGATC CAGCCACTGC CCATTCAGAT GCCCAAGAAG
    ACTCGGCGCT CGGTGGATGG AAGCCGTCTG ATGCAGGAAG ATGAGGCCAT ACCGACCGGG
    GGAGCCCCCG GCAGTCCTGG GGGGCTGGAG GAGATCTTTG GCTCACTCGA CTCCCTGCGG
    GAGGAGATCG AGCAGATGAG GCGGCCAACA GGGACCCAGG ACAGCCCTGC TCGCACCTGC
    CAGGACCTGA AGCTGTGCCA CCCAGAGCTT CCCGATGGAG AGTACTGGGT CGACCCCAAC
    CAGGGCTGTG CTCGGGATGC CTTCCGAGTT TTCTGCAACT TCACAGCAGG GGGTGAGACC
    TGTGTGACGC CTAGGGATGA CGTCACGCAG TTCTCTTACG TGGACTCAGA GGGCTCCCCA
    GTGGGTGTGG TCCAGCTCAC CTTCCTGCGG CTGCTCAGCG TCTCAGCCCA CCAGGACGTC
    TCCTACCCCT GCTCTGGAGC AGCCCGTGAC GGTCCCCTGA GACTCCGTGG GGCCAATGAG
    GATGAGCTGA GCCCGGAGAC TAGCCCCTAT GTCAAAGAAT TCAGAGATGG CTGCCAGACA
    CAGCAAGGCC GGACGGTGCT GGAGGTGCGA ACGCCTGTGC TGGAGCAGCT GCCAGTGCTG
    GATGCCTCCT TCTCAGACCT GGGAGCCCCA CCGAGGCGGG GAGGGGTGCT GCTGGGGCCT
    GTCTGCTTCA TGGGATAG

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

    CloneID OHu96292
    Clone ID Related Accession (Same CDS sequence) XM_017010251.1 , XM_017010251.2
    Accession Version XM_017010251.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4029bp)
    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-2(XI) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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
    ATGCTCGTGG AGGGGCCCCC TGGCCCAGAA GGCCCTGCGG GATTGATTGG TCCCCCTGGC 
    ATCCAGGGGA ACCCAGGCCC AGTTGGAGAC CCTGGAGAGA GGGGCCCCCC TGGCCGAGCA
    GGGCTCCCTG GATCAGATGG GGCTCCTGGT CCTCCTGGCA CATCTCTCAT GCTCCCATTC
    CGGTTTGGCA GTGGTGGGGG TGACAAGGGC CCTGTGGTGG CGGCCCAGGA GGCTCAGGCC
    CAGGCGATCC TGCAGCAGGC GAGGCTGGCG CTCCGTGGAC CCCCTGGCCC CATGGGATAC
    ACAGGGCGCC CTGGACCCTT GGGCCAACCT GGGAGCCCTG GCCTGAAAGG AGAGTCTGGA
    GACTTAGGAC CTCAGGGCCC CAGAGGACCT CAGGGCCTCA CAGGCCCTCC TGGCAAGGCT
    GGGCGAAGGG GCCGGGCAGG TGCTGATGGA GCCCGAGGGA TGCCTGGAGA TCCTGGAGTG
    AAGGGTGACC GAGGTTTTGA TGGACTCCCA GGGCTCCCTG GAGAGAAGGG CCATAGGGGT
    GATACTGGTG CCCAGGGCCT TCCTGGTCCC CCTGGTGAGG ATGGAGAGAG GGGAGATGAC
    GGGGAGATTG GGCCTCGAGG GCTGCCTGGA GAGTCGGGAC CTCGAGGTCT CCTTGGCCCC
    AAAGGCCCAC CTGGTATTCC TGGACCCCCT GGCGTCCGAG GCATGGATGG TCCCCAGGGC
    CCCAAAGGGA GCTTGGGACC CCAGGGAGAG CCAGGACCTC CTGGACAACA GGGCACCCCT
    GGGACCCAGG GTCTTCCCGG GCCCCAGGGT GCCATCGGCC CTCATGGAGA GAAGGGTCCT
    CAAGGGAAGC CAGGGCTCCC CGGCATGCCT GGCTCAGACG GACCCCCGGG TCACCCAGGG
    AAGGAAGGTC CCCCTGGAAC CAAAGGAAAC CAGGGTCCCT CTGGACCTCA GGGACCTCTA
    GGATACCCAG GACCTCGAGG GGTCAAGGGT GTGGACGGAA TTCGGGGTCT GAAGGGTCAT
    AAGGGTGAGA AGGGTGAGGA TGGCTTTCCT GGGTTCAAAG GTGACATAGG CGTGAAAGGT
    GACAGGGGCG AAGTTGGAGT CCCTGGTTCC AGGGGAGAGG ATGGTCCTGA GGGGCCAAAG
    GGACGCACTG GACCGACTGG AGACCCTGGG CCCCCAGGGC TCATGGGCGA GAAGGGCAAG
    CTGGGTGTTC CTGGTCTGCC TGGCTATCCT GGACGTCAGG GACCCAAGGG GTCCCTAGGA
    TTTCCTGGCT TTCCTGGTGC CAGTGGAGAG AAGGGAGCCC GGGGCCTGTC GGGGAAGTCA
    GGGCCTCGGG GAGAACGGGG CCCCACGGGT CCACGGGGTC AGCGGGGACC CCGAGGTGCC
    ACTGGGAAGT CTGGAGCTAA GGGAACATCT GGTGGTGATG GCCCCCATGG GCCCCCTGGA
    GAGAGGGGCC TCCCTGGACC TCAGGGTCCC AACGGGTTTC CTGGACCGAA AGGACCCCCG
    GGCCCCCCTG GGAAGGATGG GCTGCCGGGA CACCCAGGCC AAAGAGGAGA AGTGGGTTTC
    CAAGGGAAGA CCGGCCCCCC TGGTCCTCCA GGAGTGGTGG GACCTCAGGG AGCAGCAGGA
    GAAACCGGCC CTATGGGGGA GAGAGGTCAC CCAGGCCCCC CGGGGCCCCC TGGAGAGCAG
    GGACTACCTG GGACAGCTGG AAAAGAAGGA ACAAAGGGTG ACCCTGGTCC CCCTGGGGCC
    CCAGGGAAGG ATGGTCCTGC TGGTCTGAGG GGATTCCCAG GAGAGAGAGG CCTCCCAGGC
    ACTGCTGGTG GACCTGGTTT GAAGGGGAAT GAAGGTCCGT CTGGCCCCCC TGGCCCTGCA
    GGCTCCCCTG GGGAACGAGG TGCAGCAGGA TCAGGGGGAC CCATTGGTCC GCCAGGGCGC
    CCAGGCCCGC AGGGTCCCCC TGGAGCAGCA GGAGAGAAAG GTGTCCCAGG TGAGAAGGGC
    CCCATTGGCC CGACTGGCCG AGATGGAGTG CAGGGTCCTG TGGGGCTTCC TGGTCCTGCT
    GGGCCTCCAG GTGTGGCTGG AGAGGATGGA GACAAGGGTG AGGTGGGGGA CCCCGGACAG
    AAGGGCACCA AAGGGAACAA GGGTGAACAT GGCCCTCCTG GACCCCCTGG ACCCATTGGT
    CCTGTGGGGC AGCCTGGAGC AGCGGGAGCA GATGGGGAGC CCGGAGCTCG GGGACCCCAG
    GGACACTTTG GAGCCAAAGG TGATGAAGGA ACAAGAGGAT TCAATGGGCC CCCAGGACCC
    ATTGGCCTAC AGGGTTTGCC AGGCCCCTCT GGGGAGAAGG GAGAAACAGG AGATGTGGGT
    CCTATGGGAC CACCTGGCCC CCCAGGACCT CGAGGTCCAG CTGGACCCAA TGGCGCTGAT
    GGCCCACAAG GTCCCCCAGG AGGTGTTGGG AACCTGGGTC CCCCTGGAGA GAAGGGGGAA
    CCAGGAGAGT CAGGATCTCC AGGGATCCAG GGCGAGCCAG GTGTCAAGGG TCCACGCGGG
    GAACGTGGAG AGAAAGGAGA GTCGGGGCAG CCAGGAGAGC CAGGGCCACC AGGGCCTAAA
    GGCCCCACAG GCGATGATGG CCCCAAAGGG AACCCTGGTC CTGTTGGTTT TCCTGGTGAC
    CCTGGCCCCC CTGGAGAAGG TGGCCCTCGG GGCCAGGATG GTGCTAAGGG TGACCGAGGC
    GAGGATGGTG AGCCAGGACA GCCTGGATCC CCTGGTCCCA CCGGGGAGAA TGGACCCCCA
    GGGCCACTTG GAAAGCGAGG TCCTGCTGGC TCGCCTGGTT CCGAGGGGCG ACAAGGAGGG
    AAGGGAGCCA AGGGAGATCC TGGCGCTATA GGTGCCCCGG GGAAGACAGG CCCGGTGGGT
    CCTGCAGGCC CAGCAGGGAA ACCTGGCCCT GATGGTCTGA GGGGGCTCCC AGGCTCAGTG
    GGTCAGCAAG GCCGACCTGG AGCTACAGGC CAGGCTGGGC CCCCAGGTCC TGTGGGACCC
    CCAGGGCTGC CTGGTCTCCG GGGCGATGCT GGAGCCAAGG GAGAGAAGGG CCACCCAGGT
    CTCATTGGAC TGATTGGGCC CCCGGGTGAG CAGGGAGAGA AGGGAGATCG GGGACTTCCT
    GGGCCTCAGG GCTCCCCTGG GCAGAAGGGT GAGATGGGTA TCCCAGGAGC ATCCGGCCCC
    ATTGGTCCTG GAGGTCCCCC CGGCCTCCCC GGACCTGCTG GCCCCAAAGG AGCCAAAGGA
    GCCACAGGCC CAGGCGGACC CAAGGGAGAG AAGGGTGTGC AGGGCCCTCC AGGACACCCG
    GGTCCCCCAG GCGAGGTGAT CCAGCCACTG CCCATTCAGA TGCCCAAGAA GACTCGGCGC
    TCGGTGGATG GAAGCCGTCT GATGCAGGAA GATGAGGCCA TACCGACCGG GGGAGCCCCC
    GGCAGTCCTG GGGGGCTGGA GGAGATCTTT GGCTCACTCG ACTCCCTGCG GGAGGAGATC
    GAGCAGATGA GGCGGCCAAC AGGGACCCAG GACAGCCCTG CTCGCACCTG CCAGGACCTG
    AAGCTGTGCC ACCCAGAGCT TCCCGATGGA GAGTACTGGG TCGACCCCAA CCAGGGCTGT
    GCTCGGGATG CCTTCCGAGT TTTCTGCAAC TTCACAGCAG GGGGTGAGAC CTGTGTGACG
    CCTAGGGATG ACGTCACGCA GTTCTCTTAC GTGGACTCAG AGGGCTCCCC AGTGGGTGTG
    GTCCAGCTCA CCTTCCTGCG GCTGCTCAGC GTCTCAGCCC ACCAGGACGT CTCCTACCCC
    TGCTCTGGAG CAGCCCGTGA CGGTCCCCTG AGACTCCGTG GGGCCAATGA GGATGAGCTG
    AGCCCGGAGA CTAGCCCCTA TGTCAAAGAA TTCAGAGATG GCTGCCAGAC ACAGCAAGGC
    CGGACGGTGC TGGAGGTGCG AACGCCTGTG CTGGAGCAGC TGCCAGTGCT GGATGCCTCC
    TTCTCAGACC TGGGAGCCCC ACCGAGGCGG GGAGGGGTGC TGCTGGGGCC TGTCTGCTTC
    ATGGGATAG

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

    RefSeq XP_016865740.1
    CDS540..4568
    Translation

    Target ORF information:

    RefSeq Version XM_017010251.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 (COL11A2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010251.1

    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
    ATGCTCGTGG AGGGGCCCCC TGGCCCAGAA GGCCCTGCGG GATTGATTGG TCCCCCTGGC 
    ATCCAGGGGA ACCCAGGCCC AGTTGGAGAC CCTGGAGAGA GGGGCCCCCC TGGCCGAGCA
    GGGCTCCCTG GATCAGATGG GGCTCCTGGT CCTCCTGGCA CATCTCTCAT GCTCCCATTC
    CGGTTTGGCA GTGGTGGGGG TGACAAGGGC CCTGTGGTGG CGGCCCAGGA GGCTCAGGCC
    CAGGCGATCC TGCAGCAGGC GAGGCTGGCG CTCCGTGGAC CCCCTGGCCC CATGGGATAC
    ACAGGGCGCC CTGGACCCTT GGGCCAACCT GGGAGCCCTG GCCTGAAAGG AGAGTCTGGA
    GACTTAGGAC CTCAGGGCCC CAGAGGACCT CAGGGCCTCA CAGGCCCTCC TGGCAAGGCT
    GGGCGAAGGG GCCGGGCAGG TGCTGATGGA GCCCGAGGGA TGCCTGGAGA TCCTGGAGTG
    AAGGGTGACC GAGGTTTTGA TGGACTCCCA GGGCTCCCTG GAGAGAAGGG CCATAGGGGT
    GATACTGGTG CCCAGGGCCT TCCTGGTCCC CCTGGTGAGG ATGGAGAGAG GGGAGATGAC
    GGGGAGATTG GGCCTCGAGG GCTGCCTGGA GAGTCGGGAC CTCGAGGTCT CCTTGGCCCC
    AAAGGCCCAC CTGGTATTCC TGGACCCCCT GGCGTCCGAG GCATGGATGG TCCCCAGGGC
    CCCAAAGGGA GCTTGGGACC CCAGGGAGAG CCAGGACCTC CTGGACAACA GGGCACCCCT
    GGGACCCAGG GTCTTCCCGG GCCCCAGGGT GCCATCGGCC CTCATGGAGA GAAGGGTCCT
    CAAGGGAAGC CAGGGCTCCC CGGCATGCCT GGCTCAGACG GACCCCCGGG TCACCCAGGG
    AAGGAAGGTC CCCCTGGAAC CAAAGGAAAC CAGGGTCCCT CTGGACCTCA GGGACCTCTA
    GGATACCCAG GACCTCGAGG GGTCAAGGGT GTGGACGGAA TTCGGGGTCT GAAGGGTCAT
    AAGGGTGAGA AGGGTGAGGA TGGCTTTCCT GGGTTCAAAG GTGACATAGG CGTGAAAGGT
    GACAGGGGCG AAGTTGGAGT CCCTGGTTCC AGGGGAGAGG ATGGTCCTGA GGGGCCAAAG
    GGACGCACTG GACCGACTGG AGACCCTGGG CCCCCAGGGC TCATGGGCGA GAAGGGCAAG
    CTGGGTGTTC CTGGTCTGCC TGGCTATCCT GGACGTCAGG GACCCAAGGG GTCCCTAGGA
    TTTCCTGGCT TTCCTGGTGC CAGTGGAGAG AAGGGAGCCC GGGGCCTGTC GGGGAAGTCA
    GGGCCTCGGG GAGAACGGGG CCCCACGGGT CCACGGGGTC AGCGGGGACC CCGAGGTGCC
    ACTGGGAAGT CTGGAGCTAA GGGAACATCT GGTGGTGATG GCCCCCATGG GCCCCCTGGA
    GAGAGGGGCC TCCCTGGACC TCAGGGTCCC AACGGGTTTC CTGGACCGAA AGGACCCCCG
    GGCCCCCCTG GGAAGGATGG GCTGCCGGGA CACCCAGGCC AAAGAGGAGA AGTGGGTTTC
    CAAGGGAAGA CCGGCCCCCC TGGTCCTCCA GGAGTGGTGG GACCTCAGGG AGCAGCAGGA
    GAAACCGGCC CTATGGGGGA GAGAGGTCAC CCAGGCCCCC CGGGGCCCCC TGGAGAGCAG
    GGACTACCTG GGACAGCTGG AAAAGAAGGA ACAAAGGGTG ACCCTGGTCC CCCTGGGGCC
    CCAGGGAAGG ATGGTCCTGC TGGTCTGAGG GGATTCCCAG GAGAGAGAGG CCTCCCAGGC
    ACTGCTGGTG GACCTGGTTT GAAGGGGAAT GAAGGTCCGT CTGGCCCCCC TGGCCCTGCA
    GGCTCCCCTG GGGAACGAGG TGCAGCAGGA TCAGGGGGAC CCATTGGTCC GCCAGGGCGC
    CCAGGCCCGC AGGGTCCCCC TGGAGCAGCA GGAGAGAAAG GTGTCCCAGG TGAGAAGGGC
    CCCATTGGCC CGACTGGCCG AGATGGAGTG CAGGGTCCTG TGGGGCTTCC TGGTCCTGCT
    GGGCCTCCAG GTGTGGCTGG AGAGGATGGA GACAAGGGTG AGGTGGGGGA CCCCGGACAG
    AAGGGCACCA AAGGGAACAA GGGTGAACAT GGCCCTCCTG GACCCCCTGG ACCCATTGGT
    CCTGTGGGGC AGCCTGGAGC AGCGGGAGCA GATGGGGAGC CCGGAGCTCG GGGACCCCAG
    GGACACTTTG GAGCCAAAGG TGATGAAGGA ACAAGAGGAT TCAATGGGCC CCCAGGACCC
    ATTGGCCTAC AGGGTTTGCC AGGCCCCTCT GGGGAGAAGG GAGAAACAGG AGATGTGGGT
    CCTATGGGAC CACCTGGCCC CCCAGGACCT CGAGGTCCAG CTGGACCCAA TGGCGCTGAT
    GGCCCACAAG GTCCCCCAGG AGGTGTTGGG AACCTGGGTC CCCCTGGAGA GAAGGGGGAA
    CCAGGAGAGT CAGGATCTCC AGGGATCCAG GGCGAGCCAG GTGTCAAGGG TCCACGCGGG
    GAACGTGGAG AGAAAGGAGA GTCGGGGCAG CCAGGAGAGC CAGGGCCACC AGGGCCTAAA
    GGCCCCACAG GCGATGATGG CCCCAAAGGG AACCCTGGTC CTGTTGGTTT TCCTGGTGAC
    CCTGGCCCCC CTGGAGAAGG TGGCCCTCGG GGCCAGGATG GTGCTAAGGG TGACCGAGGC
    GAGGATGGTG AGCCAGGACA GCCTGGATCC CCTGGTCCCA CCGGGGAGAA TGGACCCCCA
    GGGCCACTTG GAAAGCGAGG TCCTGCTGGC TCGCCTGGTT CCGAGGGGCG ACAAGGAGGG
    AAGGGAGCCA AGGGAGATCC TGGCGCTATA GGTGCCCCGG GGAAGACAGG CCCGGTGGGT
    CCTGCAGGCC CAGCAGGGAA ACCTGGCCCT GATGGTCTGA GGGGGCTCCC AGGCTCAGTG
    GGTCAGCAAG GCCGACCTGG AGCTACAGGC CAGGCTGGGC CCCCAGGTCC TGTGGGACCC
    CCAGGGCTGC CTGGTCTCCG GGGCGATGCT GGAGCCAAGG GAGAGAAGGG CCACCCAGGT
    CTCATTGGAC TGATTGGGCC CCCGGGTGAG CAGGGAGAGA AGGGAGATCG GGGACTTCCT
    GGGCCTCAGG GCTCCCCTGG GCAGAAGGGT GAGATGGGTA TCCCAGGAGC ATCCGGCCCC
    ATTGGTCCTG GAGGTCCCCC CGGCCTCCCC GGACCTGCTG GCCCCAAAGG AGCCAAAGGA
    GCCACAGGCC CAGGCGGACC CAAGGGAGAG AAGGGTGTGC AGGGCCCTCC AGGACACCCG
    GGTCCCCCAG GCGAGGTGAT CCAGCCACTG CCCATTCAGA TGCCCAAGAA GACTCGGCGC
    TCGGTGGATG GAAGCCGTCT GATGCAGGAA GATGAGGCCA TACCGACCGG GGGAGCCCCC
    GGCAGTCCTG GGGGGCTGGA GGAGATCTTT GGCTCACTCG ACTCCCTGCG GGAGGAGATC
    GAGCAGATGA GGCGGCCAAC AGGGACCCAG GACAGCCCTG CTCGCACCTG CCAGGACCTG
    AAGCTGTGCC ACCCAGAGCT TCCCGATGGA GAGTACTGGG TCGACCCCAA CCAGGGCTGT
    GCTCGGGATG CCTTCCGAGT TTTCTGCAAC TTCACAGCAG GGGGTGAGAC CTGTGTGACG
    CCTAGGGATG ACGTCACGCA GTTCTCTTAC GTGGACTCAG AGGGCTCCCC AGTGGGTGTG
    GTCCAGCTCA CCTTCCTGCG GCTGCTCAGC GTCTCAGCCC ACCAGGACGT CTCCTACCCC
    TGCTCTGGAG CAGCCCGTGA CGGTCCCCTG AGACTCCGTG GGGCCAATGA GGATGAGCTG
    AGCCCGGAGA CTAGCCCCTA TGTCAAAGAA TTCAGAGATG GCTGCCAGAC ACAGCAAGGC
    CGGACGGTGC TGGAGGTGCG AACGCCTGTG CTGGAGCAGC TGCCAGTGCT GGATGCCTCC
    TTCTCAGACC TGGGAGCCCC ACCGAGGCGG GGAGGGGTGC TGCTGGGGCC TGTCTGCTTC
    ATGGGATAG

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

    CloneID OHu96292
    Clone ID Related Accession (Same CDS sequence) XM_017010251.1 , XM_017010251.2
    Accession Version XM_017010251.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4029bp)
    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-2(XI) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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_017010251.1. ##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
    ATGCTCGTGG AGGGGCCCCC TGGCCCAGAA GGCCCTGCGG GATTGATTGG TCCCCCTGGC 
    ATCCAGGGGA ACCCAGGCCC AGTTGGAGAC CCTGGAGAGA GGGGCCCCCC TGGCCGAGCA
    GGGCTCCCTG GATCAGATGG GGCTCCTGGT CCTCCTGGCA CATCTCTCAT GCTCCCATTC
    CGGTTTGGCA GTGGTGGGGG TGACAAGGGC CCTGTGGTGG CGGCCCAGGA GGCTCAGGCC
    CAGGCGATCC TGCAGCAGGC GAGGCTGGCG CTCCGTGGAC CCCCTGGCCC CATGGGATAC
    ACAGGGCGCC CTGGACCCTT GGGCCAACCT GGGAGCCCTG GCCTGAAAGG AGAGTCTGGA
    GACTTAGGAC CTCAGGGCCC CAGAGGACCT CAGGGCCTCA CAGGCCCTCC TGGCAAGGCT
    GGGCGAAGGG GCCGGGCAGG TGCTGATGGA GCCCGAGGGA TGCCTGGAGA TCCTGGAGTG
    AAGGGTGACC GAGGTTTTGA TGGACTCCCA GGGCTCCCTG GAGAGAAGGG CCATAGGGGT
    GATACTGGTG CCCAGGGCCT TCCTGGTCCC CCTGGTGAGG ATGGAGAGAG GGGAGATGAC
    GGGGAGATTG GGCCTCGAGG GCTGCCTGGA GAGTCGGGAC CTCGAGGTCT CCTTGGCCCC
    AAAGGCCCAC CTGGTATTCC TGGACCCCCT GGCGTCCGAG GCATGGATGG TCCCCAGGGC
    CCCAAAGGGA GCTTGGGACC CCAGGGAGAG CCAGGACCTC CTGGACAACA GGGCACCCCT
    GGGACCCAGG GTCTTCCCGG GCCCCAGGGT GCCATCGGCC CTCATGGAGA GAAGGGTCCT
    CAAGGGAAGC CAGGGCTCCC CGGCATGCCT GGCTCAGACG GACCCCCGGG TCACCCAGGG
    AAGGAAGGTC CCCCTGGAAC CAAAGGAAAC CAGGGTCCCT CTGGACCTCA GGGACCTCTA
    GGATACCCAG GACCTCGAGG GGTCAAGGGT GTGGACGGAA TTCGGGGTCT GAAGGGTCAT
    AAGGGTGAGA AGGGTGAGGA TGGCTTTCCT GGGTTCAAAG GTGACATAGG CGTGAAAGGT
    GACAGGGGCG AAGTTGGAGT CCCTGGTTCC AGGGGAGAGG ATGGTCCTGA GGGGCCAAAG
    GGACGCACTG GACCGACTGG AGACCCTGGG CCCCCAGGGC TCATGGGCGA GAAGGGCAAG
    CTGGGTGTTC CTGGTCTGCC TGGCTATCCT GGACGTCAGG GACCCAAGGG GTCCCTAGGA
    TTTCCTGGCT TTCCTGGTGC CAGTGGAGAG AAGGGAGCCC GGGGCCTGTC GGGGAAGTCA
    GGGCCTCGGG GAGAACGGGG CCCCACGGGT CCACGGGGTC AGCGGGGACC CCGAGGTGCC
    ACTGGGAAGT CTGGAGCTAA GGGAACATCT GGTGGTGATG GCCCCCATGG GCCCCCTGGA
    GAGAGGGGCC TCCCTGGACC TCAGGGTCCC AACGGGTTTC CTGGACCGAA AGGACCCCCG
    GGCCCCCCTG GGAAGGATGG GCTGCCGGGA CACCCAGGCC AAAGAGGAGA AGTGGGTTTC
    CAAGGGAAGA CCGGCCCCCC TGGTCCTCCA GGAGTGGTGG GACCTCAGGG AGCAGCAGGA
    GAAACCGGCC CTATGGGGGA GAGAGGTCAC CCAGGCCCCC CGGGGCCCCC TGGAGAGCAG
    GGACTACCTG GGACAGCTGG AAAAGAAGGA ACAAAGGGTG ACCCTGGTCC CCCTGGGGCC
    CCAGGGAAGG ATGGTCCTGC TGGTCTGAGG GGATTCCCAG GAGAGAGAGG CCTCCCAGGC
    ACTGCTGGTG GACCTGGTTT GAAGGGGAAT GAAGGTCCGT CTGGCCCCCC TGGCCCTGCA
    GGCTCCCCTG GGGAACGAGG TGCAGCAGGA TCAGGGGGAC CCATTGGTCC GCCAGGGCGC
    CCAGGCCCGC AGGGTCCCCC TGGAGCAGCA GGAGAGAAAG GTGTCCCAGG TGAGAAGGGC
    CCCATTGGCC CGACTGGCCG AGATGGAGTG CAGGGTCCTG TGGGGCTTCC TGGTCCTGCT
    GGGCCTCCAG GTGTGGCTGG AGAGGATGGA GACAAGGGTG AGGTGGGGGA CCCCGGACAG
    AAGGGCACCA AAGGGAACAA GGGTGAACAT GGCCCTCCTG GACCCCCTGG ACCCATTGGT
    CCTGTGGGGC AGCCTGGAGC AGCGGGAGCA GATGGGGAGC CCGGAGCTCG GGGACCCCAG
    GGACACTTTG GAGCCAAAGG TGATGAAGGA ACAAGAGGAT TCAATGGGCC CCCAGGACCC
    ATTGGCCTAC AGGGTTTGCC AGGCCCCTCT GGGGAGAAGG GAGAAACAGG AGATGTGGGT
    CCTATGGGAC CACCTGGCCC CCCAGGACCT CGAGGTCCAG CTGGACCCAA TGGCGCTGAT
    GGCCCACAAG GTCCCCCAGG AGGTGTTGGG AACCTGGGTC CCCCTGGAGA GAAGGGGGAA
    CCAGGAGAGT CAGGATCTCC AGGGATCCAG GGCGAGCCAG GTGTCAAGGG TCCACGCGGG
    GAACGTGGAG AGAAAGGAGA GTCGGGGCAG CCAGGAGAGC CAGGGCCACC AGGGCCTAAA
    GGCCCCACAG GCGATGATGG CCCCAAAGGG AACCCTGGTC CTGTTGGTTT TCCTGGTGAC
    CCTGGCCCCC CTGGAGAAGG TGGCCCTCGG GGCCAGGATG GTGCTAAGGG TGACCGAGGC
    GAGGATGGTG AGCCAGGACA GCCTGGATCC CCTGGTCCCA CCGGGGAGAA TGGACCCCCA
    GGGCCACTTG GAAAGCGAGG TCCTGCTGGC TCGCCTGGTT CCGAGGGGCG ACAAGGAGGG
    AAGGGAGCCA AGGGAGATCC TGGCGCTATA GGTGCCCCGG GGAAGACAGG CCCGGTGGGT
    CCTGCAGGCC CAGCAGGGAA ACCTGGCCCT GATGGTCTGA GGGGGCTCCC AGGCTCAGTG
    GGTCAGCAAG GCCGACCTGG AGCTACAGGC CAGGCTGGGC CCCCAGGTCC TGTGGGACCC
    CCAGGGCTGC CTGGTCTCCG GGGCGATGCT GGAGCCAAGG GAGAGAAGGG CCACCCAGGT
    CTCATTGGAC TGATTGGGCC CCCGGGTGAG CAGGGAGAGA AGGGAGATCG GGGACTTCCT
    GGGCCTCAGG GCTCCCCTGG GCAGAAGGGT GAGATGGGTA TCCCAGGAGC ATCCGGCCCC
    ATTGGTCCTG GAGGTCCCCC CGGCCTCCCC GGACCTGCTG GCCCCAAAGG AGCCAAAGGA
    GCCACAGGCC CAGGCGGACC CAAGGGAGAG AAGGGTGTGC AGGGCCCTCC AGGACACCCG
    GGTCCCCCAG GCGAGGTGAT CCAGCCACTG CCCATTCAGA TGCCCAAGAA GACTCGGCGC
    TCGGTGGATG GAAGCCGTCT GATGCAGGAA GATGAGGCCA TACCGACCGG GGGAGCCCCC
    GGCAGTCCTG GGGGGCTGGA GGAGATCTTT GGCTCACTCG ACTCCCTGCG GGAGGAGATC
    GAGCAGATGA GGCGGCCAAC AGGGACCCAG GACAGCCCTG CTCGCACCTG CCAGGACCTG
    AAGCTGTGCC ACCCAGAGCT TCCCGATGGA GAGTACTGGG TCGACCCCAA CCAGGGCTGT
    GCTCGGGATG CCTTCCGAGT TTTCTGCAAC TTCACAGCAG GGGGTGAGAC CTGTGTGACG
    CCTAGGGATG ACGTCACGCA GTTCTCTTAC GTGGACTCAG AGGGCTCCCC AGTGGGTGTG
    GTCCAGCTCA CCTTCCTGCG GCTGCTCAGC GTCTCAGCCC ACCAGGACGT CTCCTACCCC
    TGCTCTGGAG CAGCCCGTGA CGGTCCCCTG AGACTCCGTG GGGCCAATGA GGATGAGCTG
    AGCCCGGAGA CTAGCCCCTA TGTCAAAGAA TTCAGAGATG GCTGCCAGAC ACAGCAAGGC
    CGGACGGTGC TGGAGGTGCG AACGCCTGTG CTGGAGCAGC TGCCAGTGCT GGATGCCTCC
    TTCTCAGACC TGGGAGCCCC ACCGAGGCGG GGAGGGGTGC TGCTGGGGCC TGTCTGCTTC
    ATGGGATAG

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

    RefSeq XP_016865740.1
    CDS565..4593
    Translation

    Target ORF information:

    RefSeq Version XM_017010251.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XI alpha 2 chain (COL11A2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017010251.2

    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
    ATGCTCGTGG AGGGGCCCCC TGGCCCAGAA GGCCCTGCGG GATTGATTGG TCCCCCTGGC 
    ATCCAGGGGA ACCCAGGCCC AGTTGGAGAC CCTGGAGAGA GGGGCCCCCC TGGCCGAGCA
    GGGCTCCCTG GATCAGATGG GGCTCCTGGT CCTCCTGGCA CATCTCTCAT GCTCCCATTC
    CGGTTTGGCA GTGGTGGGGG TGACAAGGGC CCTGTGGTGG CGGCCCAGGA GGCTCAGGCC
    CAGGCGATCC TGCAGCAGGC GAGGCTGGCG CTCCGTGGAC CCCCTGGCCC CATGGGATAC
    ACAGGGCGCC CTGGACCCTT GGGCCAACCT GGGAGCCCTG GCCTGAAAGG AGAGTCTGGA
    GACTTAGGAC CTCAGGGCCC CAGAGGACCT CAGGGCCTCA CAGGCCCTCC TGGCAAGGCT
    GGGCGAAGGG GCCGGGCAGG TGCTGATGGA GCCCGAGGGA TGCCTGGAGA TCCTGGAGTG
    AAGGGTGACC GAGGTTTTGA TGGACTCCCA GGGCTCCCTG GAGAGAAGGG CCATAGGGGT
    GATACTGGTG CCCAGGGCCT TCCTGGTCCC CCTGGTGAGG ATGGAGAGAG GGGAGATGAC
    GGGGAGATTG GGCCTCGAGG GCTGCCTGGA GAGTCGGGAC CTCGAGGTCT CCTTGGCCCC
    AAAGGCCCAC CTGGTATTCC TGGACCCCCT GGCGTCCGAG GCATGGATGG TCCCCAGGGC
    CCCAAAGGGA GCTTGGGACC CCAGGGAGAG CCAGGACCTC CTGGACAACA GGGCACCCCT
    GGGACCCAGG GTCTTCCCGG GCCCCAGGGT GCCATCGGCC CTCATGGAGA GAAGGGTCCT
    CAAGGGAAGC CAGGGCTCCC CGGCATGCCT GGCTCAGACG GACCCCCGGG TCACCCAGGG
    AAGGAAGGTC CCCCTGGAAC CAAAGGAAAC CAGGGTCCCT CTGGACCTCA GGGACCTCTA
    GGATACCCAG GACCTCGAGG GGTCAAGGGT GTGGACGGAA TTCGGGGTCT GAAGGGTCAT
    AAGGGTGAGA AGGGTGAGGA TGGCTTTCCT GGGTTCAAAG GTGACATAGG CGTGAAAGGT
    GACAGGGGCG AAGTTGGAGT CCCTGGTTCC AGGGGAGAGG ATGGTCCTGA GGGGCCAAAG
    GGACGCACTG GACCGACTGG AGACCCTGGG CCCCCAGGGC TCATGGGCGA GAAGGGCAAG
    CTGGGTGTTC CTGGTCTGCC TGGCTATCCT GGACGTCAGG GACCCAAGGG GTCCCTAGGA
    TTTCCTGGCT TTCCTGGTGC CAGTGGAGAG AAGGGAGCCC GGGGCCTGTC GGGGAAGTCA
    GGGCCTCGGG GAGAACGGGG CCCCACGGGT CCACGGGGTC AGCGGGGACC CCGAGGTGCC
    ACTGGGAAGT CTGGAGCTAA GGGAACATCT GGTGGTGATG GCCCCCATGG GCCCCCTGGA
    GAGAGGGGCC TCCCTGGACC TCAGGGTCCC AACGGGTTTC CTGGACCGAA AGGACCCCCG
    GGCCCCCCTG GGAAGGATGG GCTGCCGGGA CACCCAGGCC AAAGAGGAGA AGTGGGTTTC
    CAAGGGAAGA CCGGCCCCCC TGGTCCTCCA GGAGTGGTGG GACCTCAGGG AGCAGCAGGA
    GAAACCGGCC CTATGGGGGA GAGAGGTCAC CCAGGCCCCC CGGGGCCCCC TGGAGAGCAG
    GGACTACCTG GGACAGCTGG AAAAGAAGGA ACAAAGGGTG ACCCTGGTCC CCCTGGGGCC
    CCAGGGAAGG ATGGTCCTGC TGGTCTGAGG GGATTCCCAG GAGAGAGAGG CCTCCCAGGC
    ACTGCTGGTG GACCTGGTTT GAAGGGGAAT GAAGGTCCGT CTGGCCCCCC TGGCCCTGCA
    GGCTCCCCTG GGGAACGAGG TGCAGCAGGA TCAGGGGGAC CCATTGGTCC GCCAGGGCGC
    CCAGGCCCGC AGGGTCCCCC TGGAGCAGCA GGAGAGAAAG GTGTCCCAGG TGAGAAGGGC
    CCCATTGGCC CGACTGGCCG AGATGGAGTG CAGGGTCCTG TGGGGCTTCC TGGTCCTGCT
    GGGCCTCCAG GTGTGGCTGG AGAGGATGGA GACAAGGGTG AGGTGGGGGA CCCCGGACAG
    AAGGGCACCA AAGGGAACAA GGGTGAACAT GGCCCTCCTG GACCCCCTGG ACCCATTGGT
    CCTGTGGGGC AGCCTGGAGC AGCGGGAGCA GATGGGGAGC CCGGAGCTCG GGGACCCCAG
    GGACACTTTG GAGCCAAAGG TGATGAAGGA ACAAGAGGAT TCAATGGGCC CCCAGGACCC
    ATTGGCCTAC AGGGTTTGCC AGGCCCCTCT GGGGAGAAGG GAGAAACAGG AGATGTGGGT
    CCTATGGGAC CACCTGGCCC CCCAGGACCT CGAGGTCCAG CTGGACCCAA TGGCGCTGAT
    GGCCCACAAG GTCCCCCAGG AGGTGTTGGG AACCTGGGTC CCCCTGGAGA GAAGGGGGAA
    CCAGGAGAGT CAGGATCTCC AGGGATCCAG GGCGAGCCAG GTGTCAAGGG TCCACGCGGG
    GAACGTGGAG AGAAAGGAGA GTCGGGGCAG CCAGGAGAGC CAGGGCCACC AGGGCCTAAA
    GGCCCCACAG GCGATGATGG CCCCAAAGGG AACCCTGGTC CTGTTGGTTT TCCTGGTGAC
    CCTGGCCCCC CTGGAGAAGG TGGCCCTCGG GGCCAGGATG GTGCTAAGGG TGACCGAGGC
    GAGGATGGTG AGCCAGGACA GCCTGGATCC CCTGGTCCCA CCGGGGAGAA TGGACCCCCA
    GGGCCACTTG GAAAGCGAGG TCCTGCTGGC TCGCCTGGTT CCGAGGGGCG ACAAGGAGGG
    AAGGGAGCCA AGGGAGATCC TGGCGCTATA GGTGCCCCGG GGAAGACAGG CCCGGTGGGT
    CCTGCAGGCC CAGCAGGGAA ACCTGGCCCT GATGGTCTGA GGGGGCTCCC AGGCTCAGTG
    GGTCAGCAAG GCCGACCTGG AGCTACAGGC CAGGCTGGGC CCCCAGGTCC TGTGGGACCC
    CCAGGGCTGC CTGGTCTCCG GGGCGATGCT GGAGCCAAGG GAGAGAAGGG CCACCCAGGT
    CTCATTGGAC TGATTGGGCC CCCGGGTGAG CAGGGAGAGA AGGGAGATCG GGGACTTCCT
    GGGCCTCAGG GCTCCCCTGG GCAGAAGGGT GAGATGGGTA TCCCAGGAGC ATCCGGCCCC
    ATTGGTCCTG GAGGTCCCCC CGGCCTCCCC GGACCTGCTG GCCCCAAAGG AGCCAAAGGA
    GCCACAGGCC CAGGCGGACC CAAGGGAGAG AAGGGTGTGC AGGGCCCTCC AGGACACCCG
    GGTCCCCCAG GCGAGGTGAT CCAGCCACTG CCCATTCAGA TGCCCAAGAA GACTCGGCGC
    TCGGTGGATG GAAGCCGTCT GATGCAGGAA GATGAGGCCA TACCGACCGG GGGAGCCCCC
    GGCAGTCCTG GGGGGCTGGA GGAGATCTTT GGCTCACTCG ACTCCCTGCG GGAGGAGATC
    GAGCAGATGA GGCGGCCAAC AGGGACCCAG GACAGCCCTG CTCGCACCTG CCAGGACCTG
    AAGCTGTGCC ACCCAGAGCT TCCCGATGGA GAGTACTGGG TCGACCCCAA CCAGGGCTGT
    GCTCGGGATG CCTTCCGAGT TTTCTGCAAC TTCACAGCAG GGGGTGAGAC CTGTGTGACG
    CCTAGGGATG ACGTCACGCA GTTCTCTTAC GTGGACTCAG AGGGCTCCCC AGTGGGTGTG
    GTCCAGCTCA CCTTCCTGCG GCTGCTCAGC GTCTCAGCCC ACCAGGACGT CTCCTACCCC
    TGCTCTGGAG CAGCCCGTGA CGGTCCCCTG AGACTCCGTG GGGCCAATGA GGATGAGCTG
    AGCCCGGAGA CTAGCCCCTA TGTCAAAGAA TTCAGAGATG GCTGCCAGAC ACAGCAAGGC
    CGGACGGTGC TGGAGGTGCG AACGCCTGTG CTGGAGCAGC TGCCAGTGCT GGATGCCTCC
    TTCTCAGACC TGGGAGCCCC ACCGAGGCGG GGAGGGGTGC TGCTGGGGCC TGTCTGCTTC
    ATGGGATAG

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