ORF » Species Summary » Homo sapiens » DNHD1 cDNA ORF clone

DNHD1 cDNA ORF clone, Homo sapiens(human)

The following DNHD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DNHD1 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
OHu09184 NM_173589.4
Latest version!		 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$249.50-$349.30
$499.00
OHu07997 NM_144666.2
Latest version!		 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
View Old Accession Versions >>
OHu09184 NM_173589.3 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$249.50-$349.30
$499.00
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)
    DNHD1 ( NM_173589.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_775860.3 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu09184
    Clone ID Related Accession (Same CDS sequence) NM_173589.3 , NM_173589.4
    Accession Version NM_173589.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1794bp)
    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 2018-06-23
    Organism Homo sapiens(human)
    Product dynein heavy chain domain-containing protein 1 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB099871.1, BX648742.1, BC111765.1, AK093028.1 and BF509041.1. On Jan 30, 2009 this sequence version replaced NM_173589.2. Transcript Variant: This variant (2) uses an alternate 3' splice pattern that results in a substantially shorter transcript, compared to variant 1. The resulting isoform (2) has a shorter and distinct C-terminus that lacks DHC_N2 and dynein heavy chain domains, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: BX648742.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTATT CTGA

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

    RefSeq NP_775860.3
    CDS668..2461
    Translation

    Target ORF information:

    RefSeq Version NM_173589.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_173589.3

    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
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTATT CTGA

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

    DNHD1 ( NM_173589.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_775860.3 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu09184
    Clone ID Related Accession (Same CDS sequence) NM_173589.3 , NM_173589.4
    Accession Version NM_173589.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1794bp)
    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 2019-06-01
    Organism Homo sapiens(human)
    Product dynein heavy chain domain-containing protein 1 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC084337.7, DB099871.1, BX648742.1, BC111765.1, AK093028.1 and BF509041.1. On Jun 2, 2019 this sequence version replaced NM_173589.3. Transcript Variant: This variant (2) uses an alternate 3' splice pattern that results in a substantially shorter transcript, compared to variant 1. The resulting isoform (2) has a shorter and distinct C-terminus that lacks DHC_N2 and dynein heavy chain domains, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: BX648742.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTATT CTGA

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

    RefSeq NP_775860.3
    CDS684..2477
    Translation

    Target ORF information:

    RefSeq Version NM_173589.4
    Organism Homo sapiens(human)
    Definition Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_173589.4

    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
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTATT CTGA

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

    DNHD1 ( NM_144666.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_653267.2 Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu07997
    Clone ID Related Accession (Same CDS sequence) NM_144666.2
    Accession Version NM_144666.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 14262bp)
    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 2019-12-27
    Organism Homo sapiens(human)
    Product dynein heavy chain domain-containing protein 1 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB099871.1, BC111765.1, DB074960.1, AC009796.6, BG676072.1, AB290171.1 and AL834222.1. On Jan 30, 2009 this sequence version replaced NM_144666.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on manual assertion, conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    11101
    11161
    11221
    11281
    11341
    11401
    11461
    11521
    11581
    11641
    11701
    11761
    11821
    11881
    11941
    12001
    12061
    12121
    12181
    12241
    12301
    12361
    12421
    12481
    12541
    12601
    12661
    12721
    12781
    12841
    12901
    12961
    13021
    13081
    13141
    13201
    13261
    13321
    13381
    13441
    13501
    13561
    13621
    13681
    13741
    13801
    13861
    13921
    13981
    14041
    14101
    14161
    14221
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTAGT GCAGTCTGCA 
    GACCTGAAGA CCTCCTCGGA TTCCCTGTAT TCTGAAGAAG AAGATGAAGA GGAGGACTCA 
    AAAGACGAAT TTCTGATGCC CAAGTTCCAG GGCCAGCCCA GCGATGCTGT GAGCATCTTC 
    TGTGGCCCGA ATGTGGGATT GGTGTGGCCC TGGAAGTCTC ACCCAATTGC TGGTATCTTG 
    GAGGTCCGTG GATGTCGGCT GCGGGGCCAA TACTTCCCCC ACAATTATAA GCAGCTGGAG 
    GAAGACCTGG ACAACAACCC TAAGATCCAG CAGGCACTGA ATATACAACA GGTGCTGCTG 
    GAGGGCGTGC TGTGCAAGGT GCAGGAATTC TGCAGGGAAC ATCATTGGAT AACAGGCATT 
    TATGAATTCC TGCAATCCTG GGGGCCTCAG AAGCTGGAAG ACATGAGAGG TGGTCCCATC 
    AAGAACTACG TGACGCTGGT GAGCCGCCTG AATGTTTGGC AGGCCCGTGT CTCCAGTATG 
    CCTATCGAGT TGCTCACAAA AGGCGGGTTG CTGCTACTTA GCTGCCATGA TGTACAGGCA 
    GAGATGGAAT CCAAGCTGAA CAGCATAAGG AAGGACATTC TTGCACACGT GCAAAATGAG 
    TGCTGGAACC TCAGTCAACA ACTCATGACA GAGCTCACAG ATTTCATGCA TATCTTCCGA 
    ACCATCAACT CAGATATTCA TGCCATTGCA CAGTGCACCC AGAAGTTGAA TGAAGCCAAT 
    GAACAGTACG TCGAGCTGGA GGAGCGAATG GAATACGTAC GGGCACTCCA CGAACTCATC 
    CGCAACCACT TTAGCCTCTT TAGTGCTGAG AATGAAGCAC TGGACATCTC GGTGAGAAGG 
    CAATTCGGGG AGTCACCCAT CCCTCCCTGC CCTCCTCCCC CACAACCACA TCTACTCCAC 
    TGCCCTCTGC TTGCCCCACA GCTTCTGGAT ATGTGGGAGG CATTTCAGTT TGAGAAAAGC 
    CAGGCTTCAG AGTTCCTGCT CAGCAAGCGA CATGCCATTA TGCCCAAGCT GCAGCAGCTG 
    ATGGCAGCAG CATTGGCAGA GCTGGAAGGC CTGCTTGCGA AGGCCCTCTC CGGTCCCTTT 
    ATGGACCCCA CACAAGATCA GAGGAGTACT GAGCACCAGC TCGTCTCCCT AGAGCGTCAG 
    TTCCAGAACA CAGTCAGCGA CCTCAGTGAA CTGCACCACG CCTATGCCAT CTTCACTGAG 
    GATGAGACTC CTGTGCCCTT GCCAATCTGT GGGACACGTC CTATTGTGCA GCAGCAGCGC 
    ATATGGCACC TGTACCGAGT CATCTCCGAA AACATCAGCG AGTGGAAGTG CATGGCTTTT 
    GCCAAGTTCA GCCCAGCTAT GGCCCAGGAG AAGACAGAGG GCTGGCTGAC AGAGGCAGCA 
    CGGATGAGCA CAACCCTGGA GCTGCACAGC CCCGTGCTGC AGCACTGCAT GCGCATCCTG 
    GGGGAGTTTC GCAGCTACCT GCCCCTGCTC ACTAAGCTGG GCAGCCTCCA CCCACAGAGC 
    CTCAACTGCC AGTGTCTCCT GCGTGCCCTT GGGCTGGGCA GTCTCCAAAC TATAGAACTC 
    CTAACGCTGG GCCAGCTGCT TACTTATCCA CTGCTGGAGT TTGCAGATCG AATCAACCAG 
    GTCTGGCAGA ATGAAAATGA ACGAATTCAT GCCCAAGAGA CTATACGGCG GTTGCAGCGG 
    TACTGGGAAG CGCGCCAGCT GCGCCTGCTC AACTTCATCC TGCATGTACC CTACGAGCCC 
    CCAGCCTCAG AGCGCTCCAA GAGGCAGGTG CTCCGCAGCC CCCAATGGGA GGTAGTGGAC 
    AAAGATAGTG GCACCTTCAT CCTCTCAGAT TACAGCAACC TGCAGGATTC CATCCAGGAA 
    AGTCTTCAGG TGTTGTCCAA GATCTTGGCC ATCGAAAAGT CAGGAGATTT AAACAAAATA 
    GCTTTGGAGT GGGTGGCCAT CATGCATGGC CTGGGTGCCC TGCTGGAGGT GTGGCTGACT 
    TTCCAGCAGA AGTGGATTTT TCTGAATAAA GTTCTGCATG AGATGAAGAT CCAGTTTCCT 
    AATGCTGACC TGAACTCTCG TTTCAAGGTC ATGGATGACC AGTATCGAAC CCTGATGCGC 
    ATCTCTGTAG CTGACCCCAT GGTTCTGTCA CTTGTAGTGC CCAGTGCCGA GAGGAGCCCT 
    TACTTCCAAG GCCAGCAGCT GCAACAACTG CTGCAAGCAG GATCGGTGGA GCTGGAGGGC 
    ATCATCATGA GTCTGGAGAG CGTGCTCTAT GGGGTGTGTG CTCACTTCCC CCGCCTCTTC 
    TTCCTTAGTG ACAGTGAGCT GGTAGCCCTG CTGGCTGCTC GACTGGAATC ATGCGAAGCC 
    CAGCTATGGG TACGACGCTG CTTTCCTCAT GTGCATGCTG TGAGCTTCAG GTCTTGCCCA 
    ACTGGTGAGA AAAACACAGA TGACTGGGAG TCAAGCCCAA ACACACAGAC TCAGGTGGAG 
    GCACTTGCAG TGCTAGGGGC AGGTGGGGAG GAGGTGAAGC TGCAGGGTCC CCTTCCTCTG 
    CATCCAGATC TCCCTAAGTG GCTGGCCTCT CTGGAGAAGT GTCTGCGCTT GGCACTGGTG 
    CACATGCTGC AGGGCTGTGT GGCTGCTCGC CTTGCTCGAG GCCCATCTCT AGGTGAGGCC 
    CTCAAGCAAC TGCCCAAGCA AAACAAGTTG TACCTGCAAC TGTATGTCCA GCACTGGATC 
    GACTTAGTCC AGGCCTTCCC ATGGCAGTGT GTGCTGGTGG CAGAGGAGGT GGTATGGCGG 
    GCCGAGATGG AGGAGGCTCT GCTTGAGTGG GGTACCCTGG CCATGGTCTC CATGCATATG 
    CGCAAGCTTG AGGTACTGGT GAATTTTATG CGGGCCCAGA GGGCTTCCCA AGGTGGGCAG 
    TCCCTGCCTT CTGTCCGCCA GACCAGCCTT CTCAGTGCCC TGCTGGTCAT GGCAGTGACT 
    CACCGGGATA TAGCACAGCT GCTGGAACAG CACCAGGTCA GTGATCTCAC AGACTTTCAC 
    TGGGTCCGCC AACTCAAGTA TCACTTGGGT TCACCTCACA TAATCCCCAA AAGCCCCCTA 
    CAGAGTCTTA AGACTATTGC ATCTTCTGAA CCCTCTCTGT CACCAGCGGC ATGCTGGATA 
    GATGTGCTAG GCAGGTCCTT CCTGTACAAT TACGAGTATC TGGGACCTAG ACTAGGGCCT 
    CTACCCAGCC TACTGCCTGA ACGGCCAGCC CTGGTACTAT TATTGGCCCT AGAGGAGGTG 
    GCCTGTGGGA CCGTACTGGG TCCTAATGGT GTGGGCAAGA GAGCTATAGT GAACAGCCTG 
    GCACAGGCCC TGGGCCGCCA GCTGGTGATG CTACCCTGCT CACCTCAGAT AGAGGCTCAA 
    TGCCTGAGCA ACTATCTGAA TGGTGCCCTG CAGGGTGGTG CCTGGCTGCT GTTGGAGAAA 
    GTTCATCAGC TGCCCCCTGG CTTGCTCTCT GCCCTGGGCC AGCGCCTGGG TGAACTGCAC 
    CACTTGTATG CCCCACTGTA CCAGGAGGCT TCCCGAAACA CAAGCACCAT AGACCCCACC 
    CAGCCCCAGC TCCTTGGCAG TAGCTTCTTT GAAAAACATC ACGTGTCTGT GCGCCTTGGC 
    TATGGCTGTC TCCTGGTACT GCGTGCCCTG AGCTCTGCTG TGCCTGCCAA CCTGCACCTG 
    CTGCTGCGGC CTGTGGCATT GGCATTGCCT GATCTGCGGC AAGTGGCAGA GCTGACTCTG 
    CTGGGTGCAG GGATGAGGGA TGCCTTCCAG ATGGCTACCC GCCTATCCAA ATTCTTCTCT 
    CTAGAGCGTG AGCTGGTGTC TGGGCCCCTG CCCTGCCGCC TGCCACTGCT CAAGCAGATA 
    CTGGAAGACA CAATACGGAC ACTAAATGTG ACCAAGGAGG AACCGAAGTG CCAGAAGCCT 
    CGCAGCCTAG CTGCCATTGA GGAGGCTGCC CTACTGCGCT CACCACTGTT TAGCATTCTC 
    AATGGGCTCC ACCTGCACAA CCTCCGAGGG CTGTTGTGTG CGCTTTTCCC TAGCGCCAGC 
    CAAGTGCTGG CAGAACCTAT GACTTACAAG CTGATGAAGC CATTGGTGGT GGAGGAACTG 
    CAACAGGTAG GTCTGGATCC CAGCCCTGAC ATTTTGGGGT CCTTGGAACA GTTGAGCCAG 
    GCCCTGAGCC GGGCCTCAGG CATTCTGCTC CTGGGCCCTG CGGGCAGCGG CAAGACCACT 
    TGTTGGCACA GCTTATTTAA GATCCAGAAT CGGCTGGCAG CCATGGAGGA CACCTCAACC 
    CAAGGCTGCC AGCCTGTGGA AATTACCCAC CTGTACCCCA GTGGCCTCAG CCCCCAGGAG 
    TTCCTGGGAT GGCTAGAGGG CTCCTGCTGG CATCATGGCA TCTTTCCCAA GGTACTTCGT 
    GCAGCCGGTC AGTGTAACAA CATGGGCCAA AAGAGGCAGA CAGAGGAATC AATCGGGATC 
    CAGCACTGGA TAATATGTGA TGGAGCCTCC AATGGTGCTT GGCTGGACTC CATCACTTGC 
    CTCCTGAGTG AGCTTCCCCA GCTTAGTCTC CCCAGTGGAC AGCAGATAGC ACGACCCCCA 
    GGCACCTTTC TCTTGATGGA GGTGGCTGAC ACAACAGGCA TATCCCCCAC AGTGGTAGGC 
    TGTTGTGCCC TAGTCTGGTG TGGTGGAGAG CAGACTTGGC AGTGTATACT TAGTGCCCTG 
    ATGGCATCCC TTCCTTATGA GTACCGCCTG CAGCACCGGA CAGTCGCTGA GCTCAACCAC 
    ATGGCTGAGG TTCTGGTGCC TGCAACATTG CGATTCCTCA CCTGCCAAGG TGTCAGCTCT 
    CTGCTGCAGG TACACGGGCA GCAGGCTGTT TGTGCAGGTG TGGCAGAAGT TACCAGCATG 
    GCACGCATCT TGCATAGTCT GCTTGACCTC CACCTTCGCC TAAAGGAGGA GAAGGCCCCT 
    GGCCCAGAGG ACCTCAGCTA TAGTGATCCT GTGGCCCAAA GCTTCAGGTC TTCAAAAAGC 
    AGCTTTCTAA ACCGGTCCCA GGTTGACAGT GACGATGTGC CAGATAAGTG CAGGGAACAC 
    TTGCTGGCTG TCAGCAGTTT TCTTTTTGCC TTGATCTGGG GCTTTGGAGC CCACCTTCCC 
    TCCAGGTTCT GGCCCATCTT TGATACCTTC ATAAGGGATT CTATTAGTCG CCTCTCCAAC 
    TACCCTGAGC CACCACCCTC AGCCTTGGTG TTTGATCTAC ATGTAAGCCC TGAAGATGGA 
    ACACTGGTCC CCTTCACTGG CCAATACCTG AGCAGCCACA TCAAAGGAAC TTTGGGCACC 
    TTTCACCCTT CTATCCAGAC TGAACGGCTC TTGTATGTGG TGGACCTGCT TCTGTCAGGG 
    GGACAGCCAG TGTTGCTGGC TGGAGAGGCA GCAACAGGGA AGTCAGCCTT TGTGGAGGTG 
    CTGGTAGAGC CACATCACCC TTACATATAC AGCCCCATCC ACCCTGCCTT CAGTTCCTCC 
    CACCTCCGTC TCCTGCTGAG CAGAGGAATC CAGGGCCAAA CACAAGCCAG CCCACAGCCT 
    GGGCATCACC AGGATTCTAA ACCCTCCCTC CTCTTCTTGC TGGAGGACCT GCACCTAGCC 
    ACTTCTGACC CAGAGAAGAG CTGCCAGCCA GTGTTGGAGA CTCTGCGCCA GGCCATGGAT 
    GGCACTGTGT ATGCCCACAG CACCTTGGAA CTGCAGACGC TGCAGCCTAC AGTCAACTTC 
    CTTGCCACTG TCACAGTGCC AGGATACTGT GAGCGCCCAC TGTGTCCACG CCTCTTTCGA 
    CTCTTCACAG TCCTGGCCCT GGAAAGCATG ACCCAGGCCA CCCTGCTGGA AAGACATGTG 
    CCTATCATTC AGGCTTGGCT TGAGCGTTTC CCTTCTGTGG AACGGGAGCG TGCTCTGGCA 
    CGAGGTCTGG TTAGGGCCTC AGTAGAGGCC TGGGAGGCTG TGTGCAATTG CTTCATGCCT 
    TCACCCCTCC ACCCACACTA CCACTTCTCC CTACACTCTG TGAGCCACCT ACTGAGCAGC 
    CTGCAGCTGC TGCCCAACAG AACAGGCTCC CGAGGTTTTG TGGACTATCC CAACCACCAG 
    GAGCACTTGC GCCGGGTGTC AGGCCTGCGA GGCACTTGTC TGACCGTTAT GATGGCCACA 
    CGCAATGTGG TGCGTCTTTG GTTGCATGAG GCACAGAGAA CCTTTTGCGA CCGGCTGGAC 
    AGCCCCAGGG AACGCTCCTA CTGTGCCAAG CTGCTCCTAG TAGTAGCTCA AAGTGTCTTC 
    TGCTGTGGGC CAGGGCCCCA GCACCTGGGC AAGGACCATC AGGAGAGTGA GGAGGAGGAG 
    GAGGAGGAGA GGGTGCCCGA AGTAGAATCT GAAGGGGAGT TGGCCCAGTG GGAGGACTTC 
    AGCAACAGCA ATAGTGAAAC AGAGGAGGAA GAGGAACCTT ATGGCCTTCA GGTCGCCAGA 
    GTCTCAAACT CCAGAGATCC AAGTCTAACA CCATCCATAG GACCAGTAAG CAGGGGGATG 
    AAGGAAAGCA TAAGTCACAA GATAAGGCAA GAGAAAGGCA CAAGGGCATC CAACTATAGG 
    CTCCAGGTAA GGAGATCATT CAAGACTTGG TGGCAGAAGA AACCCCAGAT GGACCTGATC 
    TCACCCTTGT TGTTACCAGT GTTACTACTA CATCCCCAGG AAAAGCCCTC AGACCTGGTC 
    TTCAGTCAGG AGCTGATACT GGGGCCTAAC TCTGAGACCC CCAACTTGTA CCTGGAACGA 
    CAGTGGGAGA AGCTAGAGGA GCAGTTGGCC ACCTCAGCTG CTCAACTGAA GTTGAGCCCC 
    CACCTGGCCC GGTGTCATTC CATGGCCCAG CACGTGGCCC GCCTGGTCCG GGTGCTGGCC 
    AGGCCCCGGC AGCATGGCCT GCTGCTCTCG GGGGCTCTGG GTACTGGGCG CCACACTGCC 
    ATCACTCTGG CTTCTAGCAT TTGTCAGGCC CATTTCTTTC ATCTACCATC TGGGTCAGAG 
    GAGGCCATTC TCCAATGTCT ACGAGATGCC AGCTGGCATG CTGGCATGTT AAGCCAGCCA 
    GTGGCTCTGT TGGTACCCAG TGGTGTGGAT CTCACTACAC TTCATCGCCT CCTGGCCCTG 
    GCAACCTCAG GCAGTTTCCC TGGCCAGTAC ACAGAAGCAG ATTTGGACCG CATTGGAGAA 
    CACCTCCCCA GGGAGAACCT TGGTGTCAAA CAGAACATCA AGAAGGAAAT GGTGTTGCAG 
    AGGTTCCACC AGCAAGTGTG CAGCCACCTT CACCTGTTCT TCCTGATTGG AGATAAACAG 
    GCCCACAAGC AGCTGCCCTC CACCCTTTTC CTGAGGCTCC TTCAACTGGC CACTGCCAGC 
    ATTGACCGCT ATGAACCCTG GGACCAAGCT GCCCTGGCCA AGGTGGCCCA GCATCACCTG 
    GAGGGTGCTC AGAGTGTGCC CCTTGATGAC GGCTCCTGGA AGTACCCAGA CCTCCAGGCC 
    TCAATTCCCA GTGTGGCCAA AGCCATGGCT CTTATCCACC TTTCGGCCAC CCACTACCAT 
    GAGCACCTGT GCCCTGCATT GCCACTCGTC ACCCCCAAGA CCTTCCTAGA CTTCCTGGAC 
    ACTTTCCTGA TGCTGCAGCA ACAGACAATC CTGAAGATTA AGAACAAGGC CCAGCGGGTC 
    CAGAATGCCT TGGAGAATCT GAGAATGCTG ATTAAGGAGC ACGGTACCCA TGCCAATCTG 
    ATCTTTGACT TGGAACAGCA GCTGAAAGAC TCCGGCAAGA GTCTCAGCAT GTTTCAGCAG 
    CAGCTAGAGC AAAGCAAGCT CCTATACAAG CAGCAGCTGG AAGAGTGTCG GCATCAAGAG 
    AACCTCATTG AGAACCTGGC CAGGCAACGG GATGCCCTGC AAGCTCAGCG AGAGGCTTTC 
    CTGGAGCAGA TGAGCAAGGC ATTTCTGGAG CCTCTGAGCC AGCTGCAGGT GGCTGACTTT 
    GAGGAGATAC GGAGCTATCG AGCACCACCA GAATCTGTGG TCCGGGTAAC TGATGCAATG 
    TGTGACTTGT TCCACCATGA AACAGGCTGG GCCAGTGCCA AACAGCTGTT ATGCACTGAG 
    GATTTTTATC AGGAGCTGGT GTTCTTCCCC AAGGAGAAGA TAACAGACTC AGAGCTGATA 
    AAGTTACATC TAATTCTGAA GGCTCCAGGT ATGGACGATG CAGCCCTGCG GGCAGTGAGC 
    CGACCTGCAG CCAGCCTGGC AGCCTGGCTC TGGGCTGTTC TGCACTATGG GCTGGCGCAT 
    TGCCGGGGAC TGCCCACGGA CCTGCTGCTG CAGCAAGTGG AGGCAACACT CACTCGGGAG 
    CAGGCCCGCC TGGGCTACTA CCAGTTTCAG GCCCAGGAGA CCCTGGAGCA TAATTTGGCC 
    CTGGCTAAGA TGGTGGAGGA TGCCCAAGCT TCCCACAACT GCGTGGCAAA GACCCTCAGT 
    CAAGCACAGT GTGGGCAGTA TCACAAATGG CCCATGAAGG CTGCACTGCT CACGCCTATG 
    CGTGCCTGGA CTACACAGCT CCAGAAGCTG AAGGGACGCT GCATGACTGT GTTTGGAGAT 
    ACCCTCCTAT GTTCAGCTGC CATCATCTAC CTGGGTCCCT TCCCACCATT GCGGCGCCAA 
    GAGCTACTGG ACGAGTGGTT AGCTCTGTGT AGGGGCTTTC AGGAGGCTCT GGGCCCAGAT 
    GATGTGGCAC AGGCACTGAA GCGGAAGCAA AAATCTGTCA GCATACCACC AAAGAACCCC 
    CTGCTGGCTA CACACTCTCC CTTCAGTATT CTGTCCTTGC TGAGCTCTGA ATCGGAGCAG 
    TACCAGTGGG ATGGAAACCT GAAGCCACAG GCAAAGTCGG CCCACCTGGC AGGCTTGCTT 
    CTGCGAAGCC CCACACACTA CAGTAGTTGC CGTTGGCCTC TGCTGCTTGA CCCCAGCAAC 
    GAGGCCCTCA TCTGGTTGGA CCCGCTGCCT CTGGAAGAGA ATCGATCTTT TGCGCCAGCC 
    CTCACTGAGG GTAGAGGGAA AGGCCTCATG AGAAATCAAA AGAGAGAGAG TAAAACGGAC 
    ATGAAAGAGG AAGATGATGA GAGTGAAGAG AGTAATGAGG CTGAGGACCA GACAAAAGAG 
    CAGAAGGCAG AGGAAAGAAA AAATGAGCAG GAGAAAGAGC AAGAGGAAAA TGAAGAGAAA 
    GAGGAGGAGA AGACAGAGAG CCAGGGGTCA AAGCCAGCCT ATGAGACTCA GCTTCCATCC 
    CTTCCCTACC TTAGTGTTCT TTCAGGTGCT GACCCAGAGC TGGGTTCTCA GCTCCAGGAG 
    GCAGCTGCTT GTGGCCTGCC TGTGTTACTG ACCAATGTGG AGCTGGGTCT AGGGTGCGAA 
    GAACTGCAAT GGCTGCTGCA ACGGGAGCAG CTGAGTCCAC CCCAGGTGCA GCCTGGCTTC 
    TGTCTGTATC TCAGCACCAC CCTCTCCCTC TGTGCCATGG AAAAAGTGCT AGGTTGTGAA 
    CTGCTAAAGG GGCTGAATGT GTTGGATCTG GGCCTGAACA TGGAAATACT GGAAGAACAG 
    ATGCTGCATG AAATCTTGTG CAGAGAGTAT CCTGAACTCG AGACCCGCTG GCAGGACCTA 
    AAGATCAGAG CCCTAGATAC CTGCAAGGCT GTGGAGGCTG CTGAGGAGCG GCTGCTGACG 
    ATGCTGCTGT TCCAGAATCC GAAGCGTCAG AAGCCAGCCA AGTTTCTGCG GAACATAGTG 
    AGGGCCCAAG GAAAGCTATG CCAGCTGCGT GCTCATTGTG AAGAGTTAGA AGGGCAGAAA 
    CTACAGGAGA TGGTATTGTG GGCACCCTAT CGACCTGTGG TTTGGCATGG AATGGCCATG 
    GTAAAGGCCC TAAGCCAACT GCAGAACCTG CTGCCACTTT TCTGTATGAG CCCAGAGAAC 
    TGGCTGGCAG TCACTAAGCA GGCTCTGGAC AGCATGAAGC CACGTGAGAT TAATCACGGG 
    GAGGACCTGG CCAGCCATCT ACTGCAATTG AGAGCACACC TGACCCGCCA GCTGCTGGGC 
    AGCACCGTGA CTGCACTGGG CCTTACCCAA GTACCCTTGG TGGGTGCATT GGGCGCTTTG 
    GCTCTGCTGC AAGCAACAGG GAAAGCATCA GAGCTGGAAA GACTGGCACT CTGGCCTGGA 
    CTAGCAGCCT CTCCCAGCAC AGTCCACAGC AAGCCAGTCT CAGATGTGGC TCGACCGGCC 
    TGGCTTGGGC CAAAAGCCTG GCATGAATGT GAGATGTTAG AGCTGCTGCC CCCATTTGTT 
    GGCCTGTGTG CCTCCCTGGC AGGCCACTCC AGTGCTTGGC AGGCTTACCT GTCACTGTCA 
    TCCACAGTGC TGGGTCCTGC ACCTGGGCCA GGGCCTGAGC CACTCAGCCT CCTCCAGAAG 
    CTGATCCTGT GGCGCGTTCT GCGACCTGAG TGCCTGGCAG GTGCCCTGGC AGACTTCACC 
    ACTAGCCTCC TGGGTCGGCC CCTGGATGAA AACACGTATG CTCCCACCAT GCCCTTTAAA 
    CATAGTCAGG CTACTCAGCC CATGCTGATC TTGTTGCCAC CGCCTGGCCA CCCCTCAGCC 
    ACTCTGCATC CTCTGACTGT CATCCAGAAA CTGGCTGCCA AGTATCAGCA GGGGCAGAAG 
    CAACTGCAGG TGATAGCCCT GGGCTCTGAA GCCTGGGACC CAGTCTCAGT TGTGGTCAGC 
    ACTCTATCCC AGGCTATGTA TGAGGGGCAC TGGCTGGTGC TGGACAACTG TCATCTGATG 
    CCCCATTGGC CGAAAGAGCT GCTACAGCTC TTGCTGGAAC TGTTAGGCAG AGCCAAGGTG 
    GTTGCAGACC TGGAATCAGA ACAGCTTTTA GACCAACCTG AAAGCAGGAA TGTAAGCACT 
    GTTCACAGAG ATTTTCGTCT TTGGCTTATT GTGCCTGCAG AGTCTAGTGC TTCTTTGCCA 
    GCTGTGCTGA CTCAGCACTC CATGCCTGTT TTCTGGAACC AGTCCCTGGA GCTGGGCCAT 
    GTTTTGATTG ACAGTGTGGA GCTAGCCCAG CAAGTACTCT ACATGCAACC CCCCACCCAG 
    GCACTACCTC TGCTCCTCCT CCATGGCCTC CTGCTACACC GGCAGCTCTA TGGAACAAGG 
    CTGCAGGCAC ACAGGGGGCG CTGGAGTCAA GTGACTCTAA CCCAGGTTCT TCAGACCCAA 
    GACCAGCTGT GGGCAAGTCT TAGCAATCCC CGTGCTGCCA TGCAAGAGCT GGCTGCTTCA 
    GTTTTCTACG GGGGTCCTCT GGGGGACACT GAGGACAGGG AGGCCCTGAT TAGCCTCACA 
    CAAGCCTGCC TGAGCCCCAG TAGTGGGAGC TGGGTCCAGC CACACACACC TCAGTCTTTG 
    CTGGCCACGC TCATGCCCCT CCCAGAGCTA AGGGAGCTGG ATGCAATGGC AGAGTGCAAG 
    GCCCAGATGC ACCTACTGCC CTCACCACCT GAACCCCGGC TCTGCGGACT GAGTGAGGGC 
    CCCCAAGCCT GGCTGTTGCG ACGCCAGAGT CGCGCTCTCT TGAGTGCGCT GCAGCGGAGT 
    TCACCCGTGT GGGTTCCTGA GTCTCGAAGA GGCGCCCAGC TTGCGGAAAG GCGACTGCGG 
    CAACGCCTAG TGCAAGTCAA CCGGAGGCTG GAGTCACTGC AGGATCTGCT GACCCACGTG 
    ATTCGCCAAG ACGAGTCCGA CGCCCCGTGG TCAGTGCTGG GGCCAAATGC ACGGCGGCCT 
    CTGGAGGGCG TCTTAGAGAC CGAGGCTCTA GAACTGAGCC AGTTGGTGGG CACGCTACAA 
    CGCGACCTTG ATTGCCTGTT GCAGCAGCTG AAGGGCGCAC CCCCGTGCCC CTCCCGCCGC 
    TGTGCTGCGG TGGCCCACGC TCTCTGGACT GGCCGCCTAC CCTTGCCTTG GCGACCTCAT 
    GCGCCGGCCG GTCCGCAGCC GCCCTGGCAC TGGCTGCGAC AGTTGTCGCG CCGTGGGCAA 
    CTGTTGGTTC GTTACTTGGG CGTGGGCGCG GACGCGAGCA GTGATGTACC AGAGCGCGTC 
    TTCCACCTGT CAGCCTTTCG CCACCCGCGC CGCCTGCTGC TGGCATTGCG TGGGGAAGCT 
    GCCCTGGACC AGAATGTGCC CAGCTCGAAT TTCCCTGGTA GCCGAGGCTC GGTCTCCAGT 
    CAGCTCCAGT ATAAACGTCT GGAGATGAAC AGCAACCCTC TGCACTTCAG GGTGGAGAAT 
    GGTCCAAATC CCACGGTTCC AGAGAGAGGG CTGCTGCTGA TCGGGCTACA GGTCCTACAT 
    GCGGAGTGGG ACCCAATAGC TGGAGCCTTG CAGGACAGTC CTTCCAGCCA ACCCAGCCCT 
    CTGCCTCCCG TCAGCATCAG CACACAGGCC CCGGGCACCA GTGACCTGCC AGCCCCAGCC 
    GACCTGACTG TGTACTCGTG TCCTGTGTAC ATGGGAGGGC CCCTTGGCAC CGCTAAGCTG 
    CAGAGCAGGA ACATCGTGAT GCATCTGCCT TTACCCACCA AGCTCACCCC CAACACCTGT 
    GTCCAAAGGA GGGTCCATGT GTGCAGCCCA CCCCTGTCTT GA

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

    RefSeq NP_653267.2
    CDS565..14826
    Translation

    Target ORF information:

    RefSeq Version NM_144666.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dynein heavy chain domain 1 (DNHD1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_144666.2

    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
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    11101
    11161
    11221
    11281
    11341
    11401
    11461
    11521
    11581
    11641
    11701
    11761
    11821
    11881
    11941
    12001
    12061
    12121
    12181
    12241
    12301
    12361
    12421
    12481
    12541
    12601
    12661
    12721
    12781
    12841
    12901
    12961
    13021
    13081
    13141
    13201
    13261
    13321
    13381
    13441
    13501
    13561
    13621
    13681
    13741
    13801
    13861
    13921
    13981
    14041
    14101
    14161
    14221
    ATGGTCCCGG AGGAGAGGAG GGTAGGTTTG TCTTCTGATG AGACATCATC TGATTCCCTT 
    AAGTCTTGGC ACTCCATATG TGTCTTGGAC AGCAAAGAAC AGCCCTTGGC CTGCCAGCAG 
    AAACAGAGGC AGTTCGTGAA GCCAGTGACT GAGTCAGAGC AGCCCACAGT GCTGGAACTC 
    CTGCTAGCTG AGCTCCGAAC TCTGTTCTCA GCTGTGTTGC AGGACAGTAG CCCTGCAGCT 
    TGGCGCTATC TTCATGCAGT ACTGGGTCTA CTGCCTCCAT ATCGTGAGTT GCTAGTTGGC 
    CACCTTGATT TGCTGCCCTT CCTGGAGCAG CTGTACTGCT GGGCACCCTG GGTCCAAACC 
    CACCTCCATC TGGACCTGCT AGGTGCCATT GTCCAGGCCT TTCCTCCAGA CAGCTCTTTG 
    TTAGACAGTG CTTCCCATGC TGACTGCTGT CCCCAGAAGC GGAGGCTCCA TCACAGGCCC 
    CCATGCCCAG CTTGCCCTTT TGTGCAGGCC CAGTGGAGCA GGCAGCAAGT AAAGGAGGAG 
    CTGGCCACCT GGCTGCGACC ATTGACACTG CCTGAGCTAC AGCGCTGCCT GGGCATTGTT 
    GGTGCTCAGG TGGCCCTAGA AGAGGCTGTG TGGCTGGATG GACTTAGTCT CCTTCCCTTG 
    GCACTGGCAG CGGACATCCC TGTACGGTAT GAAAGCAGTG ACACTGACAA TGCAGAGGTG 
    GAGCCTGTTG GAAGAAAAGA GACCAGGTCT CAGCTTGACT ATGAAGTTCC CAGGGAAAAG 
    GCCTTCCAAA AGAGCAGCAC CGGCTTTTCA CCTGAGACTT CCTTCCTGGA TAGCCAGGTG 
    ATGACTGCTC TGAAGATGGA GAGATACCTG AAGAAGATCC ACTTCCTCTA TCTCAATGTG 
    GCTCCCAGCC GGTACTTTAG GCCTTACAGC CTGATGGTGG TGCCACCCGA CAAGGTGAAT 
    CCCGAGCACT ACATCTTCTC TCCCTTTGGG ATCTTGCATG TACATCCTGT GGAAGGTAGC 
    GAGACGATGA CACTGGGTAC CTGGCACCAT CACTGTGTTC TCTGGCAGCA GCTCCAGTTC 
    ATTCCATTCT TTAAGTATTG CCTCTTACGC AAGTCCTTTA CCTGTTGGAA GAAGAATGTG 
    AGATTACAGG GGCTGCATCG ACTCCAGAAA TTCCTAGAGA ATCATCTGCT CTTGGCTGTG 
    CCCCACTTTG GAGCTGGGCT ACTCCATATT AGCAGGCTTC TGCAGGAGCT ACACTCTGTG 
    TCCTGGCTAC CCCAGGAACT GGATCGGTGC TATGAGCTGC TGGACCTGCA GACGGCTCTA 
    GCCGAGGAGA AGCATAAGGC TCTACGGCTG CTCCATCGTT GCCTAAACCT CTGCACATCC 
    ATTCTTCGAC TGGTTCACGA GGACACATAC CACATGCAAC AGTGCCTACA GGAGCGAGTA 
    CAAAACTGTG ACAGGATCAG GACAGGCCAA GGCTCCATAT ACCTTCAGAG GGTACAGCAC 
    AAGCAACTGG AGCAGAAGCT GAAGCAAGCA GAGGCCTGGT GGCTGCAGCT GGGAAAGTTT 
    GCCCGCCTGG TTGACTACAT GATTTGTCAG AGCCTCATTT CTGTCTTGGA AGAGCAGATA 
    ACCTCTTTTG TGGCCAACAT CCTTCAAGCC CCAAGGCAGA AACCCTTTCT CTCATCACAG 
    CTGGTCTTTG ATGATCATGG TCAACTGTCT CATGTGCCCT GTGTTGAAAA TATGATCCAG 
    ACTCTAACTG GAGGCCTACA GTCTGTCAAG ACCTCTGCCT TGCAGGTAGT GCAGTCTGCA 
    GACCTGAAGA CCTCCTCGGA TTCCCTGTAT TCTGAAGAAG AAGATGAAGA GGAGGACTCA 
    AAAGACGAAT TTCTGATGCC CAAGTTCCAG GGCCAGCCCA GCGATGCTGT GAGCATCTTC 
    TGTGGCCCGA ATGTGGGATT GGTGTGGCCC TGGAAGTCTC ACCCAATTGC TGGTATCTTG 
    GAGGTCCGTG GATGTCGGCT GCGGGGCCAA TACTTCCCCC ACAATTATAA GCAGCTGGAG 
    GAAGACCTGG ACAACAACCC TAAGATCCAG CAGGCACTGA ATATACAACA GGTGCTGCTG 
    GAGGGCGTGC TGTGCAAGGT GCAGGAATTC TGCAGGGAAC ATCATTGGAT AACAGGCATT 
    TATGAATTCC TGCAATCCTG GGGGCCTCAG AAGCTGGAAG ACATGAGAGG TGGTCCCATC 
    AAGAACTACG TGACGCTGGT GAGCCGCCTG AATGTTTGGC AGGCCCGTGT CTCCAGTATG 
    CCTATCGAGT TGCTCACAAA AGGCGGGTTG CTGCTACTTA GCTGCCATGA TGTACAGGCA 
    GAGATGGAAT CCAAGCTGAA CAGCATAAGG AAGGACATTC TTGCACACGT GCAAAATGAG 
    TGCTGGAACC TCAGTCAACA ACTCATGACA GAGCTCACAG ATTTCATGCA TATCTTCCGA 
    ACCATCAACT CAGATATTCA TGCCATTGCA CAGTGCACCC AGAAGTTGAA TGAAGCCAAT 
    GAACAGTACG TCGAGCTGGA GGAGCGAATG GAATACGTAC GGGCACTCCA CGAACTCATC 
    CGCAACCACT TTAGCCTCTT TAGTGCTGAG AATGAAGCAC TGGACATCTC GGTGAGAAGG 
    CAATTCGGGG AGTCACCCAT CCCTCCCTGC CCTCCTCCCC CACAACCACA TCTACTCCAC 
    TGCCCTCTGC TTGCCCCACA GCTTCTGGAT ATGTGGGAGG CATTTCAGTT TGAGAAAAGC 
    CAGGCTTCAG AGTTCCTGCT CAGCAAGCGA CATGCCATTA TGCCCAAGCT GCAGCAGCTG 
    ATGGCAGCAG CATTGGCAGA GCTGGAAGGC CTGCTTGCGA AGGCCCTCTC CGGTCCCTTT 
    ATGGACCCCA CACAAGATCA GAGGAGTACT GAGCACCAGC TCGTCTCCCT AGAGCGTCAG 
    TTCCAGAACA CAGTCAGCGA CCTCAGTGAA CTGCACCACG CCTATGCCAT CTTCACTGAG 
    GATGAGACTC CTGTGCCCTT GCCAATCTGT GGGACACGTC CTATTGTGCA GCAGCAGCGC 
    ATATGGCACC TGTACCGAGT CATCTCCGAA AACATCAGCG AGTGGAAGTG CATGGCTTTT 
    GCCAAGTTCA GCCCAGCTAT GGCCCAGGAG AAGACAGAGG GCTGGCTGAC AGAGGCAGCA 
    CGGATGAGCA CAACCCTGGA GCTGCACAGC CCCGTGCTGC AGCACTGCAT GCGCATCCTG 
    GGGGAGTTTC GCAGCTACCT GCCCCTGCTC ACTAAGCTGG GCAGCCTCCA CCCACAGAGC 
    CTCAACTGCC AGTGTCTCCT GCGTGCCCTT GGGCTGGGCA GTCTCCAAAC TATAGAACTC 
    CTAACGCTGG GCCAGCTGCT TACTTATCCA CTGCTGGAGT TTGCAGATCG AATCAACCAG 
    GTCTGGCAGA ATGAAAATGA ACGAATTCAT GCCCAAGAGA CTATACGGCG GTTGCAGCGG 
    TACTGGGAAG CGCGCCAGCT GCGCCTGCTC AACTTCATCC TGCATGTACC CTACGAGCCC 
    CCAGCCTCAG AGCGCTCCAA GAGGCAGGTG CTCCGCAGCC CCCAATGGGA GGTAGTGGAC 
    AAAGATAGTG GCACCTTCAT CCTCTCAGAT TACAGCAACC TGCAGGATTC CATCCAGGAA 
    AGTCTTCAGG TGTTGTCCAA GATCTTGGCC ATCGAAAAGT CAGGAGATTT AAACAAAATA 
    GCTTTGGAGT GGGTGGCCAT CATGCATGGC CTGGGTGCCC TGCTGGAGGT GTGGCTGACT 
    TTCCAGCAGA AGTGGATTTT TCTGAATAAA GTTCTGCATG AGATGAAGAT CCAGTTTCCT 
    AATGCTGACC TGAACTCTCG TTTCAAGGTC ATGGATGACC AGTATCGAAC CCTGATGCGC 
    ATCTCTGTAG CTGACCCCAT GGTTCTGTCA CTTGTAGTGC CCAGTGCCGA GAGGAGCCCT 
    TACTTCCAAG GCCAGCAGCT GCAACAACTG CTGCAAGCAG GATCGGTGGA GCTGGAGGGC 
    ATCATCATGA GTCTGGAGAG CGTGCTCTAT GGGGTGTGTG CTCACTTCCC CCGCCTCTTC 
    TTCCTTAGTG ACAGTGAGCT GGTAGCCCTG CTGGCTGCTC GACTGGAATC ATGCGAAGCC 
    CAGCTATGGG TACGACGCTG CTTTCCTCAT GTGCATGCTG TGAGCTTCAG GTCTTGCCCA 
    ACTGGTGAGA AAAACACAGA TGACTGGGAG TCAAGCCCAA ACACACAGAC TCAGGTGGAG 
    GCACTTGCAG TGCTAGGGGC AGGTGGGGAG GAGGTGAAGC TGCAGGGTCC CCTTCCTCTG 
    CATCCAGATC TCCCTAAGTG GCTGGCCTCT CTGGAGAAGT GTCTGCGCTT GGCACTGGTG 
    CACATGCTGC AGGGCTGTGT GGCTGCTCGC CTTGCTCGAG GCCCATCTCT AGGTGAGGCC 
    CTCAAGCAAC TGCCCAAGCA AAACAAGTTG TACCTGCAAC TGTATGTCCA GCACTGGATC 
    GACTTAGTCC AGGCCTTCCC ATGGCAGTGT GTGCTGGTGG CAGAGGAGGT GGTATGGCGG 
    GCCGAGATGG AGGAGGCTCT GCTTGAGTGG GGTACCCTGG CCATGGTCTC CATGCATATG 
    CGCAAGCTTG AGGTACTGGT GAATTTTATG CGGGCCCAGA GGGCTTCCCA AGGTGGGCAG 
    TCCCTGCCTT CTGTCCGCCA GACCAGCCTT CTCAGTGCCC TGCTGGTCAT GGCAGTGACT 
    CACCGGGATA TAGCACAGCT GCTGGAACAG CACCAGGTCA GTGATCTCAC AGACTTTCAC 
    TGGGTCCGCC AACTCAAGTA TCACTTGGGT TCACCTCACA TAATCCCCAA AAGCCCCCTA 
    CAGAGTCTTA AGACTATTGC ATCTTCTGAA CCCTCTCTGT CACCAGCGGC ATGCTGGATA 
    GATGTGCTAG GCAGGTCCTT CCTGTACAAT TACGAGTATC TGGGACCTAG ACTAGGGCCT 
    CTACCCAGCC TACTGCCTGA ACGGCCAGCC CTGGTACTAT TATTGGCCCT AGAGGAGGTG 
    GCCTGTGGGA CCGTACTGGG TCCTAATGGT GTGGGCAAGA GAGCTATAGT GAACAGCCTG 
    GCACAGGCCC TGGGCCGCCA GCTGGTGATG CTACCCTGCT CACCTCAGAT AGAGGCTCAA 
    TGCCTGAGCA ACTATCTGAA TGGTGCCCTG CAGGGTGGTG CCTGGCTGCT GTTGGAGAAA 
    GTTCATCAGC TGCCCCCTGG CTTGCTCTCT GCCCTGGGCC AGCGCCTGGG TGAACTGCAC 
    CACTTGTATG CCCCACTGTA CCAGGAGGCT TCCCGAAACA CAAGCACCAT AGACCCCACC 
    CAGCCCCAGC TCCTTGGCAG TAGCTTCTTT GAAAAACATC ACGTGTCTGT GCGCCTTGGC 
    TATGGCTGTC TCCTGGTACT GCGTGCCCTG AGCTCTGCTG TGCCTGCCAA CCTGCACCTG 
    CTGCTGCGGC CTGTGGCATT GGCATTGCCT GATCTGCGGC AAGTGGCAGA GCTGACTCTG 
    CTGGGTGCAG GGATGAGGGA TGCCTTCCAG ATGGCTACCC GCCTATCCAA ATTCTTCTCT 
    CTAGAGCGTG AGCTGGTGTC TGGGCCCCTG CCCTGCCGCC TGCCACTGCT CAAGCAGATA 
    CTGGAAGACA CAATACGGAC ACTAAATGTG ACCAAGGAGG AACCGAAGTG CCAGAAGCCT 
    CGCAGCCTAG CTGCCATTGA GGAGGCTGCC CTACTGCGCT CACCACTGTT TAGCATTCTC 
    AATGGGCTCC ACCTGCACAA CCTCCGAGGG CTGTTGTGTG CGCTTTTCCC TAGCGCCAGC 
    CAAGTGCTGG CAGAACCTAT GACTTACAAG CTGATGAAGC CATTGGTGGT GGAGGAACTG 
    CAACAGGTAG GTCTGGATCC CAGCCCTGAC ATTTTGGGGT CCTTGGAACA GTTGAGCCAG 
    GCCCTGAGCC GGGCCTCAGG CATTCTGCTC CTGGGCCCTG CGGGCAGCGG CAAGACCACT 
    TGTTGGCACA GCTTATTTAA GATCCAGAAT CGGCTGGCAG CCATGGAGGA CACCTCAACC 
    CAAGGCTGCC AGCCTGTGGA AATTACCCAC CTGTACCCCA GTGGCCTCAG CCCCCAGGAG 
    TTCCTGGGAT GGCTAGAGGG CTCCTGCTGG CATCATGGCA TCTTTCCCAA GGTACTTCGT 
    GCAGCCGGTC AGTGTAACAA CATGGGCCAA AAGAGGCAGA CAGAGGAATC AATCGGGATC 
    CAGCACTGGA TAATATGTGA TGGAGCCTCC AATGGTGCTT GGCTGGACTC CATCACTTGC 
    CTCCTGAGTG AGCTTCCCCA GCTTAGTCTC CCCAGTGGAC AGCAGATAGC ACGACCCCCA 
    GGCACCTTTC TCTTGATGGA GGTGGCTGAC ACAACAGGCA TATCCCCCAC AGTGGTAGGC 
    TGTTGTGCCC TAGTCTGGTG TGGTGGAGAG CAGACTTGGC AGTGTATACT TAGTGCCCTG 
    ATGGCATCCC TTCCTTATGA GTACCGCCTG CAGCACCGGA CAGTCGCTGA GCTCAACCAC 
    ATGGCTGAGG TTCTGGTGCC TGCAACATTG CGATTCCTCA CCTGCCAAGG TGTCAGCTCT 
    CTGCTGCAGG TACACGGGCA GCAGGCTGTT TGTGCAGGTG TGGCAGAAGT TACCAGCATG 
    GCACGCATCT TGCATAGTCT GCTTGACCTC CACCTTCGCC TAAAGGAGGA GAAGGCCCCT 
    GGCCCAGAGG ACCTCAGCTA TAGTGATCCT GTGGCCCAAA GCTTCAGGTC TTCAAAAAGC 
    AGCTTTCTAA ACCGGTCCCA GGTTGACAGT GACGATGTGC CAGATAAGTG CAGGGAACAC 
    TTGCTGGCTG TCAGCAGTTT TCTTTTTGCC TTGATCTGGG GCTTTGGAGC CCACCTTCCC 
    TCCAGGTTCT GGCCCATCTT TGATACCTTC ATAAGGGATT CTATTAGTCG CCTCTCCAAC 
    TACCCTGAGC CACCACCCTC AGCCTTGGTG TTTGATCTAC ATGTAAGCCC TGAAGATGGA 
    ACACTGGTCC CCTTCACTGG CCAATACCTG AGCAGCCACA TCAAAGGAAC TTTGGGCACC 
    TTTCACCCTT CTATCCAGAC TGAACGGCTC TTGTATGTGG TGGACCTGCT TCTGTCAGGG 
    GGACAGCCAG TGTTGCTGGC TGGAGAGGCA GCAACAGGGA AGTCAGCCTT TGTGGAGGTG 
    CTGGTAGAGC CACATCACCC TTACATATAC AGCCCCATCC ACCCTGCCTT CAGTTCCTCC 
    CACCTCCGTC TCCTGCTGAG CAGAGGAATC CAGGGCCAAA CACAAGCCAG CCCACAGCCT 
    GGGCATCACC AGGATTCTAA ACCCTCCCTC CTCTTCTTGC TGGAGGACCT GCACCTAGCC 
    ACTTCTGACC CAGAGAAGAG CTGCCAGCCA GTGTTGGAGA CTCTGCGCCA GGCCATGGAT 
    GGCACTGTGT ATGCCCACAG CACCTTGGAA CTGCAGACGC TGCAGCCTAC AGTCAACTTC 
    CTTGCCACTG TCACAGTGCC AGGATACTGT GAGCGCCCAC TGTGTCCACG CCTCTTTCGA 
    CTCTTCACAG TCCTGGCCCT GGAAAGCATG ACCCAGGCCA CCCTGCTGGA AAGACATGTG 
    CCTATCATTC AGGCTTGGCT TGAGCGTTTC CCTTCTGTGG AACGGGAGCG TGCTCTGGCA 
    CGAGGTCTGG TTAGGGCCTC AGTAGAGGCC TGGGAGGCTG TGTGCAATTG CTTCATGCCT 
    TCACCCCTCC ACCCACACTA CCACTTCTCC CTACACTCTG TGAGCCACCT ACTGAGCAGC 
    CTGCAGCTGC TGCCCAACAG AACAGGCTCC CGAGGTTTTG TGGACTATCC CAACCACCAG 
    GAGCACTTGC GCCGGGTGTC AGGCCTGCGA GGCACTTGTC TGACCGTTAT GATGGCCACA 
    CGCAATGTGG TGCGTCTTTG GTTGCATGAG GCACAGAGAA CCTTTTGCGA CCGGCTGGAC 
    AGCCCCAGGG AACGCTCCTA CTGTGCCAAG CTGCTCCTAG TAGTAGCTCA AAGTGTCTTC 
    TGCTGTGGGC CAGGGCCCCA GCACCTGGGC AAGGACCATC AGGAGAGTGA GGAGGAGGAG 
    GAGGAGGAGA GGGTGCCCGA AGTAGAATCT GAAGGGGAGT TGGCCCAGTG GGAGGACTTC 
    AGCAACAGCA ATAGTGAAAC AGAGGAGGAA GAGGAACCTT ATGGCCTTCA GGTCGCCAGA 
    GTCTCAAACT CCAGAGATCC AAGTCTAACA CCATCCATAG GACCAGTAAG CAGGGGGATG 
    AAGGAAAGCA TAAGTCACAA GATAAGGCAA GAGAAAGGCA CAAGGGCATC CAACTATAGG 
    CTCCAGGTAA GGAGATCATT CAAGACTTGG TGGCAGAAGA AACCCCAGAT GGACCTGATC 
    TCACCCTTGT TGTTACCAGT GTTACTACTA CATCCCCAGG AAAAGCCCTC AGACCTGGTC 
    TTCAGTCAGG AGCTGATACT GGGGCCTAAC TCTGAGACCC CCAACTTGTA CCTGGAACGA 
    CAGTGGGAGA AGCTAGAGGA GCAGTTGGCC ACCTCAGCTG CTCAACTGAA GTTGAGCCCC 
    CACCTGGCCC GGTGTCATTC CATGGCCCAG CACGTGGCCC GCCTGGTCCG GGTGCTGGCC 
    AGGCCCCGGC AGCATGGCCT GCTGCTCTCG GGGGCTCTGG GTACTGGGCG CCACACTGCC 
    ATCACTCTGG CTTCTAGCAT TTGTCAGGCC CATTTCTTTC ATCTACCATC TGGGTCAGAG 
    GAGGCCATTC TCCAATGTCT ACGAGATGCC AGCTGGCATG CTGGCATGTT AAGCCAGCCA 
    GTGGCTCTGT TGGTACCCAG TGGTGTGGAT CTCACTACAC TTCATCGCCT CCTGGCCCTG 
    GCAACCTCAG GCAGTTTCCC TGGCCAGTAC ACAGAAGCAG ATTTGGACCG CATTGGAGAA 
    CACCTCCCCA GGGAGAACCT TGGTGTCAAA CAGAACATCA AGAAGGAAAT GGTGTTGCAG 
    AGGTTCCACC AGCAAGTGTG CAGCCACCTT CACCTGTTCT TCCTGATTGG AGATAAACAG 
    GCCCACAAGC AGCTGCCCTC CACCCTTTTC CTGAGGCTCC TTCAACTGGC CACTGCCAGC 
    ATTGACCGCT ATGAACCCTG GGACCAAGCT GCCCTGGCCA AGGTGGCCCA GCATCACCTG 
    GAGGGTGCTC AGAGTGTGCC CCTTGATGAC GGCTCCTGGA AGTACCCAGA CCTCCAGGCC 
    TCAATTCCCA GTGTGGCCAA AGCCATGGCT CTTATCCACC TTTCGGCCAC CCACTACCAT 
    GAGCACCTGT GCCCTGCATT GCCACTCGTC ACCCCCAAGA CCTTCCTAGA CTTCCTGGAC 
    ACTTTCCTGA TGCTGCAGCA ACAGACAATC CTGAAGATTA AGAACAAGGC CCAGCGGGTC 
    CAGAATGCCT TGGAGAATCT GAGAATGCTG ATTAAGGAGC ACGGTACCCA TGCCAATCTG 
    ATCTTTGACT TGGAACAGCA GCTGAAAGAC TCCGGCAAGA GTCTCAGCAT GTTTCAGCAG 
    CAGCTAGAGC AAAGCAAGCT CCTATACAAG CAGCAGCTGG AAGAGTGTCG GCATCAAGAG 
    AACCTCATTG AGAACCTGGC CAGGCAACGG GATGCCCTGC AAGCTCAGCG AGAGGCTTTC 
    CTGGAGCAGA TGAGCAAGGC ATTTCTGGAG CCTCTGAGCC AGCTGCAGGT GGCTGACTTT 
    GAGGAGATAC GGAGCTATCG AGCACCACCA GAATCTGTGG TCCGGGTAAC TGATGCAATG 
    TGTGACTTGT TCCACCATGA AACAGGCTGG GCCAGTGCCA AACAGCTGTT ATGCACTGAG 
    GATTTTTATC AGGAGCTGGT GTTCTTCCCC AAGGAGAAGA TAACAGACTC AGAGCTGATA 
    AAGTTACATC TAATTCTGAA GGCTCCAGGT ATGGACGATG CAGCCCTGCG GGCAGTGAGC 
    CGACCTGCAG CCAGCCTGGC AGCCTGGCTC TGGGCTGTTC TGCACTATGG GCTGGCGCAT 
    TGCCGGGGAC TGCCCACGGA CCTGCTGCTG CAGCAAGTGG AGGCAACACT CACTCGGGAG 
    CAGGCCCGCC TGGGCTACTA CCAGTTTCAG GCCCAGGAGA CCCTGGAGCA TAATTTGGCC 
    CTGGCTAAGA TGGTGGAGGA TGCCCAAGCT TCCCACAACT GCGTGGCAAA GACCCTCAGT 
    CAAGCACAGT GTGGGCAGTA TCACAAATGG CCCATGAAGG CTGCACTGCT CACGCCTATG 
    CGTGCCTGGA CTACACAGCT CCAGAAGCTG AAGGGACGCT GCATGACTGT GTTTGGAGAT 
    ACCCTCCTAT GTTCAGCTGC CATCATCTAC CTGGGTCCCT TCCCACCATT GCGGCGCCAA 
    GAGCTACTGG ACGAGTGGTT AGCTCTGTGT AGGGGCTTTC AGGAGGCTCT GGGCCCAGAT 
    GATGTGGCAC AGGCACTGAA GCGGAAGCAA AAATCTGTCA GCATACCACC AAAGAACCCC 
    CTGCTGGCTA CACACTCTCC CTTCAGTATT CTGTCCTTGC TGAGCTCTGA ATCGGAGCAG 
    TACCAGTGGG ATGGAAACCT GAAGCCACAG GCAAAGTCGG CCCACCTGGC AGGCTTGCTT 
    CTGCGAAGCC CCACACACTA CAGTAGTTGC CGTTGGCCTC TGCTGCTTGA CCCCAGCAAC 
    GAGGCCCTCA TCTGGTTGGA CCCGCTGCCT CTGGAAGAGA ATCGATCTTT TGCGCCAGCC 
    CTCACTGAGG GTAGAGGGAA AGGCCTCATG AGAAATCAAA AGAGAGAGAG TAAAACGGAC 
    ATGAAAGAGG AAGATGATGA GAGTGAAGAG AGTAATGAGG CTGAGGACCA GACAAAAGAG 
    CAGAAGGCAG AGGAAAGAAA AAATGAGCAG GAGAAAGAGC AAGAGGAAAA TGAAGAGAAA 
    GAGGAGGAGA AGACAGAGAG CCAGGGGTCA AAGCCAGCCT ATGAGACTCA GCTTCCATCC 
    CTTCCCTACC TTAGTGTTCT TTCAGGTGCT GACCCAGAGC TGGGTTCTCA GCTCCAGGAG 
    GCAGCTGCTT GTGGCCTGCC TGTGTTACTG ACCAATGTGG AGCTGGGTCT AGGGTGCGAA 
    GAACTGCAAT GGCTGCTGCA ACGGGAGCAG CTGAGTCCAC CCCAGGTGCA GCCTGGCTTC 
    TGTCTGTATC TCAGCACCAC CCTCTCCCTC TGTGCCATGG AAAAAGTGCT AGGTTGTGAA 
    CTGCTAAAGG GGCTGAATGT GTTGGATCTG GGCCTGAACA TGGAAATACT GGAAGAACAG 
    ATGCTGCATG AAATCTTGTG CAGAGAGTAT CCTGAACTCG AGACCCGCTG GCAGGACCTA 
    AAGATCAGAG CCCTAGATAC CTGCAAGGCT GTGGAGGCTG CTGAGGAGCG GCTGCTGACG 
    ATGCTGCTGT TCCAGAATCC GAAGCGTCAG AAGCCAGCCA AGTTTCTGCG GAACATAGTG 
    AGGGCCCAAG GAAAGCTATG CCAGCTGCGT GCTCATTGTG AAGAGTTAGA AGGGCAGAAA 
    CTACAGGAGA TGGTATTGTG GGCACCCTAT CGACCTGTGG TTTGGCATGG AATGGCCATG 
    GTAAAGGCCC TAAGCCAACT GCAGAACCTG CTGCCACTTT TCTGTATGAG CCCAGAGAAC 
    TGGCTGGCAG TCACTAAGCA GGCTCTGGAC AGCATGAAGC CACGTGAGAT TAATCACGGG 
    GAGGACCTGG CCAGCCATCT ACTGCAATTG AGAGCACACC TGACCCGCCA GCTGCTGGGC 
    AGCACCGTGA CTGCACTGGG CCTTACCCAA GTACCCTTGG TGGGTGCATT GGGCGCTTTG 
    GCTCTGCTGC AAGCAACAGG GAAAGCATCA GAGCTGGAAA GACTGGCACT CTGGCCTGGA 
    CTAGCAGCCT CTCCCAGCAC AGTCCACAGC AAGCCAGTCT CAGATGTGGC TCGACCGGCC 
    TGGCTTGGGC CAAAAGCCTG GCATGAATGT GAGATGTTAG AGCTGCTGCC CCCATTTGTT 
    GGCCTGTGTG CCTCCCTGGC AGGCCACTCC AGTGCTTGGC AGGCTTACCT GTCACTGTCA 
    TCCACAGTGC TGGGTCCTGC ACCTGGGCCA GGGCCTGAGC CACTCAGCCT CCTCCAGAAG 
    CTGATCCTGT GGCGCGTTCT GCGACCTGAG TGCCTGGCAG GTGCCCTGGC AGACTTCACC 
    ACTAGCCTCC TGGGTCGGCC CCTGGATGAA AACACGTATG CTCCCACCAT GCCCTTTAAA 
    CATAGTCAGG CTACTCAGCC CATGCTGATC TTGTTGCCAC CGCCTGGCCA CCCCTCAGCC 
    ACTCTGCATC CTCTGACTGT CATCCAGAAA CTGGCTGCCA AGTATCAGCA GGGGCAGAAG 
    CAACTGCAGG TGATAGCCCT GGGCTCTGAA GCCTGGGACC CAGTCTCAGT TGTGGTCAGC 
    ACTCTATCCC AGGCTATGTA TGAGGGGCAC TGGCTGGTGC TGGACAACTG TCATCTGATG 
    CCCCATTGGC CGAAAGAGCT GCTACAGCTC TTGCTGGAAC TGTTAGGCAG AGCCAAGGTG 
    GTTGCAGACC TGGAATCAGA ACAGCTTTTA GACCAACCTG AAAGCAGGAA TGTAAGCACT 
    GTTCACAGAG ATTTTCGTCT TTGGCTTATT GTGCCTGCAG AGTCTAGTGC TTCTTTGCCA 
    GCTGTGCTGA CTCAGCACTC CATGCCTGTT TTCTGGAACC AGTCCCTGGA GCTGGGCCAT 
    GTTTTGATTG ACAGTGTGGA GCTAGCCCAG CAAGTACTCT ACATGCAACC CCCCACCCAG 
    GCACTACCTC TGCTCCTCCT CCATGGCCTC CTGCTACACC GGCAGCTCTA TGGAACAAGG 
    CTGCAGGCAC ACAGGGGGCG CTGGAGTCAA GTGACTCTAA CCCAGGTTCT TCAGACCCAA 
    GACCAGCTGT GGGCAAGTCT TAGCAATCCC CGTGCTGCCA TGCAAGAGCT GGCTGCTTCA 
    GTTTTCTACG GGGGTCCTCT GGGGGACACT GAGGACAGGG AGGCCCTGAT TAGCCTCACA 
    CAAGCCTGCC TGAGCCCCAG TAGTGGGAGC TGGGTCCAGC CACACACACC TCAGTCTTTG 
    CTGGCCACGC TCATGCCCCT CCCAGAGCTA AGGGAGCTGG ATGCAATGGC AGAGTGCAAG 
    GCCCAGATGC ACCTACTGCC CTCACCACCT GAACCCCGGC TCTGCGGACT GAGTGAGGGC 
    CCCCAAGCCT GGCTGTTGCG ACGCCAGAGT CGCGCTCTCT TGAGTGCGCT GCAGCGGAGT 
    TCACCCGTGT GGGTTCCTGA GTCTCGAAGA GGCGCCCAGC TTGCGGAAAG GCGACTGCGG 
    CAACGCCTAG TGCAAGTCAA CCGGAGGCTG GAGTCACTGC AGGATCTGCT GACCCACGTG 
    ATTCGCCAAG ACGAGTCCGA CGCCCCGTGG TCAGTGCTGG GGCCAAATGC ACGGCGGCCT 
    CTGGAGGGCG TCTTAGAGAC CGAGGCTCTA GAACTGAGCC AGTTGGTGGG CACGCTACAA 
    CGCGACCTTG ATTGCCTGTT GCAGCAGCTG AAGGGCGCAC CCCCGTGCCC CTCCCGCCGC 
    TGTGCTGCGG TGGCCCACGC TCTCTGGACT GGCCGCCTAC CCTTGCCTTG GCGACCTCAT 
    GCGCCGGCCG GTCCGCAGCC GCCCTGGCAC TGGCTGCGAC AGTTGTCGCG CCGTGGGCAA 
    CTGTTGGTTC GTTACTTGGG CGTGGGCGCG GACGCGAGCA GTGATGTACC AGAGCGCGTC 
    TTCCACCTGT CAGCCTTTCG CCACCCGCGC CGCCTGCTGC TGGCATTGCG TGGGGAAGCT 
    GCCCTGGACC AGAATGTGCC CAGCTCGAAT TTCCCTGGTA GCCGAGGCTC GGTCTCCAGT 
    CAGCTCCAGT ATAAACGTCT GGAGATGAAC AGCAACCCTC TGCACTTCAG GGTGGAGAAT 
    GGTCCAAATC CCACGGTTCC AGAGAGAGGG CTGCTGCTGA TCGGGCTACA GGTCCTACAT 
    GCGGAGTGGG ACCCAATAGC TGGAGCCTTG CAGGACAGTC CTTCCAGCCA ACCCAGCCCT 
    CTGCCTCCCG TCAGCATCAG CACACAGGCC CCGGGCACCA GTGACCTGCC AGCCCCAGCC 
    GACCTGACTG TGTACTCGTG TCCTGTGTAC ATGGGAGGGC CCCTTGGCAC CGCTAAGCTG 
    CAGAGCAGGA ACATCGTGAT GCATCTGCCT TTACCCACCA AGCTCACCCC CAACACCTGT 
    GTCCAAAGGA GGGTCCATGT GTGCAGCCCA CCCCTGTCTT GA

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

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