cluha cDNA ORF clone, Danio rerio(zebrafish)

The following cluha gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cluha 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
ODa148971 XM_021481439.1
Latest version!
Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa38343 NM_001077560.1
Latest version!
Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa20483 XM_005157586.4
Latest version!
Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa20484 XM_005157587.4
Latest version!
Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa20483 XM_005157586.3 Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa20484 XM_005157587.3 Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa148971
    Clone ID Related Accession (Same CDS sequence) XM_021481439.1
    Accession Version XM_021481439.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4128bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product clustered mitochondria protein homolog isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) 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 :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGGTAAGG AAGCTGATGA AAATATTCCC
    GGACTTGCCC AAGCTAAAGA GCTGGCCGAG TCCTTAGCAG CAGAAGATGG ATCCGGTATC
    GACCCCAAAA GTCGTGAGGT GGTGCTTAAT GCCTGTAAAG CTGTGGGCTC CATCAGCAAC
    ACCTCCTTCG ACATTCGCTT CAACCCAGAC ATCTTTTCTC CAGGAGTACG TTTCCCGGAT
    GACAGCAATG AAGACATTCA GAAACAGAAG CAGCTTCTCA AAGATGCTGC CGCCTTTCTT
    GTGTCCTGCC AGATCCCTTC TCTCGTGAAA GACTGTTTAG ATCACAGCTC TCTGCCTATG
    GATGGAGCGA CGATGACAGA AGCCCTTCAT CAGCGTGGCA TTAATGTGCG TTATCTTGGT
    ACTGTGCTGG AGTTTATGGA TAACATGCCT GCAAAAGCAC AACTTGAACA CATCTACAGA
    ATAGGAATCA GTGAACTGAT CACCAGATGT GCAAAGCATA TCTTCAAAAC ATATCTTCAG
    GGTGTGGATC TCTCTGCTTT ATCCGCTGCG GTGAGCCACT TCCTCAACTG CCTCTTGAGC
    TCTTTCCCAG ATGCAGTGGC TCACCTTCCT GCAGATGAGC TGGTGTCCCG CAAAAAGAGC
    CGCAAGAGAC GCAACCGTGT CCCCGGTGGA GGAGACAACA CGGCCTGGGC CAGCCTGACA
    CCCAGCGAAC TGTGGAAGAA CATCACCTCT GAGGCACACG GCTACTATAA CTTCAGTCTT
    CAATGTGAAA GCGTGGACCA GGCAGTGGAG AAGTACGGTT TGCAGAAGAT CACCCTGCTG
    AGGGAGATCT CAATCAAGAC TGGCATTCAG ATCTTGATAA AGGAGTACAA CTTCGACAGC
    CGCCACAAGC CAGCCTTCAC AGAGGAGGAC ATCCTGAACA TTTTCCCTGT TGTGAAGCAC
    GTCAACCCCA AAGCCTCAGA TGCCTTCCAT TTCTTCCAGA GCGGACAGGC CAAGGTTCAG
    CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC ATCAACGAGG CCTTGAACCT CTTCAACAAT
    GTGTATGGAG CCATGCATGT GGAGATCTGT GCCTGCCTGC GTCTTCTGGC TCGACTCAAC
    TACATCATGG GCGATCACCC AGAGGCTCTG AGCAACCAGC AGAAGGCTGT GCTGATGAGT
    GAGAGAGTGC TGGGTATTGA ACATCCCAAT ACTATTCAAG AATATATGCA CTTAGCACTG
    TACTGCTTTG CTAACGGTCA GCTGTCCACT GCCCTGAAGC TGCTGTATCG TGCTCGCTAC
    CTCATGCTCG TGGTCTGTGG AGAGGACCAT CCTGAAATGG CTCTGCTCGA TAGCAATATT
    GGTCTGGTGC TTCATGGTGT GATGGAGTAT GACCTGTCTC TGCGTTTCCT GGAGAACGCG
    CTGGCCATCA ACACAAAATA CCACGGGCCG CGATCCTTGA AAGTAGCCCT CAGTCATCAC
    CTGGTGGCCA GAGTTTATGA GAGCAAGGCT GAGTTTCGCT CTGCACTTCA GCATGAGAAG
    GAGGGATATA CTATATACAA GAACCAGGTT GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC
    TCAGAGTACT TGAAGTACCT CACGCAGCAG GCCGTGGCTC TACAGAGAAC CATGAACGAG
    ATCTACAAAA ACGGCTCCAA TGCTAGCATA ATGCCTCTCA AGTTTACGGC ACCAAGCATG
    GCCAGTGTTC TGGAGCAGCT TAATATCATC AATGGCATCA TCTTTATTCC CCTTAGTTCT
    TACGGTGATT CACGAATGAA TAATGTGAAC AAATTCTATG AAGTGTGA

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

    RefSeq XP_021337114.1
    CDS222..4349
    Translation

    Target ORF information:

    RefSeq Version XM_021481439.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021481439.1

    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
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGGTAAGG AAGCTGATGA AAATATTCCC
    GGACTTGCCC AAGCTAAAGA GCTGGCCGAG TCCTTAGCAG CAGAAGATGG ATCCGGTATC
    GACCCCAAAA GTCGTGAGGT GGTGCTTAAT GCCTGTAAAG CTGTGGGCTC CATCAGCAAC
    ACCTCCTTCG ACATTCGCTT CAACCCAGAC ATCTTTTCTC CAGGAGTACG TTTCCCGGAT
    GACAGCAATG AAGACATTCA GAAACAGAAG CAGCTTCTCA AAGATGCTGC CGCCTTTCTT
    GTGTCCTGCC AGATCCCTTC TCTCGTGAAA GACTGTTTAG ATCACAGCTC TCTGCCTATG
    GATGGAGCGA CGATGACAGA AGCCCTTCAT CAGCGTGGCA TTAATGTGCG TTATCTTGGT
    ACTGTGCTGG AGTTTATGGA TAACATGCCT GCAAAAGCAC AACTTGAACA CATCTACAGA
    ATAGGAATCA GTGAACTGAT CACCAGATGT GCAAAGCATA TCTTCAAAAC ATATCTTCAG
    GGTGTGGATC TCTCTGCTTT ATCCGCTGCG GTGAGCCACT TCCTCAACTG CCTCTTGAGC
    TCTTTCCCAG ATGCAGTGGC TCACCTTCCT GCAGATGAGC TGGTGTCCCG CAAAAAGAGC
    CGCAAGAGAC GCAACCGTGT CCCCGGTGGA GGAGACAACA CGGCCTGGGC CAGCCTGACA
    CCCAGCGAAC TGTGGAAGAA CATCACCTCT GAGGCACACG GCTACTATAA CTTCAGTCTT
    CAATGTGAAA GCGTGGACCA GGCAGTGGAG AAGTACGGTT TGCAGAAGAT CACCCTGCTG
    AGGGAGATCT CAATCAAGAC TGGCATTCAG ATCTTGATAA AGGAGTACAA CTTCGACAGC
    CGCCACAAGC CAGCCTTCAC AGAGGAGGAC ATCCTGAACA TTTTCCCTGT TGTGAAGCAC
    GTCAACCCCA AAGCCTCAGA TGCCTTCCAT TTCTTCCAGA GCGGACAGGC CAAGGTTCAG
    CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC ATCAACGAGG CCTTGAACCT CTTCAACAAT
    GTGTATGGAG CCATGCATGT GGAGATCTGT GCCTGCCTGC GTCTTCTGGC TCGACTCAAC
    TACATCATGG GCGATCACCC AGAGGCTCTG AGCAACCAGC AGAAGGCTGT GCTGATGAGT
    GAGAGAGTGC TGGGTATTGA ACATCCCAAT ACTATTCAAG AATATATGCA CTTAGCACTG
    TACTGCTTTG CTAACGGTCA GCTGTCCACT GCCCTGAAGC TGCTGTATCG TGCTCGCTAC
    CTCATGCTCG TGGTCTGTGG AGAGGACCAT CCTGAAATGG CTCTGCTCGA TAGCAATATT
    GGTCTGGTGC TTCATGGTGT GATGGAGTAT GACCTGTCTC TGCGTTTCCT GGAGAACGCG
    CTGGCCATCA ACACAAAATA CCACGGGCCG CGATCCTTGA AAGTAGCCCT CAGTCATCAC
    CTGGTGGCCA GAGTTTATGA GAGCAAGGCT GAGTTTCGCT CTGCACTTCA GCATGAGAAG
    GAGGGATATA CTATATACAA GAACCAGGTT GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC
    TCAGAGTACT TGAAGTACCT CACGCAGCAG GCCGTGGCTC TACAGAGAAC CATGAACGAG
    ATCTACAAAA ACGGCTCCAA TGCTAGCATA ATGCCTCTCA AGTTTACGGC ACCAAGCATG
    GCCAGTGTTC TGGAGCAGCT TAATATCATC AATGGCATCA TCTTTATTCC CCTTAGTTCT
    TACGGTGATT CACGAATGAA TAATGTGAAC AAATTCTATG AAGTGTGA

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

    CloneID ODa38343
    Clone ID Related Accession (Same CDS sequence) NM_001077560.1
    Accession Version NM_001077560.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4203bp)
    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 2018-11-23
    Organism Danio rerio(zebrafish)
    Product clustered mitochondria protein homolog
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC125829.1. On Nov 9, 2006 this sequence version replaced XM_686041.1. ##Evidence-Data-START## Transcript exon combination :: BC125829.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## gene product(s) localized to mito. :: inferred from homology ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGGAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CAGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTTCTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCGGCTGC GGCAACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TTGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTTCGAGCAT ACAGCGCTGT AGACGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGGTAAGG AAGCTGATGA AAATATTCCC
    GGACTTGCCC AAGCTAAAGA GCTGGCCGAG TCCTTAGCAG CAGAAGATGG ATCCGGTATC
    GACCCCAAAA GTCGTGAGGT GGTGCTTAAT GCCTGTAAAG CTGTGGGCTC CATCAGCAAC
    ACCTCCTTCG ACATTCGCTT CAACCCAGAC ATCTTTTCTC CAGGAGTACG TTTCCCGGAT
    GACAGCAATG ACGACATTAA GAAACAGAAG CAGCTTCTCA AAGATGCTGC CGCCTTTCTT
    GTGTCCTGCC AGATCCCTTC TCTCGTGAAA GACTGTTTAG ATCACAGCTC TCTGCCTATG
    GATGGAGCGA CATTGACAGA AGCCCTTCAT CAGCGTGGCA TTAATGTGCG TTATCTTGGT
    ACTGTGCTGG AGTTTATGGA TAACATGCCT GCAAAAGCAC AACTTGAACA CATCTACAGA
    ATAGGAATCA GTGAACTGAT CACCAGATGT GCAAAGCATA TCTTCAAAAC ATATCTTCAG
    GGTGTGGATC TCTCTGCTTT ATCCGCTGCG GTGAGCTACT TCCTCAACTG CCTCTTGAGC
    TCTTTCCCAG ATGCAGTGGC TCACCTTCCT GCAGATGAGC TGGTGTCCCG CAAAAAGAGC
    CGCAAGAGAC GCAACCGTGT CCCTGGTGGA GGAGACAACA CGGCCTGGGC CAGCCTGACA
    CCCAGCGAAC TGTGGAAGAA CATCACCTCT GAGGCACATG GCTACTATAA CTTCAGTCTT
    CAATGTGAAA GCGTGGACCA GGCAGTGGAG AAGTACGGTT TGCAGAAGAT CACCCTGCTG
    AGGGAGATCT CAATCAAGAC TGGCATTCAG ATCTTGATAA AGGAGTACAA CTTCGACAGC
    CGCCACAAGC CAGCCTTCAC CGAGGAGGAC ATCCTGAACA TTTTCCCTGT TGTAAAGCAC
    GTCAACCCCA AAGCCTCAGA TGCCTTCCAT TTCTTCCAGA GCGGACAGGC CAAGGTTCAG
    CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC ATCAACGAGG CCTTGAACCT CTTCAACAAT
    GTGTATGGAG CCATGCATGT GGAGATCTGT GCCTGCCTGC GTCTTCTGGC TCGACTCAAC
    TACATCATGG GCGATCACCC AGAGGCTCTG AGCAACCAGC AGAAGGCTGT GCTGATGAGT
    GAGAGAGTGC TGGGTATTGA ACATCCCAAT ACTATTCAAG AATATATGCA CTTAGCACTG
    TACTGCTTTG CTAACGGTCA GCTGTCCACT GCCCTGAAGC TGCTGTATCG TGCTCGCTAC
    CTCATGCTCG TGGTCTGTGG AGAGGACCAT CCTGAAATGG CTCTGCTCGA TAGCAATATT
    GGTCTGGTGC TTCATGGTGT GATGGAGTAT GACCTGTCTC TGCGTTTCCT GGAGAACGCG
    CTGGCCATCA ACACAAAATA CCACGGGCCG CGATCCTTGA AAGTAGCCCT CAGTCATCAC
    CTGGTGGCCA GAGTTTATGA GAGCAAGGCT GAGTTTCGCT CTGCACTTCA GCATGAGAAG
    GAGGGATATA CTATATACAA GAACCAGGTT GGCGAAGCAC ATGAGAAGAC AAAGGAGAGC
    TCAGAGTACT TGAAGTACCT CACGCAGCAG GCCGTGGCTC TACAGAGAAC CATGAACGAG
    ATCTACAAAA ACGGCTCCAA TGCTAGCATA ATGCCTCTCA AGTTTACGGC ACCAAGCATG
    GCCAGTGTTC TGGAGCAGCT TAATATCATC AATGGCATCA TCTTTATTCC CCTTAGTCAA
    AAGGACCTGG AGAACCTGAA GGCTGAGGTA CAGAGACGGC AGCTGATGCA GGATTCTGGG
    AAAATCCAGG AACAGCAGGG CAGTCATTTA GAGCTGGATG ACAAGCTGCC TGTGGATGAT
    TAA

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

    RefSeq NP_001071028.1
    CDS175..4377
    Translation

    Target ORF information:

    RefSeq Version NM_001077560.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001077560.1

    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
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGGAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CAGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTTCTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCGGCTGC GGCAACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TTGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTTCGAGCAT ACAGCGCTGT AGACGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGGTAAGG AAGCTGATGA AAATATTCCC
    GGACTTGCCC AAGCTAAAGA GCTGGCCGAG TCCTTAGCAG CAGAAGATGG ATCCGGTATC
    GACCCCAAAA GTCGTGAGGT GGTGCTTAAT GCCTGTAAAG CTGTGGGCTC CATCAGCAAC
    ACCTCCTTCG ACATTCGCTT CAACCCAGAC ATCTTTTCTC CAGGAGTACG TTTCCCGGAT
    GACAGCAATG ACGACATTAA GAAACAGAAG CAGCTTCTCA AAGATGCTGC CGCCTTTCTT
    GTGTCCTGCC AGATCCCTTC TCTCGTGAAA GACTGTTTAG ATCACAGCTC TCTGCCTATG
    GATGGAGCGA CATTGACAGA AGCCCTTCAT CAGCGTGGCA TTAATGTGCG TTATCTTGGT
    ACTGTGCTGG AGTTTATGGA TAACATGCCT GCAAAAGCAC AACTTGAACA CATCTACAGA
    ATAGGAATCA GTGAACTGAT CACCAGATGT GCAAAGCATA TCTTCAAAAC ATATCTTCAG
    GGTGTGGATC TCTCTGCTTT ATCCGCTGCG GTGAGCTACT TCCTCAACTG CCTCTTGAGC
    TCTTTCCCAG ATGCAGTGGC TCACCTTCCT GCAGATGAGC TGGTGTCCCG CAAAAAGAGC
    CGCAAGAGAC GCAACCGTGT CCCTGGTGGA GGAGACAACA CGGCCTGGGC CAGCCTGACA
    CCCAGCGAAC TGTGGAAGAA CATCACCTCT GAGGCACATG GCTACTATAA CTTCAGTCTT
    CAATGTGAAA GCGTGGACCA GGCAGTGGAG AAGTACGGTT TGCAGAAGAT CACCCTGCTG
    AGGGAGATCT CAATCAAGAC TGGCATTCAG ATCTTGATAA AGGAGTACAA CTTCGACAGC
    CGCCACAAGC CAGCCTTCAC CGAGGAGGAC ATCCTGAACA TTTTCCCTGT TGTAAAGCAC
    GTCAACCCCA AAGCCTCAGA TGCCTTCCAT TTCTTCCAGA GCGGACAGGC CAAGGTTCAG
    CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC ATCAACGAGG CCTTGAACCT CTTCAACAAT
    GTGTATGGAG CCATGCATGT GGAGATCTGT GCCTGCCTGC GTCTTCTGGC TCGACTCAAC
    TACATCATGG GCGATCACCC AGAGGCTCTG AGCAACCAGC AGAAGGCTGT GCTGATGAGT
    GAGAGAGTGC TGGGTATTGA ACATCCCAAT ACTATTCAAG AATATATGCA CTTAGCACTG
    TACTGCTTTG CTAACGGTCA GCTGTCCACT GCCCTGAAGC TGCTGTATCG TGCTCGCTAC
    CTCATGCTCG TGGTCTGTGG AGAGGACCAT CCTGAAATGG CTCTGCTCGA TAGCAATATT
    GGTCTGGTGC TTCATGGTGT GATGGAGTAT GACCTGTCTC TGCGTTTCCT GGAGAACGCG
    CTGGCCATCA ACACAAAATA CCACGGGCCG CGATCCTTGA AAGTAGCCCT CAGTCATCAC
    CTGGTGGCCA GAGTTTATGA GAGCAAGGCT GAGTTTCGCT CTGCACTTCA GCATGAGAAG
    GAGGGATATA CTATATACAA GAACCAGGTT GGCGAAGCAC ATGAGAAGAC AAAGGAGAGC
    TCAGAGTACT TGAAGTACCT CACGCAGCAG GCCGTGGCTC TACAGAGAAC CATGAACGAG
    ATCTACAAAA ACGGCTCCAA TGCTAGCATA ATGCCTCTCA AGTTTACGGC ACCAAGCATG
    GCCAGTGTTC TGGAGCAGCT TAATATCATC AATGGCATCA TCTTTATTCC CCTTAGTCAA
    AAGGACCTGG AGAACCTGAA GGCTGAGGTA CAGAGACGGC AGCTGATGCA GGATTCTGGG
    AAAATCCAGG AACAGCAGGG CAGTCATTTA GAGCTGGATG ACAAGCTGCC TGTGGATGAT
    TAA

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

    CloneID ODa20483
    Clone ID Related Accession (Same CDS sequence) XM_005157586.3 , XM_005157586.4
    Accession Version XM_005157586.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4116bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product clustered mitochondria protein homolog isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005157586.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGACCCCA AAAGTCGTGA GGTGGTGCTT
    AATGCCTGTA AAGCTGTGGG CTCCATCAGC AACACCTCCT TCGACATTCG CTTCAACCCA
    GACATCTTTT CTCCAGGAGT ACGTTTCCCG GATGACAGCA ATGAAGACAT TCAGAAACAG
    AAGCAGCTTC TCAAAGATGC TGCCGCCTTT CTTGTGTCCT GCCAGATCCC TTCTCTCGTG
    AAAGACTGTT TAGATCACAG CTCTCTGCCT ATGGATGGAG CGACGATGAC AGAAGCCCTT
    CATCAGCGTG GCATTAATGT GCGTTATCTT GGTACTGTGC TGGAGTTTAT GGATAACATG
    CCTGCAAAAG CACAACTTGA ACACATCTAC AGAATAGGAA TCAGTGAACT GATCACCAGA
    TGTGCAAAGC ATATCTTCAA AACATATCTT CAGGGTGTGG ATCTCTCTGC TTTATCCGCT
    GCGGTGAGCC ACTTCCTCAA CTGCCTCTTG AGCTCTTTCC CAGATGCAGT GGCTCACCTT
    CCTGCAGATG AGCTGGTGTC CCGCAAAAAG AGCCGCAAGA GACGCAACCG TGTCCCCGGT
    GGAGGAGACA ACACGGCCTG GGCCAGCCTG ACACCCAGCG AACTGTGGAA GAACATCACC
    TCTGAGGCAC ACGGCTACTA TAACTTCAGT CTTCAATGTG AAAGCGTGGA CCAGGCAGTG
    GAGAAGTACG GTTTGCAGAA GATCACCCTG CTGAGGGAGA TCTCAATCAA GACTGGCATT
    CAGATCTTGA TAAAGGAGTA CAACTTCGAC AGCCGCCACA AGCCAGCCTT CACAGAGGAG
    GACATCCTGA ACATTTTCCC TGTTGTGAAG CACGTCAACC CCAAAGCCTC AGATGCCTTC
    CATTTCTTCC AGAGCGGACA GGCCAAGGTT CAGCAAGGCT TTCTAAAAGA GGGTTGTGAG
    CTCATCAACG AGGCCTTGAA CCTCTTCAAC AATGTGTATG GAGCCATGCA TGTGGAGATC
    TGTGCCTGCC TGCGTCTTCT GGCTCGACTC AACTACATCA TGGGCGATCA CCCAGAGGCT
    CTGAGCAACC AGCAGAAGGC TGTGCTGATG AGTGAGAGAG TGCTGGGTAT TGAACATCCC
    AATACTATTC AAGAATATAT GCACTTAGCA CTGTACTGCT TTGCTAACGG TCAGCTGTCC
    ACTGCCCTGA AGCTGCTGTA TCGTGCTCGC TACCTCATGC TCGTGGTCTG TGGAGAGGAC
    CATCCTGAAA TGGCTCTGCT CGATAGCAAT ATTGGTCTGG TGCTTCATGG TGTGATGGAG
    TATGACCTGT CTCTGCGTTT CCTGGAGAAC GCGCTGGCCA TCAACACAAA ATACCACGGG
    CCGCGATCCT TGAAAGTAGC CCTCAGTCAT CACCTGGTGG CCAGAGTTTA TGAGAGCAAG
    GCTGAGTTTC GCTCTGCACT TCAGCATGAG AAGGAGGGAT ATACTATATA CAAGAACCAG
    GTTGGCGAAG CACATGAGAA GACGAAGGAG AGCTCAGAGT ACTTGAAGTA CCTCACGCAG
    CAGGCCGTGG CTCTACAGAG AACCATGAAC GAGATCTACA AAAACGGCTC CAATGCTAGC
    ATAATGCCTC TCAAGTTTAC GGCACCAAGC ATGGCCAGTG TTCTGGAGCA GCTTAATATC
    ATCAATGGCA TCATCTTTAT TCCCCTTAGT CAAAAGGACC TGGAGAACCT GAAGGCTGAG
    GTACAGAGAC GGCAGCTGAT GCAGGATTCT GGGAAAATCC AGGAACAGCA GGGCAGTCAT
    TTAGAGCTCG ATGACAAGCT GCCTGTGGAT GATTAA

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

    RefSeq XP_005157643.1
    CDS226..4341
    Translation

    Target ORF information:

    RefSeq Version XM_005157586.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005157586.3

    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
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGACCCCA AAAGTCGTGA GGTGGTGCTT
    AATGCCTGTA AAGCTGTGGG CTCCATCAGC AACACCTCCT TCGACATTCG CTTCAACCCA
    GACATCTTTT CTCCAGGAGT ACGTTTCCCG GATGACAGCA ATGAAGACAT TCAGAAACAG
    AAGCAGCTTC TCAAAGATGC TGCCGCCTTT CTTGTGTCCT GCCAGATCCC TTCTCTCGTG
    AAAGACTGTT TAGATCACAG CTCTCTGCCT ATGGATGGAG CGACGATGAC AGAAGCCCTT
    CATCAGCGTG GCATTAATGT GCGTTATCTT GGTACTGTGC TGGAGTTTAT GGATAACATG
    CCTGCAAAAG CACAACTTGA ACACATCTAC AGAATAGGAA TCAGTGAACT GATCACCAGA
    TGTGCAAAGC ATATCTTCAA AACATATCTT CAGGGTGTGG ATCTCTCTGC TTTATCCGCT
    GCGGTGAGCC ACTTCCTCAA CTGCCTCTTG AGCTCTTTCC CAGATGCAGT GGCTCACCTT
    CCTGCAGATG AGCTGGTGTC CCGCAAAAAG AGCCGCAAGA GACGCAACCG TGTCCCCGGT
    GGAGGAGACA ACACGGCCTG GGCCAGCCTG ACACCCAGCG AACTGTGGAA GAACATCACC
    TCTGAGGCAC ACGGCTACTA TAACTTCAGT CTTCAATGTG AAAGCGTGGA CCAGGCAGTG
    GAGAAGTACG GTTTGCAGAA GATCACCCTG CTGAGGGAGA TCTCAATCAA GACTGGCATT
    CAGATCTTGA TAAAGGAGTA CAACTTCGAC AGCCGCCACA AGCCAGCCTT CACAGAGGAG
    GACATCCTGA ACATTTTCCC TGTTGTGAAG CACGTCAACC CCAAAGCCTC AGATGCCTTC
    CATTTCTTCC AGAGCGGACA GGCCAAGGTT CAGCAAGGCT TTCTAAAAGA GGGTTGTGAG
    CTCATCAACG AGGCCTTGAA CCTCTTCAAC AATGTGTATG GAGCCATGCA TGTGGAGATC
    TGTGCCTGCC TGCGTCTTCT GGCTCGACTC AACTACATCA TGGGCGATCA CCCAGAGGCT
    CTGAGCAACC AGCAGAAGGC TGTGCTGATG AGTGAGAGAG TGCTGGGTAT TGAACATCCC
    AATACTATTC AAGAATATAT GCACTTAGCA CTGTACTGCT TTGCTAACGG TCAGCTGTCC
    ACTGCCCTGA AGCTGCTGTA TCGTGCTCGC TACCTCATGC TCGTGGTCTG TGGAGAGGAC
    CATCCTGAAA TGGCTCTGCT CGATAGCAAT ATTGGTCTGG TGCTTCATGG TGTGATGGAG
    TATGACCTGT CTCTGCGTTT CCTGGAGAAC GCGCTGGCCA TCAACACAAA ATACCACGGG
    CCGCGATCCT TGAAAGTAGC CCTCAGTCAT CACCTGGTGG CCAGAGTTTA TGAGAGCAAG
    GCTGAGTTTC GCTCTGCACT TCAGCATGAG AAGGAGGGAT ATACTATATA CAAGAACCAG
    GTTGGCGAAG CACATGAGAA GACGAAGGAG AGCTCAGAGT ACTTGAAGTA CCTCACGCAG
    CAGGCCGTGG CTCTACAGAG AACCATGAAC GAGATCTACA AAAACGGCTC CAATGCTAGC
    ATAATGCCTC TCAAGTTTAC GGCACCAAGC ATGGCCAGTG TTCTGGAGCA GCTTAATATC
    ATCAATGGCA TCATCTTTAT TCCCCTTAGT CAAAAGGACC TGGAGAACCT GAAGGCTGAG
    GTACAGAGAC GGCAGCTGAT GCAGGATTCT GGGAAAATCC AGGAACAGCA GGGCAGTCAT
    TTAGAGCTCG ATGACAAGCT GCCTGTGGAT GATTAA

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

    CloneID ODa20483
    Clone ID Related Accession (Same CDS sequence) XM_005157586.3 , XM_005157586.4
    Accession Version XM_005157586.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4116bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product clustered mitochondria protein homolog isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005157586.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGACCCCA AAAGTCGTGA GGTGGTGCTT
    AATGCCTGTA AAGCTGTGGG CTCCATCAGC AACACCTCCT TCGACATTCG CTTCAACCCA
    GACATCTTTT CTCCAGGAGT ACGTTTCCCG GATGACAGCA ATGAAGACAT TCAGAAACAG
    AAGCAGCTTC TCAAAGATGC TGCCGCCTTT CTTGTGTCCT GCCAGATCCC TTCTCTCGTG
    AAAGACTGTT TAGATCACAG CTCTCTGCCT ATGGATGGAG CGACGATGAC AGAAGCCCTT
    CATCAGCGTG GCATTAATGT GCGTTATCTT GGTACTGTGC TGGAGTTTAT GGATAACATG
    CCTGCAAAAG CACAACTTGA ACACATCTAC AGAATAGGAA TCAGTGAACT GATCACCAGA
    TGTGCAAAGC ATATCTTCAA AACATATCTT CAGGGTGTGG ATCTCTCTGC TTTATCCGCT
    GCGGTGAGCC ACTTCCTCAA CTGCCTCTTG AGCTCTTTCC CAGATGCAGT GGCTCACCTT
    CCTGCAGATG AGCTGGTGTC CCGCAAAAAG AGCCGCAAGA GACGCAACCG TGTCCCCGGT
    GGAGGAGACA ACACGGCCTG GGCCAGCCTG ACACCCAGCG AACTGTGGAA GAACATCACC
    TCTGAGGCAC ACGGCTACTA TAACTTCAGT CTTCAATGTG AAAGCGTGGA CCAGGCAGTG
    GAGAAGTACG GTTTGCAGAA GATCACCCTG CTGAGGGAGA TCTCAATCAA GACTGGCATT
    CAGATCTTGA TAAAGGAGTA CAACTTCGAC AGCCGCCACA AGCCAGCCTT CACAGAGGAG
    GACATCCTGA ACATTTTCCC TGTTGTGAAG CACGTCAACC CCAAAGCCTC AGATGCCTTC
    CATTTCTTCC AGAGCGGACA GGCCAAGGTT CAGCAAGGCT TTCTAAAAGA GGGTTGTGAG
    CTCATCAACG AGGCCTTGAA CCTCTTCAAC AATGTGTATG GAGCCATGCA TGTGGAGATC
    TGTGCCTGCC TGCGTCTTCT GGCTCGACTC AACTACATCA TGGGCGATCA CCCAGAGGCT
    CTGAGCAACC AGCAGAAGGC TGTGCTGATG AGTGAGAGAG TGCTGGGTAT TGAACATCCC
    AATACTATTC AAGAATATAT GCACTTAGCA CTGTACTGCT TTGCTAACGG TCAGCTGTCC
    ACTGCCCTGA AGCTGCTGTA TCGTGCTCGC TACCTCATGC TCGTGGTCTG TGGAGAGGAC
    CATCCTGAAA TGGCTCTGCT CGATAGCAAT ATTGGTCTGG TGCTTCATGG TGTGATGGAG
    TATGACCTGT CTCTGCGTTT CCTGGAGAAC GCGCTGGCCA TCAACACAAA ATACCACGGG
    CCGCGATCCT TGAAAGTAGC CCTCAGTCAT CACCTGGTGG CCAGAGTTTA TGAGAGCAAG
    GCTGAGTTTC GCTCTGCACT TCAGCATGAG AAGGAGGGAT ATACTATATA CAAGAACCAG
    GTTGGCGAAG CACATGAGAA GACGAAGGAG AGCTCAGAGT ACTTGAAGTA CCTCACGCAG
    CAGGCCGTGG CTCTACAGAG AACCATGAAC GAGATCTACA AAAACGGCTC CAATGCTAGC
    ATAATGCCTC TCAAGTTTAC GGCACCAAGC ATGGCCAGTG TTCTGGAGCA GCTTAATATC
    ATCAATGGCA TCATCTTTAT TCCCCTTAGT CAAAAGGACC TGGAGAACCT GAAGGCTGAG
    GTACAGAGAC GGCAGCTGAT GCAGGATTCT GGGAAAATCC AGGAACAGCA GGGCAGTCAT
    TTAGAGCTCG ATGACAAGCT GCCTGTGGAT GATTAA

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

    RefSeq XP_005157643.1
    CDS222..4337
    Translation

    Target ORF information:

    RefSeq Version XM_005157586.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005157586.4

    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
    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
    ATGGTGAGCA AGACGGATGA CATCCCAGCA TCAGTGCCGA ACTGCAGCCC GGCTGATTTT 
    GCCCGGGACG GAGAGACAGC CAACAGCAAA GGCACCACCA GTAAGAAGGA GGCGTCGTGT
    GCCTGCGGGC ACGGTGTTGA GACAGCAGTG ATGAACGGGG ATGCGGGTCA TGATCAGGCG
    GAGGAGGCCG ACTCAAAGCA GGACGGCAGT GGCGACGCAG ACCAAGCAGA AGATGCTAAC
    GAACAAGAAG TAATCGTAAT TCAAGACACT GGCTTCACTG TGAAGATCCA AGCACCAGGA
    ACCGAACCCT TTGACCTTCA GGTGTCTCCA CAAGAGATGG TACAGGAGAT TCATCAAGTT
    CTGATGGACC GAGAGGACAC CTGCCATCGC ACCTGCTTCT CCTTACAGCT CGACGGAAAT
    GTTCTCGACA ACTTTGCCGA GCTGAAATCC ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT
    AAAGTGGTCG AAGAGCCCTA CACAGTGCGT GAAGCTCGCA TTCATGTCCG TCACATCAGG
    GACCTGCTGA AGAGCCTGGA TCCATCAGAT GCTTATAATG GAGTAGACTG CAACTCCCTC
    TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT CTTGGAGATA CTGGCAAGCG CAAAAAGAAG
    GGCAGTGAAC TTGAGCAGAT TGATTGCACA CCTCCCGAAC ACATTCTGCC AGGCAGCAAA
    GAGCGTCCTT TAGTTCCCCT TCAGCCACAA AACAAAGACT GGAAGCCTAT GCAGTGCCTG
    AAGGTTTTGA CCATGAGTAG CTGGAACCCT CCGCCCGGCA ACAGAAAAAT GCACGGTGAC
    CTCATGTATC TGTACATCGT GACTGTTGAG GACAGACACG TCAGCATCAC TGCCTCCACA
    CGCGGATTCT ACCTCAATCA GTCCACTACT TATAACTTCA GCCCCAAGCC AGCCAATCCC
    AGCTTCCTCA GTCACTCTTT AGTGGAACTA CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG
    AACTTCACCA CTCTGCAGAA GAAGAGGGTT CAGAGGCATC CATTTGAGAG AATAGCCACT
    CCCTTTCAAG TGTACAGCTG GACTGCACCA CTGATTGATC ATGCTATGGA CTGTGTGAGA
    GCGGAGGACG CCTACACCTC CCGACTGGGT TATGAGGAGC ACATACCTGG CCAAACTAGA
    GACTGGAACG AGGAGCTTCA GACAACCAGA GAACTTACTC GAAAGAACCT TCCAGAGCGC
    CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT CATAGTGACT TTGCCGCTGC GGCGACCCGT
    GGTGCGATGG CGGTCATTGA TGGCAACGTC ATGGCCATCA ACCCTGGTGA GGAAACGCGC
    ATGCAGATGT TCATCTGGAA CAACATCTTC TTCAGCTTAG GTTTTGACGT GCGCGACCAC
    TACAGGGAGC TCGGCGGAGA CTCTGCTGCC CATGCCGCCC CTACCAATGA CCTGAACGGG
    GTGCGAGCAT ACAGCGCTGT AGATGTGGAA GGACTCTACA CTTTGGGAAC AGTGGTGGTT
    GACTACAGAG GATACCGTGT AACTGCGCAG TCCATCATTC CAGGCATTTT GGAGCGAGAG
    CAGGAGCAGA GCGTCATCTA TGGCTCCATT GATTTTGGCA AGACTGTAGT GTCGCATCCA
    AAATATCTGG AGCTGCTGGA GAAGACCAGT CGCCCGCTGA AGGTGCAGCG CCATGCGGTG
    CTCAATGAGA AGGACAGCGC TGTTGAGCTT TGCTCCTCGG TGGAGTGTAA GGGTATCATT
    GGCAATGATG GCCGACATTA TATCTTGGAC CTTTTGCGCA CTTTCCCTCC AGACCTGAAT
    TTCCTGCCAG TGGAGGGGGA GGAGCTCACC CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA
    CAGCATCGCC ATCGTCTGGC CTGCTTACGT CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC
    AGATATCTCC TTTTCATGAA GATGGCAGCA CTCCAACTAA TGCAGCAGAA AGCAAACAAA
    GACAAGACTG CAGCTCTGCA GGACTCAAAT GCTGCAGGTG CTGGATCTGA AAACAAACCT
    CTGGCTCTAG AATCCTGTGA TGGCACACCA GACTCTCCGA CTTCATCTGA ATCCACGCTG
    ACCCCTGAAG ACTCGGAGGC CACCACTGTC TCAGAGAACT CTTCTGCTGA AAACCAGGAA
    GCCATGACCG AGGTTCCTGT AGCAAGCATC AATGGTACCC ATGAGCCTTT GGCTGCAGAG
    CGGCAGAACG GAGGCTGTGA TGGGCCTCTG GAGGACCCCA AAAGTCGTGA GGTGGTGCTT
    AATGCCTGTA AAGCTGTGGG CTCCATCAGC AACACCTCCT TCGACATTCG CTTCAACCCA
    GACATCTTTT CTCCAGGAGT ACGTTTCCCG GATGACAGCA ATGAAGACAT TCAGAAACAG
    AAGCAGCTTC TCAAAGATGC TGCCGCCTTT CTTGTGTCCT GCCAGATCCC TTCTCTCGTG
    AAAGACTGTT TAGATCACAG CTCTCTGCCT ATGGATGGAG CGACGATGAC AGAAGCCCTT
    CATCAGCGTG GCATTAATGT GCGTTATCTT GGTACTGTGC TGGAGTTTAT GGATAACATG
    CCTGCAAAAG CACAACTTGA ACACATCTAC AGAATAGGAA TCAGTGAACT GATCACCAGA
    TGTGCAAAGC ATATCTTCAA AACATATCTT CAGGGTGTGG ATCTCTCTGC TTTATCCGCT
    GCGGTGAGCC ACTTCCTCAA CTGCCTCTTG AGCTCTTTCC CAGATGCAGT GGCTCACCTT
    CCTGCAGATG AGCTGGTGTC CCGCAAAAAG AGCCGCAAGA GACGCAACCG TGTCCCCGGT
    GGAGGAGACA ACACGGCCTG GGCCAGCCTG ACACCCAGCG AACTGTGGAA GAACATCACC
    TCTGAGGCAC ACGGCTACTA TAACTTCAGT CTTCAATGTG AAAGCGTGGA CCAGGCAGTG
    GAGAAGTACG GTTTGCAGAA GATCACCCTG CTGAGGGAGA TCTCAATCAA GACTGGCATT
    CAGATCTTGA TAAAGGAGTA CAACTTCGAC AGCCGCCACA AGCCAGCCTT CACAGAGGAG
    GACATCCTGA ACATTTTCCC TGTTGTGAAG CACGTCAACC CCAAAGCCTC AGATGCCTTC
    CATTTCTTCC AGAGCGGACA GGCCAAGGTT CAGCAAGGCT TTCTAAAAGA GGGTTGTGAG
    CTCATCAACG AGGCCTTGAA CCTCTTCAAC AATGTGTATG GAGCCATGCA TGTGGAGATC
    TGTGCCTGCC TGCGTCTTCT GGCTCGACTC AACTACATCA TGGGCGATCA CCCAGAGGCT
    CTGAGCAACC AGCAGAAGGC TGTGCTGATG AGTGAGAGAG TGCTGGGTAT TGAACATCCC
    AATACTATTC AAGAATATAT GCACTTAGCA CTGTACTGCT TTGCTAACGG TCAGCTGTCC
    ACTGCCCTGA AGCTGCTGTA TCGTGCTCGC TACCTCATGC TCGTGGTCTG TGGAGAGGAC
    CATCCTGAAA TGGCTCTGCT CGATAGCAAT ATTGGTCTGG TGCTTCATGG TGTGATGGAG
    TATGACCTGT CTCTGCGTTT CCTGGAGAAC GCGCTGGCCA TCAACACAAA ATACCACGGG
    CCGCGATCCT TGAAAGTAGC CCTCAGTCAT CACCTGGTGG CCAGAGTTTA TGAGAGCAAG
    GCTGAGTTTC GCTCTGCACT TCAGCATGAG AAGGAGGGAT ATACTATATA CAAGAACCAG
    GTTGGCGAAG CACATGAGAA GACGAAGGAG AGCTCAGAGT ACTTGAAGTA CCTCACGCAG
    CAGGCCGTGG CTCTACAGAG AACCATGAAC GAGATCTACA AAAACGGCTC CAATGCTAGC
    ATAATGCCTC TCAAGTTTAC GGCACCAAGC ATGGCCAGTG TTCTGGAGCA GCTTAATATC
    ATCAATGGCA TCATCTTTAT TCCCCTTAGT CAAAAGGACC TGGAGAACCT GAAGGCTGAG
    GTACAGAGAC GGCAGCTGAT GCAGGATTCT GGGAAAATCC AGGAACAGCA GGGCAGTCAT
    TTAGAGCTCG ATGACAAGCT GCCTGTGGAT GATTAA

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

    CloneID ODa20484
    Clone ID Related Accession (Same CDS sequence) XM_005157587.3 , XM_005157587.4
    Accession Version XM_005157587.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4053bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product clustered mitochondria protein homolog isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005157587.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGAACGGGG ATGCGGGTCA TGATCAGGCG GAGGAGGCCG ACTCAAAGCA GGACGGCAGT 
    GGCGACGCAG ACCAAGCAGA AGATGCTAAC GAACAAGAAG TAATCGTAAT TCAAGACACT
    GGCTTCACTG TGAAGATCCA AGCACCAGGA ACCGAACCCT TTGACCTTCA GGTGTCTCCA
    CAAGAGATGG TACAGGAGAT TCATCAAGTT CTGATGGACC GAGAGGACAC CTGCCATCGC
    ACCTGCTTCT CCTTACAGCT CGACGGAAAT GTTCTCGACA ACTTTGCCGA GCTGAAATCC
    ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT AAAGTGGTCG AAGAGCCCTA CACAGTGCGT
    GAAGCTCGCA TTCATGTCCG TCACATCAGG GACCTGCTGA AGAGCCTGGA TCCATCAGAT
    GCTTATAATG GAGTAGACTG CAACTCCCTC TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT
    CTTGGAGATA CTGGCAAGCG CAAAAAGAAG GGCAGTGAAC TTGAGCAGAT TGATTGCACA
    CCTCCCGAAC ACATTCTGCC AGGCAGCAAA GAGCGTCCTT TAGTTCCCCT TCAGCCACAA
    AACAAAGACT GGAAGCCTAT GCAGTGCCTG AAGGTTTTGA CCATGAGTAG CTGGAACCCT
    CCGCCCGGCA ACAGAAAAAT GCACGGTGAC CTCATGTATC TGTACATCGT GACTGTTGAG
    GACAGACACG TCAGCATCAC TGCCTCCACA CGCGGATTCT ACCTCAATCA GTCCACTACT
    TATAACTTCA GCCCCAAGCC AGCCAATCCC AGCTTCCTCA GTCACTCTTT AGTGGAACTA
    CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG AACTTCACCA CTCTGCAGAA GAAGAGGGTT
    CAGAGGCATC CATTTGAGAG AATAGCCACT CCCTTTCAAG TGTACAGCTG GACTGCACCA
    CTGATTGATC ATGCTATGGA CTGTGTGAGA GCGGAGGACG CCTACACCTC CCGACTGGGT
    TATGAGGAGC ACATACCTGG CCAAACTAGA GACTGGAACG AGGAGCTTCA GACAACCAGA
    GAACTTACTC GAAAGAACCT TCCAGAGCGC CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT
    CATAGTGACT TTGCCGCTGC GGCGACCCGT GGTGCGATGG CGGTCATTGA TGGCAACGTC
    ATGGCCATCA ACCCTGGTGA GGAAACGCGC ATGCAGATGT TCATCTGGAA CAACATCTTC
    TTCAGCTTAG GTTTTGACGT GCGCGACCAC TACAGGGAGC TCGGCGGAGA CTCTGCTGCC
    CATGCCGCCC CTACCAATGA CCTGAACGGG GTGCGAGCAT ACAGCGCTGT AGATGTGGAA
    GGACTCTACA CTTTGGGAAC AGTGGTGGTT GACTACAGAG GATACCGTGT AACTGCGCAG
    TCCATCATTC CAGGCATTTT GGAGCGAGAG CAGGAGCAGA GCGTCATCTA TGGCTCCATT
    GATTTTGGCA AGACTGTAGT GTCGCATCCA AAATATCTGG AGCTGCTGGA GAAGACCAGT
    CGCCCGCTGA AGGTGCAGCG CCATGCGGTG CTCAATGAGA AGGACAGCGC TGTTGAGCTT
    TGCTCCTCGG TGGAGTGTAA GGGTATCATT GGCAATGATG GCCGACATTA TATCTTGGAC
    CTTTTGCGCA CTTTCCCTCC AGACCTGAAT TTCCTGCCAG TGGAGGGGGA GGAGCTCACC
    CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA CAGCATCGCC ATCGTCTGGC CTGCTTACGT
    CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC AGATATCTCC TTTTCATGAA GATGGCAGCA
    CTCCAACTAA TGCAGCAGAA AGCAAACAAA GACAAGACTG CAGCTCTGCA GGACTCAAAT
    GCTGCAGGTG CTGGATCTGA AAACAAACCT CTGGCTCTAG AATCCTGTGA TGGCACACCA
    GACTCTCCGA CTTCATCTGA ATCCACGCTG ACCCCTGAAG ACTCGGAGGC CACCACTGTC
    TCAGAGAACT CTTCTGCTGA AAACCAGGAA GCCATGACCG AGGTTCCTGT AGCAAGCATC
    AATGGTACCC ATGAGCCTTT GGCTGCAGAG CGGCAGAACG GAGGCTGTGA TGGGCCTCTG
    GAGGGTAAGG AAGCTGATGA AAATATTCCC GGACTTGCCC AAGCTAAAGA GCTGGCCGAG
    TCCTTAGCAG CAGAAGATGG ATCCGGTATC GACCCCAAAA GTCGTGAGGT GGTGCTTAAT
    GCCTGTAAAG CTGTGGGCTC CATCAGCAAC ACCTCCTTCG ACATTCGCTT CAACCCAGAC
    ATCTTTTCTC CAGGAGTACG TTTCCCGGAT GACAGCAATG AAGACATTCA GAAACAGAAG
    CAGCTTCTCA AAGATGCTGC CGCCTTTCTT GTGTCCTGCC AGATCCCTTC TCTCGTGAAA
    GACTGTTTAG ATCACAGCTC TCTGCCTATG GATGGAGCGA CGATGACAGA AGCCCTTCAT
    CAGCGTGGCA TTAATGTGCG TTATCTTGGT ACTGTGCTGG AGTTTATGGA TAACATGCCT
    GCAAAAGCAC AACTTGAACA CATCTACAGA ATAGGAATCA GTGAACTGAT CACCAGATGT
    GCAAAGCATA TCTTCAAAAC ATATCTTCAG GGTGTGGATC TCTCTGCTTT ATCCGCTGCG
    GTGAGCCACT TCCTCAACTG CCTCTTGAGC TCTTTCCCAG ATGCAGTGGC TCACCTTCCT
    GCAGATGAGC TGGTGTCCCG CAAAAAGAGC CGCAAGAGAC GCAACCGTGT CCCCGGTGGA
    GGAGACAACA CGGCCTGGGC CAGCCTGACA CCCAGCGAAC TGTGGAAGAA CATCACCTCT
    GAGGCACACG GCTACTATAA CTTCAGTCTT CAATGTGAAA GCGTGGACCA GGCAGTGGAG
    AAGTACGGTT TGCAGAAGAT CACCCTGCTG AGGGAGATCT CAATCAAGAC TGGCATTCAG
    ATCTTGATAA AGGAGTACAA CTTCGACAGC CGCCACAAGC CAGCCTTCAC AGAGGAGGAC
    ATCCTGAACA TTTTCCCTGT TGTGAAGCAC GTCAACCCCA AAGCCTCAGA TGCCTTCCAT
    TTCTTCCAGA GCGGACAGGC CAAGGTTCAG CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC
    ATCAACGAGG CCTTGAACCT CTTCAACAAT GTGTATGGAG CCATGCATGT GGAGATCTGT
    GCCTGCCTGC GTCTTCTGGC TCGACTCAAC TACATCATGG GCGATCACCC AGAGGCTCTG
    AGCAACCAGC AGAAGGCTGT GCTGATGAGT GAGAGAGTGC TGGGTATTGA ACATCCCAAT
    ACTATTCAAG AATATATGCA CTTAGCACTG TACTGCTTTG CTAACGGTCA GCTGTCCACT
    GCCCTGAAGC TGCTGTATCG TGCTCGCTAC CTCATGCTCG TGGTCTGTGG AGAGGACCAT
    CCTGAAATGG CTCTGCTCGA TAGCAATATT GGTCTGGTGC TTCATGGTGT GATGGAGTAT
    GACCTGTCTC TGCGTTTCCT GGAGAACGCG CTGGCCATCA ACACAAAATA CCACGGGCCG
    CGATCCTTGA AAGTAGCCCT CAGTCATCAC CTGGTGGCCA GAGTTTATGA GAGCAAGGCT
    GAGTTTCGCT CTGCACTTCA GCATGAGAAG GAGGGATATA CTATATACAA GAACCAGGTT
    GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC TCAGAGTACT TGAAGTACCT CACGCAGCAG
    GCCGTGGCTC TACAGAGAAC CATGAACGAG ATCTACAAAA ACGGCTCCAA TGCTAGCATA
    ATGCCTCTCA AGTTTACGGC ACCAAGCATG GCCAGTGTTC TGGAGCAGCT TAATATCATC
    AATGGCATCA TCTTTATTCC CCTTAGTCAA AAGGACCTGG AGAACCTGAA GGCTGAGGTA
    CAGAGACGGC AGCTGATGCA GGATTCTGGG AAAATCCAGG AACAGCAGGG CAGTCATTTA
    GAGCTCGATG ACAAGCTGCC TGTGGATGAT TAA

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

    RefSeq XP_005157644.1
    CDS128..4180
    Translation

    Target ORF information:

    RefSeq Version XM_005157587.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005157587.3

    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
    ATGAACGGGG ATGCGGGTCA TGATCAGGCG GAGGAGGCCG ACTCAAAGCA GGACGGCAGT 
    GGCGACGCAG ACCAAGCAGA AGATGCTAAC GAACAAGAAG TAATCGTAAT TCAAGACACT
    GGCTTCACTG TGAAGATCCA AGCACCAGGA ACCGAACCCT TTGACCTTCA GGTGTCTCCA
    CAAGAGATGG TACAGGAGAT TCATCAAGTT CTGATGGACC GAGAGGACAC CTGCCATCGC
    ACCTGCTTCT CCTTACAGCT CGACGGAAAT GTTCTCGACA ACTTTGCCGA GCTGAAATCC
    ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT AAAGTGGTCG AAGAGCCCTA CACAGTGCGT
    GAAGCTCGCA TTCATGTCCG TCACATCAGG GACCTGCTGA AGAGCCTGGA TCCATCAGAT
    GCTTATAATG GAGTAGACTG CAACTCCCTC TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT
    CTTGGAGATA CTGGCAAGCG CAAAAAGAAG GGCAGTGAAC TTGAGCAGAT TGATTGCACA
    CCTCCCGAAC ACATTCTGCC AGGCAGCAAA GAGCGTCCTT TAGTTCCCCT TCAGCCACAA
    AACAAAGACT GGAAGCCTAT GCAGTGCCTG AAGGTTTTGA CCATGAGTAG CTGGAACCCT
    CCGCCCGGCA ACAGAAAAAT GCACGGTGAC CTCATGTATC TGTACATCGT GACTGTTGAG
    GACAGACACG TCAGCATCAC TGCCTCCACA CGCGGATTCT ACCTCAATCA GTCCACTACT
    TATAACTTCA GCCCCAAGCC AGCCAATCCC AGCTTCCTCA GTCACTCTTT AGTGGAACTA
    CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG AACTTCACCA CTCTGCAGAA GAAGAGGGTT
    CAGAGGCATC CATTTGAGAG AATAGCCACT CCCTTTCAAG TGTACAGCTG GACTGCACCA
    CTGATTGATC ATGCTATGGA CTGTGTGAGA GCGGAGGACG CCTACACCTC CCGACTGGGT
    TATGAGGAGC ACATACCTGG CCAAACTAGA GACTGGAACG AGGAGCTTCA GACAACCAGA
    GAACTTACTC GAAAGAACCT TCCAGAGCGC CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT
    CATAGTGACT TTGCCGCTGC GGCGACCCGT GGTGCGATGG CGGTCATTGA TGGCAACGTC
    ATGGCCATCA ACCCTGGTGA GGAAACGCGC ATGCAGATGT TCATCTGGAA CAACATCTTC
    TTCAGCTTAG GTTTTGACGT GCGCGACCAC TACAGGGAGC TCGGCGGAGA CTCTGCTGCC
    CATGCCGCCC CTACCAATGA CCTGAACGGG GTGCGAGCAT ACAGCGCTGT AGATGTGGAA
    GGACTCTACA CTTTGGGAAC AGTGGTGGTT GACTACAGAG GATACCGTGT AACTGCGCAG
    TCCATCATTC CAGGCATTTT GGAGCGAGAG CAGGAGCAGA GCGTCATCTA TGGCTCCATT
    GATTTTGGCA AGACTGTAGT GTCGCATCCA AAATATCTGG AGCTGCTGGA GAAGACCAGT
    CGCCCGCTGA AGGTGCAGCG CCATGCGGTG CTCAATGAGA AGGACAGCGC TGTTGAGCTT
    TGCTCCTCGG TGGAGTGTAA GGGTATCATT GGCAATGATG GCCGACATTA TATCTTGGAC
    CTTTTGCGCA CTTTCCCTCC AGACCTGAAT TTCCTGCCAG TGGAGGGGGA GGAGCTCACC
    CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA CAGCATCGCC ATCGTCTGGC CTGCTTACGT
    CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC AGATATCTCC TTTTCATGAA GATGGCAGCA
    CTCCAACTAA TGCAGCAGAA AGCAAACAAA GACAAGACTG CAGCTCTGCA GGACTCAAAT
    GCTGCAGGTG CTGGATCTGA AAACAAACCT CTGGCTCTAG AATCCTGTGA TGGCACACCA
    GACTCTCCGA CTTCATCTGA ATCCACGCTG ACCCCTGAAG ACTCGGAGGC CACCACTGTC
    TCAGAGAACT CTTCTGCTGA AAACCAGGAA GCCATGACCG AGGTTCCTGT AGCAAGCATC
    AATGGTACCC ATGAGCCTTT GGCTGCAGAG CGGCAGAACG GAGGCTGTGA TGGGCCTCTG
    GAGGGTAAGG AAGCTGATGA AAATATTCCC GGACTTGCCC AAGCTAAAGA GCTGGCCGAG
    TCCTTAGCAG CAGAAGATGG ATCCGGTATC GACCCCAAAA GTCGTGAGGT GGTGCTTAAT
    GCCTGTAAAG CTGTGGGCTC CATCAGCAAC ACCTCCTTCG ACATTCGCTT CAACCCAGAC
    ATCTTTTCTC CAGGAGTACG TTTCCCGGAT GACAGCAATG AAGACATTCA GAAACAGAAG
    CAGCTTCTCA AAGATGCTGC CGCCTTTCTT GTGTCCTGCC AGATCCCTTC TCTCGTGAAA
    GACTGTTTAG ATCACAGCTC TCTGCCTATG GATGGAGCGA CGATGACAGA AGCCCTTCAT
    CAGCGTGGCA TTAATGTGCG TTATCTTGGT ACTGTGCTGG AGTTTATGGA TAACATGCCT
    GCAAAAGCAC AACTTGAACA CATCTACAGA ATAGGAATCA GTGAACTGAT CACCAGATGT
    GCAAAGCATA TCTTCAAAAC ATATCTTCAG GGTGTGGATC TCTCTGCTTT ATCCGCTGCG
    GTGAGCCACT TCCTCAACTG CCTCTTGAGC TCTTTCCCAG ATGCAGTGGC TCACCTTCCT
    GCAGATGAGC TGGTGTCCCG CAAAAAGAGC CGCAAGAGAC GCAACCGTGT CCCCGGTGGA
    GGAGACAACA CGGCCTGGGC CAGCCTGACA CCCAGCGAAC TGTGGAAGAA CATCACCTCT
    GAGGCACACG GCTACTATAA CTTCAGTCTT CAATGTGAAA GCGTGGACCA GGCAGTGGAG
    AAGTACGGTT TGCAGAAGAT CACCCTGCTG AGGGAGATCT CAATCAAGAC TGGCATTCAG
    ATCTTGATAA AGGAGTACAA CTTCGACAGC CGCCACAAGC CAGCCTTCAC AGAGGAGGAC
    ATCCTGAACA TTTTCCCTGT TGTGAAGCAC GTCAACCCCA AAGCCTCAGA TGCCTTCCAT
    TTCTTCCAGA GCGGACAGGC CAAGGTTCAG CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC
    ATCAACGAGG CCTTGAACCT CTTCAACAAT GTGTATGGAG CCATGCATGT GGAGATCTGT
    GCCTGCCTGC GTCTTCTGGC TCGACTCAAC TACATCATGG GCGATCACCC AGAGGCTCTG
    AGCAACCAGC AGAAGGCTGT GCTGATGAGT GAGAGAGTGC TGGGTATTGA ACATCCCAAT
    ACTATTCAAG AATATATGCA CTTAGCACTG TACTGCTTTG CTAACGGTCA GCTGTCCACT
    GCCCTGAAGC TGCTGTATCG TGCTCGCTAC CTCATGCTCG TGGTCTGTGG AGAGGACCAT
    CCTGAAATGG CTCTGCTCGA TAGCAATATT GGTCTGGTGC TTCATGGTGT GATGGAGTAT
    GACCTGTCTC TGCGTTTCCT GGAGAACGCG CTGGCCATCA ACACAAAATA CCACGGGCCG
    CGATCCTTGA AAGTAGCCCT CAGTCATCAC CTGGTGGCCA GAGTTTATGA GAGCAAGGCT
    GAGTTTCGCT CTGCACTTCA GCATGAGAAG GAGGGATATA CTATATACAA GAACCAGGTT
    GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC TCAGAGTACT TGAAGTACCT CACGCAGCAG
    GCCGTGGCTC TACAGAGAAC CATGAACGAG ATCTACAAAA ACGGCTCCAA TGCTAGCATA
    ATGCCTCTCA AGTTTACGGC ACCAAGCATG GCCAGTGTTC TGGAGCAGCT TAATATCATC
    AATGGCATCA TCTTTATTCC CCTTAGTCAA AAGGACCTGG AGAACCTGAA GGCTGAGGTA
    CAGAGACGGC AGCTGATGCA GGATTCTGGG AAAATCCAGG AACAGCAGGG CAGTCATTTA
    GAGCTCGATG ACAAGCTGCC TGTGGATGAT TAA

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

    CloneID ODa20484
    Clone ID Related Accession (Same CDS sequence) XM_005157587.3 , XM_005157587.4
    Accession Version XM_005157587.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4053bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product clustered mitochondria protein homolog isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005157587.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAACGGGG ATGCGGGTCA TGATCAGGCG GAGGAGGCCG ACTCAAAGCA GGACGGCAGT 
    GGCGACGCAG ACCAAGCAGA AGATGCTAAC GAACAAGAAG TAATCGTAAT TCAAGACACT
    GGCTTCACTG TGAAGATCCA AGCACCAGGA ACCGAACCCT TTGACCTTCA GGTGTCTCCA
    CAAGAGATGG TACAGGAGAT TCATCAAGTT CTGATGGACC GAGAGGACAC CTGCCATCGC
    ACCTGCTTCT CCTTACAGCT CGACGGAAAT GTTCTCGACA ACTTTGCCGA GCTGAAATCC
    ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT AAAGTGGTCG AAGAGCCCTA CACAGTGCGT
    GAAGCTCGCA TTCATGTCCG TCACATCAGG GACCTGCTGA AGAGCCTGGA TCCATCAGAT
    GCTTATAATG GAGTAGACTG CAACTCCCTC TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT
    CTTGGAGATA CTGGCAAGCG CAAAAAGAAG GGCAGTGAAC TTGAGCAGAT TGATTGCACA
    CCTCCCGAAC ACATTCTGCC AGGCAGCAAA GAGCGTCCTT TAGTTCCCCT TCAGCCACAA
    AACAAAGACT GGAAGCCTAT GCAGTGCCTG AAGGTTTTGA CCATGAGTAG CTGGAACCCT
    CCGCCCGGCA ACAGAAAAAT GCACGGTGAC CTCATGTATC TGTACATCGT GACTGTTGAG
    GACAGACACG TCAGCATCAC TGCCTCCACA CGCGGATTCT ACCTCAATCA GTCCACTACT
    TATAACTTCA GCCCCAAGCC AGCCAATCCC AGCTTCCTCA GTCACTCTTT AGTGGAACTA
    CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG AACTTCACCA CTCTGCAGAA GAAGAGGGTT
    CAGAGGCATC CATTTGAGAG AATAGCCACT CCCTTTCAAG TGTACAGCTG GACTGCACCA
    CTGATTGATC ATGCTATGGA CTGTGTGAGA GCGGAGGACG CCTACACCTC CCGACTGGGT
    TATGAGGAGC ACATACCTGG CCAAACTAGA GACTGGAACG AGGAGCTTCA GACAACCAGA
    GAACTTACTC GAAAGAACCT TCCAGAGCGC CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT
    CATAGTGACT TTGCCGCTGC GGCGACCCGT GGTGCGATGG CGGTCATTGA TGGCAACGTC
    ATGGCCATCA ACCCTGGTGA GGAAACGCGC ATGCAGATGT TCATCTGGAA CAACATCTTC
    TTCAGCTTAG GTTTTGACGT GCGCGACCAC TACAGGGAGC TCGGCGGAGA CTCTGCTGCC
    CATGCCGCCC CTACCAATGA CCTGAACGGG GTGCGAGCAT ACAGCGCTGT AGATGTGGAA
    GGACTCTACA CTTTGGGAAC AGTGGTGGTT GACTACAGAG GATACCGTGT AACTGCGCAG
    TCCATCATTC CAGGCATTTT GGAGCGAGAG CAGGAGCAGA GCGTCATCTA TGGCTCCATT
    GATTTTGGCA AGACTGTAGT GTCGCATCCA AAATATCTGG AGCTGCTGGA GAAGACCAGT
    CGCCCGCTGA AGGTGCAGCG CCATGCGGTG CTCAATGAGA AGGACAGCGC TGTTGAGCTT
    TGCTCCTCGG TGGAGTGTAA GGGTATCATT GGCAATGATG GCCGACATTA TATCTTGGAC
    CTTTTGCGCA CTTTCCCTCC AGACCTGAAT TTCCTGCCAG TGGAGGGGGA GGAGCTCACC
    CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA CAGCATCGCC ATCGTCTGGC CTGCTTACGT
    CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC AGATATCTCC TTTTCATGAA GATGGCAGCA
    CTCCAACTAA TGCAGCAGAA AGCAAACAAA GACAAGACTG CAGCTCTGCA GGACTCAAAT
    GCTGCAGGTG CTGGATCTGA AAACAAACCT CTGGCTCTAG AATCCTGTGA TGGCACACCA
    GACTCTCCGA CTTCATCTGA ATCCACGCTG ACCCCTGAAG ACTCGGAGGC CACCACTGTC
    TCAGAGAACT CTTCTGCTGA AAACCAGGAA GCCATGACCG AGGTTCCTGT AGCAAGCATC
    AATGGTACCC ATGAGCCTTT GGCTGCAGAG CGGCAGAACG GAGGCTGTGA TGGGCCTCTG
    GAGGGTAAGG AAGCTGATGA AAATATTCCC GGACTTGCCC AAGCTAAAGA GCTGGCCGAG
    TCCTTAGCAG CAGAAGATGG ATCCGGTATC GACCCCAAAA GTCGTGAGGT GGTGCTTAAT
    GCCTGTAAAG CTGTGGGCTC CATCAGCAAC ACCTCCTTCG ACATTCGCTT CAACCCAGAC
    ATCTTTTCTC CAGGAGTACG TTTCCCGGAT GACAGCAATG AAGACATTCA GAAACAGAAG
    CAGCTTCTCA AAGATGCTGC CGCCTTTCTT GTGTCCTGCC AGATCCCTTC TCTCGTGAAA
    GACTGTTTAG ATCACAGCTC TCTGCCTATG GATGGAGCGA CGATGACAGA AGCCCTTCAT
    CAGCGTGGCA TTAATGTGCG TTATCTTGGT ACTGTGCTGG AGTTTATGGA TAACATGCCT
    GCAAAAGCAC AACTTGAACA CATCTACAGA ATAGGAATCA GTGAACTGAT CACCAGATGT
    GCAAAGCATA TCTTCAAAAC ATATCTTCAG GGTGTGGATC TCTCTGCTTT ATCCGCTGCG
    GTGAGCCACT TCCTCAACTG CCTCTTGAGC TCTTTCCCAG ATGCAGTGGC TCACCTTCCT
    GCAGATGAGC TGGTGTCCCG CAAAAAGAGC CGCAAGAGAC GCAACCGTGT CCCCGGTGGA
    GGAGACAACA CGGCCTGGGC CAGCCTGACA CCCAGCGAAC TGTGGAAGAA CATCACCTCT
    GAGGCACACG GCTACTATAA CTTCAGTCTT CAATGTGAAA GCGTGGACCA GGCAGTGGAG
    AAGTACGGTT TGCAGAAGAT CACCCTGCTG AGGGAGATCT CAATCAAGAC TGGCATTCAG
    ATCTTGATAA AGGAGTACAA CTTCGACAGC CGCCACAAGC CAGCCTTCAC AGAGGAGGAC
    ATCCTGAACA TTTTCCCTGT TGTGAAGCAC GTCAACCCCA AAGCCTCAGA TGCCTTCCAT
    TTCTTCCAGA GCGGACAGGC CAAGGTTCAG CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC
    ATCAACGAGG CCTTGAACCT CTTCAACAAT GTGTATGGAG CCATGCATGT GGAGATCTGT
    GCCTGCCTGC GTCTTCTGGC TCGACTCAAC TACATCATGG GCGATCACCC AGAGGCTCTG
    AGCAACCAGC AGAAGGCTGT GCTGATGAGT GAGAGAGTGC TGGGTATTGA ACATCCCAAT
    ACTATTCAAG AATATATGCA CTTAGCACTG TACTGCTTTG CTAACGGTCA GCTGTCCACT
    GCCCTGAAGC TGCTGTATCG TGCTCGCTAC CTCATGCTCG TGGTCTGTGG AGAGGACCAT
    CCTGAAATGG CTCTGCTCGA TAGCAATATT GGTCTGGTGC TTCATGGTGT GATGGAGTAT
    GACCTGTCTC TGCGTTTCCT GGAGAACGCG CTGGCCATCA ACACAAAATA CCACGGGCCG
    CGATCCTTGA AAGTAGCCCT CAGTCATCAC CTGGTGGCCA GAGTTTATGA GAGCAAGGCT
    GAGTTTCGCT CTGCACTTCA GCATGAGAAG GAGGGATATA CTATATACAA GAACCAGGTT
    GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC TCAGAGTACT TGAAGTACCT CACGCAGCAG
    GCCGTGGCTC TACAGAGAAC CATGAACGAG ATCTACAAAA ACGGCTCCAA TGCTAGCATA
    ATGCCTCTCA AGTTTACGGC ACCAAGCATG GCCAGTGTTC TGGAGCAGCT TAATATCATC
    AATGGCATCA TCTTTATTCC CCTTAGTCAA AAGGACCTGG AGAACCTGAA GGCTGAGGTA
    CAGAGACGGC AGCTGATGCA GGATTCTGGG AAAATCCAGG AACAGCAGGG CAGTCATTTA
    GAGCTCGATG ACAAGCTGCC TGTGGATGAT TAA

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

    RefSeq XP_005157644.1
    CDS128..4180
    Translation

    Target ORF information:

    RefSeq Version XM_005157587.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio clustered mitochondria (cluA/CLU1) homolog a (cluha), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005157587.4

    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
    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
    ATGAACGGGG ATGCGGGTCA TGATCAGGCG GAGGAGGCCG ACTCAAAGCA GGACGGCAGT 
    GGCGACGCAG ACCAAGCAGA AGATGCTAAC GAACAAGAAG TAATCGTAAT TCAAGACACT
    GGCTTCACTG TGAAGATCCA AGCACCAGGA ACCGAACCCT TTGACCTTCA GGTGTCTCCA
    CAAGAGATGG TACAGGAGAT TCATCAAGTT CTGATGGACC GAGAGGACAC CTGCCATCGC
    ACCTGCTTCT CCTTACAGCT CGACGGAAAT GTTCTCGACA ACTTTGCCGA GCTGAAATCC
    ATCGAGGGCC TTCAGGAAGG CTCGCTTCTT AAAGTGGTCG AAGAGCCCTA CACAGTGCGT
    GAAGCTCGCA TTCATGTCCG TCACATCAGG GACCTGCTGA AGAGCCTGGA TCCATCAGAT
    GCTTATAATG GAGTAGACTG CAACTCCCTC TCCTTCCTCA GCGTCTTCTC AGAAGGAGAT
    CTTGGAGATA CTGGCAAGCG CAAAAAGAAG GGCAGTGAAC TTGAGCAGAT TGATTGCACA
    CCTCCCGAAC ACATTCTGCC AGGCAGCAAA GAGCGTCCTT TAGTTCCCCT TCAGCCACAA
    AACAAAGACT GGAAGCCTAT GCAGTGCCTG AAGGTTTTGA CCATGAGTAG CTGGAACCCT
    CCGCCCGGCA ACAGAAAAAT GCACGGTGAC CTCATGTATC TGTACATCGT GACTGTTGAG
    GACAGACACG TCAGCATCAC TGCCTCCACA CGCGGATTCT ACCTCAATCA GTCCACTACT
    TATAACTTCA GCCCCAAGCC AGCCAATCCC AGCTTCCTCA GTCACTCTTT AGTGGAACTA
    CTAAGCCAGA TCAGCGCTGC CTTTAAGAAG AACTTCACCA CTCTGCAGAA GAAGAGGGTT
    CAGAGGCATC CATTTGAGAG AATAGCCACT CCCTTTCAAG TGTACAGCTG GACTGCACCA
    CTGATTGATC ATGCTATGGA CTGTGTGAGA GCGGAGGACG CCTACACCTC CCGACTGGGT
    TATGAGGAGC ACATACCTGG CCAAACTAGA GACTGGAACG AGGAGCTTCA GACAACCAGA
    GAACTTACTC GAAAGAACCT TCCAGAGCGC CTGCTTAGAG AGCGAGCCAT ATTCAAGGTT
    CATAGTGACT TTGCCGCTGC GGCGACCCGT GGTGCGATGG CGGTCATTGA TGGCAACGTC
    ATGGCCATCA ACCCTGGTGA GGAAACGCGC ATGCAGATGT TCATCTGGAA CAACATCTTC
    TTCAGCTTAG GTTTTGACGT GCGCGACCAC TACAGGGAGC TCGGCGGAGA CTCTGCTGCC
    CATGCCGCCC CTACCAATGA CCTGAACGGG GTGCGAGCAT ACAGCGCTGT AGATGTGGAA
    GGACTCTACA CTTTGGGAAC AGTGGTGGTT GACTACAGAG GATACCGTGT AACTGCGCAG
    TCCATCATTC CAGGCATTTT GGAGCGAGAG CAGGAGCAGA GCGTCATCTA TGGCTCCATT
    GATTTTGGCA AGACTGTAGT GTCGCATCCA AAATATCTGG AGCTGCTGGA GAAGACCAGT
    CGCCCGCTGA AGGTGCAGCG CCATGCGGTG CTCAATGAGA AGGACAGCGC TGTTGAGCTT
    TGCTCCTCGG TGGAGTGTAA GGGTATCATT GGCAATGATG GCCGACATTA TATCTTGGAC
    CTTTTGCGCA CTTTCCCTCC AGACCTGAAT TTCCTGCCAG TGGAGGGGGA GGAGCTCACC
    CCCGAGAGCC AGAAGCTGGG CTTCCCCAGA CAGCATCGCC ATCGTCTGGC CTGCTTACGT
    CAGGAGCTCA TAGAGGCCTT TGTTGAGCAC AGATATCTCC TTTTCATGAA GATGGCAGCA
    CTCCAACTAA TGCAGCAGAA AGCAAACAAA GACAAGACTG CAGCTCTGCA GGACTCAAAT
    GCTGCAGGTG CTGGATCTGA AAACAAACCT CTGGCTCTAG AATCCTGTGA TGGCACACCA
    GACTCTCCGA CTTCATCTGA ATCCACGCTG ACCCCTGAAG ACTCGGAGGC CACCACTGTC
    TCAGAGAACT CTTCTGCTGA AAACCAGGAA GCCATGACCG AGGTTCCTGT AGCAAGCATC
    AATGGTACCC ATGAGCCTTT GGCTGCAGAG CGGCAGAACG GAGGCTGTGA TGGGCCTCTG
    GAGGGTAAGG AAGCTGATGA AAATATTCCC GGACTTGCCC AAGCTAAAGA GCTGGCCGAG
    TCCTTAGCAG CAGAAGATGG ATCCGGTATC GACCCCAAAA GTCGTGAGGT GGTGCTTAAT
    GCCTGTAAAG CTGTGGGCTC CATCAGCAAC ACCTCCTTCG ACATTCGCTT CAACCCAGAC
    ATCTTTTCTC CAGGAGTACG TTTCCCGGAT GACAGCAATG AAGACATTCA GAAACAGAAG
    CAGCTTCTCA AAGATGCTGC CGCCTTTCTT GTGTCCTGCC AGATCCCTTC TCTCGTGAAA
    GACTGTTTAG ATCACAGCTC TCTGCCTATG GATGGAGCGA CGATGACAGA AGCCCTTCAT
    CAGCGTGGCA TTAATGTGCG TTATCTTGGT ACTGTGCTGG AGTTTATGGA TAACATGCCT
    GCAAAAGCAC AACTTGAACA CATCTACAGA ATAGGAATCA GTGAACTGAT CACCAGATGT
    GCAAAGCATA TCTTCAAAAC ATATCTTCAG GGTGTGGATC TCTCTGCTTT ATCCGCTGCG
    GTGAGCCACT TCCTCAACTG CCTCTTGAGC TCTTTCCCAG ATGCAGTGGC TCACCTTCCT
    GCAGATGAGC TGGTGTCCCG CAAAAAGAGC CGCAAGAGAC GCAACCGTGT CCCCGGTGGA
    GGAGACAACA CGGCCTGGGC CAGCCTGACA CCCAGCGAAC TGTGGAAGAA CATCACCTCT
    GAGGCACACG GCTACTATAA CTTCAGTCTT CAATGTGAAA GCGTGGACCA GGCAGTGGAG
    AAGTACGGTT TGCAGAAGAT CACCCTGCTG AGGGAGATCT CAATCAAGAC TGGCATTCAG
    ATCTTGATAA AGGAGTACAA CTTCGACAGC CGCCACAAGC CAGCCTTCAC AGAGGAGGAC
    ATCCTGAACA TTTTCCCTGT TGTGAAGCAC GTCAACCCCA AAGCCTCAGA TGCCTTCCAT
    TTCTTCCAGA GCGGACAGGC CAAGGTTCAG CAAGGCTTTC TAAAAGAGGG TTGTGAGCTC
    ATCAACGAGG CCTTGAACCT CTTCAACAAT GTGTATGGAG CCATGCATGT GGAGATCTGT
    GCCTGCCTGC GTCTTCTGGC TCGACTCAAC TACATCATGG GCGATCACCC AGAGGCTCTG
    AGCAACCAGC AGAAGGCTGT GCTGATGAGT GAGAGAGTGC TGGGTATTGA ACATCCCAAT
    ACTATTCAAG AATATATGCA CTTAGCACTG TACTGCTTTG CTAACGGTCA GCTGTCCACT
    GCCCTGAAGC TGCTGTATCG TGCTCGCTAC CTCATGCTCG TGGTCTGTGG AGAGGACCAT
    CCTGAAATGG CTCTGCTCGA TAGCAATATT GGTCTGGTGC TTCATGGTGT GATGGAGTAT
    GACCTGTCTC TGCGTTTCCT GGAGAACGCG CTGGCCATCA ACACAAAATA CCACGGGCCG
    CGATCCTTGA AAGTAGCCCT CAGTCATCAC CTGGTGGCCA GAGTTTATGA GAGCAAGGCT
    GAGTTTCGCT CTGCACTTCA GCATGAGAAG GAGGGATATA CTATATACAA GAACCAGGTT
    GGCGAAGCAC ATGAGAAGAC GAAGGAGAGC TCAGAGTACT TGAAGTACCT CACGCAGCAG
    GCCGTGGCTC TACAGAGAAC CATGAACGAG ATCTACAAAA ACGGCTCCAA TGCTAGCATA
    ATGCCTCTCA AGTTTACGGC ACCAAGCATG GCCAGTGTTC TGGAGCAGCT TAATATCATC
    AATGGCATCA TCTTTATTCC CCTTAGTCAA AAGGACCTGG AGAACCTGAA GGCTGAGGTA
    CAGAGACGGC AGCTGATGCA GGATTCTGGG AAAATCCAGG AACAGCAGGG CAGTCATTTA
    GAGCTCGATG ACAAGCTGCC TGTGGATGAT TAA

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

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