ORF » Species Summary » Mus caroli » LOC110295232 cDNA ORF clone

LOC110295232 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following LOC110295232 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110295232 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
OMv23294 XM_021163717.1
Latest version!		 Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OMv23294 XM_029475280.1
Latest version!		 Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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

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

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

  • Reference Sequences (Refseq)
    LOC110295232 ( XM_029475280.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331140.1 Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA.
    Price & Availability↑
    CloneID OMv23294
    Clone ID Related Accession (Same CDS sequence) XM_029475280.1 , XM_021163717.1
    Accession Version XM_029475280.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5907bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product dynein heavy chain 7, axonemal-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTGACA CTGAACCAAT TGGCTTGTGG TCCCCTGGGG AAGATCACCT CTCATACACC 
    CATCTTTTCT CAGTTGCCTA TAGTTCTTTG TGTAAAGTTG CAGCCTTTGG GCTTTTCCTC 
    ATCCAGTTTG GCATGTCTAT TAGTGTCATC CTTGTTCAGC TTGTCCTCAG AGTCTATTAT 
    GATCGCCTTG TGGATAATGC TGACAGAAGC TGGCTTATTA ACTACATACA AGAAATTCTG 
    AAAAATTACA TGCAGGAAGA TTTTCATGAT CTATTTAAAA ATTTGGATTT TAATCATGAT 
    GGCACTGTAG AAGAAGATGA TTTAAGAAGT TTAATGTTTT GTGATTTCCA TGATCCTAAG 
    AGGGAAGATT TTGGCTACAG AGAAATTGCA AATGTGGATG CTCTCAGGGT GATTGTTGAA 
    GGCCATCTAG ATGAATATAA CAACATGAGC AAAAAGCCCA TGAACCTTGT CTTGTTCCGA 
    TTTGCCATAG AACACATAAG CAGAATTTCT CGAATCTTGA AGCAGCCACG GAGCCACGCC 
    CTCCTGGTGG GGGTGGGTGG GAGCGGAAGG CAGTCAGTCA CCAGACTTGC TGCACACATG 
    GCTGATTATT CACTATTCCA GGTGGAAATC TCCAAGGGCT ACGGTAGCCA TGAGTGGCAT 
    GAAGATCTGA AAGTGATCTT AAGAAAATGT GCAGAGAGTG ACATGCAGGG CGTCTTCCTG 
    TTCACAGATA CACAAATAAA AAGAGAGTCC TTTCTAGAAG ATGTCAACAA TCTCTTAAAC 
    ACTGGGGAGG TTCCAAACCT CTTCGCTTTA GATGAGAAGC AGGAAATATG TGAAAAGATG 
    CGTCAGTTAG ATCGACAGCG GGATAAAAGC AAACAGACAG ATGGGAGCCC CATAGCTCTT 
    TTCAACATGT TTATTGACTG CTGCCGCAAC CAGCTGCATG TGGTCCTGGC CATGAGTCCC 
    ATTGGAGATG CATTTCGGAT TCGTCTTCGG AAATTTCCTG CTCTTGTTAA CTGCTGTACC 
    ATTGACTGGT TTCAGTCATG GCCAGAAGAT GCTCTGGAAG CGGTTGCTTC ACGGTTCCTG 
    GAAGACATTG AGATGTCAGA GGAAATCCGA GAAGGCTGTA TTGACATGTG TAAAAGTACC 
    TGTGAAGGAC TTTTAGACCA TAACTTTAGT TACTTCAAAA GGGGTGAAAG ACTCAGAGCT 
    TGCAGGATGT CCCTTGATGC GATGAACAGA TCTGCACATC TCACCTCATT TCATCTATTT 
    GCATCCAGTG AAGTGATGAA AATGAAAAGG AGATACGAAG TGGGTTTGGA TAAGCTGGAC 
    TCGGCTTCGT CACAGGTGGC CACCATGCAG AGTGAGCTGG AGGCGCTGCA TCCACAGTTA 
    AAAGTTGCCA GCAGAGAGGT TGACGAAATG ATGATAATAA TTGAGAGAGA GTCCATGGAG 
    GTGGCCAAAA CTGAGAAAAT CGTGAAAGCT GACGAAACAG TAGCGAACGA TCAAGCCATG 
    GCAGCCAAAG CCATCAAAGA TGAATGCGAT GCCGACTTGG CCGAAGCCCT ACCCATTCTG 
    GAGTCTGCAC TGGCTGCCCT TGATACCCTG ACCGCACAGG ATATCACAGT TGTGAAGTCC 
    ATGAAGAGTC CCCCTGCTGG CGTCAAACTT GTCATGGAAG CTGTCTGCAT ATTGAAAGGG 
    ATCAAAGCTG ACAAAATCCC TGACCCAACT GGTTCAGGGA AGAAAACTGA AGATTTCTGG 
    GGCCCTGCTA AGAGACTTCT CGGTGACATA AGGTTTCTGC AGTCACTTCA TGAGTACGAC 
    AANGACAATA TTCCTCCTGC TTATATGAAT ATCATAAGGA AGAGTTATAT CCCCAACCCA 
    GACTTTGTTC CAGAGAAGAT CCGGAATGCT TCAACAGCTG CTGAGGGTCT GTGCAAGTGG 
    GTCATAGCAA TGGACTCCTA TGACAAAGTG GCAAAAATTG TAGCTCCCAA AAAGATAAAG 
    CTGGCTGCAG CCGAAGGGAA GCTGAATATT GCTATGGAAG GCCTTAGAAA GAAGCAGGCT 
    GCCCTGCATG AGGTTCAGGA CAAGCTGGCC AAACTCCAAG ACACACTTGA GTTGAATAAG 
    CAGAAGAAAG CAGACTTGGA ACACCAGGTT GACTTGTGCA GCAAAAAGCT AGAACGGGCA 
    GAACAGCTGA TCGGGGGCCT GGGAGGTGAG AAAACCCGAT GGAGCAACTC TGCGCTGGAG 
    CTTGGGCATC TGTACATCAA CCTGACTGGT GATATCCTCA TCTCCTCAGG GGTTGTCGCC 
    TACCTGGGAG CCTTTACATC TAACTACAGA CAGATAACTT CATTTTTTGA GAGGCAGGCT 
    TTGATTTTCT GTAGGAGACA TAGACTCCAA CAACTCTGCT CCAGGCCAAA ACTGGACCAG 
    CCCTGCCCAG TTATGTGCTC TTTTAGACAA GGAATGAGGA ATGCAAGGCG GTGGCCTCTG 
    ATGATAGACC CTCAAGGTCA GGCTAATAAG TGGATCAAGA ACATGGAGAA AACCAATAGC 
    CTTCAGCTCA TTAAACTAAG TGACCCTTCC TATGTCAGGA CTCTGGAAAA CTGTATCCAG 
    TTTGGAACTC CTGTGTTGCT AGAAAATGTG GGAGAAGAAT TGGACCCGAT TCTAGAGCCT 
    CTTTTGTTGA AGCAGACCTT CAAGCAGGGT GGGAGCACAT GCATTCGGCT TGGAGACTCC 
    ACAATTGAGT ATGCTCCCGA CTTCCGCTTC TACATCACGA CCAAGCTGAG GAACCCGCAC 
    TATCTCCCAG AGACGTCAGT GAAGGTGACA TTGTTAAACT TCATGATAAC TCCTGAGGGA 
    ATGCAGGATC AGCTTTTGGG AATCGTAGTG GCACGGGAAA GGCCAGACCT CGAAGAAGAA 
    AAGCAAGCCT TGATACTACA AGGAGCTGAC AACAAAAGGC AGTTAAAGGA AATAGAAGAC 
    AAGATTTTAG AAGTTCTCTC ATTATCAGAA GGCAATATAT TAGAAGATGA GACTGCAATT 
    AAAATATTAT CTTCCTCCAA GTCTTTGGCT AATGAGATTT CTCAGAAGCA GGAAGTGGCT 
    GAGGAGACAG AGAAAAAGAT TGACATTACC CGCATGGGCT ATCGGCCCAT TGCTATCCAT 
    TCTTCCATCC TGTTCTTCTC CATCGCTGAT CTAGCCAACA TTGAGCCCAT GTACCAGTAT 
    TCTCTGACCT GGTTTATTAA CCTGTTCATC CTGTCCATTG AGAATTCGGA GAAATCAGAC 
    ATCTTATTAA AAAGGCTTCA GATTCTCAGA GATCACTTCA CCTACTCACT CTATGTCAAC 
    ATCTGCCGCT CNCTCTTCGA AAAGGACAAG TTGCTGTTTT CATTTTGTCT CACTGTGAAT 
    CTGCTGATAC ATGACAACGC GATTAACAAA ACAGAGTGGA GATTTCTACT GACTGGTGGC 
    ATTGGGCTGG ATAATCCTTA TACCAACCCT TGCACATGGC TTCCTCAAAA GTCCTGGGAT 
    GAGATTTGCC GACTAGATGA CTTACCTGCC TTTAAGACCA TTCGCAGGGA GTTTATGCGC 
    TTAAAGGATG GATGGAAAAA AGTATATGAT AGTATGGAGC CACACCATGA GATGTTTCCA 
    GAAGATTGGG AAAATAAAGC AAATGACTTT CAGAGGATGC TTATTATCCG TTGCTTGAGG 
    CCAGACAAGA TCTCATTTTA CAAACCTAAT GCTAGCACAG ATAGGTCTAT CATCCGCCTT 
    CAGCTCATTA AACTAAGTGA CCCTGACTAT GTTAGGACTC TGGAAAACTG TATCCAGTTT 
    GGAACTCCTG TGTTGCTAGA AAATGTGGGA GAAGAACTGG ACCCGATTCT AGAGCCGCTT 
    TTGTTGAAGC AGACCTTCAA GCAGGGTGGG AGCACATGCA TTCGGCTTGG AGACTCCACA 
    ATTGAGTATG CTCCTGACTT CCGCTTCTAC ATCACAACTA AGCTGAGGAA CCCGCACTAT 
    CTCCCAGAGA CGTCAGTGAA GGTCACATTG TTAAACTTCA TGATAACTCC TGAGGGAATG 
    CAGGATCAAC TTTTGGGAAT CGTAGTGGCA CGGGAAAGGC CAGACCTCGA AGAAGAAAAG 
    CAAGCCTTGA TAGTACAAGG AGCTGACAAC AAAAGGCAGT TAAAGGAAAT AGAAGACAAG 
    ATTTTAGAAG TTCTCTCACT ATCAGAAGGC AATATATTAG AAGATGAGAC TGCGATTAAA 
    ATATTATCTT CCTCCAAGTC TTTGGCTAAT GAGATTTCTC AGAAGCAGGA AGTGGCTGAG 
    GAGACAGAGA AAAAGATTGA CAATACCCGC ATGGGCTATC GGCCCATTGC TATCCATTCT 
    TCCATCCTGT TCTTCTCCAT CGCTGATCTA GCCAACATCG AGCCCATGTA CCAGTATTCT 
    CTGACCTGGT TTATTAACCT GTTCATCCTG TCCATTGAAA ATTCGGAGAA ATCAGACATC 
    TTATCAAAAA GGCTTCAGAT TCTCAGAGAT CACTTCACCT ACTCACTCTA TGTCAACATC 
    TGCCGCTCNC TCTTCGAAAA GGACAAGTTG CTGTTTTCAT TTTGTCTCAC TGTGAATCTG 
    CTGATACATG ANAACGCGAT TAACAAAACA GAATGGAGAT TTCTACTGAC TGGTGGCATT 
    GGGCTGGATA ATCCTTATAC CAACCCTTGC ACATGGCTTC CTCAAAAGTC CTGGGATGAG 
    ATATGCCGAC TAGATGACTT ACATGCCTTT AAGACCATTC GCAGGGAGTT TATGCGCTTA 
    AAGGATGGAT GGAAAAAAGT ATATGATAGT ATGGAGCCAC ACCATGAGAT GTTTCCAGAA 
    GATTGGGAAA ATAAAGCAAA CGACTTTCAG AGGATGCTTA TTATCCGTTG CTTGAGGCCA 
    GACAAGGTTA TTCCGATGCT GCAGGAATTC ATAATCAAGA AATTGGGGCG CCCTTTCATT 
    GAGCCACCCC CCTTTGACTT GGCCAAGGCA TTTGGGGACA GTAACTGTTG TGCACCATTG 
    ATCTTTGTGC TCTCCCCTGG AGCAGATCCC ATGAATGCTC TTCTGAAATT CGCTGATGAC 
    CAGGGATATG GGGGCTCAAA ACTTAGCTCT CTATCTCTGG GCCAAGGCCA AGGGCCCATC 
    GCTATGAAGA TGTTAGAGAA AGCTGTCAAG GATGGGACCT GGGTTGTTCT TCAAAACTGT 
    CACCTTGCCA CCTCTTGGAT GCCAACTCTT GAGAAAGTTT GTGAGGAGTT AAGCCCAGAA 
    TCAACACACC CTGATTTCCG AATCTGGCTG ACGAGTTACC CATCTCCAAA TTTCCCTGTG 
    TCGGTCCTGC AGAATGGAGT AAAAATGACC AACGAAGCAC CGAAAGGATT ACGGGCAAAT 
    ATCATCCGAT CATACCTCAT GGACCCGATC TCTGACCCTG AATTCTTTGA CAGCTGCAAA 
    AAGCCTGAGG AATTCAAGAA ATTGCTTTAT GGCCTCTGTT TCTTTCATGC TTTGGTACAA 
    GAGAGACGAA AATTTGGACC CCTGGGGTGG AATATTCCTT ACGAATTCAA TGAGACAGAT 
    CTAAGAATCA GTGTGCAGCA ACTCCACATG TTCCTGGACC AGTATGAGGA ACTTCCTTAC 
    GATGCTCTCC GCTACATGAC TGGGGAATGT AATTATGGAG GCCGGGTGAC CGACGACTGG 
    GACCGGCGCA CATTGCGCAG CATTCTCAAT AAATTCTTCT GCACAGAATT AGTTGAAAAT 
    CCACAATACA AATTTGACTC TAGTGGCATC TATTTCATTC CTCCCTCTGG TGAGCACAAA 
    AGCTACATCG AATACACAAA GACTCTGCCA CTGATCCCAG CACCAGAAAT CTTTGGGATG 
    AATGCCAACG CTGACATCAC TAAGGACCAG TCAGAGACAC AGCTGCTGTT TGATAACATT 
    CTCCTTACCC AGGTGTGTAT GGTATGA

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

    RefSeq XP_029331140.1
    CDS1..5907
    Translation

    Target ORF information:

    RefSeq Version XM_029475280.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029475280.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTGACA CTGAACCAAT TGGCTTGTGG TCCCCTGGGG AAGATCACCT CTCATACACC 
    CATCTTTTCT CAGTTGCCTA TAGTTCTTTG TGTAAAGTTG CAGCCTTTGG GCTTTTCCTC 
    ATCCAGTTTG GCATGTCTAT TAGTGTCATC CTTGTTCAGC TTGTCCTCAG AGTCTATTAT 
    GATCGCCTTG TGGATAATGC TGACAGAAGC TGGCTTATTA ACTACATACA AGAAATTCTG 
    AAAAATTACA TGCAGGAAGA TTTTCATGAT CTATTTAAAA ATTTGGATTT TAATCATGAT 
    GGCACTGTAG AAGAAGATGA TTTAAGAAGT TTAATGTTTT GTGATTTCCA TGATCCTAAG 
    AGGGAAGATT TTGGCTACAG AGAAATTGCA AATGTGGATG CTCTCAGGGT GATTGTTGAA 
    GGCCATCTAG ATGAATATAA CAACATGAGC AAAAAGCCCA TGAACCTTGT CTTGTTCCGA 
    TTTGCCATAG AACACATAAG CAGAATTTCT CGAATCTTGA AGCAGCCACG GAGCCACGCC 
    CTCCTGGTGG GGGTGGGTGG GAGCGGAAGG CAGTCAGTCA CCAGACTTGC TGCACACATG 
    GCTGATTATT CACTATTCCA GGTGGAAATC TCCAAGGGCT ACGGTAGCCA TGAGTGGCAT 
    GAAGATCTGA AAGTGATCTT AAGAAAATGT GCAGAGAGTG ACATGCAGGG CGTCTTCCTG 
    TTCACAGATA CACAAATAAA AAGAGAGTCC TTTCTAGAAG ATGTCAACAA TCTCTTAAAC 
    ACTGGGGAGG TTCCAAACCT CTTCGCTTTA GATGAGAAGC AGGAAATATG TGAAAAGATG 
    CGTCAGTTAG ATCGACAGCG GGATAAAAGC AAACAGACAG ATGGGAGCCC CATAGCTCTT 
    TTCAACATGT TTATTGACTG CTGCCGCAAC CAGCTGCATG TGGTCCTGGC CATGAGTCCC 
    ATTGGAGATG CATTTCGGAT TCGTCTTCGG AAATTTCCTG CTCTTGTTAA CTGCTGTACC 
    ATTGACTGGT TTCAGTCATG GCCAGAAGAT GCTCTGGAAG CGGTTGCTTC ACGGTTCCTG 
    GAAGACATTG AGATGTCAGA GGAAATCCGA GAAGGCTGTA TTGACATGTG TAAAAGTACC 
    TGTGAAGGAC TTTTAGACCA TAACTTTAGT TACTTCAAAA GGGGTGAAAG ACTCAGAGCT 
    TGCAGGATGT CCCTTGATGC GATGAACAGA TCTGCACATC TCACCTCATT TCATCTATTT 
    GCATCCAGTG AAGTGATGAA AATGAAAAGG AGATACGAAG TGGGTTTGGA TAAGCTGGAC 
    TCGGCTTCGT CACAGGTGGC CACCATGCAG AGTGAGCTGG AGGCGCTGCA TCCACAGTTA 
    AAAGTTGCCA GCAGAGAGGT TGACGAAATG ATGATAATAA TTGAGAGAGA GTCCATGGAG 
    GTGGCCAAAA CTGAGAAAAT CGTGAAAGCT GACGAAACAG TAGCGAACGA TCAAGCCATG 
    GCAGCCAAAG CCATCAAAGA TGAATGCGAT GCCGACTTGG CCGAAGCCCT ACCCATTCTG 
    GAGTCTGCAC TGGCTGCCCT TGATACCCTG ACCGCACAGG ATATCACAGT TGTGAAGTCC 
    ATGAAGAGTC CCCCTGCTGG CGTCAAACTT GTCATGGAAG CTGTCTGCAT ATTGAAAGGG 
    ATCAAAGCTG ACAAAATCCC TGACCCAACT GGTTCAGGGA AGAAAACTGA AGATTTCTGG 
    GGCCCTGCTA AGAGACTTCT CGGTGACATA AGGTTTCTGC AGTCACTTCA TGAGTACGAC 
    AANGACAATA TTCCTCCTGC TTATATGAAT ATCATAAGGA AGAGTTATAT CCCCAACCCA 
    GACTTTGTTC CAGAGAAGAT CCGGAATGCT TCAACAGCTG CTGAGGGTCT GTGCAAGTGG 
    GTCATAGCAA TGGACTCCTA TGACAAAGTG GCAAAAATTG TAGCTCCCAA AAAGATAAAG 
    CTGGCTGCAG CCGAAGGGAA GCTGAATATT GCTATGGAAG GCCTTAGAAA GAAGCAGGCT 
    GCCCTGCATG AGGTTCAGGA CAAGCTGGCC AAACTCCAAG ACACACTTGA GTTGAATAAG 
    CAGAAGAAAG CAGACTTGGA ACACCAGGTT GACTTGTGCA GCAAAAAGCT AGAACGGGCA 
    GAACAGCTGA TCGGGGGCCT GGGAGGTGAG AAAACCCGAT GGAGCAACTC TGCGCTGGAG 
    CTTGGGCATC TGTACATCAA CCTGACTGGT GATATCCTCA TCTCCTCAGG GGTTGTCGCC 
    TACCTGGGAG CCTTTACATC TAACTACAGA CAGATAACTT CATTTTTTGA GAGGCAGGCT 
    TTGATTTTCT GTAGGAGACA TAGACTCCAA CAACTCTGCT CCAGGCCAAA ACTGGACCAG 
    CCCTGCCCAG TTATGTGCTC TTTTAGACAA GGAATGAGGA ATGCAAGGCG GTGGCCTCTG 
    ATGATAGACC CTCAAGGTCA GGCTAATAAG TGGATCAAGA ACATGGAGAA AACCAATAGC 
    CTTCAGCTCA TTAAACTAAG TGACCCTTCC TATGTCAGGA CTCTGGAAAA CTGTATCCAG 
    TTTGGAACTC CTGTGTTGCT AGAAAATGTG GGAGAAGAAT TGGACCCGAT TCTAGAGCCT 
    CTTTTGTTGA AGCAGACCTT CAAGCAGGGT GGGAGCACAT GCATTCGGCT TGGAGACTCC 
    ACAATTGAGT ATGCTCCCGA CTTCCGCTTC TACATCACGA CCAAGCTGAG GAACCCGCAC 
    TATCTCCCAG AGACGTCAGT GAAGGTGACA TTGTTAAACT TCATGATAAC TCCTGAGGGA 
    ATGCAGGATC AGCTTTTGGG AATCGTAGTG GCACGGGAAA GGCCAGACCT CGAAGAAGAA 
    AAGCAAGCCT TGATACTACA AGGAGCTGAC AACAAAAGGC AGTTAAAGGA AATAGAAGAC 
    AAGATTTTAG AAGTTCTCTC ATTATCAGAA GGCAATATAT TAGAAGATGA GACTGCAATT 
    AAAATATTAT CTTCCTCCAA GTCTTTGGCT AATGAGATTT CTCAGAAGCA GGAAGTGGCT 
    GAGGAGACAG AGAAAAAGAT TGACATTACC CGCATGGGCT ATCGGCCCAT TGCTATCCAT 
    TCTTCCATCC TGTTCTTCTC CATCGCTGAT CTAGCCAACA TTGAGCCCAT GTACCAGTAT 
    TCTCTGACCT GGTTTATTAA CCTGTTCATC CTGTCCATTG AGAATTCGGA GAAATCAGAC 
    ATCTTATTAA AAAGGCTTCA GATTCTCAGA GATCACTTCA CCTACTCACT CTATGTCAAC 
    ATCTGCCGCT CNCTCTTCGA AAAGGACAAG TTGCTGTTTT CATTTTGTCT CACTGTGAAT 
    CTGCTGATAC ATGACAACGC GATTAACAAA ACAGAGTGGA GATTTCTACT GACTGGTGGC 
    ATTGGGCTGG ATAATCCTTA TACCAACCCT TGCACATGGC TTCCTCAAAA GTCCTGGGAT 
    GAGATTTGCC GACTAGATGA CTTACCTGCC TTTAAGACCA TTCGCAGGGA GTTTATGCGC 
    TTAAAGGATG GATGGAAAAA AGTATATGAT AGTATGGAGC CACACCATGA GATGTTTCCA 
    GAAGATTGGG AAAATAAAGC AAATGACTTT CAGAGGATGC TTATTATCCG TTGCTTGAGG 
    CCAGACAAGA TCTCATTTTA CAAACCTAAT GCTAGCACAG ATAGGTCTAT CATCCGCCTT 
    CAGCTCATTA AACTAAGTGA CCCTGACTAT GTTAGGACTC TGGAAAACTG TATCCAGTTT 
    GGAACTCCTG TGTTGCTAGA AAATGTGGGA GAAGAACTGG ACCCGATTCT AGAGCCGCTT 
    TTGTTGAAGC AGACCTTCAA GCAGGGTGGG AGCACATGCA TTCGGCTTGG AGACTCCACA 
    ATTGAGTATG CTCCTGACTT CCGCTTCTAC ATCACAACTA AGCTGAGGAA CCCGCACTAT 
    CTCCCAGAGA CGTCAGTGAA GGTCACATTG TTAAACTTCA TGATAACTCC TGAGGGAATG 
    CAGGATCAAC TTTTGGGAAT CGTAGTGGCA CGGGAAAGGC CAGACCTCGA AGAAGAAAAG 
    CAAGCCTTGA TAGTACAAGG AGCTGACAAC AAAAGGCAGT TAAAGGAAAT AGAAGACAAG 
    ATTTTAGAAG TTCTCTCACT ATCAGAAGGC AATATATTAG AAGATGAGAC TGCGATTAAA 
    ATATTATCTT CCTCCAAGTC TTTGGCTAAT GAGATTTCTC AGAAGCAGGA AGTGGCTGAG 
    GAGACAGAGA AAAAGATTGA CAATACCCGC ATGGGCTATC GGCCCATTGC TATCCATTCT 
    TCCATCCTGT TCTTCTCCAT CGCTGATCTA GCCAACATCG AGCCCATGTA CCAGTATTCT 
    CTGACCTGGT TTATTAACCT GTTCATCCTG TCCATTGAAA ATTCGGAGAA ATCAGACATC 
    TTATCAAAAA GGCTTCAGAT TCTCAGAGAT CACTTCACCT ACTCACTCTA TGTCAACATC 
    TGCCGCTCNC TCTTCGAAAA GGACAAGTTG CTGTTTTCAT TTTGTCTCAC TGTGAATCTG 
    CTGATACATG ANAACGCGAT TAACAAAACA GAATGGAGAT TTCTACTGAC TGGTGGCATT 
    GGGCTGGATA ATCCTTATAC CAACCCTTGC ACATGGCTTC CTCAAAAGTC CTGGGATGAG 
    ATATGCCGAC TAGATGACTT ACATGCCTTT AAGACCATTC GCAGGGAGTT TATGCGCTTA 
    AAGGATGGAT GGAAAAAAGT ATATGATAGT ATGGAGCCAC ACCATGAGAT GTTTCCAGAA 
    GATTGGGAAA ATAAAGCAAA CGACTTTCAG AGGATGCTTA TTATCCGTTG CTTGAGGCCA 
    GACAAGGTTA TTCCGATGCT GCAGGAATTC ATAATCAAGA AATTGGGGCG CCCTTTCATT 
    GAGCCACCCC CCTTTGACTT GGCCAAGGCA TTTGGGGACA GTAACTGTTG TGCACCATTG 
    ATCTTTGTGC TCTCCCCTGG AGCAGATCCC ATGAATGCTC TTCTGAAATT CGCTGATGAC 
    CAGGGATATG GGGGCTCAAA ACTTAGCTCT CTATCTCTGG GCCAAGGCCA AGGGCCCATC 
    GCTATGAAGA TGTTAGAGAA AGCTGTCAAG GATGGGACCT GGGTTGTTCT TCAAAACTGT 
    CACCTTGCCA CCTCTTGGAT GCCAACTCTT GAGAAAGTTT GTGAGGAGTT AAGCCCAGAA 
    TCAACACACC CTGATTTCCG AATCTGGCTG ACGAGTTACC CATCTCCAAA TTTCCCTGTG 
    TCGGTCCTGC AGAATGGAGT AAAAATGACC AACGAAGCAC CGAAAGGATT ACGGGCAAAT 
    ATCATCCGAT CATACCTCAT GGACCCGATC TCTGACCCTG AATTCTTTGA CAGCTGCAAA 
    AAGCCTGAGG AATTCAAGAA ATTGCTTTAT GGCCTCTGTT TCTTTCATGC TTTGGTACAA 
    GAGAGACGAA AATTTGGACC CCTGGGGTGG AATATTCCTT ACGAATTCAA TGAGACAGAT 
    CTAAGAATCA GTGTGCAGCA ACTCCACATG TTCCTGGACC AGTATGAGGA ACTTCCTTAC 
    GATGCTCTCC GCTACATGAC TGGGGAATGT AATTATGGAG GCCGGGTGAC CGACGACTGG 
    GACCGGCGCA CATTGCGCAG CATTCTCAAT AAATTCTTCT GCACAGAATT AGTTGAAAAT 
    CCACAATACA AATTTGACTC TAGTGGCATC TATTTCATTC CTCCCTCTGG TGAGCACAAA 
    AGCTACATCG AATACACAAA GACTCTGCCA CTGATCCCAG CACCAGAAAT CTTTGGGATG 
    AATGCCAACG CTGACATCAC TAAGGACCAG TCAGAGACAC AGCTGCTGTT TGATAACATT 
    CTCCTTACCC AGGTGTGTAT GGTATGA

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

    LOC110295232 ( XM_021163717.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021019376.1 Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA.
    Price & Availability↑
    CloneID OMv23294
    Clone ID Related Accession (Same CDS sequence) XM_029475280.1 , XM_021163717.1
    Accession Version XM_021163717.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5907bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product dynein heavy chain 7, axonemal-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 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## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTGACA CTGAACCAAT TGGCTTGTGG TCCCCTGGGG AAGATCACCT CTCATACACC 
    CATCTTTTCT CAGTTGCCTA TAGTTCTTTG TGTAAAGTTG CAGCCTTTGG GCTTTTCCTC 
    ATCCAGTTTG GCATGTCTAT TAGTGTCATC CTTGTTCAGC TTGTCCTCAG AGTCTATTAT 
    GATCGCCTTG TGGATAATGC TGACAGAAGC TGGCTTATTA ACTACATACA AGAAATTCTG 
    AAAAATTACA TGCAGGAAGA TTTTCATGAT CTATTTAAAA ATTTGGATTT TAATCATGAT 
    GGCACTGTAG AAGAAGATGA TTTAAGAAGT TTAATGTTTT GTGATTTCCA TGATCCTAAG 
    AGGGAAGATT TTGGCTACAG AGAAATTGCA AATGTGGATG CTCTCAGGGT GATTGTTGAA 
    GGCCATCTAG ATGAATATAA CAACATGAGC AAAAAGCCCA TGAACCTTGT CTTGTTCCGA 
    TTTGCCATAG AACACATAAG CAGAATTTCT CGAATCTTGA AGCAGCCACG GAGCCACGCC 
    CTCCTGGTGG GGGTGGGTGG GAGCGGAAGG CAGTCAGTCA CCAGACTTGC TGCACACATG 
    GCTGATTATT CACTATTCCA GGTGGAAATC TCCAAGGGCT ACGGTAGCCA TGAGTGGCAT 
    GAAGATCTGA AAGTGATCTT AAGAAAATGT GCAGAGAGTG ACATGCAGGG CGTCTTCCTG 
    TTCACAGATA CACAAATAAA AAGAGAGTCC TTTCTAGAAG ATGTCAACAA TCTCTTAAAC 
    ACTGGGGAGG TTCCAAACCT CTTCGCTTTA GATGAGAAGC AGGAAATATG TGAAAAGATG 
    CGTCAGTTAG ATCGACAGCG GGATAAAAGC AAACAGACAG ATGGGAGCCC CATAGCTCTT 
    TTCAACATGT TTATTGACTG CTGCCGCAAC CAGCTGCATG TGGTCCTGGC CATGAGTCCC 
    ATTGGAGATG CATTTCGGAT TCGTCTTCGG AAATTTCCTG CTCTTGTTAA CTGCTGTACC 
    ATTGACTGGT TTCAGTCATG GCCAGAAGAT GCTCTGGAAG CGGTTGCTTC ACGGTTCCTG 
    GAAGACATTG AGATGTCAGA GGAAATCCGA GAAGGCTGTA TTGACATGTG TAAAAGTACC 
    TGTGAAGGAC TTTTAGACCA TAACTTTAGT TACTTCAAAA GGGGTGAAAG ACTCAGAGCT 
    TGCAGGATGT CCCTTGATGC GATGAACAGA TCTGCACATC TCACCTCATT TCATCTATTT 
    GCATCCAGTG AAGTGATGAA AATGAAAAGG AGATACGAAG TGGGTTTGGA TAAGCTGGAC 
    TCGGCTTCGT CACAGGTGGC CACCATGCAG AGTGAGCTGG AGGCGCTGCA TCCACAGTTA 
    AAAGTTGCCA GCAGAGAGGT TGACGAAATG ATGATAATAA TTGAGAGAGA GTCCATGGAG 
    GTGGCCAAAA CTGAGAAAAT CGTGAAAGCT GACGAAACAG TAGCGAACGA TCAAGCCATG 
    GCAGCCAAAG CCATCAAAGA TGAATGCGAT GCCGACTTGG CCGAAGCCCT ACCCATTCTG 
    GAGTCTGCAC TGGCTGCCCT TGATACCCTG ACCGCACAGG ATATCACAGT TGTGAAGTCC 
    ATGAAGAGTC CCCCTGCTGG CGTCAAACTT GTCATGGAAG CTGTCTGCAT ATTGAAAGGG 
    ATCAAAGCTG ACAAAATCCC TGACCCAACT GGTTCAGGGA AGAAAACTGA AGATTTCTGG 
    GGCCCTGCTA AGAGACTTCT CGGTGACATA AGGTTTCTGC AGTCACTTCA TGAGTACGAC 
    AANGACAATA TTCCTCCTGC TTATATGAAT ATCATAAGGA AGAGTTATAT CCCCAACCCA 
    GACTTTGTTC CAGAGAAGAT CCGGAATGCT TCAACAGCTG CTGAGGGTCT GTGCAAGTGG 
    GTCATAGCAA TGGACTCCTA TGACAAAGTG GCAAAAATTG TAGCTCCCAA AAAGATAAAG 
    CTGGCTGCAG CCGAAGGGAA GCTGAATATT GCTATGGAAG GCCTTAGAAA GAAGCAGGCT 
    GCCCTGCATG AGGTTCAGGA CAAGCTGGCC AAACTCCAAG ACACACTTGA GTTGAATAAG 
    CAGAAGAAAG CAGACTTGGA ACACCAGGTT GACTTGTGCA GCAAAAAGCT AGAACGGGCA 
    GAACAGCTGA TCGGGGGCCT GGGAGGTGAG AAAACCCGAT GGAGCAACTC TGCGCTGGAG 
    CTTGGGCATC TGTACATCAA CCTGACTGGT GATATCCTCA TCTCCTCAGG GGTTGTCGCC 
    TACCTGGGAG CCTTTACATC TAACTACAGA CAGATAACTT CATTTTTTGA GAGGCAGGCT 
    TTGATTTTCT GTAGGAGACA TAGACTCCAA CAACTCTGCT CCAGGCCAAA ACTGGACCAG 
    CCCTGCCCAG TTATGTGCTC TTTTAGACAA GGAATGAGGA ATGCAAGGCG GTGGCCTCTG 
    ATGATAGACC CTCAAGGTCA GGCTAATAAG TGGATCAAGA ACATGGAGAA AACCAATAGC 
    CTTCAGCTCA TTAAACTAAG TGACCCTTCC TATGTCAGGA CTCTGGAAAA CTGTATCCAG 
    TTTGGAACTC CTGTGTTGCT AGAAAATGTG GGAGAAGAAT TGGACCCGAT TCTAGAGCCT 
    CTTTTGTTGA AGCAGACCTT CAAGCAGGGT GGGAGCACAT GCATTCGGCT TGGAGACTCC 
    ACAATTGAGT ATGCTCCCGA CTTCCGCTTC TACATCACGA CCAAGCTGAG GAACCCGCAC 
    TATCTCCCAG AGACGTCAGT GAAGGTGACA TTGTTAAACT TCATGATAAC TCCTGAGGGA 
    ATGCAGGATC AGCTTTTGGG AATCGTAGTG GCACGGGAAA GGCCAGACCT CGAAGAAGAA 
    AAGCAAGCCT TGATACTACA AGGAGCTGAC AACAAAAGGC AGTTAAAGGA AATAGAAGAC 
    AAGATTTTAG AAGTTCTCTC ATTATCAGAA GGCAATATAT TAGAAGATGA GACTGCAATT 
    AAAATATTAT CTTCCTCCAA GTCTTTGGCT AATGAGATTT CTCAGAAGCA GGAAGTGGCT 
    GAGGAGACAG AGAAAAAGAT TGACATTACC CGCATGGGCT ATCGGCCCAT TGCTATCCAT 
    TCTTCCATCC TGTTCTTCTC CATCGCTGAT CTAGCCAACA TTGAGCCCAT GTACCAGTAT 
    TCTCTGACCT GGTTTATTAA CCTGTTCATC CTGTCCATTG AGAATTCGGA GAAATCAGAC 
    ATCTTATTAA AAAGGCTTCA GATTCTCAGA GATCACTTCA CCTACTCACT CTATGTCAAC 
    ATCTGCCGCT CNCTCTTCGA AAAGGACAAG TTGCTGTTTT CATTTTGTCT CACTGTGAAT 
    CTGCTGATAC ATGACAACGC GATTAACAAA ACAGAGTGGA GATTTCTACT GACTGGTGGC 
    ATTGGGCTGG ATAATCCTTA TACCAACCCT TGCACATGGC TTCCTCAAAA GTCCTGGGAT 
    GAGATTTGCC GACTAGATGA CTTACCTGCC TTTAAGACCA TTCGCAGGGA GTTTATGCGC 
    TTAAAGGATG GATGGAAAAA AGTATATGAT AGTATGGAGC CACACCATGA GATGTTTCCA 
    GAAGATTGGG AAAATAAAGC AAATGACTTT CAGAGGATGC TTATTATCCG TTGCTTGAGG 
    CCAGACAAGA TCTCATTTTA CAAACCTAAT GCTAGCACAG ATAGGTCTAT CATCCGCCTT 
    CAGCTCATTA AACTAAGTGA CCCTGACTAT GTTAGGACTC TGGAAAACTG TATCCAGTTT 
    GGAACTCCTG TGTTGCTAGA AAATGTGGGA GAAGAACTGG ACCCGATTCT AGAGCCGCTT 
    TTGTTGAAGC AGACCTTCAA GCAGGGTGGG AGCACATGCA TTCGGCTTGG AGACTCCACA 
    ATTGAGTATG CTCCTGACTT CCGCTTCTAC ATCACAACTA AGCTGAGGAA CCCGCACTAT 
    CTCCCAGAGA CGTCAGTGAA GGTCACATTG TTAAACTTCA TGATAACTCC TGAGGGAATG 
    CAGGATCAAC TTTTGGGAAT CGTAGTGGCA CGGGAAAGGC CAGACCTCGA AGAAGAAAAG 
    CAAGCCTTGA TAGTACAAGG AGCTGACAAC AAAAGGCAGT TAAAGGAAAT AGAAGACAAG 
    ATTTTAGAAG TTCTCTCACT ATCAGAAGGC AATATATTAG AAGATGAGAC TGCGATTAAA 
    ATATTATCTT CCTCCAAGTC TTTGGCTAAT GAGATTTCTC AGAAGCAGGA AGTGGCTGAG 
    GAGACAGAGA AAAAGATTGA CAATACCCGC ATGGGCTATC GGCCCATTGC TATCCATTCT 
    TCCATCCTGT TCTTCTCCAT CGCTGATCTA GCCAACATCG AGCCCATGTA CCAGTATTCT 
    CTGACCTGGT TTATTAACCT GTTCATCCTG TCCATTGAAA ATTCGGAGAA ATCAGACATC 
    TTATCAAAAA GGCTTCAGAT TCTCAGAGAT CACTTCACCT ACTCACTCTA TGTCAACATC 
    TGCCGCTCNC TCTTCGAAAA GGACAAGTTG CTGTTTTCAT TTTGTCTCAC TGTGAATCTG 
    CTGATACATG ANAACGCGAT TAACAAAACA GAATGGAGAT TTCTACTGAC TGGTGGCATT 
    GGGCTGGATA ATCCTTATAC CAACCCTTGC ACATGGCTTC CTCAAAAGTC CTGGGATGAG 
    ATATGCCGAC TAGATGACTT ACATGCCTTT AAGACCATTC GCAGGGAGTT TATGCGCTTA 
    AAGGATGGAT GGAAAAAAGT ATATGATAGT ATGGAGCCAC ACCATGAGAT GTTTCCAGAA 
    GATTGGGAAA ATAAAGCAAA CGACTTTCAG AGGATGCTTA TTATCCGTTG CTTGAGGCCA 
    GACAAGGTTA TTCCGATGCT GCAGGAATTC ATAATCAAGA AATTGGGGCG CCCTTTCATT 
    GAGCCACCCC CCTTTGACTT GGCCAAGGCA TTTGGGGACA GTAACTGTTG TGCACCATTG 
    ATCTTTGTGC TCTCCCCTGG AGCAGATCCC ATGAATGCTC TTCTGAAATT CGCTGATGAC 
    CAGGGATATG GGGGCTCAAA ACTTAGCTCT CTATCTCTGG GCCAAGGCCA AGGGCCCATC 
    GCTATGAAGA TGTTAGAGAA AGCTGTCAAG GATGGGACCT GGGTTGTTCT TCAAAACTGT 
    CACCTTGCCA CCTCTTGGAT GCCAACTCTT GAGAAAGTTT GTGAGGAGTT AAGCCCAGAA 
    TCAACACACC CTGATTTCCG AATCTGGCTG ACGAGTTACC CATCTCCAAA TTTCCCTGTG 
    TCGGTCCTGC AGAATGGAGT AAAAATGACC AACGAAGCAC CGAAAGGATT ACGGGCAAAT 
    ATCATCCGAT CATACCTCAT GGACCCGATC TCTGACCCTG AATTCTTTGA CAGCTGCAAA 
    AAGCCTGAGG AATTCAAGAA ATTGCTTTAT GGCCTCTGTT TCTTTCATGC TTTGGTACAA 
    GAGAGACGAA AATTTGGACC CCTGGGGTGG AATATTCCTT ACGAATTCAA TGAGACAGAT 
    CTAAGAATCA GTGTGCAGCA ACTCCACATG TTCCTGGACC AGTATGAGGA ACTTCCTTAC 
    GATGCTCTCC GCTACATGAC TGGGGAATGT AATTATGGAG GCCGGGTGAC CGACGACTGG 
    GACCGGCGCA CATTGCGCAG CATTCTCAAT AAATTCTTCT GCACAGAATT AGTTGAAAAT 
    CCACAATACA AATTTGACTC TAGTGGCATC TATTTCATTC CTCCCTCTGG TGAGCACAAA 
    AGCTACATCG AATACACAAA GACTCTGCCA CTGATCCCAG CACCAGAAAT CTTTGGGATG 
    AATGCCAACG CTGACATCAC TAAGGACCAG TCAGAGACAC AGCTGCTGTT TGATAACATT 
    CTCCTTACCC AGGTGTGTAT GGTATGA

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

    RefSeq XP_021019376.1
    CDS1..5907
    Translation

    Target ORF information:

    RefSeq Version XM_021163717.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli dynein heavy chain 7, axonemal-like (LOC110295232), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021163717.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTGACA CTGAACCAAT TGGCTTGTGG TCCCCTGGGG AAGATCACCT CTCATACACC 
    CATCTTTTCT CAGTTGCCTA TAGTTCTTTG TGTAAAGTTG CAGCCTTTGG GCTTTTCCTC 
    ATCCAGTTTG GCATGTCTAT TAGTGTCATC CTTGTTCAGC TTGTCCTCAG AGTCTATTAT 
    GATCGCCTTG TGGATAATGC TGACAGAAGC TGGCTTATTA ACTACATACA AGAAATTCTG 
    AAAAATTACA TGCAGGAAGA TTTTCATGAT CTATTTAAAA ATTTGGATTT TAATCATGAT 
    GGCACTGTAG AAGAAGATGA TTTAAGAAGT TTAATGTTTT GTGATTTCCA TGATCCTAAG 
    AGGGAAGATT TTGGCTACAG AGAAATTGCA AATGTGGATG CTCTCAGGGT GATTGTTGAA 
    GGCCATCTAG ATGAATATAA CAACATGAGC AAAAAGCCCA TGAACCTTGT CTTGTTCCGA 
    TTTGCCATAG AACACATAAG CAGAATTTCT CGAATCTTGA AGCAGCCACG GAGCCACGCC 
    CTCCTGGTGG GGGTGGGTGG GAGCGGAAGG CAGTCAGTCA CCAGACTTGC TGCACACATG 
    GCTGATTATT CACTATTCCA GGTGGAAATC TCCAAGGGCT ACGGTAGCCA TGAGTGGCAT 
    GAAGATCTGA AAGTGATCTT AAGAAAATGT GCAGAGAGTG ACATGCAGGG CGTCTTCCTG 
    TTCACAGATA CACAAATAAA AAGAGAGTCC TTTCTAGAAG ATGTCAACAA TCTCTTAAAC 
    ACTGGGGAGG TTCCAAACCT CTTCGCTTTA GATGAGAAGC AGGAAATATG TGAAAAGATG 
    CGTCAGTTAG ATCGACAGCG GGATAAAAGC AAACAGACAG ATGGGAGCCC CATAGCTCTT 
    TTCAACATGT TTATTGACTG CTGCCGCAAC CAGCTGCATG TGGTCCTGGC CATGAGTCCC 
    ATTGGAGATG CATTTCGGAT TCGTCTTCGG AAATTTCCTG CTCTTGTTAA CTGCTGTACC 
    ATTGACTGGT TTCAGTCATG GCCAGAAGAT GCTCTGGAAG CGGTTGCTTC ACGGTTCCTG 
    GAAGACATTG AGATGTCAGA GGAAATCCGA GAAGGCTGTA TTGACATGTG TAAAAGTACC 
    TGTGAAGGAC TTTTAGACCA TAACTTTAGT TACTTCAAAA GGGGTGAAAG ACTCAGAGCT 
    TGCAGGATGT CCCTTGATGC GATGAACAGA TCTGCACATC TCACCTCATT TCATCTATTT 
    GCATCCAGTG AAGTGATGAA AATGAAAAGG AGATACGAAG TGGGTTTGGA TAAGCTGGAC 
    TCGGCTTCGT CACAGGTGGC CACCATGCAG AGTGAGCTGG AGGCGCTGCA TCCACAGTTA 
    AAAGTTGCCA GCAGAGAGGT TGACGAAATG ATGATAATAA TTGAGAGAGA GTCCATGGAG 
    GTGGCCAAAA CTGAGAAAAT CGTGAAAGCT GACGAAACAG TAGCGAACGA TCAAGCCATG 
    GCAGCCAAAG CCATCAAAGA TGAATGCGAT GCCGACTTGG CCGAAGCCCT ACCCATTCTG 
    GAGTCTGCAC TGGCTGCCCT TGATACCCTG ACCGCACAGG ATATCACAGT TGTGAAGTCC 
    ATGAAGAGTC CCCCTGCTGG CGTCAAACTT GTCATGGAAG CTGTCTGCAT ATTGAAAGGG 
    ATCAAAGCTG ACAAAATCCC TGACCCAACT GGTTCAGGGA AGAAAACTGA AGATTTCTGG 
    GGCCCTGCTA AGAGACTTCT CGGTGACATA AGGTTTCTGC AGTCACTTCA TGAGTACGAC 
    AANGACAATA TTCCTCCTGC TTATATGAAT ATCATAAGGA AGAGTTATAT CCCCAACCCA 
    GACTTTGTTC CAGAGAAGAT CCGGAATGCT TCAACAGCTG CTGAGGGTCT GTGCAAGTGG 
    GTCATAGCAA TGGACTCCTA TGACAAAGTG GCAAAAATTG TAGCTCCCAA AAAGATAAAG 
    CTGGCTGCAG CCGAAGGGAA GCTGAATATT GCTATGGAAG GCCTTAGAAA GAAGCAGGCT 
    GCCCTGCATG AGGTTCAGGA CAAGCTGGCC AAACTCCAAG ACACACTTGA GTTGAATAAG 
    CAGAAGAAAG CAGACTTGGA ACACCAGGTT GACTTGTGCA GCAAAAAGCT AGAACGGGCA 
    GAACAGCTGA TCGGGGGCCT GGGAGGTGAG AAAACCCGAT GGAGCAACTC TGCGCTGGAG 
    CTTGGGCATC TGTACATCAA CCTGACTGGT GATATCCTCA TCTCCTCAGG GGTTGTCGCC 
    TACCTGGGAG CCTTTACATC TAACTACAGA CAGATAACTT CATTTTTTGA GAGGCAGGCT 
    TTGATTTTCT GTAGGAGACA TAGACTCCAA CAACTCTGCT CCAGGCCAAA ACTGGACCAG 
    CCCTGCCCAG TTATGTGCTC TTTTAGACAA GGAATGAGGA ATGCAAGGCG GTGGCCTCTG 
    ATGATAGACC CTCAAGGTCA GGCTAATAAG TGGATCAAGA ACATGGAGAA AACCAATAGC 
    CTTCAGCTCA TTAAACTAAG TGACCCTTCC TATGTCAGGA CTCTGGAAAA CTGTATCCAG 
    TTTGGAACTC CTGTGTTGCT AGAAAATGTG GGAGAAGAAT TGGACCCGAT TCTAGAGCCT 
    CTTTTGTTGA AGCAGACCTT CAAGCAGGGT GGGAGCACAT GCATTCGGCT TGGAGACTCC 
    ACAATTGAGT ATGCTCCCGA CTTCCGCTTC TACATCACGA CCAAGCTGAG GAACCCGCAC 
    TATCTCCCAG AGACGTCAGT GAAGGTGACA TTGTTAAACT TCATGATAAC TCCTGAGGGA 
    ATGCAGGATC AGCTTTTGGG AATCGTAGTG GCACGGGAAA GGCCAGACCT CGAAGAAGAA 
    AAGCAAGCCT TGATACTACA AGGAGCTGAC AACAAAAGGC AGTTAAAGGA AATAGAAGAC 
    AAGATTTTAG AAGTTCTCTC ATTATCAGAA GGCAATATAT TAGAAGATGA GACTGCAATT 
    AAAATATTAT CTTCCTCCAA GTCTTTGGCT AATGAGATTT CTCAGAAGCA GGAAGTGGCT 
    GAGGAGACAG AGAAAAAGAT TGACATTACC CGCATGGGCT ATCGGCCCAT TGCTATCCAT 
    TCTTCCATCC TGTTCTTCTC CATCGCTGAT CTAGCCAACA TTGAGCCCAT GTACCAGTAT 
    TCTCTGACCT GGTTTATTAA CCTGTTCATC CTGTCCATTG AGAATTCGGA GAAATCAGAC 
    ATCTTATTAA AAAGGCTTCA GATTCTCAGA GATCACTTCA CCTACTCACT CTATGTCAAC 
    ATCTGCCGCT CNCTCTTCGA AAAGGACAAG TTGCTGTTTT CATTTTGTCT CACTGTGAAT 
    CTGCTGATAC ATGACAACGC GATTAACAAA ACAGAGTGGA GATTTCTACT GACTGGTGGC 
    ATTGGGCTGG ATAATCCTTA TACCAACCCT TGCACATGGC TTCCTCAAAA GTCCTGGGAT 
    GAGATTTGCC GACTAGATGA CTTACCTGCC TTTAAGACCA TTCGCAGGGA GTTTATGCGC 
    TTAAAGGATG GATGGAAAAA AGTATATGAT AGTATGGAGC CACACCATGA GATGTTTCCA 
    GAAGATTGGG AAAATAAAGC AAATGACTTT CAGAGGATGC TTATTATCCG TTGCTTGAGG 
    CCAGACAAGA TCTCATTTTA CAAACCTAAT GCTAGCACAG ATAGGTCTAT CATCCGCCTT 
    CAGCTCATTA AACTAAGTGA CCCTGACTAT GTTAGGACTC TGGAAAACTG TATCCAGTTT 
    GGAACTCCTG TGTTGCTAGA AAATGTGGGA GAAGAACTGG ACCCGATTCT AGAGCCGCTT 
    TTGTTGAAGC AGACCTTCAA GCAGGGTGGG AGCACATGCA TTCGGCTTGG AGACTCCACA 
    ATTGAGTATG CTCCTGACTT CCGCTTCTAC ATCACAACTA AGCTGAGGAA CCCGCACTAT 
    CTCCCAGAGA CGTCAGTGAA GGTCACATTG TTAAACTTCA TGATAACTCC TGAGGGAATG 
    CAGGATCAAC TTTTGGGAAT CGTAGTGGCA CGGGAAAGGC CAGACCTCGA AGAAGAAAAG 
    CAAGCCTTGA TAGTACAAGG AGCTGACAAC AAAAGGCAGT TAAAGGAAAT AGAAGACAAG 
    ATTTTAGAAG TTCTCTCACT ATCAGAAGGC AATATATTAG AAGATGAGAC TGCGATTAAA 
    ATATTATCTT CCTCCAAGTC TTTGGCTAAT GAGATTTCTC AGAAGCAGGA AGTGGCTGAG 
    GAGACAGAGA AAAAGATTGA CAATACCCGC ATGGGCTATC GGCCCATTGC TATCCATTCT 
    TCCATCCTGT TCTTCTCCAT CGCTGATCTA GCCAACATCG AGCCCATGTA CCAGTATTCT 
    CTGACCTGGT TTATTAACCT GTTCATCCTG TCCATTGAAA ATTCGGAGAA ATCAGACATC 
    TTATCAAAAA GGCTTCAGAT TCTCAGAGAT CACTTCACCT ACTCACTCTA TGTCAACATC 
    TGCCGCTCNC TCTTCGAAAA GGACAAGTTG CTGTTTTCAT TTTGTCTCAC TGTGAATCTG 
    CTGATACATG ANAACGCGAT TAACAAAACA GAATGGAGAT TTCTACTGAC TGGTGGCATT 
    GGGCTGGATA ATCCTTATAC CAACCCTTGC ACATGGCTTC CTCAAAAGTC CTGGGATGAG 
    ATATGCCGAC TAGATGACTT ACATGCCTTT AAGACCATTC GCAGGGAGTT TATGCGCTTA 
    AAGGATGGAT GGAAAAAAGT ATATGATAGT ATGGAGCCAC ACCATGAGAT GTTTCCAGAA 
    GATTGGGAAA ATAAAGCAAA CGACTTTCAG AGGATGCTTA TTATCCGTTG CTTGAGGCCA 
    GACAAGGTTA TTCCGATGCT GCAGGAATTC ATAATCAAGA AATTGGGGCG CCCTTTCATT 
    GAGCCACCCC CCTTTGACTT GGCCAAGGCA TTTGGGGACA GTAACTGTTG TGCACCATTG 
    ATCTTTGTGC TCTCCCCTGG AGCAGATCCC ATGAATGCTC TTCTGAAATT CGCTGATGAC 
    CAGGGATATG GGGGCTCAAA ACTTAGCTCT CTATCTCTGG GCCAAGGCCA AGGGCCCATC 
    GCTATGAAGA TGTTAGAGAA AGCTGTCAAG GATGGGACCT GGGTTGTTCT TCAAAACTGT 
    CACCTTGCCA CCTCTTGGAT GCCAACTCTT GAGAAAGTTT GTGAGGAGTT AAGCCCAGAA 
    TCAACACACC CTGATTTCCG AATCTGGCTG ACGAGTTACC CATCTCCAAA TTTCCCTGTG 
    TCGGTCCTGC AGAATGGAGT AAAAATGACC AACGAAGCAC CGAAAGGATT ACGGGCAAAT 
    ATCATCCGAT CATACCTCAT GGACCCGATC TCTGACCCTG AATTCTTTGA CAGCTGCAAA 
    AAGCCTGAGG AATTCAAGAA ATTGCTTTAT GGCCTCTGTT TCTTTCATGC TTTGGTACAA 
    GAGAGACGAA AATTTGGACC CCTGGGGTGG AATATTCCTT ACGAATTCAA TGAGACAGAT 
    CTAAGAATCA GTGTGCAGCA ACTCCACATG TTCCTGGACC AGTATGAGGA ACTTCCTTAC 
    GATGCTCTCC GCTACATGAC TGGGGAATGT AATTATGGAG GCCGGGTGAC CGACGACTGG 
    GACCGGCGCA CATTGCGCAG CATTCTCAAT AAATTCTTCT GCACAGAATT AGTTGAAAAT 
    CCACAATACA AATTTGACTC TAGTGGCATC TATTTCATTC CTCCCTCTGG TGAGCACAAA 
    AGCTACATCG AATACACAAA GACTCTGCCA CTGATCCCAG CACCAGAAAT CTTTGGGATG 
    AATGCCAACG CTGACATCAC TAAGGACCAG TCAGAGACAC AGCTGCTGTT TGATAACATT 
    CTCCTTACCC AGGTGTGTAT GGTATGA

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

見積依頼

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