ORF » Species Summary » Mus caroli » Exph5 cDNA ORF clone

Exph5 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Exph5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Exph5 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
OMv08645 XM_021172238.2
Latest version!		 Mus caroli exophilin 5 (Exph5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv76071 XM_029481705.1
Latest version!		 Mus caroli exophilin 5 (Exph5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv76071 XM_029481706.1
Latest version!		 Mus caroli exophilin 5 (Exph5), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
View Old Accession Versions >>
OMv08645 XM_021172238.1 Mus caroli exophilin 5 (Exph5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    Exph5 ( XM_021172238.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021027897.1 Mus caroli exophilin 5 (Exph5), mRNA.
    Price & Availability↑
    CloneID OMv08645
    Clone ID Related Accession (Same CDS sequence) XM_021172238.1 , XM_021172238.2
    Accession Version XM_021172238.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5883bp)
    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 exophilin-5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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## 

    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
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGCTTCCTAA ACGAGGAAGA AGCCAGGAAG 
    ATCCTCCAGG TACTGGAAAG AAATGAGGAA CTCCGGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTTCAGA AGACAAAGAG GGATATCAGA TGGCTTCAAG GAGCAACTGG CGAATGGTTT 
    GAAGAAATTC AAAGAAAGAA GTTTTGCAAT GAAACAGATG TTAACCAGAT GTTAAAGCCA 
    CCCCTTACAT ATAGGCTACA AAAGGGGGTG GCAAAAAATG ATCCGATGGA ATTACAAACA 
    CCAAGATCTA AAAGCCTAAT AAACCAAAAA CCATCTGTTT CTTCCCGAAT GAGCTTTCGG 
    TCATCCTTTG CTTCACTGTT CTCATTCAGA CGACCTGCGA AGGAGACTCT GAACCTTCAG 
    TCTCAGAGAC CAAACCGGTG CGATGAGCGT GTAAGACCTT CAGCGTCTGT GAGGGGGACA 
    GCTGCGGCAA ATATATACAA TTCACCTGTT GGGAACCAAC CAGTTGCCAG TGTGTTTGTC 
    CCTAAGCCAG CCATCATGAG GGAGGAGAGC GGTATGCCTC CGCCCTGGGA CGCTTCCCTG 
    CTGGAGAGTG AGTTTTTCCA AGTTTTAGAC GATTTGGACA ACAAGCTGGC CCAGGAGCAG 
    TCTTCAGGCT TGATGAATAC CAGAGTGCCA TTCAACTACG GATCAAGAAC ACAGTTCAAG 
    CTGTCTCACA GAAACAGTCA TGGTCATGGC ACAGGAAGGC AACAGAACTA CCACAGTGAA 
    ACTTCCAACA TGTCTATCTA TAACATCCTG AGACCTGGAG CCCCTAGAGA AGGCTTTAAA 
    ACCTTTTCTC CTAGGACAAA GACGATTTAT GACATGTATA GGACCAGGGA GCCCAGAGTC 
    TTAAAGGAAG ACTTCATGCA AAAGAATGCA TTTGGGAGTG CATCTCTGTG CTTCGACAGC 
    CGGCAACGAT CAGCCTCGCC TGCCGCAGGG AGTTTCACTG CTAGGAGTTT ACACTTTCCA 
    GCCGATACTC AAAACAAGAG TAGTTTTACA GCAGTGAGAC ACCAGCAAAG CCCCAAAAGG 
    ACTCCTTTAT CTTCCATCAT ATGGAATAGG TCAGATGCTT CTAGACATAG GCAGAATCAA 
    GAAGAGTCAC TGGGGGTACC AGCACCAATG GACATTGACC CCGCAGAGCA ATATGTGTCT 
    CCTAGGTGTT TTCAGGAAAG TAGGAGGTAT GAGATGTGCC ATTCACTGAA CGCTTACCAA 
    AGCTACCCTT TAAACGTCCC TGTGGCTAAT GCAATGAGTC CTGACACGTT GGAGAACTCA 
    GAGAATATGC CATTCTACCG TCAGGGTAAC CCATTTGCAA GGTCTTTCTT TAGCAGTACC 
    TTCAGGCAGA GCAGAGAACA GAGATTCGGA CAGAATTCTT TTTGGAGCCG ACAGGAAGAG 
    TACTCTCCCT GGCCTGACAT TCCCCAGAGC AGGGACCCGT TCCCTTCTTC TGACAAGGAC 
    TTTGAAATGT TTTCTGTTGA AGCAAACAGG GCGCCATCTG TTTGCAGCCA AGGTGTCCCT 
    TCTCAGCACT GGAGGTCACA TTCTTCCGGC CATGGAACAT ACGTTTTCAG AGGCCGAGAA 
    GATTCGCATT GCTGGCGATC TGATTTTCAA ACATCCCCAC TGGAGAGCAT GGACACCTCA 
    CATGTTAATG AGAACCAACG TCCACCCCAT TTTGTCACAC CAGTTGGGTT TTCTATAACT 
    GACTCAAGCT GCCACCTCCA ATCTTCCAGG CTGGACTCTC AGCAGGGCCA CTTCCCTATA 
    GAAGAAGCTG TAGACGAGGA CCCTTATTTG TTTGGCAAGG CTCAGACCCC AGCATCTTCA 
    TTCAGAACTC CCTACCCCCT CAGTCCTAAT GATGGAAGGG AGTCTCAGAG TTCCAGCTTC 
    CCGGATTCCA CAGCTACTTT GCAGAAAATA ATCCCCAATA AGCCAGACTC TCTTCCAATA 
    AGAAACTGTA CAGAAGTTCC TGTGGCCTGT AACCATTCTA TTGACTCGCT GTCTCTTACT 
    GACACCCAGC CCAACATCCC AGTCACAGAA ACGAACAGTG AGAAAGATAT GGATGTGTCT 
    GTTTCAAAGG ATGAACAGCT AAACAAGATG GACCAGAAGA GCAGGCCAAC TGGGTTACCC 
    CAATATGTTT TACATACAGT GATCTCTAAT GATTTACCTG ACTTTCAAAA TACCCATTCT 
    CGGGACTCAG CCCAAAATGA CAGGTATGGT TTTAATGCAC CTGCCACAGA ACGTTCCAGA 
    AGATCACCCA GGGTCTTCTC CAGAAAGGGT ACTTCCCAAA TTCATACAAC ACAAAGAGAT 
    CAAAGCAACA AACTGAGCAA AAATAAGTGT TTTGGGGGGG ACAGGAGACT TGACTCAGCA 
    GCGTCTCCGC CTTTCATCCA AGAAAGTGGA ACACCGACAT CTCTTCCCAG CCCAAATCAA 
    GGTTGTCACC AGAAAACAGG AAGTAATGAA GAGAGTTCAA GCACCATTAA AAACAGCCAT 
    TGGTGCTTTG AGCCCACTGC TAACCAAAAA TCACAGCCTT CCGGGGAGCC TGCTCTTTTA 
    GATCTTGAGC AAAGTCCTTC CACTCATTCT ACCAATGACA GCAAGCTAGC CACCGGGCAC 
    AGCGTCTCAC GAGCTCCTTT ACATGTGGCA TCAGATGCAC CCCAAGATTC TTTCCTTGAT 
    GCTCATCTGG TACCTTCCAC TACAGTGTTC TCCAGGAGCC TTTCAGACCA AGATCCAGGT 
    CAAGAACAAA GAGAAGAGAA AGACAAAGCT ACCAAGAGCC AAGATAATCA GCTGGCTGTA 
    AATTCTACAG ACAACCAAGA GAATCATGAC GGTCCTGCAC TTCCACACGA TGCTGTTCAC 
    TGCCACCCAT ACTCTCCCTT CAAGAATGGG AGGGGGAAGG GAAGAGTTAG GCGCCGTGTG 
    TCCTGTATTG AGAAGCTAAC CAAAACAGAG CGTACAGTGG CACCCACAAG AGAAGGTAGT 
    GGCTGTGCTG AGGACCAAAG AAGCATCAAA GATCCTGAGC TCAGCACAGT CTATTGCACC 
    TTGCCAAGAA AACCAGCCAG CTTTCTCATT CACAGCAGAC AGCAGGAAAG TAAGGGAACG 
    GTTGCTTCCA TTAGGAATGG GCCACTTCCC TTCCAAATAA AAAATAAAGC CGAAGTTCCC 
    ACAGGAAAGG GCACATCTGA CAAGACCAGT TCTCCTGAAT CAATAAGTGA TGCTGCAAAT 
    GCAGTCTCGG GGACACCCAA AGCCACTAAG AAGATGACAG ATATGAAAGC CATTAGATCG 
    GCTTCAGTTA GGAAAGGGCC ACTCCCTTTC CTCATCAAGA GGGCAATCTC GTGTCCTTCA 
    GGGGAGCCAT GTAGCTTGGC TGAAAGCGAT GACAGACAGA AGTCATCAGT CCTGGGCATG 
    GATGCTTCTC CTGGAACACC CAGGCCTGGA GGGAGAATCT TTAACTCTCT GGAAGGTGAA 
    CCATCATTTA TAGAGAGTAC TTTCTCTGAA AAGGAACTTG CTCAAGAACC CACTGGAAAG 
    GGTAGTGAGC TTCGGGCCCC CAGAATGGGC TCATTGACCT CTTCAAAAAA AACTCCCGAA 
    CGTCTGTGTG CAACTGGGTC AGGAAAAGAG AGTGGGAAAG CATTACATAA GTTTAAGACA 
    ACTAGCATGT TTTCTGTTTC TGGCGATGAA GAGAACATGA GCTGTCTTGA GGTGGTTTCA 
    ATCTATTACA CTCTACCAAG GAAACCCAGC AAAAAATTCT GCAGCCTCCT TCAGCAGTAC 
    GCACAAGGTA CCGATTCACT TAGAGATGCT TTCCAGGGAG AGACTAAAGC ACCCCCTAAT 
    GCTTTAGAAA TCGATGAGCT GAATTGTCCT GCACAAACGC AATCAGGAAT ACCTCCACCA 
    CAAGACCCAA AGATGCAGGT TGACTCCGCT CCATGCCATC TCTCCCACAG CCCTGAAAGT 
    AAGGTTGTCT CCCAATTGCC AGATAGAGAG ACTTCCAAAT CTACATTAGA GGAAATGGCT 
    TCGGTGGGGC CAGATGTTTC TCTTCATAGA GAAGAACCTA CGATCAAAGA GATTTCCCCA 
    AGTAATGTAT CTAAAACAGC TATAGATGAT TCACTAAGCA GAGAAGAGAG AGAGAAAGAA 
    CTGCTAAGGC AAATCCTACG GGCCCCCTTA CTGCATCAGG AAAAAGGTGC TGGAAAAGAA 
    GACACTAAGA GTCATCAGCA GCCTTCTAAA GGAGGAAGCA GTGGTCCCTC TGGTCTCCCA 
    TCCCGCTCAG AAGATAATGT TGAAAATTCC CAGACCAGAA GAGATTCTGG GACATGTGCA 
    GGTGGCATGG CCACTGGAAA TGGACAGTAT CCTTGGAGGG ATCACGTGGC TGCAGTTGTA 
    GGTGACCGTT CTAGTAGGTC ACAACTTAGG GAAACCAGTG GGTCAACTGG GTCAGATTGC 
    CAAAACCAGA CTGATAAAAT GCTCTCTGAC TCAGAAAGCC AAGCCTTTGC TCTAACGCCA 
    GCATTGTGTA AGCTGCAGCT TGCTGAAGAG GCTCAGCCAG GGGGAGCAGG TCTGCAGTCA 
    GAAGCCAGCC AGGCAGGAAG TCAGGAAACA AATACAGCAG AGATGAGGAA GGTTGAAGAT 
    GAAGAACATA TGTTGACACG GGATCAAACT TTACTTCCTA GAGGAAATAA CAAAAATAAA 
    ACCAACACAG ATGAAACGAA AGACAGATAC TCAGGTAAAC ACAGATTGGC AGCCATATCT 
    AAAGCAAGTA AAAAAATCCC AGCTAAGGAT TTAAGTCCCA GAAAACACGT AGCTACTATC 
    TTCTCCCAAA GTGAAAGCAA ATCTGGCTTT AGGAGGCTCT CTCTTTATAG ACCAGAGGAC 
    AACCCACTAT CCCCTGAACA TACTGTAAAA GCCACAGAGT CCACAGATGA AAGCAGCCAG 
    ATGAATGTGA ACAAGTCTGA GACCCTTCTC CAAGAGACCA CAGCATCCAG CCCTGGACCT 
    CCTGGTCAGC CTTGCCATCA AAAGTCTGCT AGCATTTTAC AACCACATCT GAATGGGTCG 
    CACAGTGTCT TAGAAACACC ACCAAAGAGC GAGGATTCTA AAGCTCATAT TTCAGGAGAG 
    TTGGGAGCCC CAGCTCAGCT TACACTAACC AGCCCCTTAG AAAAAGGCGC TGGCCATCAG 
    CAGAGGTTAA GTCCTCCTTT CCCCTTAGAG CCTACTCAGA AATCTACAAG AAACTCCCAT 
    TGTCAGCTGC GGCACCGGAG TGCCCCATCT CCAGAGTCAG AACCTGAGCC ACATCTCTAT 
    CGGTCAAAGA GTTTAAAAAA CTTTAACGTG CAAAGCGACC TGTTGTGTGC AAGCCATCCC 
    CCGAAAGCCA GGGGGCGCCA CTTCTCCGAA AACACTTCCA TTGACAATGC TCTGAGTCAA 
    CTGTCCCTCG AAGATGGCTC CTTCTCCAAC AGTGGGTACA ATCGAAGATT CAAATCTTTT 
    TCCGAGCTTC CTGCATCTTA CGAAAGTGAA AGCTGGACTT CGTATAGCAA TAGGACACGA 
    GGTCCCAAGT CCACCTCATC CATTTCCAGG CCTATTGACT ATGGAATTTT TGGGAAAGAG 
    CAGCAGTTGG CTTTCTTGGA GAACGTCAAA CGCTCACTCA CACAGGGAAG ATTATGGAAG 
    CCAAGTTTCC TCAAGAACCC TGGCTTCCTC AAGGATGATG TTCTTAATAC TTCCAACCTG 
    TCACAGTCAG AGCTGGGAAC TTCTCCAGCA GGTCAGGTGC CAGAAGATGG TGTATTTCCA 
    AGTGAGCCAC TTAACATCTA CAAGGACGAC CCAGTGGAGC CACTGGACTC AGACTGGGAC 
    ACAGACACAA CCACAGATGA CGAGTACTAC CTGGATGAAA AGGATAAAGA GTCAGAACTA 
    TGA

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

    RefSeq XP_021027897.1
    CDS62..5944
    Translation

    Target ORF information:

    RefSeq Version XM_021172238.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli exophilin 5 (Exph5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021172238.1

    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
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGCTTCCTAA ACGAGGAAGA AGCCAGGAAG 
    ATCCTCCAGG TACTGGAAAG AAATGAGGAA CTCCGGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTTCAGA AGACAAAGAG GGATATCAGA TGGCTTCAAG GAGCAACTGG CGAATGGTTT 
    GAAGAAATTC AAAGAAAGAA GTTTTGCAAT GAAACAGATG TTAACCAGAT GTTAAAGCCA 
    CCCCTTACAT ATAGGCTACA AAAGGGGGTG GCAAAAAATG ATCCGATGGA ATTACAAACA 
    CCAAGATCTA AAAGCCTAAT AAACCAAAAA CCATCTGTTT CTTCCCGAAT GAGCTTTCGG 
    TCATCCTTTG CTTCACTGTT CTCATTCAGA CGACCTGCGA AGGAGACTCT GAACCTTCAG 
    TCTCAGAGAC CAAACCGGTG CGATGAGCGT GTAAGACCTT CAGCGTCTGT GAGGGGGACA 
    GCTGCGGCAA ATATATACAA TTCACCTGTT GGGAACCAAC CAGTTGCCAG TGTGTTTGTC 
    CCTAAGCCAG CCATCATGAG GGAGGAGAGC GGTATGCCTC CGCCCTGGGA CGCTTCCCTG 
    CTGGAGAGTG AGTTTTTCCA AGTTTTAGAC GATTTGGACA ACAAGCTGGC CCAGGAGCAG 
    TCTTCAGGCT TGATGAATAC CAGAGTGCCA TTCAACTACG GATCAAGAAC ACAGTTCAAG 
    CTGTCTCACA GAAACAGTCA TGGTCATGGC ACAGGAAGGC AACAGAACTA CCACAGTGAA 
    ACTTCCAACA TGTCTATCTA TAACATCCTG AGACCTGGAG CCCCTAGAGA AGGCTTTAAA 
    ACCTTTTCTC CTAGGACAAA GACGATTTAT GACATGTATA GGACCAGGGA GCCCAGAGTC 
    TTAAAGGAAG ACTTCATGCA AAAGAATGCA TTTGGGAGTG CATCTCTGTG CTTCGACAGC 
    CGGCAACGAT CAGCCTCGCC TGCCGCAGGG AGTTTCACTG CTAGGAGTTT ACACTTTCCA 
    GCCGATACTC AAAACAAGAG TAGTTTTACA GCAGTGAGAC ACCAGCAAAG CCCCAAAAGG 
    ACTCCTTTAT CTTCCATCAT ATGGAATAGG TCAGATGCTT CTAGACATAG GCAGAATCAA 
    GAAGAGTCAC TGGGGGTACC AGCACCAATG GACATTGACC CCGCAGAGCA ATATGTGTCT 
    CCTAGGTGTT TTCAGGAAAG TAGGAGGTAT GAGATGTGCC ATTCACTGAA CGCTTACCAA 
    AGCTACCCTT TAAACGTCCC TGTGGCTAAT GCAATGAGTC CTGACACGTT GGAGAACTCA 
    GAGAATATGC CATTCTACCG TCAGGGTAAC CCATTTGCAA GGTCTTTCTT TAGCAGTACC 
    TTCAGGCAGA GCAGAGAACA GAGATTCGGA CAGAATTCTT TTTGGAGCCG ACAGGAAGAG 
    TACTCTCCCT GGCCTGACAT TCCCCAGAGC AGGGACCCGT TCCCTTCTTC TGACAAGGAC 
    TTTGAAATGT TTTCTGTTGA AGCAAACAGG GCGCCATCTG TTTGCAGCCA AGGTGTCCCT 
    TCTCAGCACT GGAGGTCACA TTCTTCCGGC CATGGAACAT ACGTTTTCAG AGGCCGAGAA 
    GATTCGCATT GCTGGCGATC TGATTTTCAA ACATCCCCAC TGGAGAGCAT GGACACCTCA 
    CATGTTAATG AGAACCAACG TCCACCCCAT TTTGTCACAC CAGTTGGGTT TTCTATAACT 
    GACTCAAGCT GCCACCTCCA ATCTTCCAGG CTGGACTCTC AGCAGGGCCA CTTCCCTATA 
    GAAGAAGCTG TAGACGAGGA CCCTTATTTG TTTGGCAAGG CTCAGACCCC AGCATCTTCA 
    TTCAGAACTC CCTACCCCCT CAGTCCTAAT GATGGAAGGG AGTCTCAGAG TTCCAGCTTC 
    CCGGATTCCA CAGCTACTTT GCAGAAAATA ATCCCCAATA AGCCAGACTC TCTTCCAATA 
    AGAAACTGTA CAGAAGTTCC TGTGGCCTGT AACCATTCTA TTGACTCGCT GTCTCTTACT 
    GACACCCAGC CCAACATCCC AGTCACAGAA ACGAACAGTG AGAAAGATAT GGATGTGTCT 
    GTTTCAAAGG ATGAACAGCT AAACAAGATG GACCAGAAGA GCAGGCCAAC TGGGTTACCC 
    CAATATGTTT TACATACAGT GATCTCTAAT GATTTACCTG ACTTTCAAAA TACCCATTCT 
    CGGGACTCAG CCCAAAATGA CAGGTATGGT TTTAATGCAC CTGCCACAGA ACGTTCCAGA 
    AGATCACCCA GGGTCTTCTC CAGAAAGGGT ACTTCCCAAA TTCATACAAC ACAAAGAGAT 
    CAAAGCAACA AACTGAGCAA AAATAAGTGT TTTGGGGGGG ACAGGAGACT TGACTCAGCA 
    GCGTCTCCGC CTTTCATCCA AGAAAGTGGA ACACCGACAT CTCTTCCCAG CCCAAATCAA 
    GGTTGTCACC AGAAAACAGG AAGTAATGAA GAGAGTTCAA GCACCATTAA AAACAGCCAT 
    TGGTGCTTTG AGCCCACTGC TAACCAAAAA TCACAGCCTT CCGGGGAGCC TGCTCTTTTA 
    GATCTTGAGC AAAGTCCTTC CACTCATTCT ACCAATGACA GCAAGCTAGC CACCGGGCAC 
    AGCGTCTCAC GAGCTCCTTT ACATGTGGCA TCAGATGCAC CCCAAGATTC TTTCCTTGAT 
    GCTCATCTGG TACCTTCCAC TACAGTGTTC TCCAGGAGCC TTTCAGACCA AGATCCAGGT 
    CAAGAACAAA GAGAAGAGAA AGACAAAGCT ACCAAGAGCC AAGATAATCA GCTGGCTGTA 
    AATTCTACAG ACAACCAAGA GAATCATGAC GGTCCTGCAC TTCCACACGA TGCTGTTCAC 
    TGCCACCCAT ACTCTCCCTT CAAGAATGGG AGGGGGAAGG GAAGAGTTAG GCGCCGTGTG 
    TCCTGTATTG AGAAGCTAAC CAAAACAGAG CGTACAGTGG CACCCACAAG AGAAGGTAGT 
    GGCTGTGCTG AGGACCAAAG AAGCATCAAA GATCCTGAGC TCAGCACAGT CTATTGCACC 
    TTGCCAAGAA AACCAGCCAG CTTTCTCATT CACAGCAGAC AGCAGGAAAG TAAGGGAACG 
    GTTGCTTCCA TTAGGAATGG GCCACTTCCC TTCCAAATAA AAAATAAAGC CGAAGTTCCC 
    ACAGGAAAGG GCACATCTGA CAAGACCAGT TCTCCTGAAT CAATAAGTGA TGCTGCAAAT 
    GCAGTCTCGG GGACACCCAA AGCCACTAAG AAGATGACAG ATATGAAAGC CATTAGATCG 
    GCTTCAGTTA GGAAAGGGCC ACTCCCTTTC CTCATCAAGA GGGCAATCTC GTGTCCTTCA 
    GGGGAGCCAT GTAGCTTGGC TGAAAGCGAT GACAGACAGA AGTCATCAGT CCTGGGCATG 
    GATGCTTCTC CTGGAACACC CAGGCCTGGA GGGAGAATCT TTAACTCTCT GGAAGGTGAA 
    CCATCATTTA TAGAGAGTAC TTTCTCTGAA AAGGAACTTG CTCAAGAACC CACTGGAAAG 
    GGTAGTGAGC TTCGGGCCCC CAGAATGGGC TCATTGACCT CTTCAAAAAA AACTCCCGAA 
    CGTCTGTGTG CAACTGGGTC AGGAAAAGAG AGTGGGAAAG CATTACATAA GTTTAAGACA 
    ACTAGCATGT TTTCTGTTTC TGGCGATGAA GAGAACATGA GCTGTCTTGA GGTGGTTTCA 
    ATCTATTACA CTCTACCAAG GAAACCCAGC AAAAAATTCT GCAGCCTCCT TCAGCAGTAC 
    GCACAAGGTA CCGATTCACT TAGAGATGCT TTCCAGGGAG AGACTAAAGC ACCCCCTAAT 
    GCTTTAGAAA TCGATGAGCT GAATTGTCCT GCACAAACGC AATCAGGAAT ACCTCCACCA 
    CAAGACCCAA AGATGCAGGT TGACTCCGCT CCATGCCATC TCTCCCACAG CCCTGAAAGT 
    AAGGTTGTCT CCCAATTGCC AGATAGAGAG ACTTCCAAAT CTACATTAGA GGAAATGGCT 
    TCGGTGGGGC CAGATGTTTC TCTTCATAGA GAAGAACCTA CGATCAAAGA GATTTCCCCA 
    AGTAATGTAT CTAAAACAGC TATAGATGAT TCACTAAGCA GAGAAGAGAG AGAGAAAGAA 
    CTGCTAAGGC AAATCCTACG GGCCCCCTTA CTGCATCAGG AAAAAGGTGC TGGAAAAGAA 
    GACACTAAGA GTCATCAGCA GCCTTCTAAA GGAGGAAGCA GTGGTCCCTC TGGTCTCCCA 
    TCCCGCTCAG AAGATAATGT TGAAAATTCC CAGACCAGAA GAGATTCTGG GACATGTGCA 
    GGTGGCATGG CCACTGGAAA TGGACAGTAT CCTTGGAGGG ATCACGTGGC TGCAGTTGTA 
    GGTGACCGTT CTAGTAGGTC ACAACTTAGG GAAACCAGTG GGTCAACTGG GTCAGATTGC 
    CAAAACCAGA CTGATAAAAT GCTCTCTGAC TCAGAAAGCC AAGCCTTTGC TCTAACGCCA 
    GCATTGTGTA AGCTGCAGCT TGCTGAAGAG GCTCAGCCAG GGGGAGCAGG TCTGCAGTCA 
    GAAGCCAGCC AGGCAGGAAG TCAGGAAACA AATACAGCAG AGATGAGGAA GGTTGAAGAT 
    GAAGAACATA TGTTGACACG GGATCAAACT TTACTTCCTA GAGGAAATAA CAAAAATAAA 
    ACCAACACAG ATGAAACGAA AGACAGATAC TCAGGTAAAC ACAGATTGGC AGCCATATCT 
    AAAGCAAGTA AAAAAATCCC AGCTAAGGAT TTAAGTCCCA GAAAACACGT AGCTACTATC 
    TTCTCCCAAA GTGAAAGCAA ATCTGGCTTT AGGAGGCTCT CTCTTTATAG ACCAGAGGAC 
    AACCCACTAT CCCCTGAACA TACTGTAAAA GCCACAGAGT CCACAGATGA AAGCAGCCAG 
    ATGAATGTGA ACAAGTCTGA GACCCTTCTC CAAGAGACCA CAGCATCCAG CCCTGGACCT 
    CCTGGTCAGC CTTGCCATCA AAAGTCTGCT AGCATTTTAC AACCACATCT GAATGGGTCG 
    CACAGTGTCT TAGAAACACC ACCAAAGAGC GAGGATTCTA AAGCTCATAT TTCAGGAGAG 
    TTGGGAGCCC CAGCTCAGCT TACACTAACC AGCCCCTTAG AAAAAGGCGC TGGCCATCAG 
    CAGAGGTTAA GTCCTCCTTT CCCCTTAGAG CCTACTCAGA AATCTACAAG AAACTCCCAT 
    TGTCAGCTGC GGCACCGGAG TGCCCCATCT CCAGAGTCAG AACCTGAGCC ACATCTCTAT 
    CGGTCAAAGA GTTTAAAAAA CTTTAACGTG CAAAGCGACC TGTTGTGTGC AAGCCATCCC 
    CCGAAAGCCA GGGGGCGCCA CTTCTCCGAA AACACTTCCA TTGACAATGC TCTGAGTCAA 
    CTGTCCCTCG AAGATGGCTC CTTCTCCAAC AGTGGGTACA ATCGAAGATT CAAATCTTTT 
    TCCGAGCTTC CTGCATCTTA CGAAAGTGAA AGCTGGACTT CGTATAGCAA TAGGACACGA 
    GGTCCCAAGT CCACCTCATC CATTTCCAGG CCTATTGACT ATGGAATTTT TGGGAAAGAG 
    CAGCAGTTGG CTTTCTTGGA GAACGTCAAA CGCTCACTCA CACAGGGAAG ATTATGGAAG 
    CCAAGTTTCC TCAAGAACCC TGGCTTCCTC AAGGATGATG TTCTTAATAC TTCCAACCTG 
    TCACAGTCAG AGCTGGGAAC TTCTCCAGCA GGTCAGGTGC CAGAAGATGG TGTATTTCCA 
    AGTGAGCCAC TTAACATCTA CAAGGACGAC CCAGTGGAGC CACTGGACTC AGACTGGGAC 
    ACAGACACAA CCACAGATGA CGAGTACTAC CTGGATGAAA AGGATAAAGA GTCAGAACTA 
    TGA

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

    Exph5 ( XM_021172238.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021027897.1 Mus caroli exophilin 5 (Exph5), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv08645
    Clone ID Related Accession (Same CDS sequence) XM_021172238.1 , XM_021172238.2
    Accession Version XM_021172238.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5883bp)
    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 exophilin-5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021172238.1. ##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## 

    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
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGCTTCCTAA ACGAGGAAGA AGCCAGGAAG 
    ATCCTCCAGG TACTGGAAAG AAATGAGGAA CTCCGGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTTCAGA AGACAAAGAG GGATATCAGA TGGCTTCAAG GAGCAACTGG CGAATGGTTT 
    GAAGAAATTC AAAGAAAGAA GTTTTGCAAT GAAACAGATG TTAACCAGAT GTTAAAGCCA 
    CCCCTTACAT ATAGGCTACA AAAGGGGGTG GCAAAAAATG ATCCGATGGA ATTACAAACA 
    CCAAGATCTA AAAGCCTAAT AAACCAAAAA CCATCTGTTT CTTCCCGAAT GAGCTTTCGG 
    TCATCCTTTG CTTCACTGTT CTCATTCAGA CGACCTGCGA AGGAGACTCT GAACCTTCAG 
    TCTCAGAGAC CAAACCGGTG CGATGAGCGT GTAAGACCTT CAGCGTCTGT GAGGGGGACA 
    GCTGCGGCAA ATATATACAA TTCACCTGTT GGGAACCAAC CAGTTGCCAG TGTGTTTGTC 
    CCTAAGCCAG CCATCATGAG GGAGGAGAGC GGTATGCCTC CGCCCTGGGA CGCTTCCCTG 
    CTGGAGAGTG AGTTTTTCCA AGTTTTAGAC GATTTGGACA ACAAGCTGGC CCAGGAGCAG 
    TCTTCAGGCT TGATGAATAC CAGAGTGCCA TTCAACTACG GATCAAGAAC ACAGTTCAAG 
    CTGTCTCACA GAAACAGTCA TGGTCATGGC ACAGGAAGGC AACAGAACTA CCACAGTGAA 
    ACTTCCAACA TGTCTATCTA TAACATCCTG AGACCTGGAG CCCCTAGAGA AGGCTTTAAA 
    ACCTTTTCTC CTAGGACAAA GACGATTTAT GACATGTATA GGACCAGGGA GCCCAGAGTC 
    TTAAAGGAAG ACTTCATGCA AAAGAATGCA TTTGGGAGTG CATCTCTGTG CTTCGACAGC 
    CGGCAACGAT CAGCCTCGCC TGCCGCAGGG AGTTTCACTG CTAGGAGTTT ACACTTTCCA 
    GCCGATACTC AAAACAAGAG TAGTTTTACA GCAGTGAGAC ACCAGCAAAG CCCCAAAAGG 
    ACTCCTTTAT CTTCCATCAT ATGGAATAGG TCAGATGCTT CTAGACATAG GCAGAATCAA 
    GAAGAGTCAC TGGGGGTACC AGCACCAATG GACATTGACC CCGCAGAGCA ATATGTGTCT 
    CCTAGGTGTT TTCAGGAAAG TAGGAGGTAT GAGATGTGCC ATTCACTGAA CGCTTACCAA 
    AGCTACCCTT TAAACGTCCC TGTGGCTAAT GCAATGAGTC CTGACACGTT GGAGAACTCA 
    GAGAATATGC CATTCTACCG TCAGGGTAAC CCATTTGCAA GGTCTTTCTT TAGCAGTACC 
    TTCAGGCAGA GCAGAGAACA GAGATTCGGA CAGAATTCTT TTTGGAGCCG ACAGGAAGAG 
    TACTCTCCCT GGCCTGACAT TCCCCAGAGC AGGGACCCGT TCCCTTCTTC TGACAAGGAC 
    TTTGAAATGT TTTCTGTTGA AGCAAACAGG GCGCCATCTG TTTGCAGCCA AGGTGTCCCT 
    TCTCAGCACT GGAGGTCACA TTCTTCCGGC CATGGAACAT ACGTTTTCAG AGGCCGAGAA 
    GATTCGCATT GCTGGCGATC TGATTTTCAA ACATCCCCAC TGGAGAGCAT GGACACCTCA 
    CATGTTAATG AGAACCAACG TCCACCCCAT TTTGTCACAC CAGTTGGGTT TTCTATAACT 
    GACTCAAGCT GCCACCTCCA ATCTTCCAGG CTGGACTCTC AGCAGGGCCA CTTCCCTATA 
    GAAGAAGCTG TAGACGAGGA CCCTTATTTG TTTGGCAAGG CTCAGACCCC AGCATCTTCA 
    TTCAGAACTC CCTACCCCCT CAGTCCTAAT GATGGAAGGG AGTCTCAGAG TTCCAGCTTC 
    CCGGATTCCA CAGCTACTTT GCAGAAAATA ATCCCCAATA AGCCAGACTC TCTTCCAATA 
    AGAAACTGTA CAGAAGTTCC TGTGGCCTGT AACCATTCTA TTGACTCGCT GTCTCTTACT 
    GACACCCAGC CCAACATCCC AGTCACAGAA ACGAACAGTG AGAAAGATAT GGATGTGTCT 
    GTTTCAAAGG ATGAACAGCT AAACAAGATG GACCAGAAGA GCAGGCCAAC TGGGTTACCC 
    CAATATGTTT TACATACAGT GATCTCTAAT GATTTACCTG ACTTTCAAAA TACCCATTCT 
    CGGGACTCAG CCCAAAATGA CAGGTATGGT TTTAATGCAC CTGCCACAGA ACGTTCCAGA 
    AGATCACCCA GGGTCTTCTC CAGAAAGGGT ACTTCCCAAA TTCATACAAC ACAAAGAGAT 
    CAAAGCAACA AACTGAGCAA AAATAAGTGT TTTGGGGGGG ACAGGAGACT TGACTCAGCA 
    GCGTCTCCGC CTTTCATCCA AGAAAGTGGA ACACCGACAT CTCTTCCCAG CCCAAATCAA 
    GGTTGTCACC AGAAAACAGG AAGTAATGAA GAGAGTTCAA GCACCATTAA AAACAGCCAT 
    TGGTGCTTTG AGCCCACTGC TAACCAAAAA TCACAGCCTT CCGGGGAGCC TGCTCTTTTA 
    GATCTTGAGC AAAGTCCTTC CACTCATTCT ACCAATGACA GCAAGCTAGC CACCGGGCAC 
    AGCGTCTCAC GAGCTCCTTT ACATGTGGCA TCAGATGCAC CCCAAGATTC TTTCCTTGAT 
    GCTCATCTGG TACCTTCCAC TACAGTGTTC TCCAGGAGCC TTTCAGACCA AGATCCAGGT 
    CAAGAACAAA GAGAAGAGAA AGACAAAGCT ACCAAGAGCC AAGATAATCA GCTGGCTGTA 
    AATTCTACAG ACAACCAAGA GAATCATGAC GGTCCTGCAC TTCCACACGA TGCTGTTCAC 
    TGCCACCCAT ACTCTCCCTT CAAGAATGGG AGGGGGAAGG GAAGAGTTAG GCGCCGTGTG 
    TCCTGTATTG AGAAGCTAAC CAAAACAGAG CGTACAGTGG CACCCACAAG AGAAGGTAGT 
    GGCTGTGCTG AGGACCAAAG AAGCATCAAA GATCCTGAGC TCAGCACAGT CTATTGCACC 
    TTGCCAAGAA AACCAGCCAG CTTTCTCATT CACAGCAGAC AGCAGGAAAG TAAGGGAACG 
    GTTGCTTCCA TTAGGAATGG GCCACTTCCC TTCCAAATAA AAAATAAAGC CGAAGTTCCC 
    ACAGGAAAGG GCACATCTGA CAAGACCAGT TCTCCTGAAT CAATAAGTGA TGCTGCAAAT 
    GCAGTCTCGG GGACACCCAA AGCCACTAAG AAGATGACAG ATATGAAAGC CATTAGATCG 
    GCTTCAGTTA GGAAAGGGCC ACTCCCTTTC CTCATCAAGA GGGCAATCTC GTGTCCTTCA 
    GGGGAGCCAT GTAGCTTGGC TGAAAGCGAT GACAGACAGA AGTCATCAGT CCTGGGCATG 
    GATGCTTCTC CTGGAACACC CAGGCCTGGA GGGAGAATCT TTAACTCTCT GGAAGGTGAA 
    CCATCATTTA TAGAGAGTAC TTTCTCTGAA AAGGAACTTG CTCAAGAACC CACTGGAAAG 
    GGTAGTGAGC TTCGGGCCCC CAGAATGGGC TCATTGACCT CTTCAAAAAA AACTCCCGAA 
    CGTCTGTGTG CAACTGGGTC AGGAAAAGAG AGTGGGAAAG CATTACATAA GTTTAAGACA 
    ACTAGCATGT TTTCTGTTTC TGGCGATGAA GAGAACATGA GCTGTCTTGA GGTGGTTTCA 
    ATCTATTACA CTCTACCAAG GAAACCCAGC AAAAAATTCT GCAGCCTCCT TCAGCAGTAC 
    GCACAAGGTA CCGATTCACT TAGAGATGCT TTCCAGGGAG AGACTAAAGC ACCCCCTAAT 
    GCTTTAGAAA TCGATGAGCT GAATTGTCCT GCACAAACGC AATCAGGAAT ACCTCCACCA 
    CAAGACCCAA AGATGCAGGT TGACTCCGCT CCATGCCATC TCTCCCACAG CCCTGAAAGT 
    AAGGTTGTCT CCCAATTGCC AGATAGAGAG ACTTCCAAAT CTACATTAGA GGAAATGGCT 
    TCGGTGGGGC CAGATGTTTC TCTTCATAGA GAAGAACCTA CGATCAAAGA GATTTCCCCA 
    AGTAATGTAT CTAAAACAGC TATAGATGAT TCACTAAGCA GAGAAGAGAG AGAGAAAGAA 
    CTGCTAAGGC AAATCCTACG GGCCCCCTTA CTGCATCAGG AAAAAGGTGC TGGAAAAGAA 
    GACACTAAGA GTCATCAGCA GCCTTCTAAA GGAGGAAGCA GTGGTCCCTC TGGTCTCCCA 
    TCCCGCTCAG AAGATAATGT TGAAAATTCC CAGACCAGAA GAGATTCTGG GACATGTGCA 
    GGTGGCATGG CCACTGGAAA TGGACAGTAT CCTTGGAGGG ATCACGTGGC TGCAGTTGTA 
    GGTGACCGTT CTAGTAGGTC ACAACTTAGG GAAACCAGTG GGTCAACTGG GTCAGATTGC 
    CAAAACCAGA CTGATAAAAT GCTCTCTGAC TCAGAAAGCC AAGCCTTTGC TCTAACGCCA 
    GCATTGTGTA AGCTGCAGCT TGCTGAAGAG GCTCAGCCAG GGGGAGCAGG TCTGCAGTCA 
    GAAGCCAGCC AGGCAGGAAG TCAGGAAACA AATACAGCAG AGATGAGGAA GGTTGAAGAT 
    GAAGAACATA TGTTGACACG GGATCAAACT TTACTTCCTA GAGGAAATAA CAAAAATAAA 
    ACCAACACAG ATGAAACGAA AGACAGATAC TCAGGTAAAC ACAGATTGGC AGCCATATCT 
    AAAGCAAGTA AAAAAATCCC AGCTAAGGAT TTAAGTCCCA GAAAACACGT AGCTACTATC 
    TTCTCCCAAA GTGAAAGCAA ATCTGGCTTT AGGAGGCTCT CTCTTTATAG ACCAGAGGAC 
    AACCCACTAT CCCCTGAACA TACTGTAAAA GCCACAGAGT CCACAGATGA AAGCAGCCAG 
    ATGAATGTGA ACAAGTCTGA GACCCTTCTC CAAGAGACCA CAGCATCCAG CCCTGGACCT 
    CCTGGTCAGC CTTGCCATCA AAAGTCTGCT AGCATTTTAC AACCACATCT GAATGGGTCG 
    CACAGTGTCT TAGAAACACC ACCAAAGAGC GAGGATTCTA AAGCTCATAT TTCAGGAGAG 
    TTGGGAGCCC CAGCTCAGCT TACACTAACC AGCCCCTTAG AAAAAGGCGC TGGCCATCAG 
    CAGAGGTTAA GTCCTCCTTT CCCCTTAGAG CCTACTCAGA AATCTACAAG AAACTCCCAT 
    TGTCAGCTGC GGCACCGGAG TGCCCCATCT CCAGAGTCAG AACCTGAGCC ACATCTCTAT 
    CGGTCAAAGA GTTTAAAAAA CTTTAACGTG CAAAGCGACC TGTTGTGTGC AAGCCATCCC 
    CCGAAAGCCA GGGGGCGCCA CTTCTCCGAA AACACTTCCA TTGACAATGC TCTGAGTCAA 
    CTGTCCCTCG AAGATGGCTC CTTCTCCAAC AGTGGGTACA ATCGAAGATT CAAATCTTTT 
    TCCGAGCTTC CTGCATCTTA CGAAAGTGAA AGCTGGACTT CGTATAGCAA TAGGACACGA 
    GGTCCCAAGT CCACCTCATC CATTTCCAGG CCTATTGACT ATGGAATTTT TGGGAAAGAG 
    CAGCAGTTGG CTTTCTTGGA GAACGTCAAA CGCTCACTCA CACAGGGAAG ATTATGGAAG 
    CCAAGTTTCC TCAAGAACCC TGGCTTCCTC AAGGATGATG TTCTTAATAC TTCCAACCTG 
    TCACAGTCAG AGCTGGGAAC TTCTCCAGCA GGTCAGGTGC CAGAAGATGG TGTATTTCCA 
    AGTGAGCCAC TTAACATCTA CAAGGACGAC CCAGTGGAGC CACTGGACTC AGACTGGGAC 
    ACAGACACAA CCACAGATGA CGAGTACTAC CTGGATGAAA AGGATAAAGA GTCAGAACTA 
    TGA

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

    RefSeq XP_021027897.1
    CDS174..6056
    Translation

    Target ORF information:

    RefSeq Version XM_021172238.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli exophilin 5 (Exph5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021172238.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGCTTCCTAA ACGAGGAAGA AGCCAGGAAG 
    ATCCTCCAGG TACTGGAAAG AAATGAGGAA CTCCGGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTTCAGA AGACAAAGAG GGATATCAGA TGGCTTCAAG GAGCAACTGG CGAATGGTTT 
    GAAGAAATTC AAAGAAAGAA GTTTTGCAAT GAAACAGATG TTAACCAGAT GTTAAAGCCA 
    CCCCTTACAT ATAGGCTACA AAAGGGGGTG GCAAAAAATG ATCCGATGGA ATTACAAACA 
    CCAAGATCTA AAAGCCTAAT AAACCAAAAA CCATCTGTTT CTTCCCGAAT GAGCTTTCGG 
    TCATCCTTTG CTTCACTGTT CTCATTCAGA CGACCTGCGA AGGAGACTCT GAACCTTCAG 
    TCTCAGAGAC CAAACCGGTG CGATGAGCGT GTAAGACCTT CAGCGTCTGT GAGGGGGACA 
    GCTGCGGCAA ATATATACAA TTCACCTGTT GGGAACCAAC CAGTTGCCAG TGTGTTTGTC 
    CCTAAGCCAG CCATCATGAG GGAGGAGAGC GGTATGCCTC CGCCCTGGGA CGCTTCCCTG 
    CTGGAGAGTG AGTTTTTCCA AGTTTTAGAC GATTTGGACA ACAAGCTGGC CCAGGAGCAG 
    TCTTCAGGCT TGATGAATAC CAGAGTGCCA TTCAACTACG GATCAAGAAC ACAGTTCAAG 
    CTGTCTCACA GAAACAGTCA TGGTCATGGC ACAGGAAGGC AACAGAACTA CCACAGTGAA 
    ACTTCCAACA TGTCTATCTA TAACATCCTG AGACCTGGAG CCCCTAGAGA AGGCTTTAAA 
    ACCTTTTCTC CTAGGACAAA GACGATTTAT GACATGTATA GGACCAGGGA GCCCAGAGTC 
    TTAAAGGAAG ACTTCATGCA AAAGAATGCA TTTGGGAGTG CATCTCTGTG CTTCGACAGC 
    CGGCAACGAT CAGCCTCGCC TGCCGCAGGG AGTTTCACTG CTAGGAGTTT ACACTTTCCA 
    GCCGATACTC AAAACAAGAG TAGTTTTACA GCAGTGAGAC ACCAGCAAAG CCCCAAAAGG 
    ACTCCTTTAT CTTCCATCAT ATGGAATAGG TCAGATGCTT CTAGACATAG GCAGAATCAA 
    GAAGAGTCAC TGGGGGTACC AGCACCAATG GACATTGACC CCGCAGAGCA ATATGTGTCT 
    CCTAGGTGTT TTCAGGAAAG TAGGAGGTAT GAGATGTGCC ATTCACTGAA CGCTTACCAA 
    AGCTACCCTT TAAACGTCCC TGTGGCTAAT GCAATGAGTC CTGACACGTT GGAGAACTCA 
    GAGAATATGC CATTCTACCG TCAGGGTAAC CCATTTGCAA GGTCTTTCTT TAGCAGTACC 
    TTCAGGCAGA GCAGAGAACA GAGATTCGGA CAGAATTCTT TTTGGAGCCG ACAGGAAGAG 
    TACTCTCCCT GGCCTGACAT TCCCCAGAGC AGGGACCCGT TCCCTTCTTC TGACAAGGAC 
    TTTGAAATGT TTTCTGTTGA AGCAAACAGG GCGCCATCTG TTTGCAGCCA AGGTGTCCCT 
    TCTCAGCACT GGAGGTCACA TTCTTCCGGC CATGGAACAT ACGTTTTCAG AGGCCGAGAA 
    GATTCGCATT GCTGGCGATC TGATTTTCAA ACATCCCCAC TGGAGAGCAT GGACACCTCA 
    CATGTTAATG AGAACCAACG TCCACCCCAT TTTGTCACAC CAGTTGGGTT TTCTATAACT 
    GACTCAAGCT GCCACCTCCA ATCTTCCAGG CTGGACTCTC AGCAGGGCCA CTTCCCTATA 
    GAAGAAGCTG TAGACGAGGA CCCTTATTTG TTTGGCAAGG CTCAGACCCC AGCATCTTCA 
    TTCAGAACTC CCTACCCCCT CAGTCCTAAT GATGGAAGGG AGTCTCAGAG TTCCAGCTTC 
    CCGGATTCCA CAGCTACTTT GCAGAAAATA ATCCCCAATA AGCCAGACTC TCTTCCAATA 
    AGAAACTGTA CAGAAGTTCC TGTGGCCTGT AACCATTCTA TTGACTCGCT GTCTCTTACT 
    GACACCCAGC CCAACATCCC AGTCACAGAA ACGAACAGTG AGAAAGATAT GGATGTGTCT 
    GTTTCAAAGG ATGAACAGCT AAACAAGATG GACCAGAAGA GCAGGCCAAC TGGGTTACCC 
    CAATATGTTT TACATACAGT GATCTCTAAT GATTTACCTG ACTTTCAAAA TACCCATTCT 
    CGGGACTCAG CCCAAAATGA CAGGTATGGT TTTAATGCAC CTGCCACAGA ACGTTCCAGA 
    AGATCACCCA GGGTCTTCTC CAGAAAGGGT ACTTCCCAAA TTCATACAAC ACAAAGAGAT 
    CAAAGCAACA AACTGAGCAA AAATAAGTGT TTTGGGGGGG ACAGGAGACT TGACTCAGCA 
    GCGTCTCCGC CTTTCATCCA AGAAAGTGGA ACACCGACAT CTCTTCCCAG CCCAAATCAA 
    GGTTGTCACC AGAAAACAGG AAGTAATGAA GAGAGTTCAA GCACCATTAA AAACAGCCAT 
    TGGTGCTTTG AGCCCACTGC TAACCAAAAA TCACAGCCTT CCGGGGAGCC TGCTCTTTTA 
    GATCTTGAGC AAAGTCCTTC CACTCATTCT ACCAATGACA GCAAGCTAGC CACCGGGCAC 
    AGCGTCTCAC GAGCTCCTTT ACATGTGGCA TCAGATGCAC CCCAAGATTC TTTCCTTGAT 
    GCTCATCTGG TACCTTCCAC TACAGTGTTC TCCAGGAGCC TTTCAGACCA AGATCCAGGT 
    CAAGAACAAA GAGAAGAGAA AGACAAAGCT ACCAAGAGCC AAGATAATCA GCTGGCTGTA 
    AATTCTACAG ACAACCAAGA GAATCATGAC GGTCCTGCAC TTCCACACGA TGCTGTTCAC 
    TGCCACCCAT ACTCTCCCTT CAAGAATGGG AGGGGGAAGG GAAGAGTTAG GCGCCGTGTG 
    TCCTGTATTG AGAAGCTAAC CAAAACAGAG CGTACAGTGG CACCCACAAG AGAAGGTAGT 
    GGCTGTGCTG AGGACCAAAG AAGCATCAAA GATCCTGAGC TCAGCACAGT CTATTGCACC 
    TTGCCAAGAA AACCAGCCAG CTTTCTCATT CACAGCAGAC AGCAGGAAAG TAAGGGAACG 
    GTTGCTTCCA TTAGGAATGG GCCACTTCCC TTCCAAATAA AAAATAAAGC CGAAGTTCCC 
    ACAGGAAAGG GCACATCTGA CAAGACCAGT TCTCCTGAAT CAATAAGTGA TGCTGCAAAT 
    GCAGTCTCGG GGACACCCAA AGCCACTAAG AAGATGACAG ATATGAAAGC CATTAGATCG 
    GCTTCAGTTA GGAAAGGGCC ACTCCCTTTC CTCATCAAGA GGGCAATCTC GTGTCCTTCA 
    GGGGAGCCAT GTAGCTTGGC TGAAAGCGAT GACAGACAGA AGTCATCAGT CCTGGGCATG 
    GATGCTTCTC CTGGAACACC CAGGCCTGGA GGGAGAATCT TTAACTCTCT GGAAGGTGAA 
    CCATCATTTA TAGAGAGTAC TTTCTCTGAA AAGGAACTTG CTCAAGAACC CACTGGAAAG 
    GGTAGTGAGC TTCGGGCCCC CAGAATGGGC TCATTGACCT CTTCAAAAAA AACTCCCGAA 
    CGTCTGTGTG CAACTGGGTC AGGAAAAGAG AGTGGGAAAG CATTACATAA GTTTAAGACA 
    ACTAGCATGT TTTCTGTTTC TGGCGATGAA GAGAACATGA GCTGTCTTGA GGTGGTTTCA 
    ATCTATTACA CTCTACCAAG GAAACCCAGC AAAAAATTCT GCAGCCTCCT TCAGCAGTAC 
    GCACAAGGTA CCGATTCACT TAGAGATGCT TTCCAGGGAG AGACTAAAGC ACCCCCTAAT 
    GCTTTAGAAA TCGATGAGCT GAATTGTCCT GCACAAACGC AATCAGGAAT ACCTCCACCA 
    CAAGACCCAA AGATGCAGGT TGACTCCGCT CCATGCCATC TCTCCCACAG CCCTGAAAGT 
    AAGGTTGTCT CCCAATTGCC AGATAGAGAG ACTTCCAAAT CTACATTAGA GGAAATGGCT 
    TCGGTGGGGC CAGATGTTTC TCTTCATAGA GAAGAACCTA CGATCAAAGA GATTTCCCCA 
    AGTAATGTAT CTAAAACAGC TATAGATGAT TCACTAAGCA GAGAAGAGAG AGAGAAAGAA 
    CTGCTAAGGC AAATCCTACG GGCCCCCTTA CTGCATCAGG AAAAAGGTGC TGGAAAAGAA 
    GACACTAAGA GTCATCAGCA GCCTTCTAAA GGAGGAAGCA GTGGTCCCTC TGGTCTCCCA 
    TCCCGCTCAG AAGATAATGT TGAAAATTCC CAGACCAGAA GAGATTCTGG GACATGTGCA 
    GGTGGCATGG CCACTGGAAA TGGACAGTAT CCTTGGAGGG ATCACGTGGC TGCAGTTGTA 
    GGTGACCGTT CTAGTAGGTC ACAACTTAGG GAAACCAGTG GGTCAACTGG GTCAGATTGC 
    CAAAACCAGA CTGATAAAAT GCTCTCTGAC TCAGAAAGCC AAGCCTTTGC TCTAACGCCA 
    GCATTGTGTA AGCTGCAGCT TGCTGAAGAG GCTCAGCCAG GGGGAGCAGG TCTGCAGTCA 
    GAAGCCAGCC AGGCAGGAAG TCAGGAAACA AATACAGCAG AGATGAGGAA GGTTGAAGAT 
    GAAGAACATA TGTTGACACG GGATCAAACT TTACTTCCTA GAGGAAATAA CAAAAATAAA 
    ACCAACACAG ATGAAACGAA AGACAGATAC TCAGGTAAAC ACAGATTGGC AGCCATATCT 
    AAAGCAAGTA AAAAAATCCC AGCTAAGGAT TTAAGTCCCA GAAAACACGT AGCTACTATC 
    TTCTCCCAAA GTGAAAGCAA ATCTGGCTTT AGGAGGCTCT CTCTTTATAG ACCAGAGGAC 
    AACCCACTAT CCCCTGAACA TACTGTAAAA GCCACAGAGT CCACAGATGA AAGCAGCCAG 
    ATGAATGTGA ACAAGTCTGA GACCCTTCTC CAAGAGACCA CAGCATCCAG CCCTGGACCT 
    CCTGGTCAGC CTTGCCATCA AAAGTCTGCT AGCATTTTAC AACCACATCT GAATGGGTCG 
    CACAGTGTCT TAGAAACACC ACCAAAGAGC GAGGATTCTA AAGCTCATAT TTCAGGAGAG 
    TTGGGAGCCC CAGCTCAGCT TACACTAACC AGCCCCTTAG AAAAAGGCGC TGGCCATCAG 
    CAGAGGTTAA GTCCTCCTTT CCCCTTAGAG CCTACTCAGA AATCTACAAG AAACTCCCAT 
    TGTCAGCTGC GGCACCGGAG TGCCCCATCT CCAGAGTCAG AACCTGAGCC ACATCTCTAT 
    CGGTCAAAGA GTTTAAAAAA CTTTAACGTG CAAAGCGACC TGTTGTGTGC AAGCCATCCC 
    CCGAAAGCCA GGGGGCGCCA CTTCTCCGAA AACACTTCCA TTGACAATGC TCTGAGTCAA 
    CTGTCCCTCG AAGATGGCTC CTTCTCCAAC AGTGGGTACA ATCGAAGATT CAAATCTTTT 
    TCCGAGCTTC CTGCATCTTA CGAAAGTGAA AGCTGGACTT CGTATAGCAA TAGGACACGA 
    GGTCCCAAGT CCACCTCATC CATTTCCAGG CCTATTGACT ATGGAATTTT TGGGAAAGAG 
    CAGCAGTTGG CTTTCTTGGA GAACGTCAAA CGCTCACTCA CACAGGGAAG ATTATGGAAG 
    CCAAGTTTCC TCAAGAACCC TGGCTTCCTC AAGGATGATG TTCTTAATAC TTCCAACCTG 
    TCACAGTCAG AGCTGGGAAC TTCTCCAGCA GGTCAGGTGC CAGAAGATGG TGTATTTCCA 
    AGTGAGCCAC TTAACATCTA CAAGGACGAC CCAGTGGAGC CACTGGACTC AGACTGGGAC 
    ACAGACACAA CCACAGATGA CGAGTACTAC CTGGATGAAA AGGATAAAGA GTCAGAACTA 
    TGA

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

    Exph5 ( XM_029481706.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029337566.1 Mus caroli exophilin 5 (Exph5), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv76071
    Clone ID Related Accession (Same CDS sequence) XM_029481706.1 , XM_029481705.1
    Accession Version XM_029481706.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5328bp)
    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 exophilin-5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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## 

    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
    ATGAGGGAGG AGAGCGGTAT GCCTCCGCCC TGGGACGCTT CCCTGCTGGA GAGTGAGTTT 
    TTCCAAGTTT TAGACGATTT GGACAACAAG CTGGCCCAGG AGCAGTCTTC AGGCTTGATG 
    AATACCAGAG TGCCATTCAA CTACGGATCA AGAACACAGT TCAAGCTGTC TCACAGAAAC 
    AGTCATGGTC ATGGCACAGG AAGGCAACAG AACTACCACA GTGAAACTTC CAACATGTCT 
    ATCTATAACA TCCTGAGACC TGGAGCCCCT AGAGAAGGCT TTAAAACCTT TTCTCCTAGG 
    ACAAAGACGA TTTATGACAT GTATAGGACC AGGGAGCCCA GAGTCTTAAA GGAAGACTTC 
    ATGCAAAAGA ATGCATTTGG GAGTGCATCT CTGTGCTTCG ACAGCCGGCA ACGATCAGCC 
    TCGCCTGCCG CAGGGAGTTT CACTGCTAGG AGTTTACACT TTCCAGCCGA TACTCAAAAC 
    AAGAGTAGTT TTACAGCAGT GAGACACCAG CAAAGCCCCA AAAGGACTCC TTTATCTTCC 
    ATCATATGGA ATAGGTCAGA TGCTTCTAGA CATAGGCAGA ATCAAGAAGA GTCACTGGGG 
    GTACCAGCAC CAATGGACAT TGACCCCGCA GAGCAATATG TGTCTCCTAG GTGTTTTCAG 
    GAAAGTAGGA GGTATGAGAT GTGCCATTCA CTGAACGCTT ACCAAAGCTA CCCTTTAAAC 
    GTCCCTGTGG CTAATGCAAT GAGTCCTGAC ACGTTGGAGA ACTCAGAGAA TATGCCATTC 
    TACCGTCAGG GTAACCCATT TGCAAGGTCT TTCTTTAGCA GTACCTTCAG GCAGAGCAGA 
    GAACAGAGAT TCGGACAGAA TTCTTTTTGG AGCCGACAGG AAGAGTACTC TCCCTGGCCT 
    GACATTCCCC AGAGCAGGGA CCCGTTCCCT TCTTCTGACA AGGACTTTGA AATGTTTTCT 
    GTTGAAGCAA ACAGGGCGCC ATCTGTTTGC AGCCAAGGTG TCCCTTCTCA GCACTGGAGG 
    TCACATTCTT CCGGCCATGG AACATACGTT TTCAGAGGCC GAGAAGATTC GCATTGCTGG 
    CGATCTGATT TTCAAACATC CCCACTGGAG AGCATGGACA CCTCACATGT TAATGAGAAC 
    CAACGTCCAC CCCATTTTGT CACACCAGTT GGGTTTTCTA TAACTGACTC AAGCTGCCAC 
    CTCCAATCTT CCAGGCTGGA CTCTCAGCAG GGCCACTTCC CTATAGAAGA AGCTGTAGAC 
    GAGGACCCTT ATTTGTTTGG CAAGGCTCAG ACCCCAGCAT CTTCATTCAG AACTCCCTAC 
    CCCCTCAGTC CTAATGATGG AAGGGAGTCT CAGAGTTCCA GCTTCCCGGA TTCCACAGCT 
    ACTTTGCAGA AAATAATCCC CAATAAGCCA GACTCTCTTC CAATAAGAAA CTGTACAGAA 
    GTTCCTGTGG CCTGTAACCA TTCTATTGAC TCGCTGTCTC TTACTGACAC CCAGCCCAAC 
    ATCCCAGTCA CAGAAACGAA CAGTGAGAAA GATATGGATG TGTCTGTTTC AAAGGATGAA 
    CAGCTAAACA AGATGGACCA GAAGAGCAGG CCAACTGGGT TACCCCAATA TGTTTTACAT 
    ACAGTGATCT CTAATGATTT ACCTGACTTT CAAAATACCC ATTCTCGGGA CTCAGCCCAA 
    AATGACAGGT ATGGTTTTAA TGCACCTGCC ACAGAACGTT CCAGAAGATC ACCCAGGGTC 
    TTCTCCAGAA AGGGTACTTC CCAAATTCAT ACAACACAAA GAGATCAAAG CAACAAACTG 
    AGCAAAAATA AGTGTTTTGG GGGGGACAGG AGACTTGACT CAGCAGCGTC TCCGCCTTTC 
    ATCCAAGAAA GTGGAACACC GACATCTCTT CCCAGCCCAA ATCAAGGTTG TCACCAGAAA 
    ACAGGAAGTA ATGAAGAGAG TTCAAGCACC ATTAAAAACA GCCATTGGTG CTTTGAGCCC 
    ACTGCTAACC AAAAATCACA GCCTTCCGGG GAGCCTGCTC TTTTAGATCT TGAGCAAAGT 
    CCTTCCACTC ATTCTACCAA TGACAGCAAG CTAGCCACCG GGCACAGCGT CTCACGAGCT 
    CCTTTACATG TGGCATCAGA TGCACCCCAA GATTCTTTCC TTGATGCTCA TCTGGTACCT 
    TCCACTACAG TGTTCTCCAG GAGCCTTTCA GACCAAGATC CAGGTCAAGA ACAAAGAGAA 
    GAGAAAGACA AAGCTACCAA GAGCCAAGAT AATCAGCTGG CTGTAAATTC TACAGACAAC 
    CAAGAGAATC ATGACGGTCC TGCACTTCCA CACGATGCTG TTCACTGCCA CCCATACTCT 
    CCCTTCAAGA ATGGGAGGGG GAAGGGAAGA GTTAGGCGCC GTGTGTCCTG TATTGAGAAG 
    CTAACCAAAA CAGAGCGTAC AGTGGCACCC ACAAGAGAAG GTAGTGGCTG TGCTGAGGAC 
    CAAAGAAGCA TCAAAGATCC TGAGCTCAGC ACAGTCTATT GCACCTTGCC AAGAAAACCA 
    GCCAGCTTTC TCATTCACAG CAGACAGCAG GAAAGTAAGG GAACGGTTGC TTCCATTAGG 
    AATGGGCCAC TTCCCTTCCA AATAAAAAAT AAAGCCGAAG TTCCCACAGG AAAGGGCACA 
    TCTGACAAGA CCAGTTCTCC TGAATCAATA AGTGATGCTG CAAATGCAGT CTCGGGGACA 
    CCCAAAGCCA CTAAGAAGAT GACAGATATG AAAGCCATTA GATCGGCTTC AGTTAGGAAA 
    GGGCCACTCC CTTTCCTCAT CAAGAGGGCA ATCTCGTGTC CTTCAGGGGA GCCATGTAGC 
    TTGGCTGAAA GCGATGACAG ACAGAAGTCA TCAGTCCTGG GCATGGATGC TTCTCCTGGA 
    ACACCCAGGC CTGGAGGGAG AATCTTTAAC TCTCTGGAAG GTGAACCATC ATTTATAGAG 
    AGTACTTTCT CTGAAAAGGA ACTTGCTCAA GAACCCACTG GAAAGGGTAG TGAGCTTCGG 
    GCCCCCAGAA TGGGCTCATT GACCTCTTCA AAAAAAACTC CCGAACGTCT GTGTGCAACT 
    GGGTCAGGAA AAGAGAGTGG GAAAGCATTA CATAAGTTTA AGACAACTAG CATGTTTTCT 
    GTTTCTGGCG ATGAAGAGAA CATGAGCTGT CTTGAGGTGG TTTCAATCTA TTACACTCTA 
    CCAAGGAAAC CCAGCAAAAA ATTCTGCAGC CTCCTTCAGC AGTACGCACA AGGTACCGAT 
    TCACTTAGAG ATGCTTTCCA GGGAGAGACT AAAGCACCCC CTAATGCTTT AGAAATCGAT 
    GAGCTGAATT GTCCTGCACA AACGCAATCA GGAATACCTC CACCACAAGA CCCAAAGATG 
    CAGGTTGACT CCGCTCCATG CCATCTCTCC CACAGCCCTG AAAGTAAGGT TGTCTCCCAA 
    TTGCCAGATA GAGAGACTTC CAAATCTACA TTAGAGGAAA TGGCTTCGGT GGGGCCAGAT 
    GTTTCTCTTC ATAGAGAAGA ACCTACGATC AAAGAGATTT CCCCAAGTAA TGTATCTAAA 
    ACAGCTATAG ATGATTCACT AAGCAGAGAA GAGAGAGAGA AAGAACTGCT AAGGCAAATC 
    CTACGGGCCC CCTTACTGCA TCAGGAAAAA GGTGCTGGAA AAGAAGACAC TAAGAGTCAT 
    CAGCAGCCTT CTAAAGGAGG AAGCAGTGGT CCCTCTGGTC TCCCATCCCG CTCAGAAGAT 
    AATGTTGAAA ATTCCCAGAC CAGAAGAGAT TCTGGGACAT GTGCAGGTGG CATGGCCACT 
    GGAAATGGAC AGTATCCTTG GAGGGATCAC GTGGCTGCAG TTGTAGGTGA CCGTTCTAGT 
    AGGTCACAAC TTAGGGAAAC CAGTGGGTCA ACTGGGTCAG ATTGCCAAAA CCAGACTGAT 
    AAAATGCTCT CTGACTCAGA AAGCCAAGCC TTTGCTCTAA CGCCAGCATT GTGTAAGCTG 
    CAGCTTGCTG AAGAGGCTCA GCCAGGGGGA GCAGGTCTGC AGTCAGAAGC CAGCCAGGCA 
    GGAAGTCAGG AAACAAATAC AGCAGAGATG AGGAAGGTTG AAGATGAAGA ACATATGTTG 
    ACACGGGATC AAACTTTACT TCCTAGAGGA AATAACAAAA ATAAAACCAA CACAGATGAA 
    ACGAAAGACA GATACTCAGG TAAACACAGA TTGGCAGCCA TATCTAAAGC AAGTAAAAAA 
    ATCCCAGCTA AGGATTTAAG TCCCAGAAAA CACGTAGCTA CTATCTTCTC CCAAAGTGAA 
    AGCAAATCTG GCTTTAGGAG GCTCTCTCTT TATAGACCAG AGGACAACCC ACTATCCCCT 
    GAACATACTG TAAAAGCCAC AGAGTCCACA GATGAAAGCA GCCAGATGAA TGTGAACAAG 
    TCTGAGACCC TTCTCCAAGA GACCACAGCA TCCAGCCCTG GACCTCCTGG TCAGCCTTGC 
    CATCAAAAGT CTGCTAGCAT TTTACAACCA CATCTGAATG GGTCGCACAG TGTCTTAGAA 
    ACACCACCAA AGAGCGAGGA TTCTAAAGCT CATATTTCAG GAGAGTTGGG AGCCCCAGCT 
    CAGCTTACAC TAACCAGCCC CTTAGAAAAA GGCGCTGGCC ATCAGCAGAG GTTAAGTCCT 
    CCTTTCCCCT TAGAGCCTAC TCAGAAATCT ACAAGAAACT CCCATTGTCA GCTGCGGCAC 
    CGGAGTGCCC CATCTCCAGA GTCAGAACCT GAGCCACATC TCTATCGGTC AAAGAGTTTA 
    AAAAACTTTA ACGTGCAAAG CGACCTGTTG TGTGCAAGCC ATCCCCCGAA AGCCAGGGGG 
    CGCCACTTCT CCGAAAACAC TTCCATTGAC AATGCTCTGA GTCAACTGTC CCTCGAAGAT 
    GGCTCCTTCT CCAACAGTGG GTACAATCGA AGATTCAAAT CTTTTTCCGA GCTTCCTGCA 
    TCTTACGAAA GTGAAAGCTG GACTTCGTAT AGCAATAGGA CACGAGGTCC CAAGTCCACC 
    TCATCCATTT CCAGGCCTAT TGACTATGGA ATTTTTGGGA AAGAGCAGCA GTTGGCTTTC 
    TTGGAGAACG TCAAACGCTC ACTCACACAG GGAAGATTAT GGAAGCCAAG TTTCCTCAAG 
    AACCCTGGCT TCCTCAAGGA TGATGTTCTT AATACTTCCA ACCTGTCACA GTCAGAGCTG 
    GGAACTTCTC CAGCAGGTCA GGTGCCAGAA GATGGTGTAT TTCCAAGTGA GCCACTTAAC 
    ATCTACAAGG ACGACCCAGT GGAGCCACTG GACTCAGACT GGGACACAGA CACAACCACA 
    GATGACGAGT ACTACCTGGA TGAAAAGGAT AAAGAGTCAG AACTATGA

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

    RefSeq XP_029337566.1
    CDS136..5463
    Translation

    Target ORF information:

    RefSeq Version XM_029481706.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli exophilin 5 (Exph5), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481706.1

    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
    ATGAGGGAGG AGAGCGGTAT GCCTCCGCCC TGGGACGCTT CCCTGCTGGA GAGTGAGTTT 
    TTCCAAGTTT TAGACGATTT GGACAACAAG CTGGCCCAGG AGCAGTCTTC AGGCTTGATG 
    AATACCAGAG TGCCATTCAA CTACGGATCA AGAACACAGT TCAAGCTGTC TCACAGAAAC 
    AGTCATGGTC ATGGCACAGG AAGGCAACAG AACTACCACA GTGAAACTTC CAACATGTCT 
    ATCTATAACA TCCTGAGACC TGGAGCCCCT AGAGAAGGCT TTAAAACCTT TTCTCCTAGG 
    ACAAAGACGA TTTATGACAT GTATAGGACC AGGGAGCCCA GAGTCTTAAA GGAAGACTTC 
    ATGCAAAAGA ATGCATTTGG GAGTGCATCT CTGTGCTTCG ACAGCCGGCA ACGATCAGCC 
    TCGCCTGCCG CAGGGAGTTT CACTGCTAGG AGTTTACACT TTCCAGCCGA TACTCAAAAC 
    AAGAGTAGTT TTACAGCAGT GAGACACCAG CAAAGCCCCA AAAGGACTCC TTTATCTTCC 
    ATCATATGGA ATAGGTCAGA TGCTTCTAGA CATAGGCAGA ATCAAGAAGA GTCACTGGGG 
    GTACCAGCAC CAATGGACAT TGACCCCGCA GAGCAATATG TGTCTCCTAG GTGTTTTCAG 
    GAAAGTAGGA GGTATGAGAT GTGCCATTCA CTGAACGCTT ACCAAAGCTA CCCTTTAAAC 
    GTCCCTGTGG CTAATGCAAT GAGTCCTGAC ACGTTGGAGA ACTCAGAGAA TATGCCATTC 
    TACCGTCAGG GTAACCCATT TGCAAGGTCT TTCTTTAGCA GTACCTTCAG GCAGAGCAGA 
    GAACAGAGAT TCGGACAGAA TTCTTTTTGG AGCCGACAGG AAGAGTACTC TCCCTGGCCT 
    GACATTCCCC AGAGCAGGGA CCCGTTCCCT TCTTCTGACA AGGACTTTGA AATGTTTTCT 
    GTTGAAGCAA ACAGGGCGCC ATCTGTTTGC AGCCAAGGTG TCCCTTCTCA GCACTGGAGG 
    TCACATTCTT CCGGCCATGG AACATACGTT TTCAGAGGCC GAGAAGATTC GCATTGCTGG 
    CGATCTGATT TTCAAACATC CCCACTGGAG AGCATGGACA CCTCACATGT TAATGAGAAC 
    CAACGTCCAC CCCATTTTGT CACACCAGTT GGGTTTTCTA TAACTGACTC AAGCTGCCAC 
    CTCCAATCTT CCAGGCTGGA CTCTCAGCAG GGCCACTTCC CTATAGAAGA AGCTGTAGAC 
    GAGGACCCTT ATTTGTTTGG CAAGGCTCAG ACCCCAGCAT CTTCATTCAG AACTCCCTAC 
    CCCCTCAGTC CTAATGATGG AAGGGAGTCT CAGAGTTCCA GCTTCCCGGA TTCCACAGCT 
    ACTTTGCAGA AAATAATCCC CAATAAGCCA GACTCTCTTC CAATAAGAAA CTGTACAGAA 
    GTTCCTGTGG CCTGTAACCA TTCTATTGAC TCGCTGTCTC TTACTGACAC CCAGCCCAAC 
    ATCCCAGTCA CAGAAACGAA CAGTGAGAAA GATATGGATG TGTCTGTTTC AAAGGATGAA 
    CAGCTAAACA AGATGGACCA GAAGAGCAGG CCAACTGGGT TACCCCAATA TGTTTTACAT 
    ACAGTGATCT CTAATGATTT ACCTGACTTT CAAAATACCC ATTCTCGGGA CTCAGCCCAA 
    AATGACAGGT ATGGTTTTAA TGCACCTGCC ACAGAACGTT CCAGAAGATC ACCCAGGGTC 
    TTCTCCAGAA AGGGTACTTC CCAAATTCAT ACAACACAAA GAGATCAAAG CAACAAACTG 
    AGCAAAAATA AGTGTTTTGG GGGGGACAGG AGACTTGACT CAGCAGCGTC TCCGCCTTTC 
    ATCCAAGAAA GTGGAACACC GACATCTCTT CCCAGCCCAA ATCAAGGTTG TCACCAGAAA 
    ACAGGAAGTA ATGAAGAGAG TTCAAGCACC ATTAAAAACA GCCATTGGTG CTTTGAGCCC 
    ACTGCTAACC AAAAATCACA GCCTTCCGGG GAGCCTGCTC TTTTAGATCT TGAGCAAAGT 
    CCTTCCACTC ATTCTACCAA TGACAGCAAG CTAGCCACCG GGCACAGCGT CTCACGAGCT 
    CCTTTACATG TGGCATCAGA TGCACCCCAA GATTCTTTCC TTGATGCTCA TCTGGTACCT 
    TCCACTACAG TGTTCTCCAG GAGCCTTTCA GACCAAGATC CAGGTCAAGA ACAAAGAGAA 
    GAGAAAGACA AAGCTACCAA GAGCCAAGAT AATCAGCTGG CTGTAAATTC TACAGACAAC 
    CAAGAGAATC ATGACGGTCC TGCACTTCCA CACGATGCTG TTCACTGCCA CCCATACTCT 
    CCCTTCAAGA ATGGGAGGGG GAAGGGAAGA GTTAGGCGCC GTGTGTCCTG TATTGAGAAG 
    CTAACCAAAA CAGAGCGTAC AGTGGCACCC ACAAGAGAAG GTAGTGGCTG TGCTGAGGAC 
    CAAAGAAGCA TCAAAGATCC TGAGCTCAGC ACAGTCTATT GCACCTTGCC AAGAAAACCA 
    GCCAGCTTTC TCATTCACAG CAGACAGCAG GAAAGTAAGG GAACGGTTGC TTCCATTAGG 
    AATGGGCCAC TTCCCTTCCA AATAAAAAAT AAAGCCGAAG TTCCCACAGG AAAGGGCACA 
    TCTGACAAGA CCAGTTCTCC TGAATCAATA AGTGATGCTG CAAATGCAGT CTCGGGGACA 
    CCCAAAGCCA CTAAGAAGAT GACAGATATG AAAGCCATTA GATCGGCTTC AGTTAGGAAA 
    GGGCCACTCC CTTTCCTCAT CAAGAGGGCA ATCTCGTGTC CTTCAGGGGA GCCATGTAGC 
    TTGGCTGAAA GCGATGACAG ACAGAAGTCA TCAGTCCTGG GCATGGATGC TTCTCCTGGA 
    ACACCCAGGC CTGGAGGGAG AATCTTTAAC TCTCTGGAAG GTGAACCATC ATTTATAGAG 
    AGTACTTTCT CTGAAAAGGA ACTTGCTCAA GAACCCACTG GAAAGGGTAG TGAGCTTCGG 
    GCCCCCAGAA TGGGCTCATT GACCTCTTCA AAAAAAACTC CCGAACGTCT GTGTGCAACT 
    GGGTCAGGAA AAGAGAGTGG GAAAGCATTA CATAAGTTTA AGACAACTAG CATGTTTTCT 
    GTTTCTGGCG ATGAAGAGAA CATGAGCTGT CTTGAGGTGG TTTCAATCTA TTACACTCTA 
    CCAAGGAAAC CCAGCAAAAA ATTCTGCAGC CTCCTTCAGC AGTACGCACA AGGTACCGAT 
    TCACTTAGAG ATGCTTTCCA GGGAGAGACT AAAGCACCCC CTAATGCTTT AGAAATCGAT 
    GAGCTGAATT GTCCTGCACA AACGCAATCA GGAATACCTC CACCACAAGA CCCAAAGATG 
    CAGGTTGACT CCGCTCCATG CCATCTCTCC CACAGCCCTG AAAGTAAGGT TGTCTCCCAA 
    TTGCCAGATA GAGAGACTTC CAAATCTACA TTAGAGGAAA TGGCTTCGGT GGGGCCAGAT 
    GTTTCTCTTC ATAGAGAAGA ACCTACGATC AAAGAGATTT CCCCAAGTAA TGTATCTAAA 
    ACAGCTATAG ATGATTCACT AAGCAGAGAA GAGAGAGAGA AAGAACTGCT AAGGCAAATC 
    CTACGGGCCC CCTTACTGCA TCAGGAAAAA GGTGCTGGAA AAGAAGACAC TAAGAGTCAT 
    CAGCAGCCTT CTAAAGGAGG AAGCAGTGGT CCCTCTGGTC TCCCATCCCG CTCAGAAGAT 
    AATGTTGAAA ATTCCCAGAC CAGAAGAGAT TCTGGGACAT GTGCAGGTGG CATGGCCACT 
    GGAAATGGAC AGTATCCTTG GAGGGATCAC GTGGCTGCAG TTGTAGGTGA CCGTTCTAGT 
    AGGTCACAAC TTAGGGAAAC CAGTGGGTCA ACTGGGTCAG ATTGCCAAAA CCAGACTGAT 
    AAAATGCTCT CTGACTCAGA AAGCCAAGCC TTTGCTCTAA CGCCAGCATT GTGTAAGCTG 
    CAGCTTGCTG AAGAGGCTCA GCCAGGGGGA GCAGGTCTGC AGTCAGAAGC CAGCCAGGCA 
    GGAAGTCAGG AAACAAATAC AGCAGAGATG AGGAAGGTTG AAGATGAAGA ACATATGTTG 
    ACACGGGATC AAACTTTACT TCCTAGAGGA AATAACAAAA ATAAAACCAA CACAGATGAA 
    ACGAAAGACA GATACTCAGG TAAACACAGA TTGGCAGCCA TATCTAAAGC AAGTAAAAAA 
    ATCCCAGCTA AGGATTTAAG TCCCAGAAAA CACGTAGCTA CTATCTTCTC CCAAAGTGAA 
    AGCAAATCTG GCTTTAGGAG GCTCTCTCTT TATAGACCAG AGGACAACCC ACTATCCCCT 
    GAACATACTG TAAAAGCCAC AGAGTCCACA GATGAAAGCA GCCAGATGAA TGTGAACAAG 
    TCTGAGACCC TTCTCCAAGA GACCACAGCA TCCAGCCCTG GACCTCCTGG TCAGCCTTGC 
    CATCAAAAGT CTGCTAGCAT TTTACAACCA CATCTGAATG GGTCGCACAG TGTCTTAGAA 
    ACACCACCAA AGAGCGAGGA TTCTAAAGCT CATATTTCAG GAGAGTTGGG AGCCCCAGCT 
    CAGCTTACAC TAACCAGCCC CTTAGAAAAA GGCGCTGGCC ATCAGCAGAG GTTAAGTCCT 
    CCTTTCCCCT TAGAGCCTAC TCAGAAATCT ACAAGAAACT CCCATTGTCA GCTGCGGCAC 
    CGGAGTGCCC CATCTCCAGA GTCAGAACCT GAGCCACATC TCTATCGGTC AAAGAGTTTA 
    AAAAACTTTA ACGTGCAAAG CGACCTGTTG TGTGCAAGCC ATCCCCCGAA AGCCAGGGGG 
    CGCCACTTCT CCGAAAACAC TTCCATTGAC AATGCTCTGA GTCAACTGTC CCTCGAAGAT 
    GGCTCCTTCT CCAACAGTGG GTACAATCGA AGATTCAAAT CTTTTTCCGA GCTTCCTGCA 
    TCTTACGAAA GTGAAAGCTG GACTTCGTAT AGCAATAGGA CACGAGGTCC CAAGTCCACC 
    TCATCCATTT CCAGGCCTAT TGACTATGGA ATTTTTGGGA AAGAGCAGCA GTTGGCTTTC 
    TTGGAGAACG TCAAACGCTC ACTCACACAG GGAAGATTAT GGAAGCCAAG TTTCCTCAAG 
    AACCCTGGCT TCCTCAAGGA TGATGTTCTT AATACTTCCA ACCTGTCACA GTCAGAGCTG 
    GGAACTTCTC CAGCAGGTCA GGTGCCAGAA GATGGTGTAT TTCCAAGTGA GCCACTTAAC 
    ATCTACAAGG ACGACCCAGT GGAGCCACTG GACTCAGACT GGGACACAGA CACAACCACA 
    GATGACGAGT ACTACCTGGA TGAAAAGGAT AAAGAGTCAG AACTATGA

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

    Exph5 ( XM_029481705.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029337565.1 Mus caroli exophilin 5 (Exph5), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv76071
    Clone ID Related Accession (Same CDS sequence) XM_029481706.1 , XM_029481705.1
    Accession Version XM_029481705.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5328bp)
    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 exophilin-5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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## 

    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
    ATGAGGGAGG AGAGCGGTAT GCCTCCGCCC TGGGACGCTT CCCTGCTGGA GAGTGAGTTT 
    TTCCAAGTTT TAGACGATTT GGACAACAAG CTGGCCCAGG AGCAGTCTTC AGGCTTGATG 
    AATACCAGAG TGCCATTCAA CTACGGATCA AGAACACAGT TCAAGCTGTC TCACAGAAAC 
    AGTCATGGTC ATGGCACAGG AAGGCAACAG AACTACCACA GTGAAACTTC CAACATGTCT 
    ATCTATAACA TCCTGAGACC TGGAGCCCCT AGAGAAGGCT TTAAAACCTT TTCTCCTAGG 
    ACAAAGACGA TTTATGACAT GTATAGGACC AGGGAGCCCA GAGTCTTAAA GGAAGACTTC 
    ATGCAAAAGA ATGCATTTGG GAGTGCATCT CTGTGCTTCG ACAGCCGGCA ACGATCAGCC 
    TCGCCTGCCG CAGGGAGTTT CACTGCTAGG AGTTTACACT TTCCAGCCGA TACTCAAAAC 
    AAGAGTAGTT TTACAGCAGT GAGACACCAG CAAAGCCCCA AAAGGACTCC TTTATCTTCC 
    ATCATATGGA ATAGGTCAGA TGCTTCTAGA CATAGGCAGA ATCAAGAAGA GTCACTGGGG 
    GTACCAGCAC CAATGGACAT TGACCCCGCA GAGCAATATG TGTCTCCTAG GTGTTTTCAG 
    GAAAGTAGGA GGTATGAGAT GTGCCATTCA CTGAACGCTT ACCAAAGCTA CCCTTTAAAC 
    GTCCCTGTGG CTAATGCAAT GAGTCCTGAC ACGTTGGAGA ACTCAGAGAA TATGCCATTC 
    TACCGTCAGG GTAACCCATT TGCAAGGTCT TTCTTTAGCA GTACCTTCAG GCAGAGCAGA 
    GAACAGAGAT TCGGACAGAA TTCTTTTTGG AGCCGACAGG AAGAGTACTC TCCCTGGCCT 
    GACATTCCCC AGAGCAGGGA CCCGTTCCCT TCTTCTGACA AGGACTTTGA AATGTTTTCT 
    GTTGAAGCAA ACAGGGCGCC ATCTGTTTGC AGCCAAGGTG TCCCTTCTCA GCACTGGAGG 
    TCACATTCTT CCGGCCATGG AACATACGTT TTCAGAGGCC GAGAAGATTC GCATTGCTGG 
    CGATCTGATT TTCAAACATC CCCACTGGAG AGCATGGACA CCTCACATGT TAATGAGAAC 
    CAACGTCCAC CCCATTTTGT CACACCAGTT GGGTTTTCTA TAACTGACTC AAGCTGCCAC 
    CTCCAATCTT CCAGGCTGGA CTCTCAGCAG GGCCACTTCC CTATAGAAGA AGCTGTAGAC 
    GAGGACCCTT ATTTGTTTGG CAAGGCTCAG ACCCCAGCAT CTTCATTCAG AACTCCCTAC 
    CCCCTCAGTC CTAATGATGG AAGGGAGTCT CAGAGTTCCA GCTTCCCGGA TTCCACAGCT 
    ACTTTGCAGA AAATAATCCC CAATAAGCCA GACTCTCTTC CAATAAGAAA CTGTACAGAA 
    GTTCCTGTGG CCTGTAACCA TTCTATTGAC TCGCTGTCTC TTACTGACAC CCAGCCCAAC 
    ATCCCAGTCA CAGAAACGAA CAGTGAGAAA GATATGGATG TGTCTGTTTC AAAGGATGAA 
    CAGCTAAACA AGATGGACCA GAAGAGCAGG CCAACTGGGT TACCCCAATA TGTTTTACAT 
    ACAGTGATCT CTAATGATTT ACCTGACTTT CAAAATACCC ATTCTCGGGA CTCAGCCCAA 
    AATGACAGGT ATGGTTTTAA TGCACCTGCC ACAGAACGTT CCAGAAGATC ACCCAGGGTC 
    TTCTCCAGAA AGGGTACTTC CCAAATTCAT ACAACACAAA GAGATCAAAG CAACAAACTG 
    AGCAAAAATA AGTGTTTTGG GGGGGACAGG AGACTTGACT CAGCAGCGTC TCCGCCTTTC 
    ATCCAAGAAA GTGGAACACC GACATCTCTT CCCAGCCCAA ATCAAGGTTG TCACCAGAAA 
    ACAGGAAGTA ATGAAGAGAG TTCAAGCACC ATTAAAAACA GCCATTGGTG CTTTGAGCCC 
    ACTGCTAACC AAAAATCACA GCCTTCCGGG GAGCCTGCTC TTTTAGATCT TGAGCAAAGT 
    CCTTCCACTC ATTCTACCAA TGACAGCAAG CTAGCCACCG GGCACAGCGT CTCACGAGCT 
    CCTTTACATG TGGCATCAGA TGCACCCCAA GATTCTTTCC TTGATGCTCA TCTGGTACCT 
    TCCACTACAG TGTTCTCCAG GAGCCTTTCA GACCAAGATC CAGGTCAAGA ACAAAGAGAA 
    GAGAAAGACA AAGCTACCAA GAGCCAAGAT AATCAGCTGG CTGTAAATTC TACAGACAAC 
    CAAGAGAATC ATGACGGTCC TGCACTTCCA CACGATGCTG TTCACTGCCA CCCATACTCT 
    CCCTTCAAGA ATGGGAGGGG GAAGGGAAGA GTTAGGCGCC GTGTGTCCTG TATTGAGAAG 
    CTAACCAAAA CAGAGCGTAC AGTGGCACCC ACAAGAGAAG GTAGTGGCTG TGCTGAGGAC 
    CAAAGAAGCA TCAAAGATCC TGAGCTCAGC ACAGTCTATT GCACCTTGCC AAGAAAACCA 
    GCCAGCTTTC TCATTCACAG CAGACAGCAG GAAAGTAAGG GAACGGTTGC TTCCATTAGG 
    AATGGGCCAC TTCCCTTCCA AATAAAAAAT AAAGCCGAAG TTCCCACAGG AAAGGGCACA 
    TCTGACAAGA CCAGTTCTCC TGAATCAATA AGTGATGCTG CAAATGCAGT CTCGGGGACA 
    CCCAAAGCCA CTAAGAAGAT GACAGATATG AAAGCCATTA GATCGGCTTC AGTTAGGAAA 
    GGGCCACTCC CTTTCCTCAT CAAGAGGGCA ATCTCGTGTC CTTCAGGGGA GCCATGTAGC 
    TTGGCTGAAA GCGATGACAG ACAGAAGTCA TCAGTCCTGG GCATGGATGC TTCTCCTGGA 
    ACACCCAGGC CTGGAGGGAG AATCTTTAAC TCTCTGGAAG GTGAACCATC ATTTATAGAG 
    AGTACTTTCT CTGAAAAGGA ACTTGCTCAA GAACCCACTG GAAAGGGTAG TGAGCTTCGG 
    GCCCCCAGAA TGGGCTCATT GACCTCTTCA AAAAAAACTC CCGAACGTCT GTGTGCAACT 
    GGGTCAGGAA AAGAGAGTGG GAAAGCATTA CATAAGTTTA AGACAACTAG CATGTTTTCT 
    GTTTCTGGCG ATGAAGAGAA CATGAGCTGT CTTGAGGTGG TTTCAATCTA TTACACTCTA 
    CCAAGGAAAC CCAGCAAAAA ATTCTGCAGC CTCCTTCAGC AGTACGCACA AGGTACCGAT 
    TCACTTAGAG ATGCTTTCCA GGGAGAGACT AAAGCACCCC CTAATGCTTT AGAAATCGAT 
    GAGCTGAATT GTCCTGCACA AACGCAATCA GGAATACCTC CACCACAAGA CCCAAAGATG 
    CAGGTTGACT CCGCTCCATG CCATCTCTCC CACAGCCCTG AAAGTAAGGT TGTCTCCCAA 
    TTGCCAGATA GAGAGACTTC CAAATCTACA TTAGAGGAAA TGGCTTCGGT GGGGCCAGAT 
    GTTTCTCTTC ATAGAGAAGA ACCTACGATC AAAGAGATTT CCCCAAGTAA TGTATCTAAA 
    ACAGCTATAG ATGATTCACT AAGCAGAGAA GAGAGAGAGA AAGAACTGCT AAGGCAAATC 
    CTACGGGCCC CCTTACTGCA TCAGGAAAAA GGTGCTGGAA AAGAAGACAC TAAGAGTCAT 
    CAGCAGCCTT CTAAAGGAGG AAGCAGTGGT CCCTCTGGTC TCCCATCCCG CTCAGAAGAT 
    AATGTTGAAA ATTCCCAGAC CAGAAGAGAT TCTGGGACAT GTGCAGGTGG CATGGCCACT 
    GGAAATGGAC AGTATCCTTG GAGGGATCAC GTGGCTGCAG TTGTAGGTGA CCGTTCTAGT 
    AGGTCACAAC TTAGGGAAAC CAGTGGGTCA ACTGGGTCAG ATTGCCAAAA CCAGACTGAT 
    AAAATGCTCT CTGACTCAGA AAGCCAAGCC TTTGCTCTAA CGCCAGCATT GTGTAAGCTG 
    CAGCTTGCTG AAGAGGCTCA GCCAGGGGGA GCAGGTCTGC AGTCAGAAGC CAGCCAGGCA 
    GGAAGTCAGG AAACAAATAC AGCAGAGATG AGGAAGGTTG AAGATGAAGA ACATATGTTG 
    ACACGGGATC AAACTTTACT TCCTAGAGGA AATAACAAAA ATAAAACCAA CACAGATGAA 
    ACGAAAGACA GATACTCAGG TAAACACAGA TTGGCAGCCA TATCTAAAGC AAGTAAAAAA 
    ATCCCAGCTA AGGATTTAAG TCCCAGAAAA CACGTAGCTA CTATCTTCTC CCAAAGTGAA 
    AGCAAATCTG GCTTTAGGAG GCTCTCTCTT TATAGACCAG AGGACAACCC ACTATCCCCT 
    GAACATACTG TAAAAGCCAC AGAGTCCACA GATGAAAGCA GCCAGATGAA TGTGAACAAG 
    TCTGAGACCC TTCTCCAAGA GACCACAGCA TCCAGCCCTG GACCTCCTGG TCAGCCTTGC 
    CATCAAAAGT CTGCTAGCAT TTTACAACCA CATCTGAATG GGTCGCACAG TGTCTTAGAA 
    ACACCACCAA AGAGCGAGGA TTCTAAAGCT CATATTTCAG GAGAGTTGGG AGCCCCAGCT 
    CAGCTTACAC TAACCAGCCC CTTAGAAAAA GGCGCTGGCC ATCAGCAGAG GTTAAGTCCT 
    CCTTTCCCCT TAGAGCCTAC TCAGAAATCT ACAAGAAACT CCCATTGTCA GCTGCGGCAC 
    CGGAGTGCCC CATCTCCAGA GTCAGAACCT GAGCCACATC TCTATCGGTC AAAGAGTTTA 
    AAAAACTTTA ACGTGCAAAG CGACCTGTTG TGTGCAAGCC ATCCCCCGAA AGCCAGGGGG 
    CGCCACTTCT CCGAAAACAC TTCCATTGAC AATGCTCTGA GTCAACTGTC CCTCGAAGAT 
    GGCTCCTTCT CCAACAGTGG GTACAATCGA AGATTCAAAT CTTTTTCCGA GCTTCCTGCA 
    TCTTACGAAA GTGAAAGCTG GACTTCGTAT AGCAATAGGA CACGAGGTCC CAAGTCCACC 
    TCATCCATTT CCAGGCCTAT TGACTATGGA ATTTTTGGGA AAGAGCAGCA GTTGGCTTTC 
    TTGGAGAACG TCAAACGCTC ACTCACACAG GGAAGATTAT GGAAGCCAAG TTTCCTCAAG 
    AACCCTGGCT TCCTCAAGGA TGATGTTCTT AATACTTCCA ACCTGTCACA GTCAGAGCTG 
    GGAACTTCTC CAGCAGGTCA GGTGCCAGAA GATGGTGTAT TTCCAAGTGA GCCACTTAAC 
    ATCTACAAGG ACGACCCAGT GGAGCCACTG GACTCAGACT GGGACACAGA CACAACCACA 
    GATGACGAGT ACTACCTGGA TGAAAAGGAT AAAGAGTCAG AACTATGA

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

    RefSeq XP_029337565.1
    CDS673..6000
    Translation

    Target ORF information:

    RefSeq Version XM_029481705.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli exophilin 5 (Exph5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481705.1

    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
    ATGAGGGAGG AGAGCGGTAT GCCTCCGCCC TGGGACGCTT CCCTGCTGGA GAGTGAGTTT 
    TTCCAAGTTT TAGACGATTT GGACAACAAG CTGGCCCAGG AGCAGTCTTC AGGCTTGATG 
    AATACCAGAG TGCCATTCAA CTACGGATCA AGAACACAGT TCAAGCTGTC TCACAGAAAC 
    AGTCATGGTC ATGGCACAGG AAGGCAACAG AACTACCACA GTGAAACTTC CAACATGTCT 
    ATCTATAACA TCCTGAGACC TGGAGCCCCT AGAGAAGGCT TTAAAACCTT TTCTCCTAGG 
    ACAAAGACGA TTTATGACAT GTATAGGACC AGGGAGCCCA GAGTCTTAAA GGAAGACTTC 
    ATGCAAAAGA ATGCATTTGG GAGTGCATCT CTGTGCTTCG ACAGCCGGCA ACGATCAGCC 
    TCGCCTGCCG CAGGGAGTTT CACTGCTAGG AGTTTACACT TTCCAGCCGA TACTCAAAAC 
    AAGAGTAGTT TTACAGCAGT GAGACACCAG CAAAGCCCCA AAAGGACTCC TTTATCTTCC 
    ATCATATGGA ATAGGTCAGA TGCTTCTAGA CATAGGCAGA ATCAAGAAGA GTCACTGGGG 
    GTACCAGCAC CAATGGACAT TGACCCCGCA GAGCAATATG TGTCTCCTAG GTGTTTTCAG 
    GAAAGTAGGA GGTATGAGAT GTGCCATTCA CTGAACGCTT ACCAAAGCTA CCCTTTAAAC 
    GTCCCTGTGG CTAATGCAAT GAGTCCTGAC ACGTTGGAGA ACTCAGAGAA TATGCCATTC 
    TACCGTCAGG GTAACCCATT TGCAAGGTCT TTCTTTAGCA GTACCTTCAG GCAGAGCAGA 
    GAACAGAGAT TCGGACAGAA TTCTTTTTGG AGCCGACAGG AAGAGTACTC TCCCTGGCCT 
    GACATTCCCC AGAGCAGGGA CCCGTTCCCT TCTTCTGACA AGGACTTTGA AATGTTTTCT 
    GTTGAAGCAA ACAGGGCGCC ATCTGTTTGC AGCCAAGGTG TCCCTTCTCA GCACTGGAGG 
    TCACATTCTT CCGGCCATGG AACATACGTT TTCAGAGGCC GAGAAGATTC GCATTGCTGG 
    CGATCTGATT TTCAAACATC CCCACTGGAG AGCATGGACA CCTCACATGT TAATGAGAAC 
    CAACGTCCAC CCCATTTTGT CACACCAGTT GGGTTTTCTA TAACTGACTC AAGCTGCCAC 
    CTCCAATCTT CCAGGCTGGA CTCTCAGCAG GGCCACTTCC CTATAGAAGA AGCTGTAGAC 
    GAGGACCCTT ATTTGTTTGG CAAGGCTCAG ACCCCAGCAT CTTCATTCAG AACTCCCTAC 
    CCCCTCAGTC CTAATGATGG AAGGGAGTCT CAGAGTTCCA GCTTCCCGGA TTCCACAGCT 
    ACTTTGCAGA AAATAATCCC CAATAAGCCA GACTCTCTTC CAATAAGAAA CTGTACAGAA 
    GTTCCTGTGG CCTGTAACCA TTCTATTGAC TCGCTGTCTC TTACTGACAC CCAGCCCAAC 
    ATCCCAGTCA CAGAAACGAA CAGTGAGAAA GATATGGATG TGTCTGTTTC AAAGGATGAA 
    CAGCTAAACA AGATGGACCA GAAGAGCAGG CCAACTGGGT TACCCCAATA TGTTTTACAT 
    ACAGTGATCT CTAATGATTT ACCTGACTTT CAAAATACCC ATTCTCGGGA CTCAGCCCAA 
    AATGACAGGT ATGGTTTTAA TGCACCTGCC ACAGAACGTT CCAGAAGATC ACCCAGGGTC 
    TTCTCCAGAA AGGGTACTTC CCAAATTCAT ACAACACAAA GAGATCAAAG CAACAAACTG 
    AGCAAAAATA AGTGTTTTGG GGGGGACAGG AGACTTGACT CAGCAGCGTC TCCGCCTTTC 
    ATCCAAGAAA GTGGAACACC GACATCTCTT CCCAGCCCAA ATCAAGGTTG TCACCAGAAA 
    ACAGGAAGTA ATGAAGAGAG TTCAAGCACC ATTAAAAACA GCCATTGGTG CTTTGAGCCC 
    ACTGCTAACC AAAAATCACA GCCTTCCGGG GAGCCTGCTC TTTTAGATCT TGAGCAAAGT 
    CCTTCCACTC ATTCTACCAA TGACAGCAAG CTAGCCACCG GGCACAGCGT CTCACGAGCT 
    CCTTTACATG TGGCATCAGA TGCACCCCAA GATTCTTTCC TTGATGCTCA TCTGGTACCT 
    TCCACTACAG TGTTCTCCAG GAGCCTTTCA GACCAAGATC CAGGTCAAGA ACAAAGAGAA 
    GAGAAAGACA AAGCTACCAA GAGCCAAGAT AATCAGCTGG CTGTAAATTC TACAGACAAC 
    CAAGAGAATC ATGACGGTCC TGCACTTCCA CACGATGCTG TTCACTGCCA CCCATACTCT 
    CCCTTCAAGA ATGGGAGGGG GAAGGGAAGA GTTAGGCGCC GTGTGTCCTG TATTGAGAAG 
    CTAACCAAAA CAGAGCGTAC AGTGGCACCC ACAAGAGAAG GTAGTGGCTG TGCTGAGGAC 
    CAAAGAAGCA TCAAAGATCC TGAGCTCAGC ACAGTCTATT GCACCTTGCC AAGAAAACCA 
    GCCAGCTTTC TCATTCACAG CAGACAGCAG GAAAGTAAGG GAACGGTTGC TTCCATTAGG 
    AATGGGCCAC TTCCCTTCCA AATAAAAAAT AAAGCCGAAG TTCCCACAGG AAAGGGCACA 
    TCTGACAAGA CCAGTTCTCC TGAATCAATA AGTGATGCTG CAAATGCAGT CTCGGGGACA 
    CCCAAAGCCA CTAAGAAGAT GACAGATATG AAAGCCATTA GATCGGCTTC AGTTAGGAAA 
    GGGCCACTCC CTTTCCTCAT CAAGAGGGCA ATCTCGTGTC CTTCAGGGGA GCCATGTAGC 
    TTGGCTGAAA GCGATGACAG ACAGAAGTCA TCAGTCCTGG GCATGGATGC TTCTCCTGGA 
    ACACCCAGGC CTGGAGGGAG AATCTTTAAC TCTCTGGAAG GTGAACCATC ATTTATAGAG 
    AGTACTTTCT CTGAAAAGGA ACTTGCTCAA GAACCCACTG GAAAGGGTAG TGAGCTTCGG 
    GCCCCCAGAA TGGGCTCATT GACCTCTTCA AAAAAAACTC CCGAACGTCT GTGTGCAACT 
    GGGTCAGGAA AAGAGAGTGG GAAAGCATTA CATAAGTTTA AGACAACTAG CATGTTTTCT 
    GTTTCTGGCG ATGAAGAGAA CATGAGCTGT CTTGAGGTGG TTTCAATCTA TTACACTCTA 
    CCAAGGAAAC CCAGCAAAAA ATTCTGCAGC CTCCTTCAGC AGTACGCACA AGGTACCGAT 
    TCACTTAGAG ATGCTTTCCA GGGAGAGACT AAAGCACCCC CTAATGCTTT AGAAATCGAT 
    GAGCTGAATT GTCCTGCACA AACGCAATCA GGAATACCTC CACCACAAGA CCCAAAGATG 
    CAGGTTGACT CCGCTCCATG CCATCTCTCC CACAGCCCTG AAAGTAAGGT TGTCTCCCAA 
    TTGCCAGATA GAGAGACTTC CAAATCTACA TTAGAGGAAA TGGCTTCGGT GGGGCCAGAT 
    GTTTCTCTTC ATAGAGAAGA ACCTACGATC AAAGAGATTT CCCCAAGTAA TGTATCTAAA 
    ACAGCTATAG ATGATTCACT AAGCAGAGAA GAGAGAGAGA AAGAACTGCT AAGGCAAATC 
    CTACGGGCCC CCTTACTGCA TCAGGAAAAA GGTGCTGGAA AAGAAGACAC TAAGAGTCAT 
    CAGCAGCCTT CTAAAGGAGG AAGCAGTGGT CCCTCTGGTC TCCCATCCCG CTCAGAAGAT 
    AATGTTGAAA ATTCCCAGAC CAGAAGAGAT TCTGGGACAT GTGCAGGTGG CATGGCCACT 
    GGAAATGGAC AGTATCCTTG GAGGGATCAC GTGGCTGCAG TTGTAGGTGA CCGTTCTAGT 
    AGGTCACAAC TTAGGGAAAC CAGTGGGTCA ACTGGGTCAG ATTGCCAAAA CCAGACTGAT 
    AAAATGCTCT CTGACTCAGA AAGCCAAGCC TTTGCTCTAA CGCCAGCATT GTGTAAGCTG 
    CAGCTTGCTG AAGAGGCTCA GCCAGGGGGA GCAGGTCTGC AGTCAGAAGC CAGCCAGGCA 
    GGAAGTCAGG AAACAAATAC AGCAGAGATG AGGAAGGTTG AAGATGAAGA ACATATGTTG 
    ACACGGGATC AAACTTTACT TCCTAGAGGA AATAACAAAA ATAAAACCAA CACAGATGAA 
    ACGAAAGACA GATACTCAGG TAAACACAGA TTGGCAGCCA TATCTAAAGC AAGTAAAAAA 
    ATCCCAGCTA AGGATTTAAG TCCCAGAAAA CACGTAGCTA CTATCTTCTC CCAAAGTGAA 
    AGCAAATCTG GCTTTAGGAG GCTCTCTCTT TATAGACCAG AGGACAACCC ACTATCCCCT 
    GAACATACTG TAAAAGCCAC AGAGTCCACA GATGAAAGCA GCCAGATGAA TGTGAACAAG 
    TCTGAGACCC TTCTCCAAGA GACCACAGCA TCCAGCCCTG GACCTCCTGG TCAGCCTTGC 
    CATCAAAAGT CTGCTAGCAT TTTACAACCA CATCTGAATG GGTCGCACAG TGTCTTAGAA 
    ACACCACCAA AGAGCGAGGA TTCTAAAGCT CATATTTCAG GAGAGTTGGG AGCCCCAGCT 
    CAGCTTACAC TAACCAGCCC CTTAGAAAAA GGCGCTGGCC ATCAGCAGAG GTTAAGTCCT 
    CCTTTCCCCT TAGAGCCTAC TCAGAAATCT ACAAGAAACT CCCATTGTCA GCTGCGGCAC 
    CGGAGTGCCC CATCTCCAGA GTCAGAACCT GAGCCACATC TCTATCGGTC AAAGAGTTTA 
    AAAAACTTTA ACGTGCAAAG CGACCTGTTG TGTGCAAGCC ATCCCCCGAA AGCCAGGGGG 
    CGCCACTTCT CCGAAAACAC TTCCATTGAC AATGCTCTGA GTCAACTGTC CCTCGAAGAT 
    GGCTCCTTCT CCAACAGTGG GTACAATCGA AGATTCAAAT CTTTTTCCGA GCTTCCTGCA 
    TCTTACGAAA GTGAAAGCTG GACTTCGTAT AGCAATAGGA CACGAGGTCC CAAGTCCACC 
    TCATCCATTT CCAGGCCTAT TGACTATGGA ATTTTTGGGA AAGAGCAGCA GTTGGCTTTC 
    TTGGAGAACG TCAAACGCTC ACTCACACAG GGAAGATTAT GGAAGCCAAG TTTCCTCAAG 
    AACCCTGGCT TCCTCAAGGA TGATGTTCTT AATACTTCCA ACCTGTCACA GTCAGAGCTG 
    GGAACTTCTC CAGCAGGTCA GGTGCCAGAA GATGGTGTAT TTCCAAGTGA GCCACTTAAC 
    ATCTACAAGG ACGACCCAGT GGAGCCACTG GACTCAGACT GGGACACAGA CACAACCACA 
    GATGACGAGT ACTACCTGGA TGAAAAGGAT AAAGAGTCAG AACTATGA

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文