tmem94 cDNA ORF clone, Danio rerio(zebrafish)

The following tmem94 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tmem94 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
ODa145405 XM_001335551.8
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa145406 XM_005169483.4
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa148381 XM_021480383.1
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa18081 XM_021480381.1
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa18081 XM_001335551.7
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa18082 XM_021480382.1
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa18082 XM_005169483.3
Latest version!
Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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)
    CloneID ODa145405
    Clone ID Related Accession (Same CDS sequence) XM_001335551.8
    Accession Version XM_001335551.8 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product transmembrane protein 94 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394855.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_001335551.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCGGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGAG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTAGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGGC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCG CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CTCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCATG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC AACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCATGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAGA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCATTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGTGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CCATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC AAAAACCGAC AACAGCACTA TCAACTGCTC ACACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCACTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTCAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    RefSeq XP_001335587.6
    CDS387..4484
    Translation

    Target ORF information:

    RefSeq Version XM_001335551.8
    Organism Danio rerio(zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001335551.8

    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
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCGGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGAG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTAGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGGC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCG CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CTCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCATG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC AACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCATGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAGA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCATTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGTGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CCATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC AAAAACCGAC AACAGCACTA TCAACTGCTC ACACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCACTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTCAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    CloneID ODa145406
    Clone ID Related Accession (Same CDS sequence) XM_005169483.4
    Accession Version XM_005169483.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product transmembrane protein 94 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394855.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005169483.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCGGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGAG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTAGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGGC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCG CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCTCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ATGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCAACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAT GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AGAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCA
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGTGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCCATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACAAAAACC GACAACAGCA CTATCAACTG CTCACACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCACT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT CAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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

    RefSeq XP_005169540.2
    CDS387..4427
    Translation

    Target ORF information:

    RefSeq Version XM_005169483.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169483.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCGGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGAG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTAGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGGC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCG CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCTCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ATGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCAACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAT GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AGAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCA
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGTGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCCATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACAAAAACC GACAACAGCA CTATCAACTG CTCACACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCACT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT CAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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

    CloneID ODa148381
    Clone ID Related Accession (Same CDS sequence) XM_021480383.1
    Accession Version XM_021480383.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3174bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product transmembrane protein 94 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAG GCCATTGGAA AACCACACAG CTACAATGAA GATGGGAATC
    CTTGAAACAG TTAGCATCAG GAGCATGATG AAGTTTAAGA GCCCTGTCAA CTGTGCTGAA
    TGTCTGCTGT CCTGGAAGAG GAGATGGTGC TCGACAATAG GAGGCTTTAT CAATGCATCG
    TTTGTGCTTT TGGATTATAG TATCTACTCA ACCTGGAATA CAATGACTAA ATAG

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

    RefSeq XP_021336058.1
    CDS387..3560
    Translation

    Target ORF information:

    RefSeq Version XM_021480383.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021480383.1

    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
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAG GCCATTGGAA AACCACACAG CTACAATGAA GATGGGAATC
    CTTGAAACAG TTAGCATCAG GAGCATGATG AAGTTTAAGA GCCCTGTCAA CTGTGCTGAA
    TGTCTGCTGT CCTGGAAGAG GAGATGGTGC TCGACAATAG GAGGCTTTAT CAATGCATCG
    TTTGTGCTTT TGGATTATAG TATCTACTCA ACCTGGAATA CAATGACTAA ATAG

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

    CloneID ODa18081
    Clone ID Related Accession (Same CDS sequence) XM_021480381.1 , XM_001335551.7
    Accession Version XM_021480381.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product transmembrane protein 94 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGCGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CTATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC GAAAACCGAC AACAGCACTA TCAACTGCTC GCACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCCCTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTAAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    RefSeq XP_021336056.1
    CDS387..4484
    Translation

    Target ORF information:

    RefSeq Version XM_021480381.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021480381.1

    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
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGCGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CTATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC GAAAACCGAC AACAGCACTA TCAACTGCTC GCACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCCCTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTAAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    CloneID ODa18081
    Clone ID Related Accession (Same CDS sequence) XM_021480381.1 , XM_001335551.7
    Accession Version XM_001335551.7 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product transmembrane protein 94 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_001335551.6. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGCGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CTATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC GAAAACCGAC AACAGCACTA TCAACTGCTC GCACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCCCTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTAAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    RefSeq XP_001335587.5
    CDS365..4462
    Translation

    Target ORF information:

    RefSeq Version XM_001335551.7
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001335551.7

    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
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    CTTGCTAAGT TTTCTGAGGA CACTCTAAGC AGCTACACGG AAGTGGTGTC CTCCCAGGAG
    ATGCTACGCT GTGTGTGGAG ACACCTGGTC AGTGTGTTGA AGGGAGAGTC CCAGACCCTG
    TGTTATACCT CCAGTCTGCT GCACACATTG GGTTCAGTCA CTGTGCTGTG CTGTGTGGAT
    AAGCAGGGTA TCCTATCCTG GCCCAATCCC AGTCCAGAGA CCGTACTGTT CTTCAGTGGA
    CGAGTCGAAC CTCCTCATGA CAGCCAGGAT GACCTCAGAG ACGACCTGTC AGTCAATTCC
    CTCTGCAGGA CAGAGGGCGA GGAGGATCGA GATGAGCCTC AGGAAGGCGA AGCACTGCTG
    TGTTTACCAG CGTTTGAACC CCCCCTCCAC ATGGCCGAGC AGGAACCCAG TGAGACGTCA
    CACGACACTG CCCGCTCCTC GGACACCCAA CGCCAGCGAC GAGGACCCCA AACCACCCGT
    TCCAAACACC CATCGGGCTC CAATGTCAGT TTCAGCCACG ACACTGAGGG TGGAGAAAAT
    GACTTTGTTC AGCAATGTGG TCTTGGTGAT GATTTGTGTG AGGCAGATGA TTTCGTGTGC
    GACTATCATT TGGAGATGTT GAGCCTGTCT CAGGATCAGC AGAACCCCGT CAGCATCCAG
    TTTGATGACT CTGGTTGGCA GAATCACCTG TCCTCCTTGA AGCCCCTTGG TTTGAACATC
    CTGTTGAATC TGTGCAATGC CACCGTCACC CAGCAGCTCT GCAGATTCTC GGATCACCTG
    TCCAACCTGG CGCTGCAGGA ATGCCACGGC GCGGTTCTTC CTGTTCACGT GCCTTGGGGG
    CTCTGTGAAT TGTCTCGCCT TATAGGTTTC ACTCCGGGTG CGAGGGAACT ATTTAAACAT
    GAGAATCATC TGGCTCTGTA CCAGCTTCCT TCTGGAGAAA AGGCCAAAGA ATCTGCCCCC
    CGGCGCCTCC ATCACTTTAC CAAACGCCAG CCCCCCATCA GTCACCTCAT TAGTCTGTTT
    GTCAGGGACA ACACTACCAA TAATGTACAG ATGCTCTCCC ACGGCTCGGC TGACCTCATC
    TTGGAAGCCT GCACTGATTT CTGGGATGGG GCGGATATCT ATCCACTGTC TGGCTCGGAT
    AGGAAAAAGG TACTAGATTT CTACCAACGT GCCTGTCTGT CGGGATATTG TTCTGCGTTC
    GCCTATAAGC CTATGCAGGT CACACTGTCT GGACAGCTCA ATGGAAAGTG TGTGGAGTTG
    GCTCCAGGCC CCGCACTCTT TTCTGGGGTG GAGCTTCCCA GCACCACCCC GATCAAACAT
    GGCAGCCGCA GAAACAGCTG GAGCTCTGAT GAGGGTATAG GAGAAGGTTT GGAGAAGGAG
    GACTGTGTGC AGGCTCTGAG TGGTCAGATC TTCATGGGAA TGGTGTCGTC CCAGTTTCAG
    GCTCGACTGG ATACTGTACG GCTCATCGAG AACCTGGTGG GAGCCTGCAT ACGCTTTGTG
    TACTTCTCAA TGGAAGACGA ACTGCGCAGC AAAGTGTTTG CAGAGAAGAT GGGTTTGGAG
    ACAGGCTGGA ACTGTCACAT CTCTCTGACC CCAAACGGAG ATGGTCACTG TGATGGTGCT
    CCGTCCAGCC CTAGCCAAGC AGGTTCCCTA CATGATGAGC TTCTGCAAGA TTCTCGTGAT
    GATGCAGAAG GCCCACTACT GCCAGAGGAC CAATCAGATC TTGCCAGTTT TCAACCTACT
    GACAGCGATG TGCCCAGTTT CTTAGAAGAC TGCAATAGAG CAAAACTGCC TCGTGGCATC
    CATCAGGTTC GTCCTCATTT GAAGAACATA GACAATGTGC CTCTACTGGT GCCGCTGTTC
    ACAGACTGCA CCCCTGAAAC AATGTGTGAA ATGATGAAGA TCATGCAGGA GAACAGAGAG
    GTGACGTGCT GTTTGGGGAG CTCCGCAAAC TTCCGCAACA GCTGCCTTTT CCTGCAGAGC
    GACATTAGTA TCTCTCTTGA TCCTTTGTAC CCGTCCCGCT GCTCATGGGA GACATTTGGG
    TATGCTGCGG TCTGTGGGCT GAATGAAGAA TGCGATGAGC TTTCTCCACT GGGCCTCAGC
    GCTAGTCTCA ACAGTCTCGC CTGCTCGGTG TCTTTCCATC AGGGCGAGAG TGTCAGCATG
    GTCAAACTCA TAGAGCAGGC GAGACACACC ACCTATGGCA TTCGCAAGTG CTTCCTCTTC
    CTCCTGCAGT GTCAGCTGAC ACTGGTCATC ATTCAGTTTC TGGCTTGCCT TATTCAGCTG
    CCTCCTCCCA TGAACATCAC AGACATACTG TGGCTTTCCT GCTTCTGTTA CCCTCTGCTC
    AGCGTGTCCT TGCTGGGAAA ACCTCCTGAC AGTTCGGTCA TGACAGTTGC CACTGGAAAG
    AATTTGGACT CTATACCACG CAAGACCCAG CACTACTTCC TGGGCTGGTT CCTGTTGAAG
    TTTGGTCTGA CGGTGTTGGC CTACTTAGTC GGCTTCGGCT TTTCGCTACA GGAAGTTTGT
    TCTAGAGCAG CAAACTTCAC GAAAACCGAC AACAGCACTA TCAACTGCTC GCACATACTC
    ACATCTAGCT CCCAGGGTGC CCCAGAGTGG TTTGGTGAAT TGTCCAATGG GCTGCTTTTG
    ATTCAGAAGA TCATGGCAGG TTTTCTGGCC TTGCATACAG TGGTCATCTC TTTCAGCTAT
    GTACACCGTT CACAACCCCT GTGGAGGAGA AACCCATTCA GCAACACATG GTGGTGTCTC
    ACAGTGCCTG TGGTGTTGTT GGGACAGGTG GTGCAGGCTG TGATTGATTA TCATTTGTGG
    AGGAACAGGA GAACAGAGGT GGTGTTCACT CTTCATCACA TTCCCCTGAT GGTGTGGCTG
    TTGGTTTCTC TGTCCATCGT GCTTGTGGTG CTAATCAATG AAGCAGTAAA ACTGCATGAA
    ATCAGGGTAC GAGTGCGTTA CCAGAAGAGG CAGAAGCTTC AGTTTGAGAC GAAGCTGGGA
    ATGAACTCTC CTTTCTGA

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

    CloneID ODa18082
    Clone ID Related Accession (Same CDS sequence) XM_005169483.3 , XM_021480382.1
    Accession Version XM_005169483.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product transmembrane protein 94 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005169483.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCCCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ACGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCCACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAC GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AAAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCG
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGCGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCTATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACGAAAACC GACAACAGCA CTATCAACTG CTCGCACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCCCT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT AAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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

    RefSeq XP_005169540.1
    CDS365..4405
    Translation

    Target ORF information:

    RefSeq Version XM_005169483.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169483.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCCCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ACGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCCACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAC GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AAAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCG
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGCGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCTATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACGAAAACC GACAACAGCA CTATCAACTG CTCGCACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCCCT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT AAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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

    CloneID ODa18082
    Clone ID Related Accession (Same CDS sequence) XM_005169483.3 , XM_021480382.1
    Accession Version XM_021480382.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product transmembrane protein 94 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCCCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ACGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCCACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAC GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AAAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCG
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGCGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCTATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACGAAAACC GACAACAGCA CTATCAACTG CTCGCACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCCCT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT AAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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

    RefSeq XP_021336057.1
    CDS387..4427
    Translation

    Target ORF information:

    RefSeq Version XM_021480382.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio transmembrane protein 94 (tmem94), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021480382.1

    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
    ATGGAGCTAC AGGATAAGAA ACAGGAGGAG GAGACGGCAA CTCCACTGGG ACTGTCCACG 
    GCTCAGGCTC TGTGCACCCT ACGGGACCAG CTGTCCAACT TATTGGGGCA ACACCAGAAA
    TTCAGCCGCC GCAGACCCAC CATACAGGAG CTGTGGGCCA AAAGCTTCCT CCATCATGGT
    GACCGGCATT CGTGCTTCCA TTGGCCTGGA GCTGTTCTTA CTCTGGTTGT GGTGGTGGGG
    CTGTTGTCTT GTCACGGCAG CCAGCCGGAG GGCAGTCAAG GCATAGAGCT GGTGAACGCT
    GGTGCGCTCT TCCTCCTGCT GCTGCTCAAC CTCTTCCTCA TCGGACGGCA GCAGAGGTTA
    CGAATAAGTG AGATGGTGCG GCGGCTCAAG TCCATCATCT CACAACTGAA CGATTATTTG
    GAGAGAAGTG CAGGACATCC AATCAGATGG GCCCCGTCTC TGTACCCTGA CCTCTACACT
    CCCACCTCCC CTTCGTGGTC GCTGCATTGG ACGTTCAGGG ATGAACAGCT GGTCAATCTA
    CCTGTCAGCC TCCTGGTGGA AGGTGATGTC ATCGCACTTA GGCCCGGCCA GGAAGCCTTT
    GCATCTCTCA GAGGCATCAA GGACGACGAA CACATTGTAC TTGAGCCAGG AGACCTTTTT
    CCACCTTTCT CCCCTCCTCC CTCCCCACGC GGGAATGAGC GCAGGGGTCC CCATAGCCCT
    CAGCAGTACC GCCTCTTCAG AGTGGTGCGC ACACCTATAC TCGACAGCGT CAGGAACAGT
    CTTGACCTGG CTCTCTCCCG TCCAATCACA GCCCTCGATA ATGAGCGCTT CACAGTGCAG
    TCAATTATTG CCAAATTCGC CTGTCCTGCT GTATTGGTGG CCTTTTTCTC TATGAATACA
    ATCCGATACT TCTGTGACAC TCCTGGTCTC ACCCCTGGAC CCTTCAACTT CCTTCAGTTG
    CAGATGATGG GTGTGTTGCC CATTTTACCT CTGCTGTTTC CTGTAATGTG GGTTCTGGTG
    AACGCATACG GAGAGGCCCG TGTGTTAGCA GAGTCGAGCC GTAATTCTCC TACTGGCCTG
    GAGATGCTAC GCTGTGTGTG GAGACACCTG GTCAGTGTGT TGAAGGGAGA GTCCCAGACC
    CTGTGTTATA CCTCCAGTCT GCTGCACACA TTGGGTTCAG TCACTGTGCT GTGCTGTGTG
    GATAAGCAGG GTATCCTATC CTGGCCCAAT CCCAGTCCAG AGACCGTACT GTTCTTCAGT
    GGACGAGTCG AACCTCCTCA TGACAGCCAG GATGACCTCA GAGACGACCT GTCAGTCAAT
    TCCCTCTGCA GGACAGAGGG CGAGGAGGAT CGAGATGAGC CTCAGGAAGG CGAAGCACTG
    CTGTGTTTAC CAGCGTTTGA ACCCCCCCTC CACATGGCCG AGCAGGAACC CAGTGAGACG
    TCACACGACA CTGCCCGCTC CTCGGACACC CAACGCCAGC GACGAGGACC CCAAACCACC
    CGTTCCAAAC ACCCATCGGG CTCCAATGTC AGTTTCAGCC ACGACACTGA GGGTGGAGAA
    AATGACTTTG TTCAGCAATG TGGTCTTGGT GATGATTTGT GTGAGGCAGA TGATTTCGTG
    TGCGACTATC ATTTGGAGAT GTTGAGCCTG TCTCAGGATC AGCAGAACCC CGTCAGCATC
    CAGTTTGATG ACTCTGGTTG GCAGAATCAC CTGTCCTCCT TGAAGCCCCT TGGTTTGAAC
    ATCCTGTTGA ATCTGTGCAA TGCCACCGTC ACCCAGCAGC TCTGCAGATT CTCGGATCAC
    CTGTCCAACC TGGCGCTGCA GGAATGCCAC GGCGCGGTTC TTCCTGTTCA CGTGCCTTGG
    GGGCTCTGTG AATTGTCTCG CCTTATAGGT TTCACTCCGG GTGCGAGGGA ACTATTTAAA
    CATGAGAATC ATCTGGCTCT GTACCAGCTT CCTTCTGGAG AAAAGGCCAA AGAATCTGCC
    CCCCGGCGCC TCCATCACTT TACCAAACGC CAGCCCCCCA TCAGTCACCT CATTAGTCTG
    TTTGTCAGGG ACAACACTAC CAATAATGTA CAGATGCTCT CCCACGGCTC GGCTGACCTC
    ATCTTGGAAG CCTGCACTGA TTTCTGGGAT GGGGCGGATA TCTATCCACT GTCTGGCTCG
    GATAGGAAAA AGGTACTAGA TTTCTACCAA CGTGCCTGTC TGTCGGGATA TTGTTCTGCG
    TTCGCCTATA AGCCTATGCA GGTCACACTG TCTGGACAGC TCAATGGAAA GTGTGTGGAG
    TTGGCTCCAG GCCCCGCACT CTTTTCTGGG GTGGAGCTTC CCAGCACCAC CCCGATCAAA
    CATGGCAGCC GCAGAAACAG CTGGAGCTCT GATGAGGGTA TAGGAGAAGG TTTGGAGAAG
    GAGGACTGTG TGCAGGCTCT GAGTGGTCAG ATCTTCATGG GAATGGTGTC GTCCCAGTTT
    CAGGCTCGAC TGGATACTGT ACGGCTCATC GAGAACCTGG TGGGAGCCTG CATACGCTTT
    GTGTACTTCT CAATGGAAGA CGAACTGCGC AGCAAAGTGT TTGCAGAGAA GATGGGTTTG
    GAGACAGGCT GGAACTGTCA CATCTCTCTG ACCCCAAACG GAGATGGTCA CTGTGATGGT
    GCTCCGTCCA GCCCTAGCCA AGCAGGTTCC CTACATGATG AGCTTCTGCA AGATTCTCGT
    GATGATGCAG AAGGCCCACT ACTGCCAGAG GACCAATCAG ATCTTGCCAG TTTTCAACCT
    ACTGACAGCG ATGTGCCCAG TTTCTTAGAA GACTGCAATA GAGCAAAACT GCCTCGTGGC
    ATCCATCAGG TTCGTCCTCA TTTGAAGAAC ATAGACAATG TGCCTCTACT GGTGCCGCTG
    TTCACAGACT GCACCCCTGA AACAATGTGT GAAATGATGA AGATCATGCA GGAGAACAGA
    GAGGTGACGT GCTGTTTGGG GAGCTCCGCA AACTTCCGCA ACAGCTGCCT TTTCCTGCAG
    AGCGACATTA GTATCTCTCT TGATCCTTTG TACCCGTCCC GCTGCTCATG GGAGACATTT
    GGGTATGCTG CGGTCTGTGG GCTGAATGAA GAATGCGATG AGCTTTCTCC ACTGGGCCTC
    AGCGCTAGTC TCAACAGTCT CGCCTGCTCG GTGTCTTTCC ATCAGGGCGA GAGTGTCAGC
    ATGGTCAAAC TCATAGAGCA GGCGAGACAC ACCACCTATG GCATTCGCAA GTGCTTCCTC
    TTCCTCCTGC AGTGTCAGCT GACACTGGTC ATCATTCAGT TTCTGGCTTG CCTTATTCAG
    CTGCCTCCTC CCATGAACAT CACAGACATA CTGTGGCTTT CCTGCTTCTG TTACCCTCTG
    CTCAGCGTGT CCTTGCTGGG AAAACCTCCT GACAGTTCGG TCATGACAGT TGCCACTGGA
    AAGAATTTGG ACTCTATACC ACGCAAGACC CAGCACTACT TCCTGGGCTG GTTCCTGTTG
    AAGTTTGGTC TGACGGTGTT GGCCTACTTA GTCGGCTTCG GCTTTTCGCT ACAGGAAGTT
    TGTTCTAGAG CAGCAAACTT CACGAAAACC GACAACAGCA CTATCAACTG CTCGCACATA
    CTCACATCTA GCTCCCAGGG TGCCCCAGAG TGGTTTGGTG AATTGTCCAA TGGGCTGCTT
    TTGATTCAGA AGATCATGGC AGGTTTTCTG GCCTTGCATA CAGTGGTCAT CTCTTTCAGC
    TATGTACACC GTTCACAACC CCTGTGGAGG AGAAACCCAT TCAGCAACAC ATGGTGGTGT
    CTCACAGTGC CTGTGGTGTT GTTGGGACAG GTGGTGCAGG CTGTGATTGA TTATCATTTG
    TGGAGGAACA GGAGAACAGA GGTGGTGTTC ACTCTTCATC ACATTCCCCT GATGGTGTGG
    CTGTTGGTTT CTCTGTCCAT CGTGCTTGTG GTGCTAATCA ATGAAGCAGT AAAACTGCAT
    GAAATCAGGG TACGAGTGCG TTACCAGAAG AGGCAGAAGC TTCAGTTTGA GACGAAGCTG
    GGAATGAACT CTCCTTTCTG A

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