ORF » Species Summary » Nannospalax galili » Enam cDNA ORF clone

Enam cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

The following Enam gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Enam 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
ONa129827 XM_029561661.1
Latest version!		 Nannospalax galili enamelin (Enam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa16637 XM_008829371.1
Latest version!		 Nannospalax galili enamelin (Enam), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa16636 XM_008829363.1
Latest version!		 Nannospalax galili enamelin (Enam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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

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

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

  • Reference Sequences (Refseq)
    Enam ( XM_029561661.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029417521.1 Nannospalax galili enamelin (Enam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa129827
    Clone ID Related Accession (Same CDS sequence) XM_029561661.1
    Accession Version XM_029561661.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    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 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product enamelin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008328749.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCATTTCAGA TGCAAATGCC CCGAATGCCT GGATTTAGCA GTAAAAGTGA GGAGATGATG 
    CGTTATGCTC CATTCAACTT TATGAACGCC CCACCAATGA TGAACATGGG CCCATATGGA 
    AATGGTTTTC AAATGCCTCC GCCTCCACAA ATGCCTCCAC ATTTTCCACC ATACCAGATG 
    CCCATGTGGC CTCAGCCAGT ACCCAATGGA TGGCAGCAAC CTCCAACACC CAATTTCCAG 
    AGCAAGACTG AGCAAACTCA GGAGACCCTC AAACCCAACC AGACTCAGCC AAACGAGCCA 
    CAACCACAAA AGCAGCCTTC AAAAGAACCG CCAAACAAGG CAACTCAGGC CAAAGAGGAA 
    GGCCAGTCAC CTCAGGCATT CCCACCATTT GGCAATGGGA TGTTTCCTTA TCAACAACCA 
    CCATGGCCAA TTCCACAGAG GGGACCACCA CCAGGTTTTG GGCGTGCCAA ATTCAGCAAT 
    GAAGAAGGAA ATCCTTATTT TGGATTTTTT GGATATCATG GCTTTGGGGG TCGTCCTTAT 
    TATTCAGAAG AGATGTTTGA AGATTATGAA AAACCCAAAG AAAAAGATCC TCCTAAAGAA 
    GAGGACCCGC CCCCAGAACC CTCAGCTAAT TCAACAGTGA CTGAGGCTAA TTCCACTCAA 
    CCAATTCCTG GAGGGAGTCA AGGTGGAAAT GACACTAGCA CAATAGGAAA CAGGGGCCCT 
    GGGCCTAACC CTGGGAACAA CCCTACCATT CAAAATGGTG TCTTCCCACT CCCTAAAGTT 
    AATATTTCAG GCCAGGGAGT ACCAAAAAAA CAAATTCCAT GGAGACCAAA TCAGCCAAAT 
    ATTTATGAAA ATTATCCACA TCCAAATACA CAGAATTATC CTACAGGAAG ACAATGGCAA 
    ACCACTGGTA CCACGGTCAT GGGGCACAGA CAGGCTGGAC CTAGTAACCG AAATCAAGAA 
    GTCCAAAGAG GTCCTAGGTG GAATTCCTTT GCTTGGGAAG GCAAACAAGG AACTCGCCCA 
    GGAAATCCAA CTTATCGTAA GGCTTCCCCT CCAACTTCAA GAGCCAATTA TCCCAACTAT 
    GCAGGAAATC CAGTCAATTT TAGAAGAAAA CTTCAGGGGC CAAATAAACC ATTTGTGGGA 
    ACCAATGCTG CCTCAAATAA TCCATACGGC GGAACCAATG CTGCCTCAAA TAAACCATTT 
    GTGGGAACCA ATGCTGCCTC AAATAATCCA TACGGTGGAA CCAATGCTGC CCCAAATAAA 
    CCATTTGTGA GAACCAATGC TTCCCCAAAC AATCCGTTTG GAGGAACCAA TGCTGCCTCA 
    AATAATCCAT ACGGCGGAAC CAATGCTGCC TCAGATAAAC CATTTGTGGG AACCAATGCT 
    GCCTCAAATA ATCCATACGG CGGAACCAAT GCTGCCTCAA ATAAACCATT TGTGGGAACC 
    AATGCTGCCT CAAATAATCC ATACGGTGGA ACCAATGCTG CCCCAAATAA ACCATTTGTG 
    AGAACCAATG CTTCCCCAAA CAATCCGTTT GGAGGAACCA ATGCTGCCTC AAATAATCCA 
    TACGGCGGAA CCAATGCTGC CTCAATGGGT CCTAAACAAG GTGCTATTGG CCACAAGACA 
    AAAATCCCAA ATCCAAAGGA AAAGTCATCA GGTCAAAAAG AAAGAACAAT CAGTCCTACA 
    AAAGAAACAG CTGGTCCCTG GAGAAGCTCT CAACAATATG GAGTTAACAA ACCAAATTAT 
    AATTTGCCTC ATCCTGAGGG CAGCATGCTA GGCCCTAATT TTAATTCTTT TGATCAGCAT 
    GAAAACTATT ACCCAAGAGG AGATTCCAGA AAAGTACCAA GTCCCAATTT AATTCAAAGT 
    CAGAATTTGC CCAAAGGGAT TGCTTTGGAG CCAAGAAGAA CCCCATTTGA ATCAGAAACT 
    AAGCAGCCTG AGGTCAAGCA CAGTACACAT CAGCCTGCGT ATCCTAAGGA AATCCCTTCT 
    CCTACAAAAG AGCATTTTCC TGCTGAAAGA AATACCTGGA ATCACCAAGA AATCCCTCCA 
    CCCTTTAAGG AAGATCTAGG GAAGCAAGAA GAAAATTTAC CTCATCCTTC CTATGGTTCT 
    AGAGGAAGTG TTTTCTACCA TGAACATAAC TCCTATTATC CTAAAGAAAA GTCACCATAC 
    ATCAGAAACA ATATGTGGGA TGAGAGAGTT GACTCTCTCA ATCTTATAGG GCAACAAGAA 
    AATCCACAGT ATCCCATGAA TTCTCTAGAC CAGAAGGAGA TAATCCATTA TAATGAAGAG 
    GATCCAGTTG ATCCAAATGG AGATGAATCT TTTCCAGGAC AAAGCAAATG GGGTGAAGAA 
    GAGCTGAACT TTAAAGAAAG CCCAACAGTT AGGCAGTATG AGAATGATCA ATATGCCTCA 
    AACCAACCAA GGGAATATCT TCCCTATCCC TTAGGTAATC CATCAAAACC CCCAGAAGAT 
    TTTCCTTATA GTGAATTTTA TCCTTGGAAC CAAGATGAAA CTTTTCCAAC ATATAATCCA 
    GGTCCCACTA TATCACCACC CATGGACAGG AGCTATTATG TTAATAATGC TGTTGGACAA 
    GAAGAAAGCA CTCTCTTTCC TTCATGGAAC TCCTGGGACC ACAGGAATCA AGACCAAGGA 
    CAGAAAGAAA GTCAGCCGTA TTTCCACAGA AACTTCTGGG ATTCATCAAC AAATTTACAC 
    AAATCTAATA CACCAAACCA GAAAGGAAGC CATCCTTATT CTAGTAAGTC CCCTCTTGGG 
    GACTTTTTTT TTCAAAAAAA TCCAACATGG CTTGAAGGTG AAAATTTGAA CTATGATTTG 
    CAAATGGCTA GTTTAAATCC ACCAGAGAGA GAATATTTGA CTTTCCAAGG CTTAAGTCCT 
    CAAAGTTACC CATCAGGTCA AAAAGAGGCA CATTCATTTC ACCAAAGTCA GAGAGGTTCC 
    TGCTGCATTG GCGGCTCCAC AGGACACAAA GACAACCCAC TAGATCTACA AGATTACACT 
    TCATCCTATG CTCTTGCACA AGGGGAGAAC CAAGAAACCA GTCCTATGTA TACAGAAAGT 
    AGTCATACCA AGTATACAAG ACCTAATGTC TCTCCAACAA GCATCCTACC TAGTCAAAGA 
    AACATCTCAG AGAATAAACT AACTGCAGAA AGCCAAAAGC CAAGTCTGTT TGGAGATGAT 
    TTGTCCACTC TGAAGAGGGA TACCCCATGT TCTGTAAAAA ATCCATTGGA AATAGGAGTT 
    AGAGCCTTTC CTGAAGCCAG CTCTCCTCAA CCAAAGAATA TGCCTTGTCT CAAAAGTGAA 
    CTTGGAGAAG ATAGAAATGA TGTTCTGAAA CAAATTTTCA AAGGCAGCCA GCTCAGTGAA 
    AGAACTGCTG ACCTTACTCC TGAACAGCTT GTTATTGGTA CACCTGACAA AGGCCCTGGG 
    CCAGAAAGCA TCCAAAATGA AGCCCAAGGA AATGAGGGCA AGAGGCAGCA GCAAAGACCA 
    CCTACCATCC TGAAGTTACC GTGTTTTAGC TCCAAATTAG CAACACTTCA CTCCTCCAGC 
    ACTGGACCTC CAACTAGCAA TGGAAGGCAA AGCCCATTTA ATAGAGATAT TTCTATGCCT 
    ACTGAAAATC CTATCACATT GGTTGGGTTA GCTACTGGAG AACAATTTAA AAGCATAAAT 
    GTAGATCAAC TTAATGCAGA TGAACATACT GCATTTGAAT CCTTTCAAGG AACCAATCCA 
    CAGGACCAAG TACATGACTG CTTACTGCTT CAGGCCTAG

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

    RefSeq XP_029417521.1
    CDS1..3879
    Translation

    Target ORF information:

    RefSeq Version XM_029561661.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili enamelin (Enam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029561661.1

    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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCATTTCAGA TGCAAATGCC CCGAATGCCT GGATTTAGCA GTAAAAGTGA GGAGATGATG 
    CGTTATGCTC CATTCAACTT TATGAACGCC CCACCAATGA TGAACATGGG CCCATATGGA 
    AATGGTTTTC AAATGCCTCC GCCTCCACAA ATGCCTCCAC ATTTTCCACC ATACCAGATG 
    CCCATGTGGC CTCAGCCAGT ACCCAATGGA TGGCAGCAAC CTCCAACACC CAATTTCCAG 
    AGCAAGACTG AGCAAACTCA GGAGACCCTC AAACCCAACC AGACTCAGCC AAACGAGCCA 
    CAACCACAAA AGCAGCCTTC AAAAGAACCG CCAAACAAGG CAACTCAGGC CAAAGAGGAA 
    GGCCAGTCAC CTCAGGCATT CCCACCATTT GGCAATGGGA TGTTTCCTTA TCAACAACCA 
    CCATGGCCAA TTCCACAGAG GGGACCACCA CCAGGTTTTG GGCGTGCCAA ATTCAGCAAT 
    GAAGAAGGAA ATCCTTATTT TGGATTTTTT GGATATCATG GCTTTGGGGG TCGTCCTTAT 
    TATTCAGAAG AGATGTTTGA AGATTATGAA AAACCCAAAG AAAAAGATCC TCCTAAAGAA 
    GAGGACCCGC CCCCAGAACC CTCAGCTAAT TCAACAGTGA CTGAGGCTAA TTCCACTCAA 
    CCAATTCCTG GAGGGAGTCA AGGTGGAAAT GACACTAGCA CAATAGGAAA CAGGGGCCCT 
    GGGCCTAACC CTGGGAACAA CCCTACCATT CAAAATGGTG TCTTCCCACT CCCTAAAGTT 
    AATATTTCAG GCCAGGGAGT ACCAAAAAAA CAAATTCCAT GGAGACCAAA TCAGCCAAAT 
    ATTTATGAAA ATTATCCACA TCCAAATACA CAGAATTATC CTACAGGAAG ACAATGGCAA 
    ACCACTGGTA CCACGGTCAT GGGGCACAGA CAGGCTGGAC CTAGTAACCG AAATCAAGAA 
    GTCCAAAGAG GTCCTAGGTG GAATTCCTTT GCTTGGGAAG GCAAACAAGG AACTCGCCCA 
    GGAAATCCAA CTTATCGTAA GGCTTCCCCT CCAACTTCAA GAGCCAATTA TCCCAACTAT 
    GCAGGAAATC CAGTCAATTT TAGAAGAAAA CTTCAGGGGC CAAATAAACC ATTTGTGGGA 
    ACCAATGCTG CCTCAAATAA TCCATACGGC GGAACCAATG CTGCCTCAAA TAAACCATTT 
    GTGGGAACCA ATGCTGCCTC AAATAATCCA TACGGTGGAA CCAATGCTGC CCCAAATAAA 
    CCATTTGTGA GAACCAATGC TTCCCCAAAC AATCCGTTTG GAGGAACCAA TGCTGCCTCA 
    AATAATCCAT ACGGCGGAAC CAATGCTGCC TCAGATAAAC CATTTGTGGG AACCAATGCT 
    GCCTCAAATA ATCCATACGG CGGAACCAAT GCTGCCTCAA ATAAACCATT TGTGGGAACC 
    AATGCTGCCT CAAATAATCC ATACGGTGGA ACCAATGCTG CCCCAAATAA ACCATTTGTG 
    AGAACCAATG CTTCCCCAAA CAATCCGTTT GGAGGAACCA ATGCTGCCTC AAATAATCCA 
    TACGGCGGAA CCAATGCTGC CTCAATGGGT CCTAAACAAG GTGCTATTGG CCACAAGACA 
    AAAATCCCAA ATCCAAAGGA AAAGTCATCA GGTCAAAAAG AAAGAACAAT CAGTCCTACA 
    AAAGAAACAG CTGGTCCCTG GAGAAGCTCT CAACAATATG GAGTTAACAA ACCAAATTAT 
    AATTTGCCTC ATCCTGAGGG CAGCATGCTA GGCCCTAATT TTAATTCTTT TGATCAGCAT 
    GAAAACTATT ACCCAAGAGG AGATTCCAGA AAAGTACCAA GTCCCAATTT AATTCAAAGT 
    CAGAATTTGC CCAAAGGGAT TGCTTTGGAG CCAAGAAGAA CCCCATTTGA ATCAGAAACT 
    AAGCAGCCTG AGGTCAAGCA CAGTACACAT CAGCCTGCGT ATCCTAAGGA AATCCCTTCT 
    CCTACAAAAG AGCATTTTCC TGCTGAAAGA AATACCTGGA ATCACCAAGA AATCCCTCCA 
    CCCTTTAAGG AAGATCTAGG GAAGCAAGAA GAAAATTTAC CTCATCCTTC CTATGGTTCT 
    AGAGGAAGTG TTTTCTACCA TGAACATAAC TCCTATTATC CTAAAGAAAA GTCACCATAC 
    ATCAGAAACA ATATGTGGGA TGAGAGAGTT GACTCTCTCA ATCTTATAGG GCAACAAGAA 
    AATCCACAGT ATCCCATGAA TTCTCTAGAC CAGAAGGAGA TAATCCATTA TAATGAAGAG 
    GATCCAGTTG ATCCAAATGG AGATGAATCT TTTCCAGGAC AAAGCAAATG GGGTGAAGAA 
    GAGCTGAACT TTAAAGAAAG CCCAACAGTT AGGCAGTATG AGAATGATCA ATATGCCTCA 
    AACCAACCAA GGGAATATCT TCCCTATCCC TTAGGTAATC CATCAAAACC CCCAGAAGAT 
    TTTCCTTATA GTGAATTTTA TCCTTGGAAC CAAGATGAAA CTTTTCCAAC ATATAATCCA 
    GGTCCCACTA TATCACCACC CATGGACAGG AGCTATTATG TTAATAATGC TGTTGGACAA 
    GAAGAAAGCA CTCTCTTTCC TTCATGGAAC TCCTGGGACC ACAGGAATCA AGACCAAGGA 
    CAGAAAGAAA GTCAGCCGTA TTTCCACAGA AACTTCTGGG ATTCATCAAC AAATTTACAC 
    AAATCTAATA CACCAAACCA GAAAGGAAGC CATCCTTATT CTAGTAAGTC CCCTCTTGGG 
    GACTTTTTTT TTCAAAAAAA TCCAACATGG CTTGAAGGTG AAAATTTGAA CTATGATTTG 
    CAAATGGCTA GTTTAAATCC ACCAGAGAGA GAATATTTGA CTTTCCAAGG CTTAAGTCCT 
    CAAAGTTACC CATCAGGTCA AAAAGAGGCA CATTCATTTC ACCAAAGTCA GAGAGGTTCC 
    TGCTGCATTG GCGGCTCCAC AGGACACAAA GACAACCCAC TAGATCTACA AGATTACACT 
    TCATCCTATG CTCTTGCACA AGGGGAGAAC CAAGAAACCA GTCCTATGTA TACAGAAAGT 
    AGTCATACCA AGTATACAAG ACCTAATGTC TCTCCAACAA GCATCCTACC TAGTCAAAGA 
    AACATCTCAG AGAATAAACT AACTGCAGAA AGCCAAAAGC CAAGTCTGTT TGGAGATGAT 
    TTGTCCACTC TGAAGAGGGA TACCCCATGT TCTGTAAAAA ATCCATTGGA AATAGGAGTT 
    AGAGCCTTTC CTGAAGCCAG CTCTCCTCAA CCAAAGAATA TGCCTTGTCT CAAAAGTGAA 
    CTTGGAGAAG ATAGAAATGA TGTTCTGAAA CAAATTTTCA AAGGCAGCCA GCTCAGTGAA 
    AGAACTGCTG ACCTTACTCC TGAACAGCTT GTTATTGGTA CACCTGACAA AGGCCCTGGG 
    CCAGAAAGCA TCCAAAATGA AGCCCAAGGA AATGAGGGCA AGAGGCAGCA GCAAAGACCA 
    CCTACCATCC TGAAGTTACC GTGTTTTAGC TCCAAATTAG CAACACTTCA CTCCTCCAGC 
    ACTGGACCTC CAACTAGCAA TGGAAGGCAA AGCCCATTTA ATAGAGATAT TTCTATGCCT 
    ACTGAAAATC CTATCACATT GGTTGGGTTA GCTACTGGAG AACAATTTAA AAGCATAAAT 
    GTAGATCAAC TTAATGCAGA TGAACATACT GCATTTGAAT CCTTTCAAGG AACCAATCCA 
    CAGGACCAAG TACATGACTG CTTACTGCTT CAGGCCTAG

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

    Enam ( XM_008829371.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008827593.1 Nannospalax galili enamelin (Enam), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa16637
    Clone ID Related Accession (Same CDS sequence) XM_008829371.1
    Accession Version XM_008829371.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3444bp)
    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 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product enamelin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008328749.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCAATGCAAA TGCCCCGAAT GCCTGGATTT AGCAGTAAAA GTGAGGAGAT GATGCGTTAT 
    GCTCCATTCA ACTTTATGAA CGCCCCACCA ATGATGAACA TGGGCCCATA TGGAAATGGT 
    TTTCAAATGC CTCCGCCTCC ACAAATGCCT CCACATTTTC CACCATACCA GATGCCCATG 
    TGGCCTCAGC CAGTACCCAA TGGATGGCAG CAACCTCCAA CACCCAATTT CCAGAGCAAG 
    ACTGAGCAAA CTCAGGAGAC CCTCAAACCC AACCAGACTC AGCCAAACGA GCCACAACCA 
    CAAAAGCAGC CTTCAAAAGA ACCGCCAAAC AAGGCAACTC AGGCCAAAGA GGAAGGCCAG 
    TCACCTCAGG CATTCCCACC ATTTGGCAAT GGGATGTTTC CTTATCAACA ACCACCATGG 
    CCAATTCCAC AGAGGGGACC ACCACCAGGT TTTGGGCGTG CCAAATTCAG CAATGAAGAA 
    GGAAATCCTT ATTTTGGATT TTTTGGATAT CATGGCTTTG GGGGTCGTCC TTATTATTCA 
    GAAGAGATGT TTGAAGATTA TGAAAAACCC AAAGAAAAAG ATCCTCCTAA AGAAGAGGAC 
    CCGCCCCCAG AACCCTCAGC TAATTCAACA GTGACTGAGG CTAATTCCAC TCAACCAATT 
    CCTGGAGGGA GTCAAGGTGG AAATGACACT AGCACAATAG GAAACAGGGG CCCTGGGCCT 
    AACCCTGGGA ACAACCCTAC CATTCAAAAT GGTGTCTTCC CACTCCCTAA AGTTAATATT 
    TCAGGCCAGG GAGTACCAAA AAAACAAATT CCATGGAGAC CAAATCAGCC AAATATTTAT 
    GAAAATTATC CACATCCAAA TACACAGAAT TATCCTACAG GAAGACAATG GCAAACCACT 
    GGTACCACGG TCATGGGGCA CAGACAGGCT GGACCTAGTA ACCGAAATCA AGAAGTCCAA 
    AGAGGTCCTA GGTGGAATTC CTTTGCTTGG GAAGGCAAAC AAGGAACTCG CCCAGGAAAT 
    CCAACTTATC GTAAGGCTTC CCCTCCAACT TCAAGAGCCA ATTATCCCAA CTATGCAGGA 
    AATCCAGTCA ATTTTAGAAG AAAACTTCAG GGGCCAAATA AACACCCTGT GGGAACAAAT 
    GGAGTTTCAC TGGGTCCTAA ACAAGGTGCT ATTGGCCACA AGACAAAAAT CCCAAATCCA 
    AAGGAAAAGT CATCAGGTCA AAAAGAAAGA ACAATCAGTC CTACAAAAGA AACAGCTGGT 
    CCCTGGAGAA GCTCTCAACA ATATGGAGTT AACAAACCAA ATTATAATTT GCCTCATCCT 
    GAGGGCAGCA TGCTAGGCCC TAATTTTAAT TCTTTTGATC AGCATGAAAA CTATTACCCA 
    AGAGGAGATT CCAGAAAAGT ACCAAGTCCC AATTTAATTC AAAGTCAGAA TTTGCCCAAA 
    GGGATTGCTT TGGAGCCAAG AAGAACCCCA TTTGAATCAG AAACTAAGCA GCCTGAGGTC 
    AAGCACAGTA CACATCAGCC TGCGTATCCT AAGGAAATCC CTTCTCCTAC AAAAGAGCAT 
    TTTCCTGCTG AAAGAAATAC CTGGAATCAC CAAGAAATCC CTCCACCCTT TAAGGAAGAT 
    CTAGGGAAGC AAGAAGAAAA TTTACCTCAT CCTTCCTATG GTTCTAGAGG AAGTGTTTTC 
    TACCATGAAC ATAACTCCTA TTATCCTAAA GAAAAGTCAC CATACATCAG AAACAATATG 
    TGGGATGAGA GAGTTGACTC TCTCAATCTT ATAGGGCAAC AAGAAAATCC ACAGTATCCC 
    ATGAATTCTC TAGACCAGAA GGAGATAATC CATTATAATG AAGAGGATCC AGTTGATCCA 
    AATGGAGATG AATCTTTTCC AGGACAAAGC AAATGGGGTG AAGAAGAGCT GAACTTTAAA 
    GAAAGCCCAA CAGTTAGGCA GTATGAGAAT GATCAATATG CCTCAAACCA ACCAAGGGAA 
    TATCTTCCCT ATCCCTTAGG TAATCCATCA AAACCCCCAG AAGATTTTCC TTATAGTGAA 
    TTTTATCCTT GGAACCAAGA TGAAACTTTT CCAACATATA ATCCAGGTCC CACTATATCA 
    CCACCCATGG ACAGGAGCTA TTATGTTAAT AATGCTGTTG GACAAGAAGA AAGCACTCTC 
    TTTCCTTCAT GGAACTCCTG GGACCACAGG AATCAAGACC AAGGACAGAA AGAAAGTCAG 
    CCGTATTTCC ACAGAAACTT CTGGGATTCA TCAACAAATT TACACAAATC TAATACACCA 
    AACCAGAAAG GAAGCCATCC TTATTCTAGT AAGTCCCCTC TTGGGGACTT TTTTTTTCAA 
    AAAAATCCAA CATGGCTTGA AGGTGAAAAT TTGAACTATG ATTTGCAAAT GGCTAGTTTA 
    AATCCACCAG AGAGAGAATA TTTGACTTTC CAAGGCTTAA GTCCTCAAAG TTACCCATCA 
    GGTCAAAAAG AGGCACATTC ATTTCACCAA AGTCAGAGAG GTTCCTGCTG CATTGGCGGC 
    TCCACAGGAC ACAAAGACAA CCCACTAGAT CTACAAGATT ACACTTCATC CTATGCTCTT 
    GCACAAGGGG AGAACCAAGA AACCAGTCCT ATGTATACAG AAAGTAGTCA TACCAAGTAT 
    ACAAGACCTA ATGTCTCTCC AACAAGCATC CTACCTAGTC AAAGAAACAT CTCAGAGAAT 
    AAACTAACTG CAGAAAGCCA AAAGCCAAGT CTGTTTGGAG ATGATTTGTC CACTCTGAAG 
    AGGGATACCC CATGTTCTGT AAAAAATCCA TTGGAAATAG GAGTTAGAGC CTTTCCTGAA 
    GCCAGCTCTC CTCAACCAAA GAATATGCCT TGTCTCAAAA GTGAACTTGG AGAAGATAGA 
    AATGATGTTC TGAAACAAAT TTTCAAAGGC AGCCAGCTCA GTGAAAGAAC TGCTGACCTT 
    ACTCCTGAAC AGCTTGTTAT TGGTACACCT GACAAAGGCC CTGGGCCAGA AAGCATCCAA 
    AATGAAGCCC AAGGAAATGA GGGCAAGAGG CAGCAGCAAA GACCACCTAC CATCCTGAAG 
    TTACCGTGTT TTAGCTCCAA ATTAGCAACA CTTCACTCCT CCAGCACTGG ACCTCCAACT 
    AGCAATGGAA GGCAAAGCCC ATTTAATAGA GATATTTCTA TGCCTACTGA AAATCCTATC 
    ACATTGGTTG GGTTAGCTAC TGGAGAACAA TTTAAAAGCA TAAATGTAGA TCAACTTAAT 
    GCAGATGAAC ATACTGCATT TGAATCCTTT CAAGGAACCA ATCCACAGGA CCAAGTACAT 
    GACTGCTTAC TGCTTCAGGC CTAG

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

    RefSeq XP_008827593.1
    CDS1..3444
    Translation

    Target ORF information:

    RefSeq Version XM_008829371.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili enamelin (Enam), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008829371.1

    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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCAATGCAAA TGCCCCGAAT GCCTGGATTT AGCAGTAAAA GTGAGGAGAT GATGCGTTAT 
    GCTCCATTCA ACTTTATGAA CGCCCCACCA ATGATGAACA TGGGCCCATA TGGAAATGGT 
    TTTCAAATGC CTCCGCCTCC ACAAATGCCT CCACATTTTC CACCATACCA GATGCCCATG 
    TGGCCTCAGC CAGTACCCAA TGGATGGCAG CAACCTCCAA CACCCAATTT CCAGAGCAAG 
    ACTGAGCAAA CTCAGGAGAC CCTCAAACCC AACCAGACTC AGCCAAACGA GCCACAACCA 
    CAAAAGCAGC CTTCAAAAGA ACCGCCAAAC AAGGCAACTC AGGCCAAAGA GGAAGGCCAG 
    TCACCTCAGG CATTCCCACC ATTTGGCAAT GGGATGTTTC CTTATCAACA ACCACCATGG 
    CCAATTCCAC AGAGGGGACC ACCACCAGGT TTTGGGCGTG CCAAATTCAG CAATGAAGAA 
    GGAAATCCTT ATTTTGGATT TTTTGGATAT CATGGCTTTG GGGGTCGTCC TTATTATTCA 
    GAAGAGATGT TTGAAGATTA TGAAAAACCC AAAGAAAAAG ATCCTCCTAA AGAAGAGGAC 
    CCGCCCCCAG AACCCTCAGC TAATTCAACA GTGACTGAGG CTAATTCCAC TCAACCAATT 
    CCTGGAGGGA GTCAAGGTGG AAATGACACT AGCACAATAG GAAACAGGGG CCCTGGGCCT 
    AACCCTGGGA ACAACCCTAC CATTCAAAAT GGTGTCTTCC CACTCCCTAA AGTTAATATT 
    TCAGGCCAGG GAGTACCAAA AAAACAAATT CCATGGAGAC CAAATCAGCC AAATATTTAT 
    GAAAATTATC CACATCCAAA TACACAGAAT TATCCTACAG GAAGACAATG GCAAACCACT 
    GGTACCACGG TCATGGGGCA CAGACAGGCT GGACCTAGTA ACCGAAATCA AGAAGTCCAA 
    AGAGGTCCTA GGTGGAATTC CTTTGCTTGG GAAGGCAAAC AAGGAACTCG CCCAGGAAAT 
    CCAACTTATC GTAAGGCTTC CCCTCCAACT TCAAGAGCCA ATTATCCCAA CTATGCAGGA 
    AATCCAGTCA ATTTTAGAAG AAAACTTCAG GGGCCAAATA AACACCCTGT GGGAACAAAT 
    GGAGTTTCAC TGGGTCCTAA ACAAGGTGCT ATTGGCCACA AGACAAAAAT CCCAAATCCA 
    AAGGAAAAGT CATCAGGTCA AAAAGAAAGA ACAATCAGTC CTACAAAAGA AACAGCTGGT 
    CCCTGGAGAA GCTCTCAACA ATATGGAGTT AACAAACCAA ATTATAATTT GCCTCATCCT 
    GAGGGCAGCA TGCTAGGCCC TAATTTTAAT TCTTTTGATC AGCATGAAAA CTATTACCCA 
    AGAGGAGATT CCAGAAAAGT ACCAAGTCCC AATTTAATTC AAAGTCAGAA TTTGCCCAAA 
    GGGATTGCTT TGGAGCCAAG AAGAACCCCA TTTGAATCAG AAACTAAGCA GCCTGAGGTC 
    AAGCACAGTA CACATCAGCC TGCGTATCCT AAGGAAATCC CTTCTCCTAC AAAAGAGCAT 
    TTTCCTGCTG AAAGAAATAC CTGGAATCAC CAAGAAATCC CTCCACCCTT TAAGGAAGAT 
    CTAGGGAAGC AAGAAGAAAA TTTACCTCAT CCTTCCTATG GTTCTAGAGG AAGTGTTTTC 
    TACCATGAAC ATAACTCCTA TTATCCTAAA GAAAAGTCAC CATACATCAG AAACAATATG 
    TGGGATGAGA GAGTTGACTC TCTCAATCTT ATAGGGCAAC AAGAAAATCC ACAGTATCCC 
    ATGAATTCTC TAGACCAGAA GGAGATAATC CATTATAATG AAGAGGATCC AGTTGATCCA 
    AATGGAGATG AATCTTTTCC AGGACAAAGC AAATGGGGTG AAGAAGAGCT GAACTTTAAA 
    GAAAGCCCAA CAGTTAGGCA GTATGAGAAT GATCAATATG CCTCAAACCA ACCAAGGGAA 
    TATCTTCCCT ATCCCTTAGG TAATCCATCA AAACCCCCAG AAGATTTTCC TTATAGTGAA 
    TTTTATCCTT GGAACCAAGA TGAAACTTTT CCAACATATA ATCCAGGTCC CACTATATCA 
    CCACCCATGG ACAGGAGCTA TTATGTTAAT AATGCTGTTG GACAAGAAGA AAGCACTCTC 
    TTTCCTTCAT GGAACTCCTG GGACCACAGG AATCAAGACC AAGGACAGAA AGAAAGTCAG 
    CCGTATTTCC ACAGAAACTT CTGGGATTCA TCAACAAATT TACACAAATC TAATACACCA 
    AACCAGAAAG GAAGCCATCC TTATTCTAGT AAGTCCCCTC TTGGGGACTT TTTTTTTCAA 
    AAAAATCCAA CATGGCTTGA AGGTGAAAAT TTGAACTATG ATTTGCAAAT GGCTAGTTTA 
    AATCCACCAG AGAGAGAATA TTTGACTTTC CAAGGCTTAA GTCCTCAAAG TTACCCATCA 
    GGTCAAAAAG AGGCACATTC ATTTCACCAA AGTCAGAGAG GTTCCTGCTG CATTGGCGGC 
    TCCACAGGAC ACAAAGACAA CCCACTAGAT CTACAAGATT ACACTTCATC CTATGCTCTT 
    GCACAAGGGG AGAACCAAGA AACCAGTCCT ATGTATACAG AAAGTAGTCA TACCAAGTAT 
    ACAAGACCTA ATGTCTCTCC AACAAGCATC CTACCTAGTC AAAGAAACAT CTCAGAGAAT 
    AAACTAACTG CAGAAAGCCA AAAGCCAAGT CTGTTTGGAG ATGATTTGTC CACTCTGAAG 
    AGGGATACCC CATGTTCTGT AAAAAATCCA TTGGAAATAG GAGTTAGAGC CTTTCCTGAA 
    GCCAGCTCTC CTCAACCAAA GAATATGCCT TGTCTCAAAA GTGAACTTGG AGAAGATAGA 
    AATGATGTTC TGAAACAAAT TTTCAAAGGC AGCCAGCTCA GTGAAAGAAC TGCTGACCTT 
    ACTCCTGAAC AGCTTGTTAT TGGTACACCT GACAAAGGCC CTGGGCCAGA AAGCATCCAA 
    AATGAAGCCC AAGGAAATGA GGGCAAGAGG CAGCAGCAAA GACCACCTAC CATCCTGAAG 
    TTACCGTGTT TTAGCTCCAA ATTAGCAACA CTTCACTCCT CCAGCACTGG ACCTCCAACT 
    AGCAATGGAA GGCAAAGCCC ATTTAATAGA GATATTTCTA TGCCTACTGA AAATCCTATC 
    ACATTGGTTG GGTTAGCTAC TGGAGAACAA TTTAAAAGCA TAAATGTAGA TCAACTTAAT 
    GCAGATGAAC ATACTGCATT TGAATCCTTT CAAGGAACCA ATCCACAGGA CCAAGTACAT 
    GACTGCTTAC TGCTTCAGGC CTAG

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

    Enam ( XM_008829363.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008827585.1 Nannospalax galili enamelin (Enam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa16636
    Clone ID Related Accession (Same CDS sequence) XM_008829363.1
    Accession Version XM_008829363.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3873bp)
    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 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product enamelin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008328749.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCAATGCAAA TGCCCCGAAT GCCTGGATTT AGCAGTAAAA GTGAGGAGAT GATGCGTTAT 
    GCTCCATTCA ACTTTATGAA CGCCCCACCA ATGATGAACA TGGGCCCATA TGGAAATGGT 
    TTTCAAATGC CTCCGCCTCC ACAAATGCCT CCACATTTTC CACCATACCA GATGCCCATG 
    TGGCCTCAGC CAGTACCCAA TGGATGGCAG CAACCTCCAA CACCCAATTT CCAGAGCAAG 
    ACTGAGCAAA CTCAGGAGAC CCTCAAACCC AACCAGACTC AGCCAAACGA GCCACAACCA 
    CAAAAGCAGC CTTCAAAAGA ACCGCCAAAC AAGGCAACTC AGGCCAAAGA GGAAGGCCAG 
    TCACCTCAGG CATTCCCACC ATTTGGCAAT GGGATGTTTC CTTATCAACA ACCACCATGG 
    CCAATTCCAC AGAGGGGACC ACCACCAGGT TTTGGGCGTG CCAAATTCAG CAATGAAGAA 
    GGAAATCCTT ATTTTGGATT TTTTGGATAT CATGGCTTTG GGGGTCGTCC TTATTATTCA 
    GAAGAGATGT TTGAAGATTA TGAAAAACCC AAAGAAAAAG ATCCTCCTAA AGAAGAGGAC 
    CCGCCCCCAG AACCCTCAGC TAATTCAACA GTGACTGAGG CTAATTCCAC TCAACCAATT 
    CCTGGAGGGA GTCAAGGTGG AAATGACACT AGCACAATAG GAAACAGGGG CCCTGGGCCT 
    AACCCTGGGA ACAACCCTAC CATTCAAAAT GGTGTCTTCC CACTCCCTAA AGTTAATATT 
    TCAGGCCAGG GAGTACCAAA AAAACAAATT CCATGGAGAC CAAATCAGCC AAATATTTAT 
    GAAAATTATC CACATCCAAA TACACAGAAT TATCCTACAG GAAGACAATG GCAAACCACT 
    GGTACCACGG TCATGGGGCA CAGACAGGCT GGACCTAGTA ACCGAAATCA AGAAGTCCAA 
    AGAGGTCCTA GGTGGAATTC CTTTGCTTGG GAAGGCAAAC AAGGAACTCG CCCAGGAAAT 
    CCAACTTATC GTAAGGCTTC CCCTCCAACT TCAAGAGCCA ATTATCCCAA CTATGCAGGA 
    AATCCAGTCA ATTTTAGAAG AAAACTTCAG GGGCCAAATA AACCATTTGT GGGAACCAAT 
    GCTGCCTCAA ATAATCCATA CGGCGGAACC AATGCTGCCT CAAATAAACC ATTTGTGGGA 
    ACCAATGCTG CCTCAAATAA TCCATACGGT GGAACCAATG CTGCCCCAAA TAAACCATTT 
    GTGAGAACCA ATGCTTCCCC AAACAATCCG TTTGGAGGAA CCAATGCTGC CTCAAATAAT 
    CCATACGGCG GAACCAATGC TGCCTCAGAT AAACCATTTG TGGGAACCAA TGCTGCCTCA 
    AATAATCCAT ACGGCGGAAC CAATGCTGCC TCAAATAAAC CATTTGTGGG AACCAATGCT 
    GCCTCAAATA ATCCATACGG TGGAACCAAT GCTGCCCCAA ATAAACCATT TGTGAGAACC 
    AATGCTTCCC CAAACAATCC GTTTGGAGGA ACCAATGCTG CCTCAAATAA TCCATACGGC 
    GGAACCAATG CTGCCTCAAT GGGTCCTAAA CAAGGTGCTA TTGGCCACAA GACAAAAATC 
    CCAAATCCAA AGGAAAAGTC ATCAGGTCAA AAAGAAAGAA CAATCAGTCC TACAAAAGAA 
    ACAGCTGGTC CCTGGAGAAG CTCTCAACAA TATGGAGTTA ACAAACCAAA TTATAATTTG 
    CCTCATCCTG AGGGCAGCAT GCTAGGCCCT AATTTTAATT CTTTTGATCA GCATGAAAAC 
    TATTACCCAA GAGGAGATTC CAGAAAAGTA CCAAGTCCCA ATTTAATTCA AAGTCAGAAT 
    TTGCCCAAAG GGATTGCTTT GGAGCCAAGA AGAACCCCAT TTGAATCAGA AACTAAGCAG 
    CCTGAGGTCA AGCACAGTAC ACATCAGCCT GCGTATCCTA AGGAAATCCC TTCTCCTACA 
    AAAGAGCATT TTCCTGCTGA AAGAAATACC TGGAATCACC AAGAAATCCC TCCACCCTTT 
    AAGGAAGATC TAGGGAAGCA AGAAGAAAAT TTACCTCATC CTTCCTATGG TTCTAGAGGA 
    AGTGTTTTCT ACCATGAACA TAACTCCTAT TATCCTAAAG AAAAGTCACC ATACATCAGA 
    AACAATATGT GGGATGAGAG AGTTGACTCT CTCAATCTTA TAGGGCAACA AGAAAATCCA 
    CAGTATCCCA TGAATTCTCT AGACCAGAAG GAGATAATCC ATTATAATGA AGAGGATCCA 
    GTTGATCCAA ATGGAGATGA ATCTTTTCCA GGACAAAGCA AATGGGGTGA AGAAGAGCTG 
    AACTTTAAAG AAAGCCCAAC AGTTAGGCAG TATGAGAATG ATCAATATGC CTCAAACCAA 
    CCAAGGGAAT ATCTTCCCTA TCCCTTAGGT AATCCATCAA AACCCCCAGA AGATTTTCCT 
    TATAGTGAAT TTTATCCTTG GAACCAAGAT GAAACTTTTC CAACATATAA TCCAGGTCCC 
    ACTATATCAC CACCCATGGA CAGGAGCTAT TATGTTAATA ATGCTGTTGG ACAAGAAGAA 
    AGCACTCTCT TTCCTTCATG GAACTCCTGG GACCACAGGA ATCAAGACCA AGGACAGAAA 
    GAAAGTCAGC CGTATTTCCA CAGAAACTTC TGGGATTCAT CAACAAATTT ACACAAATCT 
    AATACACCAA ACCAGAAAGG AAGCCATCCT TATTCTAGTA AGTCCCCTCT TGGGGACTTT 
    TTTTTTCAAA AAAATCCAAC ATGGCTTGAA GGTGAAAATT TGAACTATGA TTTGCAAATG 
    GCTAGTTTAA ATCCACCAGA GAGAGAATAT TTGACTTTCC AAGGCTTAAG TCCTCAAAGT 
    TACCCATCAG GTCAAAAAGA GGCACATTCA TTTCACCAAA GTCAGAGAGG TTCCTGCTGC 
    ATTGGCGGCT CCACAGGACA CAAAGACAAC CCACTAGATC TACAAGATTA CACTTCATCC 
    TATGCTCTTG CACAAGGGGA GAACCAAGAA ACCAGTCCTA TGTATACAGA AAGTAGTCAT 
    ACCAAGTATA CAAGACCTAA TGTCTCTCCA ACAAGCATCC TACCTAGTCA AAGAAACATC 
    TCAGAGAATA AACTAACTGC AGAAAGCCAA AAGCCAAGTC TGTTTGGAGA TGATTTGTCC 
    ACTCTGAAGA GGGATACCCC ATGTTCTGTA AAAAATCCAT TGGAAATAGG AGTTAGAGCC 
    TTTCCTGAAG CCAGCTCTCC TCAACCAAAG AATATGCCTT GTCTCAAAAG TGAACTTGGA 
    GAAGATAGAA ATGATGTTCT GAAACAAATT TTCAAAGGCA GCCAGCTCAG TGAAAGAACT 
    GCTGACCTTA CTCCTGAACA GCTTGTTATT GGTACACCTG ACAAAGGCCC TGGGCCAGAA 
    AGCATCCAAA ATGAAGCCCA AGGAAATGAG GGCAAGAGGC AGCAGCAAAG ACCACCTACC 
    ATCCTGAAGT TACCGTGTTT TAGCTCCAAA TTAGCAACAC TTCACTCCTC CAGCACTGGA 
    CCTCCAACTA GCAATGGAAG GCAAAGCCCA TTTAATAGAG ATATTTCTAT GCCTACTGAA 
    AATCCTATCA CATTGGTTGG GTTAGCTACT GGAGAACAAT TTAAAAGCAT AAATGTAGAT 
    CAACTTAATG CAGATGAACA TACTGCATTT GAATCCTTTC AAGGAACCAA TCCACAGGAC 
    CAAGTACATG ACTGCTTACT GCTTCAGGCC TAG

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

    RefSeq XP_008827585.1
    CDS1..3873
    Translation

    Target ORF information:

    RefSeq Version XM_008829363.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili enamelin (Enam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008829363.1

    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
    ATGTTGCTGC TTCAGTGCAG AAACACAGCC TCTTTTCAGA AGTTATGTAA CTTGGTTCCA 
    AATGGGAAAA TGAAGATTTT CCTGGTTTTT CTAGGTTTAC TTGGTAATTC TGCTGCCATG 
    CCAATGCAAA TGCCCCGAAT GCCTGGATTT AGCAGTAAAA GTGAGGAGAT GATGCGTTAT 
    GCTCCATTCA ACTTTATGAA CGCCCCACCA ATGATGAACA TGGGCCCATA TGGAAATGGT 
    TTTCAAATGC CTCCGCCTCC ACAAATGCCT CCACATTTTC CACCATACCA GATGCCCATG 
    TGGCCTCAGC CAGTACCCAA TGGATGGCAG CAACCTCCAA CACCCAATTT CCAGAGCAAG 
    ACTGAGCAAA CTCAGGAGAC CCTCAAACCC AACCAGACTC AGCCAAACGA GCCACAACCA 
    CAAAAGCAGC CTTCAAAAGA ACCGCCAAAC AAGGCAACTC AGGCCAAAGA GGAAGGCCAG 
    TCACCTCAGG CATTCCCACC ATTTGGCAAT GGGATGTTTC CTTATCAACA ACCACCATGG 
    CCAATTCCAC AGAGGGGACC ACCACCAGGT TTTGGGCGTG CCAAATTCAG CAATGAAGAA 
    GGAAATCCTT ATTTTGGATT TTTTGGATAT CATGGCTTTG GGGGTCGTCC TTATTATTCA 
    GAAGAGATGT TTGAAGATTA TGAAAAACCC AAAGAAAAAG ATCCTCCTAA AGAAGAGGAC 
    CCGCCCCCAG AACCCTCAGC TAATTCAACA GTGACTGAGG CTAATTCCAC TCAACCAATT 
    CCTGGAGGGA GTCAAGGTGG AAATGACACT AGCACAATAG GAAACAGGGG CCCTGGGCCT 
    AACCCTGGGA ACAACCCTAC CATTCAAAAT GGTGTCTTCC CACTCCCTAA AGTTAATATT 
    TCAGGCCAGG GAGTACCAAA AAAACAAATT CCATGGAGAC CAAATCAGCC AAATATTTAT 
    GAAAATTATC CACATCCAAA TACACAGAAT TATCCTACAG GAAGACAATG GCAAACCACT 
    GGTACCACGG TCATGGGGCA CAGACAGGCT GGACCTAGTA ACCGAAATCA AGAAGTCCAA 
    AGAGGTCCTA GGTGGAATTC CTTTGCTTGG GAAGGCAAAC AAGGAACTCG CCCAGGAAAT 
    CCAACTTATC GTAAGGCTTC CCCTCCAACT TCAAGAGCCA ATTATCCCAA CTATGCAGGA 
    AATCCAGTCA ATTTTAGAAG AAAACTTCAG GGGCCAAATA AACCATTTGT GGGAACCAAT 
    GCTGCCTCAA ATAATCCATA CGGCGGAACC AATGCTGCCT CAAATAAACC ATTTGTGGGA 
    ACCAATGCTG CCTCAAATAA TCCATACGGT GGAACCAATG CTGCCCCAAA TAAACCATTT 
    GTGAGAACCA ATGCTTCCCC AAACAATCCG TTTGGAGGAA CCAATGCTGC CTCAAATAAT 
    CCATACGGCG GAACCAATGC TGCCTCAGAT AAACCATTTG TGGGAACCAA TGCTGCCTCA 
    AATAATCCAT ACGGCGGAAC CAATGCTGCC TCAAATAAAC CATTTGTGGG AACCAATGCT 
    GCCTCAAATA ATCCATACGG TGGAACCAAT GCTGCCCCAA ATAAACCATT TGTGAGAACC 
    AATGCTTCCC CAAACAATCC GTTTGGAGGA ACCAATGCTG CCTCAAATAA TCCATACGGC 
    GGAACCAATG CTGCCTCAAT GGGTCCTAAA CAAGGTGCTA TTGGCCACAA GACAAAAATC 
    CCAAATCCAA AGGAAAAGTC ATCAGGTCAA AAAGAAAGAA CAATCAGTCC TACAAAAGAA 
    ACAGCTGGTC CCTGGAGAAG CTCTCAACAA TATGGAGTTA ACAAACCAAA TTATAATTTG 
    CCTCATCCTG AGGGCAGCAT GCTAGGCCCT AATTTTAATT CTTTTGATCA GCATGAAAAC 
    TATTACCCAA GAGGAGATTC CAGAAAAGTA CCAAGTCCCA ATTTAATTCA AAGTCAGAAT 
    TTGCCCAAAG GGATTGCTTT GGAGCCAAGA AGAACCCCAT TTGAATCAGA AACTAAGCAG 
    CCTGAGGTCA AGCACAGTAC ACATCAGCCT GCGTATCCTA AGGAAATCCC TTCTCCTACA 
    AAAGAGCATT TTCCTGCTGA AAGAAATACC TGGAATCACC AAGAAATCCC TCCACCCTTT 
    AAGGAAGATC TAGGGAAGCA AGAAGAAAAT TTACCTCATC CTTCCTATGG TTCTAGAGGA 
    AGTGTTTTCT ACCATGAACA TAACTCCTAT TATCCTAAAG AAAAGTCACC ATACATCAGA 
    AACAATATGT GGGATGAGAG AGTTGACTCT CTCAATCTTA TAGGGCAACA AGAAAATCCA 
    CAGTATCCCA TGAATTCTCT AGACCAGAAG GAGATAATCC ATTATAATGA AGAGGATCCA 
    GTTGATCCAA ATGGAGATGA ATCTTTTCCA GGACAAAGCA AATGGGGTGA AGAAGAGCTG 
    AACTTTAAAG AAAGCCCAAC AGTTAGGCAG TATGAGAATG ATCAATATGC CTCAAACCAA 
    CCAAGGGAAT ATCTTCCCTA TCCCTTAGGT AATCCATCAA AACCCCCAGA AGATTTTCCT 
    TATAGTGAAT TTTATCCTTG GAACCAAGAT GAAACTTTTC CAACATATAA TCCAGGTCCC 
    ACTATATCAC CACCCATGGA CAGGAGCTAT TATGTTAATA ATGCTGTTGG ACAAGAAGAA 
    AGCACTCTCT TTCCTTCATG GAACTCCTGG GACCACAGGA ATCAAGACCA AGGACAGAAA 
    GAAAGTCAGC CGTATTTCCA CAGAAACTTC TGGGATTCAT CAACAAATTT ACACAAATCT 
    AATACACCAA ACCAGAAAGG AAGCCATCCT TATTCTAGTA AGTCCCCTCT TGGGGACTTT 
    TTTTTTCAAA AAAATCCAAC ATGGCTTGAA GGTGAAAATT TGAACTATGA TTTGCAAATG 
    GCTAGTTTAA ATCCACCAGA GAGAGAATAT TTGACTTTCC AAGGCTTAAG TCCTCAAAGT 
    TACCCATCAG GTCAAAAAGA GGCACATTCA TTTCACCAAA GTCAGAGAGG TTCCTGCTGC 
    ATTGGCGGCT CCACAGGACA CAAAGACAAC CCACTAGATC TACAAGATTA CACTTCATCC 
    TATGCTCTTG CACAAGGGGA GAACCAAGAA ACCAGTCCTA TGTATACAGA AAGTAGTCAT 
    ACCAAGTATA CAAGACCTAA TGTCTCTCCA ACAAGCATCC TACCTAGTCA AAGAAACATC 
    TCAGAGAATA AACTAACTGC AGAAAGCCAA AAGCCAAGTC TGTTTGGAGA TGATTTGTCC 
    ACTCTGAAGA GGGATACCCC ATGTTCTGTA AAAAATCCAT TGGAAATAGG AGTTAGAGCC 
    TTTCCTGAAG CCAGCTCTCC TCAACCAAAG AATATGCCTT GTCTCAAAAG TGAACTTGGA 
    GAAGATAGAA ATGATGTTCT GAAACAAATT TTCAAAGGCA GCCAGCTCAG TGAAAGAACT 
    GCTGACCTTA CTCCTGAACA GCTTGTTATT GGTACACCTG ACAAAGGCCC TGGGCCAGAA 
    AGCATCCAAA ATGAAGCCCA AGGAAATGAG GGCAAGAGGC AGCAGCAAAG ACCACCTACC 
    ATCCTGAAGT TACCGTGTTT TAGCTCCAAA TTAGCAACAC TTCACTCCTC CAGCACTGGA 
    CCTCCAACTA GCAATGGAAG GCAAAGCCCA TTTAATAGAG ATATTTCTAT GCCTACTGAA 
    AATCCTATCA CATTGGTTGG GTTAGCTACT GGAGAACAAT TTAAAAGCAT AAATGTAGAT 
    CAACTTAATG CAGATGAACA TACTGCATTT GAATCCTTTC AAGGAACCAA TCCACAGGAC 
    CAAGTACATG ACTGCTTACT GCTTCAGGCC TAG

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

見積依頼

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