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

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

The following Cdon gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cdon 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
ONa133651 XM_029564357.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa133652 XM_029564360.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa27176 XM_008834745.3
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa27176 XM_029564354.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa27177 XM_017798597.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa27178 XM_029564362.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa27178 XM_029564368.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa27178 XM_017798599.2
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa27178 XM_029564370.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa27178 XM_029564374.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa27179 XM_017798602.1
Latest version!		 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
View Old Accession Versions >>
ONa27176 XM_008834745.2 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa27178 XM_017798599.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
Hide Old Accession Versions >>

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** 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)
    Cdon ( XM_029564357.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420217.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONa133651
    Clone ID Related Accession (Same CDS sequence) XM_029564357.1
    Accession Version XM_029564357.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3432bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGTT 
    CCTTTTGAAA CAAATACAAA AGCAGCTACA GCTACACCTT CCAAAGCTAC TCAGAATGAT 
    GAAAGAGACC CAAGAGACAG TTCGGAATCT GGCTTGCTGA GCTTGTTTCC AGGGAAGGTG 
    CATTCCAGTG CAGTGGAATT GCCACTGGAG AAAAATGTCT CTGTCCCCGA TGCACCTATT 
    ATACTGAGCC CCCCTCAGAC CCACACACCA GACACATACA ACCTGGTGTG GAGGGCAGGG 
    AGGGATGGAG GACTGCCCAT CAATGCCTAT TTTGTGAAGT ACCGAAAGCT GGATGATGCT 
    GCTGGCACAG TGGGCAGCTG GCATACAGTT CGAGTCCCAG GAAGTGAAAA TGAGCTCCAT 
    CTAACTGAAC TGGAGCCATC AAGTCTTTAT GAAGTTCTAA TGGTGGCAAG AAGTGTAGCT 
    GGTGAAGGAC AGCCTGCCAT GCTTACCTTC CGGACCAGCA AAGAAAAAGC AGCATCTTCA 
    AAAAACATCC AGGTGTCCTC TCCACCCGTG GGCATCCCTA AACGTCCTGT TATCTCAGAG 
    GCTTCAAACA ACAATTTTGG AGTGGTGCTT ACAGATTCCT CTCGGCATAG TGGAGTCCCA 
    GAGGCGCCAG ATCGGCCTAC TATCTCCACT GCATCTGAGA CCTCAGTCTA CGTCACCTGG 
    ATTCCCAGGG CAAACGGGGG GTCTCCCATC ACTGCCTTCA AGGTGGAGTA TAAACGGATG 
    AGGACTACTG ATTGGCTGGT GGCTGCTGAA GATATCCCTC CTTCCAAGCT TTCTGTGGAA 
    GTTCGTAGTT TAGAACCAGG TTCAACATAC AAATTTAGGG TCATTGCTAT CAACCATTAT 
    GGCGAGAGTT TTCGGAGTTC AGCATCCCGT CCTTACCAGG TAGCTGGCTT CCCCAGTCGT 
    TTTTCCAACC GCCCAATAAC TGGACCTCAC ATCGCATACA CAGAAGCCGT CAGCGATACT 
    CAGATTATGT TAAAGTGGAC GTATATTCCA TCAAGTAACA ATAATACGCC TATTCAAGGA 
    TTTTATATCT ATTACCGGCC AACAGATAGT GACAACGACA GTGACTACAA GAGGGATGTT 
    GTTGAAGGGT CAAAGCAGTG GCACATGATT GGTCATCTGC AGCCTGAAAC CTCCTATGAC 
    ATTAAGATGC AGTGCTTTAA CGAAGGTGGG GAAAGTGAGT TCAGCAATGT AATGATCTGT 
    GAGACCAAAG TGAAACGTGT TCCTGGAGCT TCGGAGTATC CCATGAAAGA CTTGAGTACC 
    CCTCCCAGTT CTTCAGGAAA TGGAGGGAAT GTGGGGCCTG CGACCAACCC CGCCAGAAGC 
    AGTGATATGT TATACCTCAT TGTTGGCTGT GTGCTCGGAG TTATGGTCCT TATTCTTATG 
    GTTTTCATCG CAATGTGCTT GTGGAAAAGT CGCCAACAGA ATGCCATACA GAAATATGAC 
    CCACCAGGAT ATCTCTACCA AGGGTCAGAT ATTAATGGGC AGATGGTAGA GTATACCGCT 
    CTCTCGGGAA CAAACCGGAT CAATGGGAGT GTTCACGGAG GCTTCCTCAG CAATGGCAGC 
    CTCAGCAATG GCTGCTCCCA TCGCCACCAT AAAGGCCCCA ACGGAGTCAG TGGGATCCTG 
    AATGGAAGCT TAAATGGAGG GCTTTACCCT GCACACACTA ACTCGCTAAC CAGGACGCAT 
    GTGGAGTTTG AACATCCTCA CCATCTAGTG AATGGTGGAG GGATGTACAC AGCAGTCCCC 
    CAGATGGGCC CTCTGGAATG TGTCGGCTGT CGAAATTGCC GGAACAACAA TAGGTGTTTC 
    ACCAAAACCA ACAGCACTTT CAGCAGCGGC CCCCTTCCTG TGGTCCCAGT GGTAGCCCCT 
    TATCCTCAGG ATGGCCTGGA AATGAAGCCC CTGAGTGCCA TGAAGGTGCC TGTGTGTCTG 
    GCTTCTACAG TTCCTGATCA TGGCCAGTTA CCTGAGGAGA GCATCAAGGA CATTGTGACA 
    CCAAAGCCTA CCCGGCATAC ATGCTGTCAG GACAATATAA GTGATATCAA CTCTGATTCT 
    ACAAAAGATA CAGCAGAGTC CAGCAGAGGA GACAGCAGTG GCCATTCAGA GACAGAGGAC 
    AAAATTTTAA GTTGGAATCC TCTCATTTTG TCGCCTATCT TGGAGGACTC TACTGAGAAG 
    ACAACATGGT CTCCTTCTGG CACTGCTCTA GACGCACTGT CAGGGGTCCT TCAGCAAGCC 
    CAGGAAACCT GA

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

    RefSeq XP_029420217.1
    CDS302..3733
    Translation

    Target ORF information:

    RefSeq Version XM_029564357.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564357.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGTT 
    CCTTTTGAAA CAAATACAAA AGCAGCTACA GCTACACCTT CCAAAGCTAC TCAGAATGAT 
    GAAAGAGACC CAAGAGACAG TTCGGAATCT GGCTTGCTGA GCTTGTTTCC AGGGAAGGTG 
    CATTCCAGTG CAGTGGAATT GCCACTGGAG AAAAATGTCT CTGTCCCCGA TGCACCTATT 
    ATACTGAGCC CCCCTCAGAC CCACACACCA GACACATACA ACCTGGTGTG GAGGGCAGGG 
    AGGGATGGAG GACTGCCCAT CAATGCCTAT TTTGTGAAGT ACCGAAAGCT GGATGATGCT 
    GCTGGCACAG TGGGCAGCTG GCATACAGTT CGAGTCCCAG GAAGTGAAAA TGAGCTCCAT 
    CTAACTGAAC TGGAGCCATC AAGTCTTTAT GAAGTTCTAA TGGTGGCAAG AAGTGTAGCT 
    GGTGAAGGAC AGCCTGCCAT GCTTACCTTC CGGACCAGCA AAGAAAAAGC AGCATCTTCA 
    AAAAACATCC AGGTGTCCTC TCCACCCGTG GGCATCCCTA AACGTCCTGT TATCTCAGAG 
    GCTTCAAACA ACAATTTTGG AGTGGTGCTT ACAGATTCCT CTCGGCATAG TGGAGTCCCA 
    GAGGCGCCAG ATCGGCCTAC TATCTCCACT GCATCTGAGA CCTCAGTCTA CGTCACCTGG 
    ATTCCCAGGG CAAACGGGGG GTCTCCCATC ACTGCCTTCA AGGTGGAGTA TAAACGGATG 
    AGGACTACTG ATTGGCTGGT GGCTGCTGAA GATATCCCTC CTTCCAAGCT TTCTGTGGAA 
    GTTCGTAGTT TAGAACCAGG TTCAACATAC AAATTTAGGG TCATTGCTAT CAACCATTAT 
    GGCGAGAGTT TTCGGAGTTC AGCATCCCGT CCTTACCAGG TAGCTGGCTT CCCCAGTCGT 
    TTTTCCAACC GCCCAATAAC TGGACCTCAC ATCGCATACA CAGAAGCCGT CAGCGATACT 
    CAGATTATGT TAAAGTGGAC GTATATTCCA TCAAGTAACA ATAATACGCC TATTCAAGGA 
    TTTTATATCT ATTACCGGCC AACAGATAGT GACAACGACA GTGACTACAA GAGGGATGTT 
    GTTGAAGGGT CAAAGCAGTG GCACATGATT GGTCATCTGC AGCCTGAAAC CTCCTATGAC 
    ATTAAGATGC AGTGCTTTAA CGAAGGTGGG GAAAGTGAGT TCAGCAATGT AATGATCTGT 
    GAGACCAAAG TGAAACGTGT TCCTGGAGCT TCGGAGTATC CCATGAAAGA CTTGAGTACC 
    CCTCCCAGTT CTTCAGGAAA TGGAGGGAAT GTGGGGCCTG CGACCAACCC CGCCAGAAGC 
    AGTGATATGT TATACCTCAT TGTTGGCTGT GTGCTCGGAG TTATGGTCCT TATTCTTATG 
    GTTTTCATCG CAATGTGCTT GTGGAAAAGT CGCCAACAGA ATGCCATACA GAAATATGAC 
    CCACCAGGAT ATCTCTACCA AGGGTCAGAT ATTAATGGGC AGATGGTAGA GTATACCGCT 
    CTCTCGGGAA CAAACCGGAT CAATGGGAGT GTTCACGGAG GCTTCCTCAG CAATGGCAGC 
    CTCAGCAATG GCTGCTCCCA TCGCCACCAT AAAGGCCCCA ACGGAGTCAG TGGGATCCTG 
    AATGGAAGCT TAAATGGAGG GCTTTACCCT GCACACACTA ACTCGCTAAC CAGGACGCAT 
    GTGGAGTTTG AACATCCTCA CCATCTAGTG AATGGTGGAG GGATGTACAC AGCAGTCCCC 
    CAGATGGGCC CTCTGGAATG TGTCGGCTGT CGAAATTGCC GGAACAACAA TAGGTGTTTC 
    ACCAAAACCA ACAGCACTTT CAGCAGCGGC CCCCTTCCTG TGGTCCCAGT GGTAGCCCCT 
    TATCCTCAGG ATGGCCTGGA AATGAAGCCC CTGAGTGCCA TGAAGGTGCC TGTGTGTCTG 
    GCTTCTACAG TTCCTGATCA TGGCCAGTTA CCTGAGGAGA GCATCAAGGA CATTGTGACA 
    CCAAAGCCTA CCCGGCATAC ATGCTGTCAG GACAATATAA GTGATATCAA CTCTGATTCT 
    ACAAAAGATA CAGCAGAGTC CAGCAGAGGA GACAGCAGTG GCCATTCAGA GACAGAGGAC 
    AAAATTTTAA GTTGGAATCC TCTCATTTTG TCGCCTATCT TGGAGGACTC TACTGAGAAG 
    ACAACATGGT CTCCTTCTGG CACTGCTCTA GACGCACTGT CAGGGGTCCT TCAGCAAGCC 
    CAGGAAACCT GA

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

    Cdon ( XM_029564360.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420220.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONa133652
    Clone ID Related Accession (Same CDS sequence) XM_029564360.1
    Accession Version XM_029564360.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3381bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGCAT TTATTGTCAC 
    CTTCCATGTA AAAGTAGCTG A

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

    RefSeq XP_029420220.1
    CDS301..3681
    Translation

    Target ORF information:

    RefSeq Version XM_029564360.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564360.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGCAT TTATTGTCAC 
    CTTCCATGTA AAAGTAGCTG A

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

    Cdon ( XM_008834745.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008832967.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa27176
    Clone ID Related Accession (Same CDS sequence) XM_008834745.3 , XM_008834745.2 , XM_029564354.1
    Accession Version XM_008834745.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008834745.2. ##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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    RefSeq XP_008832967.1
    CDS301..4086
    Translation

    Target ORF information:

    RefSeq Version XM_008834745.3
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008834745.3

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    Cdon ( XM_008834745.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008832967.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa27176
    Clone ID Related Accession (Same CDS sequence) XM_008834745.3 , XM_008834745.2 , XM_029564354.1
    Accession Version XM_008834745.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008834745.1. ##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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    RefSeq XP_008832967.1
    CDS127..3912
    Translation

    Target ORF information:

    RefSeq Version XM_008834745.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008834745.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    Cdon ( XM_029564354.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420214.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa27176
    Clone ID Related Accession (Same CDS sequence) XM_008834745.3 , XM_008834745.2 , XM_029564354.1
    Accession Version XM_029564354.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    RefSeq XP_029420214.1
    CDS192..3977
    Translation

    Target ORF information:

    RefSeq Version XM_029564354.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564354.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGTG TTTCACCAAA 
    ACCAACAGCA CTTTCAGCAG CGGCCCCCTT CCTGTGGTCC CAGTGGTAGC CCCTTATCCT 
    CAGGATGGCC TGGAAATGAA GCCCCTGAGT GCCATGAAGG TGCCTGTGTG TCTGGCTTCT 
    ACAGTTCCTG ATCATGGCCA GTTACCTGAG GAGAGCATCA AGGACATTGT GACACCAAAG 
    CCTACCCGGC ATACATGCTG TCAGGACAAT ATAAGTGATA TCAACTCTGA TTCTACAAAA 
    GATACAGCAG AGTCCAGCAG AGGAGACAGC AGTGGCCATT CAGAGACAGA GGACAAAATT 
    TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT ATCTTGGAGG ACTCTACTGA GAAGACAACA 
    TGGTCTCCTT CTGGCACTGC TCTAGACGCA CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA 
    ACCTGA

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

    Cdon ( XM_017798597.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654086.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa27177
    Clone ID Related Accession (Same CDS sequence) XM_017798597.1
    Accession Version XM_017798597.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGCT ACAGGAAATG GACTGAAAAT CACTGGGGTT 
    ACCATGGAAG ATTCTGGTCT GTATCAGTGT GTAGCAGACA ATGGAATTGG ATTTACACAG 
    TCTACTGGAA GACTTCAAAT TTACCAAGAC AGTGGATTTA AGCCCATTAT AGTCACGGCG 
    CCAGTGAGTA CAAAGGTGGC AGATGGAGAC TTTGTTACTT TGTCCTGCAA TGCCACTGGA 
    GTTCCAGTCC CGGTCATTCA TTGGTATGGC AACCATGGAT TGATAACCAG CCATCCGTCT 
    CAGGTCCTTA GGTCCAAATC CCAAAAGTTC CACCTGTTCA GACCTGGGGA TCTTAACCTG 
    GAGCCTGTCT ACTTCATCAT GTCCCGAGCT GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT 
    ACTCAGGAAC ATGCTGGGAA ATACACCTGT GAAGCCACGA ACAAACATGG CACCGCACAG 
    TCAGACGCAC TCCTCACAGT GGTTCCTTTT GAAACAAATA CAAAAGCAGC TACAGCTACA 
    CCTTCCAAAG CTACTCAGAA TGATGAAAGA GACCCAAGAG ACAGTTCGGA ATCTGGCTTG 
    CTGAGCTTGT TTCCAGGGAA GGTGCATTCC AGTGCAGTGG AATTGCCACT GGAGAAAAAT 
    GTCTCTGTCC CCGATGCACC TATTATACTG AGCCCCCCTC AGACCCACAC ACCAGACACA 
    TACAACCTGG TGTGGAGGGC AGGGAGGGAT GGAGGACTGC CCATCAATGC CTATTTTGTG 
    AAGTACCGAA AGCTGGATGA TGCTGCTGGC ACAGTGGGCA GCTGGCATAC AGTTCGAGTC 
    CCAGGAAGTG AAAATGAGCT CCATCTAACT GAACTGGAGC CATCAAGTCT TTATGAAGTT 
    CTAATGGTGG CAAGAAGTGT AGCTGGTGAA GGACAGCCTG CCATGCTTAC CTTCCGGACC 
    AGCAAAGAAA AAGCAGCATC TTCAAAAAAC ATCCAGGTGT CCTCTCCACC CGTGGGCATC 
    CCTAAACGTC CTGTTATCTC AGAGGCTTCA AACAACAATT TTGGAGTGGT GCTTACAGAT 
    TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG CCAGATCGGC CTACTATCTC CACTGCATCT 
    GAGACCTCAG TCTACGTCAC CTGGATTCCC AGGGCAAACG GGGGGTCTCC CATCACTGCC 
    TTCAAGGTGG AGTATAAACG GATGAGGACT ACTGATTGGC TGGTGGCTGC TGAAGATATC 
    CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT AGTTTAGAAC CAGGTTCAAC ATACAAATTT 
    AGGGTCATTG CTATCAACCA TTATGGCGAG AGTTTTCGGA GTTCAGCATC CCGTCCTTAC 
    CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC AACCGCCCAA TAACTGGACC TCACATCGCA 
    TACACAGAAG CCGTCAGCGA TACTCAGATT ATGTTAAAGT GGACGTATAT TCCATCAAGT 
    AACAATAATA CGCCTATTCA AGGATTTTAT ATCTATTACC GGCCAACAGA TAGTGACAAC 
    GACAGTGACT ACAAGAGGGA TGTTGTTGAA GGGTCAAAGC AGTGGCACAT GATTGGTCAT 
    CTGCAGCCTG AAACCTCCTA TGACATTAAG ATGCAGTGCT TTAACGAAGG TGGGGAAAGT 
    GAGTTCAGCA ATGTAATGAT CTGTGAGACC AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG 
    TATCCCATGA AAGACTTGAG TACCCCTCCC AGTTCTTCAG GAAATGGAGG GAATGTGGGG 
    CCTGCGACCA ACCCCGCCAG AAGCAGTGAT ATGTTATACC TCATTGTTGG CTGTGTGCTC 
    GGAGTTATGG TCCTTATTCT TATGGTTTTC ATCGCAATGT GCTTGTGGAA AAGTCGCCAA 
    CAGAATGCCA TACAGAAATA TGACCCACCA GGATATCTCT ACCAAGGGTC AGATATTAAT 
    GGGCAGATGG TAGAGTATAC CGCTCTCTCG GGAACAAACC GGATCAATGG GAGTGTTCAC 
    GGAGGCTTCC TCAGCAATGG CAGCCTCAGC AATGGCTGCT CCCATCGCCA CCATAAAGGC 
    CCCAACGGAG TCAGTGGGAT CCTGAATGGA AGCTTAAATG GAGGGCTTTA CCCTGCACAC 
    ACTAACTCGC TAACCAGGAC GCATGTGGAG TTTGAACATC CTCACCATCT AGTGAATGGT 
    GGAGGGATGT ACACAGCAGT CCCCCAGATG GGCCCTCTGG AATGTGTCGG CTGTCGAAAT 
    TGCCGGAACA ACAATAGGTG TTTCACCAAA ACCAACAGCA CTTTCAGCAG CGGCCCCCTT 
    CCTGTGGTCC CAGTGGTAGC CCCTTATCCT CAGGATGGCC TGGAAATGAA GCCCCTGAGT 
    GCCATGAAGG TGCCTGTGTG TCTGGCTTCT ACAGTTCCTG ATCATGGCCA GTTACCTGAG 
    GAGAGCATCA AGGACATTGT GACACCAAAG CCTACCCGGC ATACATGCTG TCAGGACAAT 
    ATAAGTGATA TCAACTCTGA TTCTACAAAA GATACAGCAG AGTCCAGCAG AGGAGACAGC 
    AGTGGCCATT CAGAGACAGA GGACAAAATT TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT 
    ATCTTGGAGG ACTCTACTGA GAAGACAACA TGGTCTCCTT CTGGCACTGC TCTAGACGCA 
    CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA ACCTGA

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

    RefSeq XP_017654086.1
    CDS127..3762
    Translation

    Target ORF information:

    RefSeq Version XM_017798597.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017798597.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGCT ACAGGAAATG GACTGAAAAT CACTGGGGTT 
    ACCATGGAAG ATTCTGGTCT GTATCAGTGT GTAGCAGACA ATGGAATTGG ATTTACACAG 
    TCTACTGGAA GACTTCAAAT TTACCAAGAC AGTGGATTTA AGCCCATTAT AGTCACGGCG 
    CCAGTGAGTA CAAAGGTGGC AGATGGAGAC TTTGTTACTT TGTCCTGCAA TGCCACTGGA 
    GTTCCAGTCC CGGTCATTCA TTGGTATGGC AACCATGGAT TGATAACCAG CCATCCGTCT 
    CAGGTCCTTA GGTCCAAATC CCAAAAGTTC CACCTGTTCA GACCTGGGGA TCTTAACCTG 
    GAGCCTGTCT ACTTCATCAT GTCCCGAGCT GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT 
    ACTCAGGAAC ATGCTGGGAA ATACACCTGT GAAGCCACGA ACAAACATGG CACCGCACAG 
    TCAGACGCAC TCCTCACAGT GGTTCCTTTT GAAACAAATA CAAAAGCAGC TACAGCTACA 
    CCTTCCAAAG CTACTCAGAA TGATGAAAGA GACCCAAGAG ACAGTTCGGA ATCTGGCTTG 
    CTGAGCTTGT TTCCAGGGAA GGTGCATTCC AGTGCAGTGG AATTGCCACT GGAGAAAAAT 
    GTCTCTGTCC CCGATGCACC TATTATACTG AGCCCCCCTC AGACCCACAC ACCAGACACA 
    TACAACCTGG TGTGGAGGGC AGGGAGGGAT GGAGGACTGC CCATCAATGC CTATTTTGTG 
    AAGTACCGAA AGCTGGATGA TGCTGCTGGC ACAGTGGGCA GCTGGCATAC AGTTCGAGTC 
    CCAGGAAGTG AAAATGAGCT CCATCTAACT GAACTGGAGC CATCAAGTCT TTATGAAGTT 
    CTAATGGTGG CAAGAAGTGT AGCTGGTGAA GGACAGCCTG CCATGCTTAC CTTCCGGACC 
    AGCAAAGAAA AAGCAGCATC TTCAAAAAAC ATCCAGGTGT CCTCTCCACC CGTGGGCATC 
    CCTAAACGTC CTGTTATCTC AGAGGCTTCA AACAACAATT TTGGAGTGGT GCTTACAGAT 
    TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG CCAGATCGGC CTACTATCTC CACTGCATCT 
    GAGACCTCAG TCTACGTCAC CTGGATTCCC AGGGCAAACG GGGGGTCTCC CATCACTGCC 
    TTCAAGGTGG AGTATAAACG GATGAGGACT ACTGATTGGC TGGTGGCTGC TGAAGATATC 
    CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT AGTTTAGAAC CAGGTTCAAC ATACAAATTT 
    AGGGTCATTG CTATCAACCA TTATGGCGAG AGTTTTCGGA GTTCAGCATC CCGTCCTTAC 
    CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC AACCGCCCAA TAACTGGACC TCACATCGCA 
    TACACAGAAG CCGTCAGCGA TACTCAGATT ATGTTAAAGT GGACGTATAT TCCATCAAGT 
    AACAATAATA CGCCTATTCA AGGATTTTAT ATCTATTACC GGCCAACAGA TAGTGACAAC 
    GACAGTGACT ACAAGAGGGA TGTTGTTGAA GGGTCAAAGC AGTGGCACAT GATTGGTCAT 
    CTGCAGCCTG AAACCTCCTA TGACATTAAG ATGCAGTGCT TTAACGAAGG TGGGGAAAGT 
    GAGTTCAGCA ATGTAATGAT CTGTGAGACC AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG 
    TATCCCATGA AAGACTTGAG TACCCCTCCC AGTTCTTCAG GAAATGGAGG GAATGTGGGG 
    CCTGCGACCA ACCCCGCCAG AAGCAGTGAT ATGTTATACC TCATTGTTGG CTGTGTGCTC 
    GGAGTTATGG TCCTTATTCT TATGGTTTTC ATCGCAATGT GCTTGTGGAA AAGTCGCCAA 
    CAGAATGCCA TACAGAAATA TGACCCACCA GGATATCTCT ACCAAGGGTC AGATATTAAT 
    GGGCAGATGG TAGAGTATAC CGCTCTCTCG GGAACAAACC GGATCAATGG GAGTGTTCAC 
    GGAGGCTTCC TCAGCAATGG CAGCCTCAGC AATGGCTGCT CCCATCGCCA CCATAAAGGC 
    CCCAACGGAG TCAGTGGGAT CCTGAATGGA AGCTTAAATG GAGGGCTTTA CCCTGCACAC 
    ACTAACTCGC TAACCAGGAC GCATGTGGAG TTTGAACATC CTCACCATCT AGTGAATGGT 
    GGAGGGATGT ACACAGCAGT CCCCCAGATG GGCCCTCTGG AATGTGTCGG CTGTCGAAAT 
    TGCCGGAACA ACAATAGGTG TTTCACCAAA ACCAACAGCA CTTTCAGCAG CGGCCCCCTT 
    CCTGTGGTCC CAGTGGTAGC CCCTTATCCT CAGGATGGCC TGGAAATGAA GCCCCTGAGT 
    GCCATGAAGG TGCCTGTGTG TCTGGCTTCT ACAGTTCCTG ATCATGGCCA GTTACCTGAG 
    GAGAGCATCA AGGACATTGT GACACCAAAG CCTACCCGGC ATACATGCTG TCAGGACAAT 
    ATAAGTGATA TCAACTCTGA TTCTACAAAA GATACAGCAG AGTCCAGCAG AGGAGACAGC 
    AGTGGCCATT CAGAGACAGA GGACAAAATT TTAAGTTGGA ATCCTCTCAT TTTGTCGCCT 
    ATCTTGGAGG ACTCTACTGA GAAGACAACA TGGTCTCCTT CTGGCACTGC TCTAGACGCA 
    CTGTCAGGGG TCCTTCAGCA AGCCCAGGAA ACCTGA

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

    Cdon ( XM_029564362.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420222.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_029564362.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_029420222.1
    CDS300..3668
    Translation

    Target ORF information:

    RefSeq Version XM_029564362.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564362.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_017798599.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654088.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_017798599.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_017654088.1
    CDS127..3495
    Translation

    Target ORF information:

    RefSeq Version XM_017798599.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017798599.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_029564374.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420234.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_029564374.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_029420234.1
    CDS300..3668
    Translation

    Target ORF information:

    RefSeq Version XM_029564374.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564374.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_029564368.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420228.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_029564368.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_029420228.1
    CDS300..3668
    Translation

    Target ORF information:

    RefSeq Version XM_029564368.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564368.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_029564370.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029420230.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_029564370.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_029420230.1
    CDS300..3668
    Translation

    Target ORF information:

    RefSeq Version XM_029564370.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029564370.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_017798599.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654088.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONa27178
    Clone ID Related Accession (Same CDS sequence) XM_029564362.1 , XM_017798599.1 , XM_029564374.1 , XM_029564368.1 , XM_029564370.1 , XM_017798599.2
    Accession Version XM_017798599.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_017798599.1. ##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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    RefSeq XP_017654088.1
    CDS300..3668
    Translation

    Target ORF information:

    RefSeq Version XM_017798599.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017798599.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGTAA TCCCGGAGAG 
    GAATATTGA

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

    Cdon ( XM_017798602.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654091.1 Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONa27179
    Clone ID Related Accession (Same CDS sequence) XM_017798602.1
    Accession Version XM_017798602.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
    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 cell adhesion molecule-related/down-regulated by oncogenes isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329288.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGGA GAGTTAA

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

    RefSeq XP_017654091.1
    CDS127..3483
    Translation

    Target ORF information:

    RefSeq Version XM_017798602.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili cell adhesion associated, oncogene regulated (Cdon), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017798602.1

    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
    ATGCATCCAG ATCTCGCACC CTTATGGACA CTCCTGTATG TTCTTGGAAT TCTGTATTCT 
    TCTGTGAGTT CAGACTTGAC ACCTTATTTT ATTTCTGAGC CACTCTCTGC TGTCCAGAAG 
    CTTGGTAGAC CCGTGGTCCT ACATTGTTCT GCTAAACCTG TTACTGCTCA CATCTCATGG 
    TTGCATAATG GAAAAAAATT GGAGCGAAAC ATGGAACAGA TTAAGATTCA TCAAGGGACT 
    CTGACCATTC TTGCTCTTAA CCCTTCCCTT TCGGGTTGCT ACCAGTGCAT CGCCAACAGT 
    AGCACTGGTG CCATTGTGAG TGCCCCTGCG ACAGTGTCCA CTGCGGTTCT TGGTGATTTT 
    GATTCATCGA TAAAGCACAA TGTTATTATA GCAGAAGAGA AAAGTACAGG TTTCATCAGC 
    TGTAGAGTGC CAGAGAGTAA CCCAAAAGCT GAGGTGCGCT ATAAGATCCG GGGAAAGTGG 
    CTGAAGCATT CCTCAGGGAA CTATATAATC CTTCCATCGG GAAATCTTCA GATTTTGAAT 
    GTATCCTCAC AAGATAAGGG ATCATACAAG TGTGCCGCTT ATAATCCAGT CACCAGTGAA 
    TTGAAAGTTG AACCCATTGG CCAGAAGCTC CTTGTGAGTC GCTCTTCCTC AGATGGTTTT 
    CACATTCTTC ACCCCACCCT TTCTCAGACC TTAGCTGTCC TTCCTCATAG CCCTGTAACC 
    CTGGAGTGTG TGGTGAGTGG GGTCCCAGCC TCACAAGTGT ATTGGCTGAA GGATGGACAG 
    AATGTGATAT CAGGAAGCAA CTGGAGAAGG CTGCATTCTC ATCTTTCCAC CACTAGCATT 
    GACCCTTCGG ACTCTGGGAA CTATTCCTGT GTAGTGGGCA ACAAGTCCGG AGACATAAAA 
    CATGTCACTT ACATGGTTAA GATACTGGAG CGTGCATCAA TTTCTAAAGG ACTGCATGAT 
    CAGAAAGTGT CCCTGGGGGC CACTGTACAT TTTACCTGTG ATGTTCGTGG GAACCCAGTC 
    CCCAACTGTA CATGGTTTCA TAATGCATGG CCTATTCATC CCTCCCCACG GCATCTAGCT 
    ACAGGAAATG GACTGAAAAT CACTGGGGTT ACCATGGAAG ATTCTGGTCT GTATCAGTGT 
    GTAGCAGACA ATGGAATTGG ATTTACACAG TCTACTGGAA GACTTCAAAT TTACCAAGAC 
    AGTGGATTTA AGCCCATTAT AGTCACGGCG CCAGTGAGTA CAAAGGTGGC AGATGGAGAC 
    TTTGTTACTT TGTCCTGCAA TGCCACTGGA GTTCCAGTCC CGGTCATTCA TTGGTATGGC 
    AACCATGGAT TGATAACCAG CCATCCGTCT CAGGTCCTTA GGTCCAAATC CCAAAAGTTC 
    CACCTGTTCA GACCTGGGGA TCTTAACCTG GAGCCTGTCT ACTTCATCAT GTCCCGAGCT 
    GGCTCAAGCT CTCTGTCTAT TCAGGCAGTT ACTCAGGAAC ATGCTGGGAA ATACACCTGT 
    GAAGCCACGA ACAAACATGG CACCGCACAG TCAGACGCAC TCCTCACAGT GGTTCCTTTT 
    GAAACAAATA CAAAAGCAGC TACAGCTACA CCTTCCAAAG CTACTCAGAA TGATGAAAGA 
    GACCCAAGAG ACAGTTCGGA ATCTGGCTTG CTGAGCTTGT TTCCAGGGAA GGTGCATTCC 
    AGTGCAGTGG AATTGCCACT GGAGAAAAAT GTCTCTGTCC CCGATGCACC TATTATACTG 
    AGCCCCCCTC AGACCCACAC ACCAGACACA TACAACCTGG TGTGGAGGGC AGGGAGGGAT 
    GGAGGACTGC CCATCAATGC CTATTTTGTG AAGTACCGAA AGCTGGATGA TGCTGCTGGC 
    ACAGTGGGCA GCTGGCATAC AGTTCGAGTC CCAGGAAGTG AAAATGAGCT CCATCTAACT 
    GAACTGGAGC CATCAAGTCT TTATGAAGTT CTAATGGTGG CAAGAAGTGT AGCTGGTGAA 
    GGACAGCCTG CCATGCTTAC CTTCCGGACC AGCAAAGAAA AAGCAGCATC TTCAAAAAAC 
    ATCCAGGTGT CCTCTCCACC CGTGGGCATC CCTAAACGTC CTGTTATCTC AGAGGCTTCA 
    AACAACAATT TTGGAGTGGT GCTTACAGAT TCCTCTCGGC ATAGTGGAGT CCCAGAGGCG 
    CCAGATCGGC CTACTATCTC CACTGCATCT GAGACCTCAG TCTACGTCAC CTGGATTCCC 
    AGGGCAAACG GGGGGTCTCC CATCACTGCC TTCAAGGTGG AGTATAAACG GATGAGGACT 
    ACTGATTGGC TGGTGGCTGC TGAAGATATC CCTCCTTCCA AGCTTTCTGT GGAAGTTCGT 
    AGTTTAGAAC CAGGTTCAAC ATACAAATTT AGGGTCATTG CTATCAACCA TTATGGCGAG 
    AGTTTTCGGA GTTCAGCATC CCGTCCTTAC CAGGTAGCTG GCTTCCCCAG TCGTTTTTCC 
    AACCGCCCAA TAACTGGACC TCACATCGCA TACACAGAAG CCGTCAGCGA TACTCAGATT 
    ATGTTAAAGT GGACGTATAT TCCATCAAGT AACAATAATA CGCCTATTCA AGGATTTTAT 
    ATCTATTACC GGCCAACAGA TAGTGACAAC GACAGTGACT ACAAGAGGGA TGTTGTTGAA 
    GGGTCAAAGC AGTGGCACAT GATTGGTCAT CTGCAGCCTG AAACCTCCTA TGACATTAAG 
    ATGCAGTGCT TTAACGAAGG TGGGGAAAGT GAGTTCAGCA ATGTAATGAT CTGTGAGACC 
    AAAGTGAAAC GTGTTCCTGG AGCTTCGGAG TATCCCATGA AAGACTTGAG TACCCCTCCC 
    AGTTCTTCAG GAAATGGAGG GAATGTGGGG CCTGCGACCA ACCCCGCCAG AAGCAGTGAT 
    ATGTTATACC TCATTGTTGG CTGTGTGCTC GGAGTTATGG TCCTTATTCT TATGGTTTTC 
    ATCGCAATGT GCTTGTGGAA AAGTCGCCAA CAGAATGCCA TACAGAAATA TGACCCACCA 
    GGATATCTCT ACCAAGGGTC AGATATTAAT GGGCAGATGG TAGAGTATAC CGCTCTCTCG 
    GGAACAAACC GGATCAATGG GAGTGTTCAC GGAGGCTTCC TCAGCAATGG CAGCCTCAGC 
    AATGGCTGCT CCCATCGCCA CCATAAAGGC CCCAACGGAG TCAGTGGGAT CCTGAATGGA 
    AGCTTAAATG GAGGGCTTTA CCCTGCACAC ACTAACTCGC TAACCAGGAC GCATGTGGAG 
    TTTGAACATC CTCACCATCT AGTGAATGGT GGAGGGATGT ACACAGCAGT CCCCCAGATG 
    GGCCCTCTGG AATGTGTCGG CTGTCGAAAT TGCCGGAACA ACAATAGGGA GAGTTAA

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

見積依頼

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