ORF » Species Summary » Xenopus tropicalis » l1cam cDNA ORF clone

l1cam cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following l1cam gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the l1cam 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
OXa30388 XM_012967854.3
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa30388 XM_012967853.3
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa30389 XM_012967855.3
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa30390 XM_012967856.3
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa63383 XM_031906839.1
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa23952 NM_001102715.1
Latest version!		 Xenopus tropicalis L1 cell adhesion molecule (l1cam), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
OXa30388 XM_012967853.2 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa30389 XM_012967855.2 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa30388 XM_012967854.2 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa30390 XM_012967856.2 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    l1cam ( XM_012967853.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823307.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa30388
    Clone ID Related Accession (Same CDS sequence) XM_012967853.3 , XM_012967853.2 , XM_012967854.2 , XM_012967854.3
    Accession Version XM_012967853.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3765bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012967853.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    RefSeq XP_012823307.1
    CDS353..4117
    Translation

    Target ORF information:

    RefSeq Version XM_012967853.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967853.3

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    l1cam ( XM_012967854.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823308.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa30388
    Clone ID Related Accession (Same CDS sequence) XM_012967853.3 , XM_012967853.2 , XM_012967854.2 , XM_012967854.3
    Accession Version XM_012967854.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3765bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012967854.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    RefSeq XP_012823308.1
    CDS279..4043
    Translation

    Target ORF information:

    RefSeq Version XM_012967854.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967854.3

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    l1cam ( XM_012967855.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823309.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa30389
    Clone ID Related Accession (Same CDS sequence) XM_012967855.2 , XM_012967855.3
    Accession Version XM_012967855.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3750bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012967855.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGATCT CTAGAAAGTG ACAATGACGA GAAGCCTTTT 
    ACTAGCAGTC AGCCCTCCCT CAATGGGGAG ATCAAGCAAC TAGGCAGTGA CGACAGCCTG 
    GCCGACTATG GTGGTAGCGT GGATGTCCAG TTCAATGAAG ATGGCTCGTT CATTGGCCAG 
    TACAGTGGCA AAAAGGAGAA GGAGCCAACA GGGGGCAATG AGAGCTCTGG AGCAACCTCT 
    CCGGTCAACC CCAACGTTGC AGTTGAATAG

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

    RefSeq XP_012823309.1
    CDS353..4102
    Translation

    Target ORF information:

    RefSeq Version XM_012967855.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967855.3

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGATCT CTAGAAAGTG ACAATGACGA GAAGCCTTTT 
    ACTAGCAGTC AGCCCTCCCT CAATGGGGAG ATCAAGCAAC TAGGCAGTGA CGACAGCCTG 
    GCCGACTATG GTGGTAGCGT GGATGTCCAG TTCAATGAAG ATGGCTCGTT CATTGGCCAG 
    TACAGTGGCA AAAAGGAGAA GGAGCCAACA GGGGGCAATG AGAGCTCTGG AGCAACCTCT 
    CCGGTCAACC CCAACGTTGC AGTTGAATAG

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

    l1cam ( XM_012967856.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823310.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa30390
    Clone ID Related Accession (Same CDS sequence) XM_012967856.2 , XM_012967856.3
    Accession Version XM_012967856.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3738bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012967856.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGTGAC AATGACGAGA AGCCTTTTAC TAGCAGTCAG 
    CCCTCCCTCA ATGGGGAGAT CAAGCAACTA GGCAGTGACG ACAGCCTGGC CGACTATGGT 
    GGTAGCGTGG ATGTCCAGTT CAATGAAGAT GGCTCGTTCA TTGGCCAGTA CAGTGGCAAA 
    AAGGAGAAGG AGCCAACAGG GGGCAATGAG AGCTCTGGAG CAACCTCTCC GGTCAACCCC 
    AACGTTGCAG TTGAATAG

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

    RefSeq XP_012823310.1
    CDS353..4090
    Translation

    Target ORF information:

    RefSeq Version XM_012967856.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967856.3

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGTGAC AATGACGAGA AGCCTTTTAC TAGCAGTCAG 
    CCCTCCCTCA ATGGGGAGAT CAAGCAACTA GGCAGTGACG ACAGCCTGGC CGACTATGGT 
    GGTAGCGTGG ATGTCCAGTT CAATGAAGAT GGCTCGTTCA TTGGCCAGTA CAGTGGCAAA 
    AAGGAGAAGG AGCCAACAGG GGGCAATGAG AGCTCTGGAG CAACCTCTCC GGTCAACCCC 
    AACGTTGCAG TTGAATAG

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

    l1cam ( XM_031906839.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031762699.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OXa63383
    Clone ID Related Accession (Same CDS sequence) XM_031906839.1
    Accession Version XM_031906839.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3558bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGCAGTTCC 
    TTCACTAGAC ATAGGTAA

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

    RefSeq XP_031762699.1
    CDS354..3911
    Translation

    Target ORF information:

    RefSeq Version XM_031906839.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031906839.1

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGCAGTTCC 
    TTCACTAGAC ATAGGTAA

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

    l1cam ( NM_001102715.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001096185.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), mRNA.
    Price & Availability↑
    CloneID OXa23952
    Clone ID Related Accession (Same CDS sequence) NM_001102715.1
    Accession Version NM_001102715.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3753bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC135442.1. ##Evidence-Data-START## Transcript exon combination :: BC135442.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028290, SAMD00028293 [ECO:0000348] ##Evidence-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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAATAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GTGACAATGA CGAGAAGCCT 
    TTTACTAGCA GTCAGCCCTC CCTCAATGGG GAGATCAAGC AACTAGGCAG TGACGACAGC 
    CTGGCCGACT ATGGTGGTAG CGTGGATGTC CAGTTCAATG AAGATGGCTC GTTCATTGGC 
    CAGTACAGTG GCAAAAAGGA GAAGGAGCCA ACAGGGGGCA ATGAGAGCTC TGGAGCAACC 
    TCTCCGGTCA ACCCCAACGT TGCAGTTGAA TAG

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

    RefSeq NP_001096185.1
    CDS297..4049
    Translation

    Target ORF information:

    RefSeq Version NM_001102715.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001102715.1

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAATAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GTGACAATGA CGAGAAGCCT 
    TTTACTAGCA GTCAGCCCTC CCTCAATGGG GAGATCAAGC AACTAGGCAG TGACGACAGC 
    CTGGCCGACT ATGGTGGTAG CGTGGATGTC CAGTTCAATG AAGATGGCTC GTTCATTGGC 
    CAGTACAGTG GCAAAAAGGA GAAGGAGCCA ACAGGGGGCA ATGAGAGCTC TGGAGCAACC 
    TCTCCGGTCA ACCCCAACGT TGCAGTTGAA TAG

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

    l1cam ( XM_012967853.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823307.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa30388
    Clone ID Related Accession (Same CDS sequence) XM_012967853.3 , XM_012967853.2 , XM_012967854.2 , XM_012967854.3
    Accession Version XM_012967853.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3765bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967853.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    RefSeq XP_012823307.1
    CDS423..4187
    Translation

    Target ORF information:

    RefSeq Version XM_012967853.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967853.2

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    l1cam ( XM_012967854.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823308.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa30388
    Clone ID Related Accession (Same CDS sequence) XM_012967853.3 , XM_012967853.2 , XM_012967854.2 , XM_012967854.3
    Accession Version XM_012967854.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3765bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967854.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    RefSeq XP_012823308.1
    CDS284..4048
    Translation

    Target ORF information:

    RefSeq Version XM_012967854.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967854.2

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TATGTAATGC AAGAAATCAT GTATCCACCT 
    GTGATTACTG AGCAGTCCCC AGAAAAGTAT GTGTTGTACC CCAATGATGA CATTGTGCTC 
    AAGTGTGAAG CCAAGAGAAA CGCCAAGGCA AAATATACCT GGAAAAAGGA TGGGGAAACG 
    TTTCAGCCAG ATAATGACCC AAGAGTCAGT CGCAAGAAAG ATTCAGGAAC CTTAAACATT 
    TCTGGCAACG GGAACTCAAT GAAGGATTTC CAGGGCAAAT ACCGGTGCTA TGCCACCAAT 
    GATCTGGGCA CAGCCATCTC ACACGAGATC CATGTTATCA CTGAGAGCAC CCCAAAATGG 
    CAAAAAGAAC TGATCCGCCC TCTTGATATT GAAGAGGGAG CCTCGCTAAT ATTACCATGT 
    AACCCACCTA AAAGCGCAGT GCCCCCACGA GTTATCTGGA TGAACAGCAA TTTGTTGCAC 
    ATCACACAGG ATGAGCGGGT GTCAATGGGT GTGAATGGGA ATCTGTATTT CTCCAATGTA 
    CAAAAGCAAG ATGAACATCC TGACTACATC TGTCACGCCC AGTTTGTTGG TGCCCGTACC 
    ATTGTGCAGA AGGAGGCGAT ATCTATCAAA GTCAGACCCA CAAATTCTGT GAAATTTCGA 
    AAACCAGAAA TGATGTTACC CGAGGGCTCC ATGAGCACTG TTCTGGCATT AAGGGACCAA 
    CCTTTGCAGC TGGAGTGCAT AGCTGAAGGA CTCCCTACCC CAGAGATTGA GTGGATTCCC 
    CTCCTTGGCT CCACTTACAA TGAGCGCATT CAATTTGATG ACTTTAAGAA GACCCTTCAC 
    ATTGACAAGG TGCAAGATGA GGATGATGGG GACTATCAGT GCATTGCCAA GAACACCCAG 
    GGCAGCTCCA GCCATACCTT CACAGTGGTT GTTGAGTCTG CCCCTTACTG GATTAATAAA 
    CCAGAGGATG GAATCTATGC ACCGGGTGAG GATATTATAC TGCACTGTGA AGTCGGAGGG 
    AAACCCAAAC CTAAGGTCAC ATGGAAGATT AACGGTAAAT CTTTGAAAGA CTCAGATCTA 
    TACCACAACT GGAAGCTGAT AGATGGAAGT CTGGTCTTAA ACAACATGCA ACTCAACGAC 
    ACGTCTGTTG TTCAATGCGA AGCCCGCAAC AAACATGGAA ACCTCCTCGC CAATGCTTTT 
    GTCTATGTAG TTGAACTGCC CCCACAGATC CTCACCAGAA ACGATGAGCA GTACATTGTA 
    GTCGAAAAGA CAAATGTCTC AATGGACTGT AGAGCTTTTG GGACTCCTTT TCCAACGATC 
    CAATGGGAGA GTGATCTGGA AGACAACCTG TTTGCCCTTG ATCAGTTTTC CATGCACACT 
    AATGGGACAC TGACCATAAC GGGAGTGGCG AAGGAAGATG AAGGAATATA TCGGTGCACT 
    GCCAGCAACA ACCAGGGAAA TGTCAGCATC TCTGCCTACT TAGATGTCAG AAACGCTACT 
    AAGATCATTA CTCCCCCTAT GGAGCAGCAT GCAAGAAAAG GTGGAAAAGC GATTTTTCAG 
    TGCAAAGTGG AATTTGATCC CAAAATGAGT GATAAAATAA TACAGTGGAG GAAAAATGGC 
    AATGAGATAA AAGAAGATGC CGACAATGAT AAGTACTTCA TTGAGGACTA CACCCTAAGT 
    ATCTCCAATG TACAAGAGAG CGACCATGGG ATGTATACCT GTGCGGCCCA CACTGAACTG 
    GATGCCGTAG AACTGACTGC CGAACTGGTG GTGATTGATC TTCCCGAAGC TCCTTTTGAT 
    TTGGAGCTTT CTAACGCACA GGAAACCAGT ATAACGCTCA CCTGGACCCC AGGCAACGAT 
    AACAACAGTC CCATTGAGGA ATTCATTATC GAGTATGAGG AAGACAGCTT TGAACCAGGA 
    GTATGGCATG AACTCACTAG AGTGGACGGG GATATGTTTA ATGTTGATTT GGATCTCTCT 
    CCCTATGTCA ACTACCAGTT CCGAGTGATT GCAGTGAATG AGGTTGGACC TAGCAATGGA 
    AGCAACCCAT CAGATCGTTA TGAGACTCCT GCATTTGCTC CAGCAAAGAA TCCCAGAGAG 
    GTGAAAGGGG AGGGCACAGA GCCACAAAAC ATGTACATTT CCTGGAAGCC ATTGAAAGGC 
    ATCGACTGGA ATGGCCCTGG CTTCAAATAT CTTGTAAAAT GGAGGCAACT TGGTAAAGAA 
    GAGTGGAAGG AAGTGGTAGC AGATAGCCCC CCTGTCCTTG TGTCAGGCAC TAGCATATTT 
    GAGCCTTATG AGATCATAGT CCAGTCTGTC AATGATATCG GCAGAGCTAC TGAACCCAAA 
    CCCGTCATTG GCCATTCCGG GGAAGACATG CCTGACATTA CCCCTGAGAA TGTTGGCTTA 
    GAAGCTATGA ACGAGAGTGC AATCAAGGTT GCATGGTTGC CTGTGCAGAA GAATGGGTTA 
    AACGGTCATT TGAAGGGATT TATGGTATAC TATACCAGAC ATAACGGGCA CAACAGGCAC 
    CCTGGCAAGT TACTGGTCCA TGGTAACACA ACACATGCTT TAATTACCGG GCTAAAACCT 
    TACAGCAACT ACTCAGTGGA AGTCGCCATC ATAAACGGAA AGGGGGAGGG GGAGCATAGC 
    GAGTCACGCA TGATACGCAC TGATGAAGGA GTGCCAAGTC CACCTTCATT TTTACGGCTG 
    GAGCGCCAAT CTGACACATC ACTGACACTC ATATGGGGCC CCCCCGAAAC TCCCAATGGA 
    ATTCTGACAG GATACGAGAT TTATCATCAG ATAGTGAACA AAACTCACAC TGGAGCAAAG 
    TACTTCTCTG AAACCATCAA TGATCCCACG CAGCAAAACT GGACACTTTC AAATATCAGC 
    TCCAAAGACA CCTACCGGTT CTATTTGTAT GCCACTACCT CAGTGGGACA GAGTGAAGCT 
    GTTATGGTGG AGGGCAGCAC TATGCAGGAG ATAGAGGTTC CTCCTGTGCT GAATGTCAGT 
    ATCGAGACTG GGGACAACGT GGTCACACTA AACTGGATGC AACTGGAGGG GCCCAGTAAT 
    GCAGAGATCA GAGTGGAGAT CAGGAACAAA TCCAGTGAAC TATTGTGGCG CCACTATGGT 
    TCAGTGAACA CCACCGACTC GACCTTCCAG CTGAGCGGCC TGCTCCCCGG GACTTTTTAT 
    TTCATACGCC TTATGGCCCT CAATCACACT CAGCATGTTG AAATCTGGAG TGATATGGTA 
    CAAACCAGTG GAACAGCAAT TCCCACAAAA CAGGGAGGAT TTCCCAATGA AGGCTGGTTT 
    ATTGCACTGA TCACTGCCAT TGTAGTCCTG CTGCTCATCC TGCTCATCCT GTGCTTTATC 
    AAGCGCAGCA AAGGAGGAAA GTACTCTGTG AAGGATAAAG AAGATACTCA AGGGGACTCT 
    GAAGCACGGC CAATGAAGGA TGAAACCTTT GGGGAATACA GATCTCTAGA AAGTGACAAT 
    GACGAGAAGC CTTTTACTAG CAGTCAGCCC TCCCTCAATG GGGAGATCAA GCAACTAGGC 
    AGTGACGACA GCCTGGCCGA CTATGGTGGT AGCGTGGATG TCCAGTTCAA TGAAGATGGC 
    TCGTTCATTG GCCAGTACAG TGGCAAAAAG GAGAAGGAGC CAACAGGGGG CAATGAGAGC 
    TCTGGAGCAA CCTCTCCGGT CAACCCCAAC GTTGCAGTTG AATAG

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

    l1cam ( XM_012967855.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823309.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa30389
    Clone ID Related Accession (Same CDS sequence) XM_012967855.2 , XM_012967855.3
    Accession Version XM_012967855.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3750bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967855.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGATCT CTAGAAAGTG ACAATGACGA GAAGCCTTTT 
    ACTAGCAGTC AGCCCTCCCT CAATGGGGAG ATCAAGCAAC TAGGCAGTGA CGACAGCCTG 
    GCCGACTATG GTGGTAGCGT GGATGTCCAG TTCAATGAAG ATGGCTCGTT CATTGGCCAG 
    TACAGTGGCA AAAAGGAGAA GGAGCCAACA GGGGGCAATG AGAGCTCTGG AGCAACCTCT 
    CCGGTCAACC CCAACGTTGC AGTTGAATAG

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

    RefSeq XP_012823309.1
    CDS424..4173
    Translation

    Target ORF information:

    RefSeq Version XM_012967855.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967855.2

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGATCT CTAGAAAGTG ACAATGACGA GAAGCCTTTT 
    ACTAGCAGTC AGCCCTCCCT CAATGGGGAG ATCAAGCAAC TAGGCAGTGA CGACAGCCTG 
    GCCGACTATG GTGGTAGCGT GGATGTCCAG TTCAATGAAG ATGGCTCGTT CATTGGCCAG 
    TACAGTGGCA AAAAGGAGAA GGAGCCAACA GGGGGCAATG AGAGCTCTGG AGCAACCTCT 
    CCGGTCAACC CCAACGTTGC AGTTGAATAG

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

    l1cam ( XM_012967856.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012823310.1 Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa30390
    Clone ID Related Accession (Same CDS sequence) XM_012967856.2 , XM_012967856.3
    Accession Version XM_012967856.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3738bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product neural cell adhesion molecule L1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967856.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGTGAC AATGACGAGA AGCCTTTTAC TAGCAGTCAG 
    CCCTCCCTCA ATGGGGAGAT CAAGCAACTA GGCAGTGACG ACAGCCTGGC CGACTATGGT 
    GGTAGCGTGG ATGTCCAGTT CAATGAAGAT GGCTCGTTCA TTGGCCAGTA CAGTGGCAAA 
    AAGGAGAAGG AGCCAACAGG GGGCAATGAG AGCTCTGGAG CAACCTCTCC GGTCAACCCC 
    AACGTTGCAG TTGAATAG

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

    RefSeq XP_012823310.1
    CDS424..4161
    Translation

    Target ORF information:

    RefSeq Version XM_012967856.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis L1 cell adhesion molecule (l1cam), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012967856.2

    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
    ATGCCTCTGG GATCGGGACC TTGCCTTCTG GGGACAGTGC TTGTCTCTTT ACTCTGCAGC 
    CACATGGAGG CCTTCCAGCT GCCTAAAGGA TTCATGTATC CACCTGTGAT TACTGAGCAG 
    TCCCCAGAAA AGTATGTGTT GTACCCCAAT GATGACATTG TGCTCAAGTG TGAAGCCAAG 
    AGAAACGCCA AGGCAAAATA TACCTGGAAA AAGGATGGGG AAACGTTTCA GCCAGATAAT 
    GACCCAAGAG TCAGTCGCAA GAAAGATTCA GGAACCTTAA ACATTTCTGG CAACGGGAAC 
    TCAATGAAGG ATTTCCAGGG CAAATACCGG TGCTATGCCA CCAATGATCT GGGCACAGCC 
    ATCTCACACG AGATCCATGT TATCACTGAG AGCACCCCAA AATGGCAAAA AGAACTGATC 
    CGCCCTCTTG ATATTGAAGA GGGAGCCTCG CTAATATTAC CATGTAACCC ACCTAAAAGC 
    GCAGTGCCCC CACGAGTTAT CTGGATGAAC AGCAATTTGT TGCACATCAC ACAGGATGAG 
    CGGGTGTCAA TGGGTGTGAA TGGGAATCTG TATTTCTCCA ATGTACAAAA GCAAGATGAA 
    CATCCTGACT ACATCTGTCA CGCCCAGTTT GTTGGTGCCC GTACCATTGT GCAGAAGGAG 
    GCGATATCTA TCAAAGTCAG ACCCACAAAT TCTGTGAAAT TTCGAAAACC AGAAATGATG 
    TTACCCGAGG GCTCCATGAG CACTGTTCTG GCATTAAGGG ACCAACCTTT GCAGCTGGAG 
    TGCATAGCTG AAGGACTCCC TACCCCAGAG ATTGAGTGGA TTCCCCTCCT TGGCTCCACT 
    TACAATGAGC GCATTCAATT TGATGACTTT AAGAAGACCC TTCACATTGA CAAGGTGCAA 
    GATGAGGATG ATGGGGACTA TCAGTGCATT GCCAAGAACA CCCAGGGCAG CTCCAGCCAT 
    ACCTTCACAG TGGTTGTTGA GTCTGCCCCT TACTGGATTA ATAAACCAGA GGATGGAATC 
    TATGCACCGG GTGAGGATAT TATACTGCAC TGTGAAGTCG GAGGGAAACC CAAACCTAAG 
    GTCACATGGA AGATTAACGG TAAATCTTTG AAAGACTCAG ATCTATACCA CAACTGGAAG 
    CTGATAGATG GAAGTCTGGT CTTAAACAAC ATGCAACTCA ACGACACGTC TGTTGTTCAA 
    TGCGAAGCCC GCAACAAACA TGGAAACCTC CTCGCCAATG CTTTTGTCTA TGTAGTTGAA 
    CTGCCCCCAC AGATCCTCAC CAGAAACGAT GAGCAGTACA TTGTAGTCGA AAAGACAAAT 
    GTCTCAATGG ACTGTAGAGC TTTTGGGACT CCTTTTCCAA CGATCCAATG GGAGAGTGAT 
    CTGGAAGACA ACCTGTTTGC CCTTGATCAG TTTTCCATGC ACACTAATGG GACACTGACC 
    ATAACGGGAG TGGCGAAGGA AGATGAAGGA ATATATCGGT GCACTGCCAG CAACAACCAG 
    GGAAATGTCA GCATCTCTGC CTACTTAGAT GTCAGAAACG CTACTAAGAT CATTACTCCC 
    CCTATGGAGC AGCATGCAAG AAAAGGTGGA AAAGCGATTT TTCAGTGCAA AGTGGAATTT 
    GATCCCAAAA TGAGTGATAA AATAATACAG TGGAGGAAAA ATGGCAATGA GATAAAAGAA 
    GATGCCGACA ATGATAAGTA CTTCATTGAG GACTACACCC TAAGTATCTC CAATGTACAA 
    GAGAGCGACC ATGGGATGTA TACCTGTGCG GCCCACACTG AACTGGATGC CGTAGAACTG 
    ACTGCCGAAC TGGTGGTGAT TGATCTTCCC GAAGCTCCTT TTGATTTGGA GCTTTCTAAC 
    GCACAGGAAA CCAGTATAAC GCTCACCTGG ACCCCAGGCA ACGATAACAA CAGTCCCATT 
    GAGGAATTCA TTATCGAGTA TGAGGAAGAC AGCTTTGAAC CAGGAGTATG GCATGAACTC 
    ACTAGAGTGG ACGGGGATAT GTTTAATGTT GATTTGGATC TCTCTCCCTA TGTCAACTAC 
    CAGTTCCGAG TGATTGCAGT GAATGAGGTT GGACCTAGCA ATGGAAGCAA CCCATCAGAT 
    CGTTATGAGA CTCCTGCATT TGCTCCAGCA AAGAATCCCA GAGAGGTGAA AGGGGAGGGC 
    ACAGAGCCAC AAAACATGTA CATTTCCTGG AAGCCATTGA AAGGCATCGA CTGGAATGGC 
    CCTGGCTTCA AATATCTTGT AAAATGGAGG CAACTTGGTA AAGAAGAGTG GAAGGAAGTG 
    GTAGCAGATA GCCCCCCTGT CCTTGTGTCA GGCACTAGCA TATTTGAGCC TTATGAGATC 
    ATAGTCCAGT CTGTCAATGA TATCGGCAGA GCTACTGAAC CCAAACCCGT CATTGGCCAT 
    TCCGGGGAAG ACATGCCTGA CATTACCCCT GAGAATGTTG GCTTAGAAGC TATGAACGAG 
    AGTGCAATCA AGGTTGCATG GTTGCCTGTG CAGAAGAATG GGTTAAACGG TCATTTGAAG 
    GGATTTATGG TATACTATAC CAGACATAAC GGGCACAACA GGCACCCTGG CAAGTTACTG 
    GTCCATGGTA ACACAACACA TGCTTTAATT ACCGGGCTAA AACCTTACAG CAACTACTCA 
    GTGGAAGTCG CCATCATAAA CGGAAAGGGG GAGGGGGAGC ATAGCGAGTC ACGCATGATA 
    CGCACTGATG AAGGAGTGCC AAGTCCACCT TCATTTTTAC GGCTGGAGCG CCAATCTGAC 
    ACATCACTGA CACTCATATG GGGCCCCCCC GAAACTCCCA ATGGAATTCT GACAGGATAC 
    GAGATTTATC ATCAGATAGT GAACAAAACT CACACTGGAG CAAAGTACTT CTCTGAAACC 
    ATCAATGATC CCACGCAGCA AAACTGGACA CTTTCAAATA TCAGCTCCAA AGACACCTAC 
    CGGTTCTATT TGTATGCCAC TACCTCAGTG GGACAGAGTG AAGCTGTTAT GGTGGAGGGC 
    AGCACTATGC AGGAGATAGA GGTTCCTCCT GTGCTGAATG TCAGTATCGA GACTGGGGAC 
    AACGTGGTCA CACTAAACTG GATGCAACTG GAGGGGCCCA GTAATGCAGA GATCAGAGTG 
    GAGATCAGGA ACAAATCCAG TGAACTATTG TGGCGCCACT ATGGTTCAGT GAACACCACC 
    GACTCGACCT TCCAGCTGAG CGGCCTGCTC CCCGGGACTT TTTATTTCAT ACGCCTTATG 
    GCCCTCAATC ACACTCAGCA TGTTGAAATC TGGAGTGATA TGGTACAAAC CAGTGGAACA 
    GCAATTCCCA CAAAACAGGG AGGATTTCCC AATGAAGGCT GGTTTATTGC ACTGATCACT 
    GCCATTGTAG TCCTGCTGCT CATCCTGCTC ATCCTGTGCT TTATCAAGCG CAGCAAAGGA 
    GGAAAGTACT CTGTGAAGGA TAAAGAAGAT ACTCAAGGGG ACTCTGAAGC ACGGCCAATG 
    AAGGATGAAA CCTTTGGGGA ATACAGTGAC AATGACGAGA AGCCTTTTAC TAGCAGTCAG 
    CCCTCCCTCA ATGGGGAGAT CAAGCAACTA GGCAGTGACG ACAGCCTGGC CGACTATGGT 
    GGTAGCGTGG ATGTCCAGTT CAATGAAGAT GGCTCGTTCA TTGGCCAGTA CAGTGGCAAA 
    AAGGAGAAGG AGCCAACAGG GGGCAATGAG AGCTCTGGAG CAACCTCTCC GGTCAACCCC 
    AACGTTGCAG TTGAATAG

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

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