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

The following palld gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the palld 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
OXa49813 XM_031895457.1
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OXa49812 XM_031895456.1
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa49810 XM_018095837.2
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa49811 XM_018095839.2
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa04647 XM_018095837.1
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OXa04648 XM_018095839.1
Latest version!
Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa49813
    Clone ID Related Accession (Same CDS sequence) XM_031895457.1
    Accession Version XM_031895457.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2085bp)
    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 palladin isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) 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
    ATGAATGTCC TTAACTCACA TAATTCTCCA ATGCAGCCAG CAAGCTCATT CAACTATGCC 
    AGGCCTAAAC AGTTTATTGC TGCTCAGAAC ATGAGCCCCA CCTCAGGCTA CATTTCTCCA
    TCTTCTGGTT CCTCTACTTC TAGCCTACCA TCACCAATGT CACCCTCAAC TCCTCAGAAG
    CAATTCGGCA GGGCTCCAGT TCCTCCTTTC TCTCAGCCAT TTCCCCAAGA GGGAGAACAG
    TTTTGGTCCC CAGCCTCATC ATCTCCTCCG CCTCCCCCTC CTCCTGTTTT AAGTCCAACT
    GCAAATTATT CTGTTGTTGA TGCATTTCCA CTTCCACCAC CTCCACCACC ACCACTTCCA
    GTTTCTGTAC TTTCACCTTC CTATAGTCCA TCACCTTCAC CAACTGGCAG AGCGCCCAAT
    TCCAGTCAGA GCCCAGCAGC TTTTATCAGT TCCATGCTGC CTACTCAGTC ATCACCAATT
    ACTTTCAATG AACTTGGGCT TCCTAAAGGT GTAATGCCTC CTGGTTTCCC AAAGAAATCC
    AGCCGGACTG CTCGCATAGC ATCAGATGAA GAGATACAGG GCACAAAGGA TGCTGTCATA
    CAAGATCTTG AGCGAAAGCT TCGTTTCAAA GAGGAGCTTC TGAACAATGG CCAGCCGAAA
    TTGACTTATG AGGAGAAAAT GGCTCGTCGG TTGCTTGGTG CTGACAGTGC AGCAACAGTG
    TTTAACATCC AGGAACCAGA GGAGGATGGG AATGCGCAGG AAGTTGACTC TCTTGATGCT
    TCTGTAGAAA GTCCTCTTGA CACTCAAAAG GAGTACAAAG TCTCCAGCTT TGAGCAGAGA
    TTAATTAGTG AAATTGAGTA CCGTTTGGAA CGATCCCCTG TGGAAGAGTC TGATGAAGAG
    GTAGAGCATG GAGATGAACC GGTGGATAAC GGGGAAGCCC CACAGTTTGA GACAAAGCTA
    AAACATTACA AAATCTTTGA AGGAATGTCA TCCACATTCA CTTGCAAGGT TACAGGCAAT
    CCAAAGCCCA AGATATATTG GTTCAAAGAT GGGAAACAAA TCTCAAAAAG AAGCGAACAC
    TATAGGATTC AGAGAGAACC TGACGGAACC TGCTCCCTTC ATACCTCAGC CTCCTCATTG
    GATGATGATG GGAATTACAC TATAATGGCA GCAAATCCAC AGGGCAGAAT AAGCTGTACT
    GGGAGGTTGA TGGTACAAGC TGTAAACCAG AGAGGAAGGA CTGCCCGTAC TCCAACATCC
    CAGCTCCATG TTAGAAGACC TCGATCTAGG TCAAGAGATA GTGGAGATGA AAATGAGCCT
    ATCCAAGAGA GATTCTTCCG CCCTCACTTC TTGCAGGCTC CAGGAGACCT CATTGTTCAG
    GAAGGAAAGC TCTGCAGGAT GGACTGCAAG GTTAGTGGCT TGCCAACACC AGATCTCAGC
    TGGCAACTGA ATGGGAGACC TGTCCGTCCG GATAACTCGC ACAAAATGCT GGTGAGGGAG
    AATGGCGTTC ACTCATTGGT TATTGAACCT GTCACCACTA GAGATGCTGG AATATACACC
    TGCGTTGCCT CAAATCGTGC AGGGCAGAAC TCATTCACCT TGGAACTCAT TGTTGCAGCC
    AAGGATGCCC ATAAACCCCC TGTGTTTATA GATAAGCTTC AAAATACAGG CGTTGCGGAG
    GGATACCCTG TGAGGCTGGA GTGCCGTGTC AGCGGGATGC CCCCTCCACA GATATTCTGG
    AAGAAGGAGA ACGAATCGCT GACCTACAGC ACAGAAAGAG TCAGCATGCA TCAGGATAAC
    TATGGCTACC TGTGCCTACT AATTCAGGGT GCCACAAAGG AGGATGCTGG TTGGTATACT
    GTGTCAGCAA AGAATGAAGC TGGTATTGTG TCCTGTACTG CCAGACTGGA CGTACACACT
    CAGTGGCATC AACAGTCTCT TGCCCCAAAG ACAAGAAAGG TACGTCCATC AGCCAGTCGC
    TATGCAGCAC TTTCTGACCA AGGCCTGGAC ATCAAAGCTG CTTTCCTGCC CGAAGCAAAC
    CCTGTGCACT TACAGCCAGC ACTGGTAGAA AGTGAAGATC TGTAG

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

    RefSeq XP_031751317.1
    CDS498..2582
    Translation

    Target ORF information:

    RefSeq Version XM_031895457.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031895457.1

    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
    ATGAATGTCC TTAACTCACA TAATTCTCCA ATGCAGCCAG CAAGCTCATT CAACTATGCC 
    AGGCCTAAAC AGTTTATTGC TGCTCAGAAC ATGAGCCCCA CCTCAGGCTA CATTTCTCCA
    TCTTCTGGTT CCTCTACTTC TAGCCTACCA TCACCAATGT CACCCTCAAC TCCTCAGAAG
    CAATTCGGCA GGGCTCCAGT TCCTCCTTTC TCTCAGCCAT TTCCCCAAGA GGGAGAACAG
    TTTTGGTCCC CAGCCTCATC ATCTCCTCCG CCTCCCCCTC CTCCTGTTTT AAGTCCAACT
    GCAAATTATT CTGTTGTTGA TGCATTTCCA CTTCCACCAC CTCCACCACC ACCACTTCCA
    GTTTCTGTAC TTTCACCTTC CTATAGTCCA TCACCTTCAC CAACTGGCAG AGCGCCCAAT
    TCCAGTCAGA GCCCAGCAGC TTTTATCAGT TCCATGCTGC CTACTCAGTC ATCACCAATT
    ACTTTCAATG AACTTGGGCT TCCTAAAGGT GTAATGCCTC CTGGTTTCCC AAAGAAATCC
    AGCCGGACTG CTCGCATAGC ATCAGATGAA GAGATACAGG GCACAAAGGA TGCTGTCATA
    CAAGATCTTG AGCGAAAGCT TCGTTTCAAA GAGGAGCTTC TGAACAATGG CCAGCCGAAA
    TTGACTTATG AGGAGAAAAT GGCTCGTCGG TTGCTTGGTG CTGACAGTGC AGCAACAGTG
    TTTAACATCC AGGAACCAGA GGAGGATGGG AATGCGCAGG AAGTTGACTC TCTTGATGCT
    TCTGTAGAAA GTCCTCTTGA CACTCAAAAG GAGTACAAAG TCTCCAGCTT TGAGCAGAGA
    TTAATTAGTG AAATTGAGTA CCGTTTGGAA CGATCCCCTG TGGAAGAGTC TGATGAAGAG
    GTAGAGCATG GAGATGAACC GGTGGATAAC GGGGAAGCCC CACAGTTTGA GACAAAGCTA
    AAACATTACA AAATCTTTGA AGGAATGTCA TCCACATTCA CTTGCAAGGT TACAGGCAAT
    CCAAAGCCCA AGATATATTG GTTCAAAGAT GGGAAACAAA TCTCAAAAAG AAGCGAACAC
    TATAGGATTC AGAGAGAACC TGACGGAACC TGCTCCCTTC ATACCTCAGC CTCCTCATTG
    GATGATGATG GGAATTACAC TATAATGGCA GCAAATCCAC AGGGCAGAAT AAGCTGTACT
    GGGAGGTTGA TGGTACAAGC TGTAAACCAG AGAGGAAGGA CTGCCCGTAC TCCAACATCC
    CAGCTCCATG TTAGAAGACC TCGATCTAGG TCAAGAGATA GTGGAGATGA AAATGAGCCT
    ATCCAAGAGA GATTCTTCCG CCCTCACTTC TTGCAGGCTC CAGGAGACCT CATTGTTCAG
    GAAGGAAAGC TCTGCAGGAT GGACTGCAAG GTTAGTGGCT TGCCAACACC AGATCTCAGC
    TGGCAACTGA ATGGGAGACC TGTCCGTCCG GATAACTCGC ACAAAATGCT GGTGAGGGAG
    AATGGCGTTC ACTCATTGGT TATTGAACCT GTCACCACTA GAGATGCTGG AATATACACC
    TGCGTTGCCT CAAATCGTGC AGGGCAGAAC TCATTCACCT TGGAACTCAT TGTTGCAGCC
    AAGGATGCCC ATAAACCCCC TGTGTTTATA GATAAGCTTC AAAATACAGG CGTTGCGGAG
    GGATACCCTG TGAGGCTGGA GTGCCGTGTC AGCGGGATGC CCCCTCCACA GATATTCTGG
    AAGAAGGAGA ACGAATCGCT GACCTACAGC ACAGAAAGAG TCAGCATGCA TCAGGATAAC
    TATGGCTACC TGTGCCTACT AATTCAGGGT GCCACAAAGG AGGATGCTGG TTGGTATACT
    GTGTCAGCAA AGAATGAAGC TGGTATTGTG TCCTGTACTG CCAGACTGGA CGTACACACT
    CAGTGGCATC AACAGTCTCT TGCCCCAAAG ACAAGAAAGG TACGTCCATC AGCCAGTCGC
    TATGCAGCAC TTTCTGACCA AGGCCTGGAC ATCAAAGCTG CTTTCCTGCC CGAAGCAAAC
    CCTGTGCACT TACAGCCAGC ACTGGTAGAA AGTGAAGATC TGTAG

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

    CloneID OXa49812
    Clone ID Related Accession (Same CDS sequence) XM_031895456.1
    Accession Version XM_031895456.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3072bp)
    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 palladin isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) 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
    ATGCCGCAGG CACAAAAGAA AACATCTTCG GTTTCCTTGA CGATAGGCCC ATCTTCTCCA 
    AAATGTGGTA TAACAACTGC AGTAATGCAG CCAATTTCCA TACCTGTTCA GCAGGTCAGA
    AGTCCTACAT CCTACCTATA CCAAGACAGA TCCAAGACAC CCACTTTCTG TGCTCCAGCA
    TTTACAAAGG AGCTGCAAAA CCTGACAGCA TCGGAGGGGC AGGTTGTAGT TCTGGAGTGC
    AGAGTGAAGG GAACACCCCC TGTAAAGGTC AAATGGTTCA GACAAGGATC TGAAATACAG
    GATTCACCTG ACTTCAGAAT TCTACAGAAA AAACCTCGTT GTGCGTCGGA GCCTGAGGAG
    ATCTGTACCC TTGTCATAGC TGAGACTTTT CCAGAAGATG CGGGCATTTT CACTTGTACA
    GCAAGAAATG ATTATGGATC GGTTTCTTGC AGTGCTCAGC TAACAGTCCT CTCTGCAAAC
    AATACGCACA CTAGAAATAA TGTGTCAAGC GAAGAAATTA GTGGTTACGA TTCCCAGAAG
    CCGTCGCCAC TTTCTGCAGT TCCTAACAGT AGTTGTCTTG AAATGTCATC CAAGAAGAAT
    TCTGAGTGCT TTCAGACCAG CCAAACAGAC TCAGAAGCCA ACATGGAAAA AAGTCACTTC
    CAGTTCTATC CAGTGGAAAA CAATAGCAAT GGCTTACATG CTAATAATGG AGTTAATGGT
    GACAGCAATA ATGTGGACAG CAAATATATA TCTGTCACTT CTCCGTGCAC ATTTTCGCCA
    GTCAAGGAAC CACCCCCAGT GCCTGCAAAG CCAAAACTGG ATACTCAAAT AATACAGCAG
    CTGCAGAACC AGATACGTCT AGAGCAAGAA GGTGCCGTTT GGAAACAAGG AAGTGTTCAG
    CTAAATACGC CACCATCACC ATCTTTTCCT CCTCCACCGT CTTTCCAGGA GCTGGAGGCC
    AGTCAGCTTA TCACTTCCCC AGAGCAAATG AATGTCCTTA ACTCACATAA TTCTCCAATG
    CAGCCAGCAA GCTCATTCAA CTATGCCAGG CCTAAACAGT TTATTGCTGC TCAGAACATG
    AGCCCCACCT CAGGCTACAT TTCTCCATCT TCTGGTTCCT CTACTTCTAG CCTACCATCA
    CCAATGTCAC CCTCAACTCC TCAGAAGCAA TTCGGCAGGG CTCCAGTTCC TCCTTTCTCT
    CAGCCATTTC CCCAAGAGGG AGAACAGTTT TGGTCCCCAG CCTCATCATC TCCTCCGCCT
    CCCCCTCCTC CTGTTTTAAG TCCAACTGCA AATTATTCTG TTGTTGATGC ATTTCCACTT
    CCACCACCTC CACCACCACC ACTTCCAGTT TCTGTACTTT CACCTTCCTA TAGTCCATCA
    CCTTCACCAA CTGGCAGAGC GCCCAATTCC AGTCAGAGCC CAGCAGCTTT TATCAGTTCC
    ATGCTGCCTA CTCAGTCATC ACCAATTACT TTCAATGAAC TTGGGCTTCC TAAAGGTGTA
    ATGCCTCCTG GTTTCCCAAA GAAATCCAGC CGGACTGCTC GCATAGCATC AGATGAAGAG
    ATACAGGGCA CAAAGGATGC TGTCATACAA GATCTTGAGC GAAAGCTTCG TTTCAAAGAG
    GAGCTTCTGA ACAATGGCCA GCCGAAATTG ACTTATGAGG AGAAAATGGC TCGTCGGTTG
    CTTGGTGCTG ACAGTGCAGC AACAGTGTTT AACATCCAGG AACCAGAGGA GGATGGGAAT
    GCGCAGGAAG TTGACTCTCT TGATGCTTCT GTAGAAAGTC CTCTTGACAC TCAAAAGGAG
    TACAAAGTCT CCAGCTTTGA GCAGAGATTA ATTAGTGAAA TTGAGTACCG TTTGGAACGA
    TCCCCTGTGG AAGAGTCTGA TGAAGAGGTA GAGCATGGAG ATGAACCGGT GGATAACGGG
    GAAGCCCCAC AGTTTGAGAC AAAGCTAAAA CATTACAAAA TCTTTGAAGG AATGTCATCC
    ACATTCACTT GCAAGGTTAC AGGCAATCCA AAGCCCAAGA TATATTGGTT CAAAGATGGG
    AAACAAATCT CAAAAAGAAG CGAACACTAT AGGATTCAGA GAGAACCTGA CGGAACCTGC
    TCCCTTCATA CCTCAGCCTC CTCATTGGAT GATGATGGGA ATTACACTAT AATGGCAGCA
    AATCCACAGG GCAGAATAAG CTGTACTGGG AGGTTGATGG TACAAGCTGT AAACCAGAGA
    GGAAGGACTG CCCGTACTCC AACATCCCAG CTCCATGTTA GAAGACCTCG ATCTAGGTCA
    AGAGATAGTG GAGATGAAAA TGAGCCTATC CAAGAGAGAT TCTTCCGCCC TCACTTCTTG
    CAGGCTCCAG GAGACCTCAT TGTTCAGGAA GGAAAGCTCT GCAGGATGGA CTGCAAGGTT
    AGTGGCTTGC CAACACCAGA TCTCAGCTGG CAACTGAATG GGAGACCTGT CCGTCCGGAT
    AACTCGCACA AAATGCTGGT GAGGGAGAAT GGCGTTCACT CATTGGTTAT TGAACCTGTC
    ACCACTAGAG ATGCTGGAAT ATACACCTGC GTTGCCTCAA ATCGTGCAGG GCAGAACTCA
    TTCACCTTGG AACTCATTGT TGCAGCCAAG GATGCCCATA AACCCCCTGT GTTTATAGAT
    AAGCTTCAAA ATACAGGCGT TGCGGAGGGA TACCCTGTGA GGCTGGAGTG CCGTGTCAGC
    GGGATGCCCC CTCCACAGAT ATTCTGGAAG AAGGAGAACG AATCGCTGAC CTACAGCACA
    GAAAGAGTCA GCATGCATCA GGATAACTAT GGCTACCTGT GCCTACTAAT TCAGGGTGCC
    ACAAAGGAGG ATGCTGGTTG GTATACTGTG TCAGCAAAGA ATGAAGCTGG TATTGTGTCC
    TGTACTGCCA GACTGGACGT ACACACTCAG TGGCATCAAC AGTCTCTTGC CCCAAAGACA
    AGAAAGGTAC GTCCATCAGC CAGTCGCTAT GCAGCACTTT CTGACCAAGG CCTGGACATC
    AAAGCTGCTT TCCTGCCCGA AGCAAACCCT GTGCACTTAC AGCCAGCACT GGTAGAAAGT
    GAAGATCTGT AG

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

    RefSeq XP_031751316.1
    CDS544..3615
    Translation

    Target ORF information:

    RefSeq Version XM_031895456.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031895456.1

    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
    ATGCCGCAGG CACAAAAGAA AACATCTTCG GTTTCCTTGA CGATAGGCCC ATCTTCTCCA 
    AAATGTGGTA TAACAACTGC AGTAATGCAG CCAATTTCCA TACCTGTTCA GCAGGTCAGA
    AGTCCTACAT CCTACCTATA CCAAGACAGA TCCAAGACAC CCACTTTCTG TGCTCCAGCA
    TTTACAAAGG AGCTGCAAAA CCTGACAGCA TCGGAGGGGC AGGTTGTAGT TCTGGAGTGC
    AGAGTGAAGG GAACACCCCC TGTAAAGGTC AAATGGTTCA GACAAGGATC TGAAATACAG
    GATTCACCTG ACTTCAGAAT TCTACAGAAA AAACCTCGTT GTGCGTCGGA GCCTGAGGAG
    ATCTGTACCC TTGTCATAGC TGAGACTTTT CCAGAAGATG CGGGCATTTT CACTTGTACA
    GCAAGAAATG ATTATGGATC GGTTTCTTGC AGTGCTCAGC TAACAGTCCT CTCTGCAAAC
    AATACGCACA CTAGAAATAA TGTGTCAAGC GAAGAAATTA GTGGTTACGA TTCCCAGAAG
    CCGTCGCCAC TTTCTGCAGT TCCTAACAGT AGTTGTCTTG AAATGTCATC CAAGAAGAAT
    TCTGAGTGCT TTCAGACCAG CCAAACAGAC TCAGAAGCCA ACATGGAAAA AAGTCACTTC
    CAGTTCTATC CAGTGGAAAA CAATAGCAAT GGCTTACATG CTAATAATGG AGTTAATGGT
    GACAGCAATA ATGTGGACAG CAAATATATA TCTGTCACTT CTCCGTGCAC ATTTTCGCCA
    GTCAAGGAAC CACCCCCAGT GCCTGCAAAG CCAAAACTGG ATACTCAAAT AATACAGCAG
    CTGCAGAACC AGATACGTCT AGAGCAAGAA GGTGCCGTTT GGAAACAAGG AAGTGTTCAG
    CTAAATACGC CACCATCACC ATCTTTTCCT CCTCCACCGT CTTTCCAGGA GCTGGAGGCC
    AGTCAGCTTA TCACTTCCCC AGAGCAAATG AATGTCCTTA ACTCACATAA TTCTCCAATG
    CAGCCAGCAA GCTCATTCAA CTATGCCAGG CCTAAACAGT TTATTGCTGC TCAGAACATG
    AGCCCCACCT CAGGCTACAT TTCTCCATCT TCTGGTTCCT CTACTTCTAG CCTACCATCA
    CCAATGTCAC CCTCAACTCC TCAGAAGCAA TTCGGCAGGG CTCCAGTTCC TCCTTTCTCT
    CAGCCATTTC CCCAAGAGGG AGAACAGTTT TGGTCCCCAG CCTCATCATC TCCTCCGCCT
    CCCCCTCCTC CTGTTTTAAG TCCAACTGCA AATTATTCTG TTGTTGATGC ATTTCCACTT
    CCACCACCTC CACCACCACC ACTTCCAGTT TCTGTACTTT CACCTTCCTA TAGTCCATCA
    CCTTCACCAA CTGGCAGAGC GCCCAATTCC AGTCAGAGCC CAGCAGCTTT TATCAGTTCC
    ATGCTGCCTA CTCAGTCATC ACCAATTACT TTCAATGAAC TTGGGCTTCC TAAAGGTGTA
    ATGCCTCCTG GTTTCCCAAA GAAATCCAGC CGGACTGCTC GCATAGCATC AGATGAAGAG
    ATACAGGGCA CAAAGGATGC TGTCATACAA GATCTTGAGC GAAAGCTTCG TTTCAAAGAG
    GAGCTTCTGA ACAATGGCCA GCCGAAATTG ACTTATGAGG AGAAAATGGC TCGTCGGTTG
    CTTGGTGCTG ACAGTGCAGC AACAGTGTTT AACATCCAGG AACCAGAGGA GGATGGGAAT
    GCGCAGGAAG TTGACTCTCT TGATGCTTCT GTAGAAAGTC CTCTTGACAC TCAAAAGGAG
    TACAAAGTCT CCAGCTTTGA GCAGAGATTA ATTAGTGAAA TTGAGTACCG TTTGGAACGA
    TCCCCTGTGG AAGAGTCTGA TGAAGAGGTA GAGCATGGAG ATGAACCGGT GGATAACGGG
    GAAGCCCCAC AGTTTGAGAC AAAGCTAAAA CATTACAAAA TCTTTGAAGG AATGTCATCC
    ACATTCACTT GCAAGGTTAC AGGCAATCCA AAGCCCAAGA TATATTGGTT CAAAGATGGG
    AAACAAATCT CAAAAAGAAG CGAACACTAT AGGATTCAGA GAGAACCTGA CGGAACCTGC
    TCCCTTCATA CCTCAGCCTC CTCATTGGAT GATGATGGGA ATTACACTAT AATGGCAGCA
    AATCCACAGG GCAGAATAAG CTGTACTGGG AGGTTGATGG TACAAGCTGT AAACCAGAGA
    GGAAGGACTG CCCGTACTCC AACATCCCAG CTCCATGTTA GAAGACCTCG ATCTAGGTCA
    AGAGATAGTG GAGATGAAAA TGAGCCTATC CAAGAGAGAT TCTTCCGCCC TCACTTCTTG
    CAGGCTCCAG GAGACCTCAT TGTTCAGGAA GGAAAGCTCT GCAGGATGGA CTGCAAGGTT
    AGTGGCTTGC CAACACCAGA TCTCAGCTGG CAACTGAATG GGAGACCTGT CCGTCCGGAT
    AACTCGCACA AAATGCTGGT GAGGGAGAAT GGCGTTCACT CATTGGTTAT TGAACCTGTC
    ACCACTAGAG ATGCTGGAAT ATACACCTGC GTTGCCTCAA ATCGTGCAGG GCAGAACTCA
    TTCACCTTGG AACTCATTGT TGCAGCCAAG GATGCCCATA AACCCCCTGT GTTTATAGAT
    AAGCTTCAAA ATACAGGCGT TGCGGAGGGA TACCCTGTGA GGCTGGAGTG CCGTGTCAGC
    GGGATGCCCC CTCCACAGAT ATTCTGGAAG AAGGAGAACG AATCGCTGAC CTACAGCACA
    GAAAGAGTCA GCATGCATCA GGATAACTAT GGCTACCTGT GCCTACTAAT TCAGGGTGCC
    ACAAAGGAGG ATGCTGGTTG GTATACTGTG TCAGCAAAGA ATGAAGCTGG TATTGTGTCC
    TGTACTGCCA GACTGGACGT ACACACTCAG TGGCATCAAC AGTCTCTTGC CCCAAAGACA
    AGAAAGGTAC GTCCATCAGC CAGTCGCTAT GCAGCACTTT CTGACCAAGG CCTGGACATC
    AAAGCTGCTT TCCTGCCCGA AGCAAACCCT GTGCACTTAC AGCCAGCACT GGTAGAAAGT
    GAAGATCTGT AG

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

    CloneID OXa49810
    Clone ID Related Accession (Same CDS sequence) XM_018095837.2
    Accession Version XM_018095837.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5007bp)
    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 palladin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) 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_018095837.1. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GCAGAAAGTG TATTAAAGGG
    ATAGAGAACA GTTTTCAGAA AATTCACAGT CAATCCAACC TGCCTGAAGA AAAGGTTATC
    CATGGTACAG CCAATAAATC AGTTAATCCT CCGGCAGCTG CTCGATTTAT TCAGAAGCTC
    AGAAGCCAAG AAGTTGCTGA GGGAAGTAGA GTCAAACTAG AATGCAGAGC AACAGGAAAT
    CCGTTGCCAG AAATTAGGTG GTTCTGTGAA GGAAAGGAGC TGAGTAACTC ACCCGACATT
    CATATCTCAT CTGATAGCAA CGGTCTTCAC ACCCTAGTCA TCGCAGAGGC TTTTGAAGAA
    GACACAGGAC GATATACTTG TGTGGCATCC AATTGCCTTG GTTCTGACAC ATCATCAGCA
    GAAATATTTG TTGAAGGTGC CAGCTCATCA GACTCAGAAA GTGAAAGTTT TGCTTTTAAA
    TCAAAACAAG GAGCAATGCC GCAGGCACAA AAGAAAACAT CTTCGGTTTC CTTGACGATA
    GGCCCATCTT CTCCAAAATG TGGTATAACA ACTGCAGTAA TGCAGCCAAT TTCCATACCT
    GTTCAGCAGG TCAGAAGTCC TACATCCTAC CTATACCAAG ACAGATCCAA GACACCCACT
    TTCTGTGCTC CAGCATTTAC AAAGGAGCTG CAAAACCTGA CAGCATCGGA GGGGCAGGTT
    GTAGTTCTGG AGTGCAGAGT GAAGGGAACA CCCCCTGTAA AGGTCAAATG GTTCAGACAA
    GGATCTGAAA TACAGGATTC ACCTGACTTC AGAATTCTAC AGAAAAAACC TCGTTGTGCG
    TCGGAGCCTG AGGAGATCTG TACCCTTGTC ATAGCTGAGA CTTTTCCAGA AGATGCGGGC
    ATTTTCACTT GTACAGCAAG AAATGATTAT GGATCGGTTT CTTGCAGTGC TCAGCTAACA
    GTCCTCTCTG CAAACAATAC GCACACTAGA AATAATGTGT CAAGCGAAGA AATTAGTGGT
    TACGATTCCC AGAAGCCGTC GCCACTTTCT GCAGTTCCTA ACAGTAGTTG TCTTGAAATG
    TCATCCAAGA AGAATTCTGA GTGCTTTCAG ACCAGCCAAA CAGACTCAGA AGCCAACATG
    GAAAAAAGTC ACTTCCAGTT CTATCCAGTG GAAAACAATA GCAATGGCTT ACATGCTAAT
    AATGGAGTTA ATGGTGACAG CAATAATGTG GACAGCAAAT ATATATCTGT CACTTCTCCG
    TGCACATTTT CGCCAGTCAA GGAACCACCC CCAGTGCCTG CAAAGCCAAA ACTGGATACT
    CAAATAATAC AGCAGCTGCA GAACCAGATA CGTCTAGAGC AAGAAGGTGC CGTTTGGAAA
    CAAGGAAGTG TTCAGCTAAA TACGCCACCA TCACCATCTT TTCCTCCTCC ACCGTCTTTC
    CAGGAGCTGG AGGCCAGTCA GCTTATCACT TCCCCAGAGC AAATGAATGT CCTTAACTCA
    CATAATTCTC CAATGCAGCC AGCAAGCTCA TTCAACTATG CCAGGCCTAA ACAGTTTATT
    GCTGCTCAGA ACATGAGCCC CACCTCAGGC TACATTTCTC CATCTTCTGG TTCCTCTACT
    TCTAGCCTAC CATCACCAAT GTCACCCTCA ACTCCTCAGA AGCAATTCGG CAGGGCTCCA
    GTTCCTCCTT TCTCTCAGCC ATTTCCCCAA GAGGGAGAAC AGTTTTGGTC CCCAGCCTCA
    TCATCTCCTC CGCCTCCCCC TCCTCCTGTT TTAAGTCCAA CTGCAAATTA TTCTGTTGTT
    GATGCATTTC CACTTCCACC ACCTCCACCA CCACCACTTC CAGTTTCTGT ACTTTCACCT
    TCCTATAGTC CATCACCTTC ACCAACTGGC AGAGCGCCCA ATTCCAGTCA GAGCCCAGCA
    GCTTTTATCA GTTCCATGCT GCCTACTCAG TCATCACCAA TTACTTTCAA TGAACTTGGG
    CTTCCTAAAG GTGTAATGCC TCCTGGTTTC CCAAAGAAAT CCAGCCGGAC TGCTCGCATA
    GCATCAGATG AAGAGATACA GGGCACAAAG GATGCTGTCA TACAAGATCT TGAGCGAAAG
    CTTCGTTTCA AAGAGGAGCT TCTGAACAAT GGCCAGCCGA AATTGACTTA TGAGGAGAAA
    ATGGCTCGTC GGTTGCTTGG TGCTGACAGT GCAGCAACAG TGTTTAACAT CCAGGAACCA
    GAGGAGGATG GGAATGCGCA GGAAGTTGAC TCTCTTGATG CTTCTGTAGA AAGTCCTCTT
    GACACTCAAA AGGAGTACAA AGTCTCCAGC TTTGAGCAGA GATTAATTAG TGAAATTGAG
    TACCGTTTGG AACGATCCCC TGTGGAAGAG TCTGATGAAG AGGTAGAGCA TGGAGATGAA
    CCGGTGGATA ACGGGGAAGC CCCACAGTTT GAGACAAAGC TAAAACATTA CAAAATCTTT
    GAAGGAATGT CATCCACATT CACTTGCAAG GTTACAGGCA ATCCAAAGCC CAAGATATAT
    TGGTTCAAAG ATGGGAAACA AATCTCAAAA AGAAGCGAAC ACTATAGGAT TCAGAGAGAA
    CCTGACGGAA CCTGCTCCCT TCATACCTCA GCCTCCTCAT TGGATGATGA TGGGAATTAC
    ACTATAATGG CAGCAAATCC ACAGGGCAGA ATAAGCTGTA CTGGGAGGTT GATGGTACAA
    GCTGTAAACC AGAGAGGAAG GACTGCCCGT ACTCCAACAT CCCAGCTCCA TGTTAGAAGA
    CCTCGATCTA GGTCAAGAGA TAGTGGAGAT GAAAATGAGC CTATCCAAGA GAGATTCTTC
    CGCCCTCACT TCTTGCAGGC TCCAGGAGAC CTCATTGTTC AGGAAGGAAA GCTCTGCAGG
    ATGGACTGCA AGGTTAGTGG CTTGCCAACA CCAGATCTCA GCTGGCAACT GAATGGGAGA
    CCTGTCCGTC CGGATAACTC GCACAAAATG CTGGTGAGGG AGAATGGCGT TCACTCATTG
    GTTATTGAAC CTGTCACCAC TAGAGATGCT GGAATATACA CCTGCGTTGC CTCAAATCGT
    GCAGGGCAGA ACTCATTCAC CTTGGAACTC ATTGTTGCAG CCAAGGATGC CCATAAACCC
    CCTGTGTTTA TAGATAAGCT TCAAAATACA GGCGTTGCGG AGGGATACCC TGTGAGGCTG
    GAGTGCCGTG TCAGCGGGAT GCCCCCTCCA CAGATATTCT GGAAGAAGGA GAACGAATCG
    CTGACCTACA GCACAGAAAG AGTCAGCATG CATCAGGATA ACTATGGCTA CCTGTGCCTA
    CTAATTCAGG GTGCCACAAA GGAGGATGCT GGTTGGTATA CTGTGTCAGC AAAGAATGAA
    GCTGGTATTG TGTCCTGTAC TGCCAGACTG GACGTACACA CTCAGTGGCA TCAACAGTCT
    CTTGCCCCAA AGACAAGAAA GGTACGTCCA TCAGCCAGTC GCTATGCAGC ACTTTCTGAC
    CAAGGCCTGG ACATCAAAGC TGCTTTCCTG CCCGAAGCAA ACCCTGTGCA CTTACAGCCA
    GCACTGGTAG AAAGTGAAGA TCTGTAG

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

    RefSeq XP_017951326.2
    CDS124..5130
    Translation

    Target ORF information:

    RefSeq Version XM_018095837.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095837.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GCAGAAAGTG TATTAAAGGG
    ATAGAGAACA GTTTTCAGAA AATTCACAGT CAATCCAACC TGCCTGAAGA AAAGGTTATC
    CATGGTACAG CCAATAAATC AGTTAATCCT CCGGCAGCTG CTCGATTTAT TCAGAAGCTC
    AGAAGCCAAG AAGTTGCTGA GGGAAGTAGA GTCAAACTAG AATGCAGAGC AACAGGAAAT
    CCGTTGCCAG AAATTAGGTG GTTCTGTGAA GGAAAGGAGC TGAGTAACTC ACCCGACATT
    CATATCTCAT CTGATAGCAA CGGTCTTCAC ACCCTAGTCA TCGCAGAGGC TTTTGAAGAA
    GACACAGGAC GATATACTTG TGTGGCATCC AATTGCCTTG GTTCTGACAC ATCATCAGCA
    GAAATATTTG TTGAAGGTGC CAGCTCATCA GACTCAGAAA GTGAAAGTTT TGCTTTTAAA
    TCAAAACAAG GAGCAATGCC GCAGGCACAA AAGAAAACAT CTTCGGTTTC CTTGACGATA
    GGCCCATCTT CTCCAAAATG TGGTATAACA ACTGCAGTAA TGCAGCCAAT TTCCATACCT
    GTTCAGCAGG TCAGAAGTCC TACATCCTAC CTATACCAAG ACAGATCCAA GACACCCACT
    TTCTGTGCTC CAGCATTTAC AAAGGAGCTG CAAAACCTGA CAGCATCGGA GGGGCAGGTT
    GTAGTTCTGG AGTGCAGAGT GAAGGGAACA CCCCCTGTAA AGGTCAAATG GTTCAGACAA
    GGATCTGAAA TACAGGATTC ACCTGACTTC AGAATTCTAC AGAAAAAACC TCGTTGTGCG
    TCGGAGCCTG AGGAGATCTG TACCCTTGTC ATAGCTGAGA CTTTTCCAGA AGATGCGGGC
    ATTTTCACTT GTACAGCAAG AAATGATTAT GGATCGGTTT CTTGCAGTGC TCAGCTAACA
    GTCCTCTCTG CAAACAATAC GCACACTAGA AATAATGTGT CAAGCGAAGA AATTAGTGGT
    TACGATTCCC AGAAGCCGTC GCCACTTTCT GCAGTTCCTA ACAGTAGTTG TCTTGAAATG
    TCATCCAAGA AGAATTCTGA GTGCTTTCAG ACCAGCCAAA CAGACTCAGA AGCCAACATG
    GAAAAAAGTC ACTTCCAGTT CTATCCAGTG GAAAACAATA GCAATGGCTT ACATGCTAAT
    AATGGAGTTA ATGGTGACAG CAATAATGTG GACAGCAAAT ATATATCTGT CACTTCTCCG
    TGCACATTTT CGCCAGTCAA GGAACCACCC CCAGTGCCTG CAAAGCCAAA ACTGGATACT
    CAAATAATAC AGCAGCTGCA GAACCAGATA CGTCTAGAGC AAGAAGGTGC CGTTTGGAAA
    CAAGGAAGTG TTCAGCTAAA TACGCCACCA TCACCATCTT TTCCTCCTCC ACCGTCTTTC
    CAGGAGCTGG AGGCCAGTCA GCTTATCACT TCCCCAGAGC AAATGAATGT CCTTAACTCA
    CATAATTCTC CAATGCAGCC AGCAAGCTCA TTCAACTATG CCAGGCCTAA ACAGTTTATT
    GCTGCTCAGA ACATGAGCCC CACCTCAGGC TACATTTCTC CATCTTCTGG TTCCTCTACT
    TCTAGCCTAC CATCACCAAT GTCACCCTCA ACTCCTCAGA AGCAATTCGG CAGGGCTCCA
    GTTCCTCCTT TCTCTCAGCC ATTTCCCCAA GAGGGAGAAC AGTTTTGGTC CCCAGCCTCA
    TCATCTCCTC CGCCTCCCCC TCCTCCTGTT TTAAGTCCAA CTGCAAATTA TTCTGTTGTT
    GATGCATTTC CACTTCCACC ACCTCCACCA CCACCACTTC CAGTTTCTGT ACTTTCACCT
    TCCTATAGTC CATCACCTTC ACCAACTGGC AGAGCGCCCA ATTCCAGTCA GAGCCCAGCA
    GCTTTTATCA GTTCCATGCT GCCTACTCAG TCATCACCAA TTACTTTCAA TGAACTTGGG
    CTTCCTAAAG GTGTAATGCC TCCTGGTTTC CCAAAGAAAT CCAGCCGGAC TGCTCGCATA
    GCATCAGATG AAGAGATACA GGGCACAAAG GATGCTGTCA TACAAGATCT TGAGCGAAAG
    CTTCGTTTCA AAGAGGAGCT TCTGAACAAT GGCCAGCCGA AATTGACTTA TGAGGAGAAA
    ATGGCTCGTC GGTTGCTTGG TGCTGACAGT GCAGCAACAG TGTTTAACAT CCAGGAACCA
    GAGGAGGATG GGAATGCGCA GGAAGTTGAC TCTCTTGATG CTTCTGTAGA AAGTCCTCTT
    GACACTCAAA AGGAGTACAA AGTCTCCAGC TTTGAGCAGA GATTAATTAG TGAAATTGAG
    TACCGTTTGG AACGATCCCC TGTGGAAGAG TCTGATGAAG AGGTAGAGCA TGGAGATGAA
    CCGGTGGATA ACGGGGAAGC CCCACAGTTT GAGACAAAGC TAAAACATTA CAAAATCTTT
    GAAGGAATGT CATCCACATT CACTTGCAAG GTTACAGGCA ATCCAAAGCC CAAGATATAT
    TGGTTCAAAG ATGGGAAACA AATCTCAAAA AGAAGCGAAC ACTATAGGAT TCAGAGAGAA
    CCTGACGGAA CCTGCTCCCT TCATACCTCA GCCTCCTCAT TGGATGATGA TGGGAATTAC
    ACTATAATGG CAGCAAATCC ACAGGGCAGA ATAAGCTGTA CTGGGAGGTT GATGGTACAA
    GCTGTAAACC AGAGAGGAAG GACTGCCCGT ACTCCAACAT CCCAGCTCCA TGTTAGAAGA
    CCTCGATCTA GGTCAAGAGA TAGTGGAGAT GAAAATGAGC CTATCCAAGA GAGATTCTTC
    CGCCCTCACT TCTTGCAGGC TCCAGGAGAC CTCATTGTTC AGGAAGGAAA GCTCTGCAGG
    ATGGACTGCA AGGTTAGTGG CTTGCCAACA CCAGATCTCA GCTGGCAACT GAATGGGAGA
    CCTGTCCGTC CGGATAACTC GCACAAAATG CTGGTGAGGG AGAATGGCGT TCACTCATTG
    GTTATTGAAC CTGTCACCAC TAGAGATGCT GGAATATACA CCTGCGTTGC CTCAAATCGT
    GCAGGGCAGA ACTCATTCAC CTTGGAACTC ATTGTTGCAG CCAAGGATGC CCATAAACCC
    CCTGTGTTTA TAGATAAGCT TCAAAATACA GGCGTTGCGG AGGGATACCC TGTGAGGCTG
    GAGTGCCGTG TCAGCGGGAT GCCCCCTCCA CAGATATTCT GGAAGAAGGA GAACGAATCG
    CTGACCTACA GCACAGAAAG AGTCAGCATG CATCAGGATA ACTATGGCTA CCTGTGCCTA
    CTAATTCAGG GTGCCACAAA GGAGGATGCT GGTTGGTATA CTGTGTCAGC AAAGAATGAA
    GCTGGTATTG TGTCCTGTAC TGCCAGACTG GACGTACACA CTCAGTGGCA TCAACAGTCT
    CTTGCCCCAA AGACAAGAAA GGTACGTCCA TCAGCCAGTC GCTATGCAGC ACTTTCTGAC
    CAAGGCCTGG ACATCAAAGC TGCTTTCCTG CCCGAAGCAA ACCCTGTGCA CTTACAGCCA
    GCACTGGTAG AAAGTGAAGA TCTGTAG

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

    CloneID OXa49811
    Clone ID Related Accession (Same CDS sequence) XM_018095839.2
    Accession Version XM_018095839.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4956bp)
    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 palladin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018095839.1. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GCAGAAAGTG TATTAAAGGG
    ATAGAGAACA GTTTTCAGAA AATTCACAGT CAATCCAACC TGCCTGAAGA AAAGGTTATC
    CATGGTACAG CCAATAAATC AGTTAATCCT CCGGCAGCTG CTCGATTTAT TCAGAAGCTC
    AGAAGCCAAG AAGTTGCTGA GGGAAGTAGA GTCAAACTAG AATGCAGAGC AACAGGAAAT
    CCGTTGCCAG AAATTAGGTG GTTCTGTGAA GGAAAGGAGC TGAGTAACTC ACCCGACATT
    CATATCTCAT CTGATAGCAA CGGTCTTCAC ACCCTAGTCA TCGCAGAGGC TTTTGAAGAA
    GACACAGGAC GATATACTTG TGTGGCATCC AATTGCCTTG GTTCTGACAC ATCATCAGCA
    GAAATATTTG TTGAAGGTGC CAGCTCATCA GACTCAGAAA GTGAAAGTTT TGCTTTTAAA
    TCAAAACAAG GAGCAATGCC GCAGGCACAA AAGAAAACAT CTTCGGTTTC CTTGACGATA
    GGCCCATCTT CTCCAAAATG TGGTATAACA ACTGCAGTAA TGCAGCCAAT TTCCATACCT
    GTTCAGCAGG TCAGAAGTCC TACATCCTAC CTATACCAAG ACAGATCCAA GACACCCACT
    TTCTGTGCTC CAGCATTTAC AAAGGAGCTG CAAAACCTGA CAGCATCGGA GGGGCAGGTT
    GTAGTTCTGG AGTGCAGAGT GAAGGGAACA CCCCCTGTAA AGGTCAAATG GTTCAGACAA
    GGATCTGAAA TACAGGATTC ACCTGACTTC AGAATTCTAC AGAAAAAACC TCGTTGTGCG
    TCGGAGCCTG AGGAGATCTG TACCCTTGTC ATAGCTGAGA CTTTTCCAGA AGATGCGGGC
    ATTTTCACTT GTACAGCAAG AAATGATTAT GGATCGGTTT CTTGCAGTGC TCAGCTAACA
    GTCCTCTCTG CAAACAATAC GCACACTAGA AATAATGTGT CAAGCGAAGA AATTAGTGGT
    TACGATTCCC AGAAGCCGTC GCCACTTTCT GCAGTTCCTA ACAGTAGTTG TCTTGAAATG
    TCATCCAAGA AGAATTCTGA GTGCTTTCAG ACCAGCCAAA CAGACTCAGA AGCCAACATG
    GAAAAAAGTC ACTTCCAGTT CTATCCAGTG GAAAACAATA GCAATGGCTT ACATGCTAAT
    AATGGAGTTA ATGGTGACAG CAATAATGTG GACAGCAAAT ATATATCTGT CACTTCTCCG
    TGCACATTTT CGCCAGTCAA GGAACCACCC CCAGTGCCTG CAAAGCCAAA ACTGGATACT
    CAAATAATAC AGCAGCTGCA GAACCAGATA CGTCTAGAGC AAGAAGGTGC CGTTTGGAAA
    CAAGGAAGTG TTCAGCTAAA TACGCCACCA TCACCATCTT TTCCTCCTCC ACCGTCTTTC
    CAGGAGCTGG AGGCCAGTCA GCTTATCACT TCCCCAGAGC AAATGAATGT CCTTAACTCA
    CATAATTCTC CAATGCAGCC AGCAAGCTCA TTCAACTATG CCAGGCCTAA ACAGTTTATT
    GCTGCTCAGA ACATGAGCCC CACCTCAGGC TACATTTCTC CATCTTCTGG TTCCTCTACT
    TCTAGCCTAC CATCACCAAT GTCACCCTCA ACTCCTCAGA AGCAATTCGG CAGGGCTCCA
    GTTCCTCCTT TCTCTCAGCC ATTTCCCCAA GAGGGAGAAC AGTTTTGGTC CCCAGCCTCA
    TCATCTCCTC CGCCTCCCCC TCCTCCTGTT TTAAGTCCAA CTGCAAATTA TTCTGTTGTT
    GATGCATTTC CACTTCCACC ACCTCCACCA CCACCACTTC CAGTTTCTGT ACTTTCACCT
    TCCTATAGTC CATCACCTTC ACCAACTGGC AGAGCGCCCA ATTCCAGTCA GAGCCCAGCA
    GCTTTTATCA GTTCCATGCT GCCTACTCAG TCATCACCAA TTACTTTCAA TGAACTTGGG
    CTTCCTAAAG GTGTAATGCC TCCTGGTTTC CCAAAGAAAT CCAGCCGGAC TGCTCGCATA
    GCATCAGATG AAGAGATACA GGGCACAAAG GATGCTGTCA TACAAGATCT TGAGCGAAAG
    CTTCGTTTCA AAGAGGAGCT TCTGAACAAT GGCCAGCCGA AATTGACTTA TGAGGAGAAA
    ATGGCTCGTC GGTTGCTTGG TGCTGACAGT GCAGCAACAG TGTTTAACAT CCAGGAACCA
    GAGGAGGATG GGAATGCGCA GGAGTACAAA GTCTCCAGCT TTGAGCAGAG ATTAATTAGT
    GAAATTGAGT ACCGTTTGGA ACGATCCCCT GTGGAAGAGT CTGATGAAGA GGTAGAGCAT
    GGAGATGAAC CGGTGGATAA CGGGGAAGCC CCACAGTTTG AGACAAAGCT AAAACATTAC
    AAAATCTTTG AAGGAATGTC ATCCACATTC ACTTGCAAGG TTACAGGCAA TCCAAAGCCC
    AAGATATATT GGTTCAAAGA TGGGAAACAA ATCTCAAAAA GAAGCGAACA CTATAGGATT
    CAGAGAGAAC CTGACGGAAC CTGCTCCCTT CATACCTCAG CCTCCTCATT GGATGATGAT
    GGGAATTACA CTATAATGGC AGCAAATCCA CAGGGCAGAA TAAGCTGTAC TGGGAGGTTG
    ATGGTACAAG CTGTAAACCA GAGAGGAAGG ACTGCCCGTA CTCCAACATC CCAGCTCCAT
    GTTAGAAGAC CTCGATCTAG GTCAAGAGAT AGTGGAGATG AAAATGAGCC TATCCAAGAG
    AGATTCTTCC GCCCTCACTT CTTGCAGGCT CCAGGAGACC TCATTGTTCA GGAAGGAAAG
    CTCTGCAGGA TGGACTGCAA GGTTAGTGGC TTGCCAACAC CAGATCTCAG CTGGCAACTG
    AATGGGAGAC CTGTCCGTCC GGATAACTCG CACAAAATGC TGGTGAGGGA GAATGGCGTT
    CACTCATTGG TTATTGAACC TGTCACCACT AGAGATGCTG GAATATACAC CTGCGTTGCC
    TCAAATCGTG CAGGGCAGAA CTCATTCACC TTGGAACTCA TTGTTGCAGC CAAGGATGCC
    CATAAACCCC CTGTGTTTAT AGATAAGCTT CAAAATACAG GCGTTGCGGA GGGATACCCT
    GTGAGGCTGG AGTGCCGTGT CAGCGGGATG CCCCCTCCAC AGATATTCTG GAAGAAGGAG
    AACGAATCGC TGACCTACAG CACAGAAAGA GTCAGCATGC ATCAGGATAA CTATGGCTAC
    CTGTGCCTAC TAATTCAGGG TGCCACAAAG GAGGATGCTG GTTGGTATAC TGTGTCAGCA
    AAGAATGAAG CTGGTATTGT GTCCTGTACT GCCAGACTGG ACGTACACAC TCAGTGGCAT
    CAACAGTCTC TTGCCCCAAA GACAAGAAAG GTACGTCCAT CAGCCAGTCG CTATGCAGCA
    CTTTCTGACC AAGGCCTGGA CATCAAAGCT GCTTTCCTGC CCGAAGCAAA CCCTGTGCAC
    TTACAGCCAG CACTGGTAGA AAGTGAAGAT CTGTAG

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

    RefSeq XP_017951328.2
    CDS123..5078
    Translation

    Target ORF information:

    RefSeq Version XM_018095839.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095839.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GCAGAAAGTG TATTAAAGGG
    ATAGAGAACA GTTTTCAGAA AATTCACAGT CAATCCAACC TGCCTGAAGA AAAGGTTATC
    CATGGTACAG CCAATAAATC AGTTAATCCT CCGGCAGCTG CTCGATTTAT TCAGAAGCTC
    AGAAGCCAAG AAGTTGCTGA GGGAAGTAGA GTCAAACTAG AATGCAGAGC AACAGGAAAT
    CCGTTGCCAG AAATTAGGTG GTTCTGTGAA GGAAAGGAGC TGAGTAACTC ACCCGACATT
    CATATCTCAT CTGATAGCAA CGGTCTTCAC ACCCTAGTCA TCGCAGAGGC TTTTGAAGAA
    GACACAGGAC GATATACTTG TGTGGCATCC AATTGCCTTG GTTCTGACAC ATCATCAGCA
    GAAATATTTG TTGAAGGTGC CAGCTCATCA GACTCAGAAA GTGAAAGTTT TGCTTTTAAA
    TCAAAACAAG GAGCAATGCC GCAGGCACAA AAGAAAACAT CTTCGGTTTC CTTGACGATA
    GGCCCATCTT CTCCAAAATG TGGTATAACA ACTGCAGTAA TGCAGCCAAT TTCCATACCT
    GTTCAGCAGG TCAGAAGTCC TACATCCTAC CTATACCAAG ACAGATCCAA GACACCCACT
    TTCTGTGCTC CAGCATTTAC AAAGGAGCTG CAAAACCTGA CAGCATCGGA GGGGCAGGTT
    GTAGTTCTGG AGTGCAGAGT GAAGGGAACA CCCCCTGTAA AGGTCAAATG GTTCAGACAA
    GGATCTGAAA TACAGGATTC ACCTGACTTC AGAATTCTAC AGAAAAAACC TCGTTGTGCG
    TCGGAGCCTG AGGAGATCTG TACCCTTGTC ATAGCTGAGA CTTTTCCAGA AGATGCGGGC
    ATTTTCACTT GTACAGCAAG AAATGATTAT GGATCGGTTT CTTGCAGTGC TCAGCTAACA
    GTCCTCTCTG CAAACAATAC GCACACTAGA AATAATGTGT CAAGCGAAGA AATTAGTGGT
    TACGATTCCC AGAAGCCGTC GCCACTTTCT GCAGTTCCTA ACAGTAGTTG TCTTGAAATG
    TCATCCAAGA AGAATTCTGA GTGCTTTCAG ACCAGCCAAA CAGACTCAGA AGCCAACATG
    GAAAAAAGTC ACTTCCAGTT CTATCCAGTG GAAAACAATA GCAATGGCTT ACATGCTAAT
    AATGGAGTTA ATGGTGACAG CAATAATGTG GACAGCAAAT ATATATCTGT CACTTCTCCG
    TGCACATTTT CGCCAGTCAA GGAACCACCC CCAGTGCCTG CAAAGCCAAA ACTGGATACT
    CAAATAATAC AGCAGCTGCA GAACCAGATA CGTCTAGAGC AAGAAGGTGC CGTTTGGAAA
    CAAGGAAGTG TTCAGCTAAA TACGCCACCA TCACCATCTT TTCCTCCTCC ACCGTCTTTC
    CAGGAGCTGG AGGCCAGTCA GCTTATCACT TCCCCAGAGC AAATGAATGT CCTTAACTCA
    CATAATTCTC CAATGCAGCC AGCAAGCTCA TTCAACTATG CCAGGCCTAA ACAGTTTATT
    GCTGCTCAGA ACATGAGCCC CACCTCAGGC TACATTTCTC CATCTTCTGG TTCCTCTACT
    TCTAGCCTAC CATCACCAAT GTCACCCTCA ACTCCTCAGA AGCAATTCGG CAGGGCTCCA
    GTTCCTCCTT TCTCTCAGCC ATTTCCCCAA GAGGGAGAAC AGTTTTGGTC CCCAGCCTCA
    TCATCTCCTC CGCCTCCCCC TCCTCCTGTT TTAAGTCCAA CTGCAAATTA TTCTGTTGTT
    GATGCATTTC CACTTCCACC ACCTCCACCA CCACCACTTC CAGTTTCTGT ACTTTCACCT
    TCCTATAGTC CATCACCTTC ACCAACTGGC AGAGCGCCCA ATTCCAGTCA GAGCCCAGCA
    GCTTTTATCA GTTCCATGCT GCCTACTCAG TCATCACCAA TTACTTTCAA TGAACTTGGG
    CTTCCTAAAG GTGTAATGCC TCCTGGTTTC CCAAAGAAAT CCAGCCGGAC TGCTCGCATA
    GCATCAGATG AAGAGATACA GGGCACAAAG GATGCTGTCA TACAAGATCT TGAGCGAAAG
    CTTCGTTTCA AAGAGGAGCT TCTGAACAAT GGCCAGCCGA AATTGACTTA TGAGGAGAAA
    ATGGCTCGTC GGTTGCTTGG TGCTGACAGT GCAGCAACAG TGTTTAACAT CCAGGAACCA
    GAGGAGGATG GGAATGCGCA GGAGTACAAA GTCTCCAGCT TTGAGCAGAG ATTAATTAGT
    GAAATTGAGT ACCGTTTGGA ACGATCCCCT GTGGAAGAGT CTGATGAAGA GGTAGAGCAT
    GGAGATGAAC CGGTGGATAA CGGGGAAGCC CCACAGTTTG AGACAAAGCT AAAACATTAC
    AAAATCTTTG AAGGAATGTC ATCCACATTC ACTTGCAAGG TTACAGGCAA TCCAAAGCCC
    AAGATATATT GGTTCAAAGA TGGGAAACAA ATCTCAAAAA GAAGCGAACA CTATAGGATT
    CAGAGAGAAC CTGACGGAAC CTGCTCCCTT CATACCTCAG CCTCCTCATT GGATGATGAT
    GGGAATTACA CTATAATGGC AGCAAATCCA CAGGGCAGAA TAAGCTGTAC TGGGAGGTTG
    ATGGTACAAG CTGTAAACCA GAGAGGAAGG ACTGCCCGTA CTCCAACATC CCAGCTCCAT
    GTTAGAAGAC CTCGATCTAG GTCAAGAGAT AGTGGAGATG AAAATGAGCC TATCCAAGAG
    AGATTCTTCC GCCCTCACTT CTTGCAGGCT CCAGGAGACC TCATTGTTCA GGAAGGAAAG
    CTCTGCAGGA TGGACTGCAA GGTTAGTGGC TTGCCAACAC CAGATCTCAG CTGGCAACTG
    AATGGGAGAC CTGTCCGTCC GGATAACTCG CACAAAATGC TGGTGAGGGA GAATGGCGTT
    CACTCATTGG TTATTGAACC TGTCACCACT AGAGATGCTG GAATATACAC CTGCGTTGCC
    TCAAATCGTG CAGGGCAGAA CTCATTCACC TTGGAACTCA TTGTTGCAGC CAAGGATGCC
    CATAAACCCC CTGTGTTTAT AGATAAGCTT CAAAATACAG GCGTTGCGGA GGGATACCCT
    GTGAGGCTGG AGTGCCGTGT CAGCGGGATG CCCCCTCCAC AGATATTCTG GAAGAAGGAG
    AACGAATCGC TGACCTACAG CACAGAAAGA GTCAGCATGC ATCAGGATAA CTATGGCTAC
    CTGTGCCTAC TAATTCAGGG TGCCACAAAG GAGGATGCTG GTTGGTATAC TGTGTCAGCA
    AAGAATGAAG CTGGTATTGT GTCCTGTACT GCCAGACTGG ACGTACACAC TCAGTGGCAT
    CAACAGTCTC TTGCCCCAAA GACAAGAAAG GTACGTCCAT CAGCCAGTCG CTATGCAGCA
    CTTTCTGACC AAGGCCTGGA CATCAAAGCT GCTTTCCTGC CCGAAGCAAA CCCTGTGCAC
    TTACAGCCAG CACTGGTAGA AAGTGAAGAT CTGTAG

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

    CloneID OXa04647
    Clone ID Related Accession (Same CDS sequence) XM_018095837.1
    Accession Version XM_018095837.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5091bp)
    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 palladin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GTAGACAGTG TATTAAAGGG
    ATGGAGAACA GTTTTCATGA AATCCAGAGC CTATCCAACC AGCCTGAAGA AAAGGTTATC
    CAGGGTAGAA AGTGTATTAA AGGGATAGAG AACAGTTTTC AGAAAATTCA CAGTCAATCC
    AACCTGCCTG AAGAAAAGGT TATCCATGGT ACAGCCAATA AATCAGTTAA TCCTCCGGCA
    GCTGCTCGAT TTATTCAGAA GCTCAGAAGC CAAGAAGTTG CTGAGGGAAG TAGAGTCAAA
    CTAGAATGCA GAGCAACAGG AAATCCGTTG CCAGAAATTA GGTGGTTCTG TGAAGGAAAG
    GAGCTGAGTA ACTCACCCGA CATTCATATC TCATCTGATA GCAACGGTCT TCACACCCTA
    GTCATCGCAG AGGCTTTTGA AGAAGACACA GGACGATATA CTTGTGTGGC ATCCAATTGC
    CTTGGTTCTG ACACATCATC AGCAGAAATA TTTGTTGAAG GTGCCAGCTC ATCAGACTCA
    GAAAGTGAAA GTTTTGCTTT TAAATCAAAA CAAGGAGCAA TGCCGCAGGC ACAAAAGAAA
    ACATCTTCGG TTTCCTTGAC GATAGGCCCA TCTTCTCCAA AATGTGGTAT AACAACTGCA
    GTAATGCAGC CAATTTCCAT ACCTGTTCAG CAGGTCAGAA GTCCTACATC CTACCTATAC
    CAAGACAGAT CCAAGACACC CACTTTCTGT GCTCCAGCAT TTACAAAGGA GATGCAAAAC
    CTGACAGCAT CGGAGGGACA GGTTGTAGTT CTGGAGTGCA GAGTGAAGGG AACACCCCCT
    GTAAAGGTCA AATGGTTCAG ACAAGGATCT GAAATACAGG ATTCACCTGA CTTCAGAATT
    CTACAGAAAA AACCTCGTTG TGCGTCGGAG CCTGAGGAGA TCTGTACCCT TGTCATAGCT
    GAGACTTTTC CAGAAGATGC GGGCATTTTC ACTTGTACAG CAAGAAATGA TTATGGATCG
    GTTTCTTGCA GTGCTCAGCT AACAGTCCTC TCTGCAAACA ATACGCACAC TAGAAATAAT
    GTGTCAAGCG AAGAAATTAG TGGTTACGAT TCCCAGAAGC CGTCGCCACT TTCTGCAGTT
    CCTAACAGTA GTTGTCTTGA AATGTCATCC AAGAAGAATT CTGAGAGCTT TCAGACCAGC
    CAAACAGACT CAGAAGCCAA CATGGAAAAA AGTCACTTCC AGTTCTATCC AGTGGAAAAC
    AATAGCAATG GCTTACATGC TAATAATGGA GTTAATGGTG ACAGCAATAA TGTGGACAGC
    AAATATATAT CTGTCACTTC TCCGTGCACA TTTTCGCCAG TCAAGGAACC ACCCCCAGTG
    CCTGCAAAGC CAAAACTGGA TACTCAAATA ATACAGCAGC TGCAGAACCA GATACGTCTA
    GAGCAAGAAG GTGCCGTTTG GAAACAAGGA AGTGTTCAGC TAAATACGCC ACCATCACCA
    TCTTTTCCTC CTCCACCGTC TTTCCAGGAG CTGGAGGCCA GTCAGCTTAT CACTTCCCCA
    GAGCAAATGA ATGTCCTTAA CTCACATAAT TCTCCAATGC AGCCAGCAAG CTCATTCAAC
    TATGCCAGGC CTAAACAGTT TATTGCTGCT CAGAACATGA GCCCCACCTC AGGCTACATT
    TCTCCATCTT CTGGTTCCTC TACTTCTAGC CTACCATCAC CAATGTCACC CTCAACTCCT
    CAGAAGCAAT TCGGCAGGGC TCCAGTTCCT CCTTTCTCTC AGCCATTTCC CCAAGAGGGA
    GAACAGTTTT GGTCCCCAGC CTCATCATCT CCTCCGCCTC CCCCTCCTCC TGTTTTAAGT
    CCAACTGCAA ATTATTCTGT TGTTGATGCA TTTCCACTTC CACCACCTCC ACCACCACCA
    CTTCCAGTTT CTGTACTTTC ACCTTCCTAT AGTCCATCAC CTTCACCAAC TGGCAGAGCG
    CCCAATTCCA GTCAGAGCCC AGCAGCTTTT ATCAGTTCCA TGCTGCCTAC TCAGTCATCA
    CCAATTACTT TCAATGAACT TGGGCTTCCT AAAGGTGTAA TGCCTCCTGG TTTCCCAAAG
    AAATCCAGCC GGACTGCTCG CATAGCATCA GATGAAGAGA TACAGGGCAC AAAGGATGCT
    GTCATACAAG ATCTTGAGCG AAAGCTTCGT TTCAAAGAGG AGCTTCTGAA CAATGGCCAG
    CCGAAATTGA CTTATGAGGA GAAAATGGCT CGTCGGTTGC TTGGTGCTGA CAGTGCAGCA
    ACAGTGTTTA ACATCCAGGA ACCAGAGGAG GATGGGAATG CGCAGGAAGT TGACTCTCTT
    GATGCTTCTG TAGAAAGTCC TCTTGACACT CAAAAGGAGT ACAAAGTCTC CAGCTTTGAG
    CAGAGATTAA TTAGTGAAAT TGAGTACCGT TTGGAACGAT CCCCTGTGGA AGAGTCTGAT
    GAAGAGGTAG AGCATGGAGA TGAACCGGTG GATAACGGGG AAGCCCCACA GTTTGAGACA
    AAGCTAAAAC ATTACAAAAT CTTTGAAGGA ATGCCATCCA CATTCACTTG CAAGGTTACA
    GGCAATCCAA AGCCCAAGAT ATATTGGTTC AAAGATGGGA AACAAATCTC AAAAAGAAGC
    GAACACTATA GGATTCAGAG AGAACCTGAT GGAACCTGCT CCCTTCATAC CTCAGCCTCC
    TCATTGGATG ATGATGGGAA TTACACTATA ATGGCAGCAA ATCCACAGGG CAGAATAAGC
    TGTACTGGGA GGTTGATGGT ACAAGCTGTA AACCAGAGAG GAAGGACTGC CCGTACTCCA
    ACATCCCAGC TCCATGTTAG AAGACCTCGA TCTAGGTCAA GAGATAGTGG AGATGAAAAT
    GAGCCTATCC AAGAGAGATT CTTCCGCCCT CACTTCTTGC AGGCTCCAGG AGACCTCATT
    GTTCAGGAAG GAAAGCTCTG CAGGATGGAC TGCAAGGTTA GTGGCTTGCC AACACCAGAT
    CTCAGCTGGC AACTGAATGG GAGACCTGTC CGTCCGGATA ACTCGCACAA AATGCTGGTG
    AGGGAGAATG GCGTTCACTC ATTGGTTATT GAACCTGTCA CCACTAGAGA TGCTGGAATA
    TACACCTGCG TTGCCTCAAA TCGTGCAGGG CAGAACTCAT TCACCTTGGA ACTCATTGTT
    GCAGCCAAGG ATGCCCATAA ACCCCCTGTG TTTATAGATA AGCTTCAAAA TACAGGCGTT
    GCGGAGGGAT ACCCTGTGAG GCTGGAGTGC CGTGTCAGCG GGATGCCCCC TCCACAGATA
    TTCTGGAAGA AGGAGAACGA ATCGCTGACC TACAGCACAG AAAGAGTCAG CATGCATCAG
    GATAACTATG GCTACCTGTG CCTACTAATT CAGGGTGCCA CAAAGGAGGA TGCTGGTTGG
    TATACTGTGT CAGCAAAGAA TGAAGCTGGT ATTGTGTCCT GTACTGCCAG ACTGGACGTA
    CACACTCAGT GGCATCAACA GTCTCTTGCC CCAAAGACAA GAAAGGTACG TCCATCAGCC
    AGTCGCTATG CAGCACTTTC TGACCAAGGC CTGGACATCA AAGCTGCTTT CCTGCCCGAA
    GCAAACCCTG TGCACTTACA GCCAGCACTG GTAGAAAGTG AAGATCTGTA G

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

    RefSeq XP_017951326.1
    CDS11..5101
    Translation

    Target ORF information:

    RefSeq Version XM_018095837.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095837.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GTAGACAGTG TATTAAAGGG
    ATGGAGAACA GTTTTCATGA AATCCAGAGC CTATCCAACC AGCCTGAAGA AAAGGTTATC
    CAGGGTAGAA AGTGTATTAA AGGGATAGAG AACAGTTTTC AGAAAATTCA CAGTCAATCC
    AACCTGCCTG AAGAAAAGGT TATCCATGGT ACAGCCAATA AATCAGTTAA TCCTCCGGCA
    GCTGCTCGAT TTATTCAGAA GCTCAGAAGC CAAGAAGTTG CTGAGGGAAG TAGAGTCAAA
    CTAGAATGCA GAGCAACAGG AAATCCGTTG CCAGAAATTA GGTGGTTCTG TGAAGGAAAG
    GAGCTGAGTA ACTCACCCGA CATTCATATC TCATCTGATA GCAACGGTCT TCACACCCTA
    GTCATCGCAG AGGCTTTTGA AGAAGACACA GGACGATATA CTTGTGTGGC ATCCAATTGC
    CTTGGTTCTG ACACATCATC AGCAGAAATA TTTGTTGAAG GTGCCAGCTC ATCAGACTCA
    GAAAGTGAAA GTTTTGCTTT TAAATCAAAA CAAGGAGCAA TGCCGCAGGC ACAAAAGAAA
    ACATCTTCGG TTTCCTTGAC GATAGGCCCA TCTTCTCCAA AATGTGGTAT AACAACTGCA
    GTAATGCAGC CAATTTCCAT ACCTGTTCAG CAGGTCAGAA GTCCTACATC CTACCTATAC
    CAAGACAGAT CCAAGACACC CACTTTCTGT GCTCCAGCAT TTACAAAGGA GATGCAAAAC
    CTGACAGCAT CGGAGGGACA GGTTGTAGTT CTGGAGTGCA GAGTGAAGGG AACACCCCCT
    GTAAAGGTCA AATGGTTCAG ACAAGGATCT GAAATACAGG ATTCACCTGA CTTCAGAATT
    CTACAGAAAA AACCTCGTTG TGCGTCGGAG CCTGAGGAGA TCTGTACCCT TGTCATAGCT
    GAGACTTTTC CAGAAGATGC GGGCATTTTC ACTTGTACAG CAAGAAATGA TTATGGATCG
    GTTTCTTGCA GTGCTCAGCT AACAGTCCTC TCTGCAAACA ATACGCACAC TAGAAATAAT
    GTGTCAAGCG AAGAAATTAG TGGTTACGAT TCCCAGAAGC CGTCGCCACT TTCTGCAGTT
    CCTAACAGTA GTTGTCTTGA AATGTCATCC AAGAAGAATT CTGAGAGCTT TCAGACCAGC
    CAAACAGACT CAGAAGCCAA CATGGAAAAA AGTCACTTCC AGTTCTATCC AGTGGAAAAC
    AATAGCAATG GCTTACATGC TAATAATGGA GTTAATGGTG ACAGCAATAA TGTGGACAGC
    AAATATATAT CTGTCACTTC TCCGTGCACA TTTTCGCCAG TCAAGGAACC ACCCCCAGTG
    CCTGCAAAGC CAAAACTGGA TACTCAAATA ATACAGCAGC TGCAGAACCA GATACGTCTA
    GAGCAAGAAG GTGCCGTTTG GAAACAAGGA AGTGTTCAGC TAAATACGCC ACCATCACCA
    TCTTTTCCTC CTCCACCGTC TTTCCAGGAG CTGGAGGCCA GTCAGCTTAT CACTTCCCCA
    GAGCAAATGA ATGTCCTTAA CTCACATAAT TCTCCAATGC AGCCAGCAAG CTCATTCAAC
    TATGCCAGGC CTAAACAGTT TATTGCTGCT CAGAACATGA GCCCCACCTC AGGCTACATT
    TCTCCATCTT CTGGTTCCTC TACTTCTAGC CTACCATCAC CAATGTCACC CTCAACTCCT
    CAGAAGCAAT TCGGCAGGGC TCCAGTTCCT CCTTTCTCTC AGCCATTTCC CCAAGAGGGA
    GAACAGTTTT GGTCCCCAGC CTCATCATCT CCTCCGCCTC CCCCTCCTCC TGTTTTAAGT
    CCAACTGCAA ATTATTCTGT TGTTGATGCA TTTCCACTTC CACCACCTCC ACCACCACCA
    CTTCCAGTTT CTGTACTTTC ACCTTCCTAT AGTCCATCAC CTTCACCAAC TGGCAGAGCG
    CCCAATTCCA GTCAGAGCCC AGCAGCTTTT ATCAGTTCCA TGCTGCCTAC TCAGTCATCA
    CCAATTACTT TCAATGAACT TGGGCTTCCT AAAGGTGTAA TGCCTCCTGG TTTCCCAAAG
    AAATCCAGCC GGACTGCTCG CATAGCATCA GATGAAGAGA TACAGGGCAC AAAGGATGCT
    GTCATACAAG ATCTTGAGCG AAAGCTTCGT TTCAAAGAGG AGCTTCTGAA CAATGGCCAG
    CCGAAATTGA CTTATGAGGA GAAAATGGCT CGTCGGTTGC TTGGTGCTGA CAGTGCAGCA
    ACAGTGTTTA ACATCCAGGA ACCAGAGGAG GATGGGAATG CGCAGGAAGT TGACTCTCTT
    GATGCTTCTG TAGAAAGTCC TCTTGACACT CAAAAGGAGT ACAAAGTCTC CAGCTTTGAG
    CAGAGATTAA TTAGTGAAAT TGAGTACCGT TTGGAACGAT CCCCTGTGGA AGAGTCTGAT
    GAAGAGGTAG AGCATGGAGA TGAACCGGTG GATAACGGGG AAGCCCCACA GTTTGAGACA
    AAGCTAAAAC ATTACAAAAT CTTTGAAGGA ATGCCATCCA CATTCACTTG CAAGGTTACA
    GGCAATCCAA AGCCCAAGAT ATATTGGTTC AAAGATGGGA AACAAATCTC AAAAAGAAGC
    GAACACTATA GGATTCAGAG AGAACCTGAT GGAACCTGCT CCCTTCATAC CTCAGCCTCC
    TCATTGGATG ATGATGGGAA TTACACTATA ATGGCAGCAA ATCCACAGGG CAGAATAAGC
    TGTACTGGGA GGTTGATGGT ACAAGCTGTA AACCAGAGAG GAAGGACTGC CCGTACTCCA
    ACATCCCAGC TCCATGTTAG AAGACCTCGA TCTAGGTCAA GAGATAGTGG AGATGAAAAT
    GAGCCTATCC AAGAGAGATT CTTCCGCCCT CACTTCTTGC AGGCTCCAGG AGACCTCATT
    GTTCAGGAAG GAAAGCTCTG CAGGATGGAC TGCAAGGTTA GTGGCTTGCC AACACCAGAT
    CTCAGCTGGC AACTGAATGG GAGACCTGTC CGTCCGGATA ACTCGCACAA AATGCTGGTG
    AGGGAGAATG GCGTTCACTC ATTGGTTATT GAACCTGTCA CCACTAGAGA TGCTGGAATA
    TACACCTGCG TTGCCTCAAA TCGTGCAGGG CAGAACTCAT TCACCTTGGA ACTCATTGTT
    GCAGCCAAGG ATGCCCATAA ACCCCCTGTG TTTATAGATA AGCTTCAAAA TACAGGCGTT
    GCGGAGGGAT ACCCTGTGAG GCTGGAGTGC CGTGTCAGCG GGATGCCCCC TCCACAGATA
    TTCTGGAAGA AGGAGAACGA ATCGCTGACC TACAGCACAG AAAGAGTCAG CATGCATCAG
    GATAACTATG GCTACCTGTG CCTACTAATT CAGGGTGCCA CAAAGGAGGA TGCTGGTTGG
    TATACTGTGT CAGCAAAGAA TGAAGCTGGT ATTGTGTCCT GTACTGCCAG ACTGGACGTA
    CACACTCAGT GGCATCAACA GTCTCTTGCC CCAAAGACAA GAAAGGTACG TCCATCAGCC
    AGTCGCTATG CAGCACTTTC TGACCAAGGC CTGGACATCA AAGCTGCTTT CCTGCCCGAA
    GCAAACCCTG TGCACTTACA GCCAGCACTG GTAGAAAGTG AAGATCTGTA G

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

    CloneID OXa04648
    Clone ID Related Accession (Same CDS sequence) XM_018095839.1
    Accession Version XM_018095839.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5040bp)
    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 palladin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GTAGACAGTG TATTAAAGGG
    ATGGAGAACA GTTTTCATGA AATCCAGAGC CTATCCAACC AGCCTGAAGA AAAGGTTATC
    CAGGGTAGAA AGTGTATTAA AGGGATAGAG AACAGTTTTC AGAAAATTCA CAGTCAATCC
    AACCTGCCTG AAGAAAAGGT TATCCATGGT ACAGCCAATA AATCAGTTAA TCCTCCGGCA
    GCTGCTCGAT TTATTCAGAA GCTCAGAAGC CAAGAAGTTG CTGAGGGAAG TAGAGTCAAA
    CTAGAATGCA GAGCAACAGG AAATCCGTTG CCAGAAATTA GGTGGTTCTG TGAAGGAAAG
    GAGCTGAGTA ACTCACCCGA CATTCATATC TCATCTGATA GCAACGGTCT TCACACCCTA
    GTCATCGCAG AGGCTTTTGA AGAAGACACA GGACGATATA CTTGTGTGGC ATCCAATTGC
    CTTGGTTCTG ACACATCATC AGCAGAAATA TTTGTTGAAG GTGCCAGCTC ATCAGACTCA
    GAAAGTGAAA GTTTTGCTTT TAAATCAAAA CAAGGAGCAA TGCCGCAGGC ACAAAAGAAA
    ACATCTTCGG TTTCCTTGAC GATAGGCCCA TCTTCTCCAA AATGTGGTAT AACAACTGCA
    GTAATGCAGC CAATTTCCAT ACCTGTTCAG CAGGTCAGAA GTCCTACATC CTACCTATAC
    CAAGACAGAT CCAAGACACC CACTTTCTGT GCTCCAGCAT TTACAAAGGA GATGCAAAAC
    CTGACAGCAT CGGAGGGACA GGTTGTAGTT CTGGAGTGCA GAGTGAAGGG AACACCCCCT
    GTAAAGGTCA AATGGTTCAG ACAAGGATCT GAAATACAGG ATTCACCTGA CTTCAGAATT
    CTACAGAAAA AACCTCGTTG TGCGTCGGAG CCTGAGGAGA TCTGTACCCT TGTCATAGCT
    GAGACTTTTC CAGAAGATGC GGGCATTTTC ACTTGTACAG CAAGAAATGA TTATGGATCG
    GTTTCTTGCA GTGCTCAGCT AACAGTCCTC TCTGCAAACA ATACGCACAC TAGAAATAAT
    GTGTCAAGCG AAGAAATTAG TGGTTACGAT TCCCAGAAGC CGTCGCCACT TTCTGCAGTT
    CCTAACAGTA GTTGTCTTGA AATGTCATCC AAGAAGAATT CTGAGAGCTT TCAGACCAGC
    CAAACAGACT CAGAAGCCAA CATGGAAAAA AGTCACTTCC AGTTCTATCC AGTGGAAAAC
    AATAGCAATG GCTTACATGC TAATAATGGA GTTAATGGTG ACAGCAATAA TGTGGACAGC
    AAATATATAT CTGTCACTTC TCCGTGCACA TTTTCGCCAG TCAAGGAACC ACCCCCAGTG
    CCTGCAAAGC CAAAACTGGA TACTCAAATA ATACAGCAGC TGCAGAACCA GATACGTCTA
    GAGCAAGAAG GTGCCGTTTG GAAACAAGGA AGTGTTCAGC TAAATACGCC ACCATCACCA
    TCTTTTCCTC CTCCACCGTC TTTCCAGGAG CTGGAGGCCA GTCAGCTTAT CACTTCCCCA
    GAGCAAATGA ATGTCCTTAA CTCACATAAT TCTCCAATGC AGCCAGCAAG CTCATTCAAC
    TATGCCAGGC CTAAACAGTT TATTGCTGCT CAGAACATGA GCCCCACCTC AGGCTACATT
    TCTCCATCTT CTGGTTCCTC TACTTCTAGC CTACCATCAC CAATGTCACC CTCAACTCCT
    CAGAAGCAAT TCGGCAGGGC TCCAGTTCCT CCTTTCTCTC AGCCATTTCC CCAAGAGGGA
    GAACAGTTTT GGTCCCCAGC CTCATCATCT CCTCCGCCTC CCCCTCCTCC TGTTTTAAGT
    CCAACTGCAA ATTATTCTGT TGTTGATGCA TTTCCACTTC CACCACCTCC ACCACCACCA
    CTTCCAGTTT CTGTACTTTC ACCTTCCTAT AGTCCATCAC CTTCACCAAC TGGCAGAGCG
    CCCAATTCCA GTCAGAGCCC AGCAGCTTTT ATCAGTTCCA TGCTGCCTAC TCAGTCATCA
    CCAATTACTT TCAATGAACT TGGGCTTCCT AAAGGTGTAA TGCCTCCTGG TTTCCCAAAG
    AAATCCAGCC GGACTGCTCG CATAGCATCA GATGAAGAGA TACAGGGCAC AAAGGATGCT
    GTCATACAAG ATCTTGAGCG AAAGCTTCGT TTCAAAGAGG AGCTTCTGAA CAATGGCCAG
    CCGAAATTGA CTTATGAGGA GAAAATGGCT CGTCGGTTGC TTGGTGCTGA CAGTGCAGCA
    ACAGTGTTTA ACATCCAGGA ACCAGAGGAG GATGGGAATG CGCAGGAGTA CAAAGTCTCC
    AGCTTTGAGC AGAGATTAAT TAGTGAAATT GAGTACCGTT TGGAACGATC CCCTGTGGAA
    GAGTCTGATG AAGAGGTAGA GCATGGAGAT GAACCGGTGG ATAACGGGGA AGCCCCACAG
    TTTGAGACAA AGCTAAAACA TTACAAAATC TTTGAAGGAA TGCCATCCAC ATTCACTTGC
    AAGGTTACAG GCAATCCAAA GCCCAAGATA TATTGGTTCA AAGATGGGAA ACAAATCTCA
    AAAAGAAGCG AACACTATAG GATTCAGAGA GAACCTGATG GAACCTGCTC CCTTCATACC
    TCAGCCTCCT CATTGGATGA TGATGGGAAT TACACTATAA TGGCAGCAAA TCCACAGGGC
    AGAATAAGCT GTACTGGGAG GTTGATGGTA CAAGCTGTAA ACCAGAGAGG AAGGACTGCC
    CGTACTCCAA CATCCCAGCT CCATGTTAGA AGACCTCGAT CTAGGTCAAG AGATAGTGGA
    GATGAAAATG AGCCTATCCA AGAGAGATTC TTCCGCCCTC ACTTCTTGCA GGCTCCAGGA
    GACCTCATTG TTCAGGAAGG AAAGCTCTGC AGGATGGACT GCAAGGTTAG TGGCTTGCCA
    ACACCAGATC TCAGCTGGCA ACTGAATGGG AGACCTGTCC GTCCGGATAA CTCGCACAAA
    ATGCTGGTGA GGGAGAATGG CGTTCACTCA TTGGTTATTG AACCTGTCAC CACTAGAGAT
    GCTGGAATAT ACACCTGCGT TGCCTCAAAT CGTGCAGGGC AGAACTCATT CACCTTGGAA
    CTCATTGTTG CAGCCAAGGA TGCCCATAAA CCCCCTGTGT TTATAGATAA GCTTCAAAAT
    ACAGGCGTTG CGGAGGGATA CCCTGTGAGG CTGGAGTGCC GTGTCAGCGG GATGCCCCCT
    CCACAGATAT TCTGGAAGAA GGAGAACGAA TCGCTGACCT ACAGCACAGA AAGAGTCAGC
    ATGCATCAGG ATAACTATGG CTACCTGTGC CTACTAATTC AGGGTGCCAC AAAGGAGGAT
    GCTGGTTGGT ATACTGTGTC AGCAAAGAAT GAAGCTGGTA TTGTGTCCTG TACTGCCAGA
    CTGGACGTAC ACACTCAGTG GCATCAACAG TCTCTTGCCC CAAAGACAAG AAAGGTACGT
    CCATCAGCCA GTCGCTATGC AGCACTTTCT GACCAAGGCC TGGACATCAA AGCTGCTTTC
    CTGCCCGAAG CAAACCCTGT GCACTTACAG CCAGCACTGG TAGAAAGTGA AGATCTGTAG

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

    RefSeq XP_017951328.1
    CDS11..5050
    Translation

    Target ORF information:

    RefSeq Version XM_018095839.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis palladin, cytoskeletal associated protein (palld), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095839.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGCAAATA AAATTCTAGA TCAAGCTCTG CCTCTTCCGT TAATGCTCAA AAACTCCTAC 
    CCAAATGAAA CAGCTATGCA AGAAAGCCTC TCGGGAAACA TTTCGGAAGC ATCCTCGCAT
    GACTCCTTCT ATGATTCATT CTCAGATTTG AATGATGAGC CTGCCGATGC CAATTTCCCA
    GAACTCTCTG CCTTCCTTAG TCAAGATGAG ATGAACAAGA GTCTTGACAT TGCACGTGAA
    GCTTTTTCTG GCTCTGAACA TGAGGAATCA TTCCAAGAAC ATTTTGCAAT CCCCGCTCCC
    TTAAAAACAA AGGATAGTTT TAAGGATCTT AAACTGAGCA ACCCAGAATC ATTACGAAAA
    CAGGATAATA TAATACGTAA CAATGTGCAC AATAACCAAA ATACTCTTCC TATTACTTCC
    TGCAAAGTCG TTGCTACTGA TGTGCGTAAA ATGATATCAC CATTGTTAAC AACTAGTCCA
    AGTATAATCA GAACTCTGCA AGCCCAAAAA GCTTCCAAAA ACATGGGCAA ATGTGATATA
    AGTAAAACAC CCATCCCAAA AACCAGAGCA AAAGCTTTCC ATGGGGAATC TGGCACACAG
    AACAACGAGT GCACAAAGGC AGCTACTTTT ATTGATGAGC TTTCTGCAAT ATTTCGAGAA
    ACTACCAAAG CTAGAAACAG GAGGACAAAC GGCGATTCCT CTTCACCAGA TAGTGGTTAT
    CTGTCGCCTA AAAAAGACAT GCCGATTAAT ATGACTTCTT CAGTGAATGA AAACGAAGTT
    GAAATTAAGC AGGAATTAAA ACCTAAAGAT AGACAATGCA TTAAAGAGAT TAAGAACAGT
    TTTCATGAAA TCCAGAGCCA ATCCAACCAG CCTGAAGAAA AGGTTATCCA TGGTAGACAA
    TGTATTAAAG GCATGGAGAA CAGTTTTCAG GAAATCCAGA GCCAATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCACAATAA ACAATTTATT AAAGATATGG ATAACAGTTT TCAGAAAATT
    CAGAGCCAAT ACAACCAGCC TGAAGAAAAG ATTATACAGA GTAGACAATG TAATAAAGGT
    ATGGAGAACA GTTTTCAGGA AATCCAGAGC CAATCCAAAC AGCCTGAAGA AAAGGTTATC
    CACAATAAAC AATTTATTAA AGATATGGAT AACAGTTTTC AGAAAATTCA GAGCCAATGC
    AACCAGCCTG AAGAAAAGAT TATCCAGGGT AGACAATGTA TTAAAGAGAT GGAGAACAGT
    TTTCATGAAA TTCAGAGCCT ATCCAAACAA CCTGAAGAAA AGGTTATCCA GAGTAGAGAG
    TGTATTAAAG GGATGGAGAA CAGTTTTCAT GAAATTCAGA GCCTATCCAA CCAGCCTGAA
    GAAAAGGTTA TCCAGGGTAG ACAGTGTATT AAAGGGATGG AGAACAGTTT TCATGAAATC
    CAGAGCCTAT CCAACCAGCC TGAAGAAAAG GTTATCCAGG GTAGACAGTG TATTAAAGGG
    ATGGAGAACA GTTTTCATGA AATCCAGAGC CTATCCAACC AGCCTGAAGA AAAGGTTATC
    CAGGGTAGAA AGTGTATTAA AGGGATAGAG AACAGTTTTC AGAAAATTCA CAGTCAATCC
    AACCTGCCTG AAGAAAAGGT TATCCATGGT ACAGCCAATA AATCAGTTAA TCCTCCGGCA
    GCTGCTCGAT TTATTCAGAA GCTCAGAAGC CAAGAAGTTG CTGAGGGAAG TAGAGTCAAA
    CTAGAATGCA GAGCAACAGG AAATCCGTTG CCAGAAATTA GGTGGTTCTG TGAAGGAAAG
    GAGCTGAGTA ACTCACCCGA CATTCATATC TCATCTGATA GCAACGGTCT TCACACCCTA
    GTCATCGCAG AGGCTTTTGA AGAAGACACA GGACGATATA CTTGTGTGGC ATCCAATTGC
    CTTGGTTCTG ACACATCATC AGCAGAAATA TTTGTTGAAG GTGCCAGCTC ATCAGACTCA
    GAAAGTGAAA GTTTTGCTTT TAAATCAAAA CAAGGAGCAA TGCCGCAGGC ACAAAAGAAA
    ACATCTTCGG TTTCCTTGAC GATAGGCCCA TCTTCTCCAA AATGTGGTAT AACAACTGCA
    GTAATGCAGC CAATTTCCAT ACCTGTTCAG CAGGTCAGAA GTCCTACATC CTACCTATAC
    CAAGACAGAT CCAAGACACC CACTTTCTGT GCTCCAGCAT TTACAAAGGA GATGCAAAAC
    CTGACAGCAT CGGAGGGACA GGTTGTAGTT CTGGAGTGCA GAGTGAAGGG AACACCCCCT
    GTAAAGGTCA AATGGTTCAG ACAAGGATCT GAAATACAGG ATTCACCTGA CTTCAGAATT
    CTACAGAAAA AACCTCGTTG TGCGTCGGAG CCTGAGGAGA TCTGTACCCT TGTCATAGCT
    GAGACTTTTC CAGAAGATGC GGGCATTTTC ACTTGTACAG CAAGAAATGA TTATGGATCG
    GTTTCTTGCA GTGCTCAGCT AACAGTCCTC TCTGCAAACA ATACGCACAC TAGAAATAAT
    GTGTCAAGCG AAGAAATTAG TGGTTACGAT TCCCAGAAGC CGTCGCCACT TTCTGCAGTT
    CCTAACAGTA GTTGTCTTGA AATGTCATCC AAGAAGAATT CTGAGAGCTT TCAGACCAGC
    CAAACAGACT CAGAAGCCAA CATGGAAAAA AGTCACTTCC AGTTCTATCC AGTGGAAAAC
    AATAGCAATG GCTTACATGC TAATAATGGA GTTAATGGTG ACAGCAATAA TGTGGACAGC
    AAATATATAT CTGTCACTTC TCCGTGCACA TTTTCGCCAG TCAAGGAACC ACCCCCAGTG
    CCTGCAAAGC CAAAACTGGA TACTCAAATA ATACAGCAGC TGCAGAACCA GATACGTCTA
    GAGCAAGAAG GTGCCGTTTG GAAACAAGGA AGTGTTCAGC TAAATACGCC ACCATCACCA
    TCTTTTCCTC CTCCACCGTC TTTCCAGGAG CTGGAGGCCA GTCAGCTTAT CACTTCCCCA
    GAGCAAATGA ATGTCCTTAA CTCACATAAT TCTCCAATGC AGCCAGCAAG CTCATTCAAC
    TATGCCAGGC CTAAACAGTT TATTGCTGCT CAGAACATGA GCCCCACCTC AGGCTACATT
    TCTCCATCTT CTGGTTCCTC TACTTCTAGC CTACCATCAC CAATGTCACC CTCAACTCCT
    CAGAAGCAAT TCGGCAGGGC TCCAGTTCCT CCTTTCTCTC AGCCATTTCC CCAAGAGGGA
    GAACAGTTTT GGTCCCCAGC CTCATCATCT CCTCCGCCTC CCCCTCCTCC TGTTTTAAGT
    CCAACTGCAA ATTATTCTGT TGTTGATGCA TTTCCACTTC CACCACCTCC ACCACCACCA
    CTTCCAGTTT CTGTACTTTC ACCTTCCTAT AGTCCATCAC CTTCACCAAC TGGCAGAGCG
    CCCAATTCCA GTCAGAGCCC AGCAGCTTTT ATCAGTTCCA TGCTGCCTAC TCAGTCATCA
    CCAATTACTT TCAATGAACT TGGGCTTCCT AAAGGTGTAA TGCCTCCTGG TTTCCCAAAG
    AAATCCAGCC GGACTGCTCG CATAGCATCA GATGAAGAGA TACAGGGCAC AAAGGATGCT
    GTCATACAAG ATCTTGAGCG AAAGCTTCGT TTCAAAGAGG AGCTTCTGAA CAATGGCCAG
    CCGAAATTGA CTTATGAGGA GAAAATGGCT CGTCGGTTGC TTGGTGCTGA CAGTGCAGCA
    ACAGTGTTTA ACATCCAGGA ACCAGAGGAG GATGGGAATG CGCAGGAGTA CAAAGTCTCC
    AGCTTTGAGC AGAGATTAAT TAGTGAAATT GAGTACCGTT TGGAACGATC CCCTGTGGAA
    GAGTCTGATG AAGAGGTAGA GCATGGAGAT GAACCGGTGG ATAACGGGGA AGCCCCACAG
    TTTGAGACAA AGCTAAAACA TTACAAAATC TTTGAAGGAA TGCCATCCAC ATTCACTTGC
    AAGGTTACAG GCAATCCAAA GCCCAAGATA TATTGGTTCA AAGATGGGAA ACAAATCTCA
    AAAAGAAGCG AACACTATAG GATTCAGAGA GAACCTGATG GAACCTGCTC CCTTCATACC
    TCAGCCTCCT CATTGGATGA TGATGGGAAT TACACTATAA TGGCAGCAAA TCCACAGGGC
    AGAATAAGCT GTACTGGGAG GTTGATGGTA CAAGCTGTAA ACCAGAGAGG AAGGACTGCC
    CGTACTCCAA CATCCCAGCT CCATGTTAGA AGACCTCGAT CTAGGTCAAG AGATAGTGGA
    GATGAAAATG AGCCTATCCA AGAGAGATTC TTCCGCCCTC ACTTCTTGCA GGCTCCAGGA
    GACCTCATTG TTCAGGAAGG AAAGCTCTGC AGGATGGACT GCAAGGTTAG TGGCTTGCCA
    ACACCAGATC TCAGCTGGCA ACTGAATGGG AGACCTGTCC GTCCGGATAA CTCGCACAAA
    ATGCTGGTGA GGGAGAATGG CGTTCACTCA TTGGTTATTG AACCTGTCAC CACTAGAGAT
    GCTGGAATAT ACACCTGCGT TGCCTCAAAT CGTGCAGGGC AGAACTCATT CACCTTGGAA
    CTCATTGTTG CAGCCAAGGA TGCCCATAAA CCCCCTGTGT TTATAGATAA GCTTCAAAAT
    ACAGGCGTTG CGGAGGGATA CCCTGTGAGG CTGGAGTGCC GTGTCAGCGG GATGCCCCCT
    CCACAGATAT TCTGGAAGAA GGAGAACGAA TCGCTGACCT ACAGCACAGA AAGAGTCAGC
    ATGCATCAGG ATAACTATGG CTACCTGTGC CTACTAATTC AGGGTGCCAC AAAGGAGGAT
    GCTGGTTGGT ATACTGTGTC AGCAAAGAAT GAAGCTGGTA TTGTGTCCTG TACTGCCAGA
    CTGGACGTAC ACACTCAGTG GCATCAACAG TCTCTTGCCC CAAAGACAAG AAAGGTACGT
    CCATCAGCCA GTCGCTATGC AGCACTTTCT GACCAAGGCC TGGACATCAA AGCTGCTTTC
    CTGCCCGAAG CAAACCCTGT GCACTTACAG CCAGCACTGG TAGAAAGTGA AGATCTGTAG

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