rreb1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following rreb1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the rreb1 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
OXa11714 XM_012965407.3
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa11714 XM_002932676.5
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa11715 XM_012965408.3
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa11716 XM_004915291.4
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa11717 XM_004915292.4
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa11718 XM_031904172.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa45167 XM_018095015.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa45168 XM_018095017.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa45169 XM_018095019.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa45170 XM_018095020.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa11714 XM_018095016.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OXa11716 XM_018095018.1
Latest version!
Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
View Old Accession Versions >>
OXa11715 XM_012965408.2 Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa11716 XM_004915291.3 Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa11714 XM_012965407.2 Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OXa11714 XM_002932676.4 Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OXa11717 XM_004915292.3 Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa11714
    Clone ID Related Accession (Same CDS sequence) XM_012965407.2 , XM_018095016.1 , XM_002932676.4 , XM_012965407.3 , XM_002932676.5
    Accession Version XM_012965407.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5043bp)
    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 ras-responsive element-binding protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_012965407.2. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    RefSeq XP_012820861.1
    CDS420..5462
    Translation

    Target ORF information:

    RefSeq Version XM_012965407.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965407.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    CloneID OXa11714
    Clone ID Related Accession (Same CDS sequence) XM_012965407.2 , XM_018095016.1 , XM_002932676.4 , XM_012965407.3 , XM_002932676.5
    Accession Version XM_002932676.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5043bp)
    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 ras-responsive element-binding protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_002932676.4. ##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
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    RefSeq XP_002932722.1
    CDS1233..6275
    Translation

    Target ORF information:

    RefSeq Version XM_002932676.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932676.5

    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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    CloneID OXa11715
    Clone ID Related Accession (Same CDS sequence) XM_012965408.2 , XM_012965408.3
    Accession Version XM_012965408.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4992bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_012965408.2. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGAGAAGAC TGGAAAACAA GAAATGAAAA CCATTCCAGA ACCATCAGCT
    GCCAATGCAG AGAAAGAGAA TGCATTTGAA AAAGACCAGC TCAAGGCAGT TAACTTAATG
    AATGGAGCAG AAGTCAGTGA CCTATCCTCT GTTAACGCAA TGATGTCTAC TGTAATGAGT
    GCCACCAGCA TAGCTGAAAA TGGTGGGAGC TTGCAGAACA CTAAATCCCC AGCGAAATCT
    CCAGCTCCAA ACAGGATTGG CCGAAGGAAT CAGGAATCAA AAGAGGAAAA ATCATCTTAT
    ATCTGTCCCT TGTGTGAAAA GGTCTGCAAT TCTCAGCATC AACTTACAAT GCATATCCGC
    CAGCATAATA CTGACACAGG AGGGACTGAC CATAGCTGCA GTATCTGCGG AAAGTCTCTG
    AGTTCGGCTA GCTCACTAGA TCGCCATATG CTTGTCCACT CTGGAGAGAG GCCCTACAAA
    TGTAGTATGT GTGGGCAGTC CTTTACTACC AATGGGAATA TGCACAGGCA TATGAAGATA
    CACGAGAAGG ACCCAAATGT TGCAGTTACT ACAAGTCCAC CATCACCCCA AAAGCGAAGG
    AGATTGACAG CAAAAAGGAA GTTAAGTCCT GAAGTGGAAG CAGAAAAAGA AGAAACACCA
    TCAGCAAAAA AGGTTGTTGA AGAGATTCAA GCTGTGGAGC CACTAAAGAA GACAGAAGAT
    ATTGTTCACT GCCCTGTGTG TGCTAAAGAA TTTCCATGCA AATCAGATCT GGATAGTCAC
    ATGGAACTGC ATCCTGAAGC CTCTCTTAAG TGTGACATTT GTTGCATTTC ATTCCGTACC
    CATCGGGGTA TGCTGCGCCA CAATGCTGTA ATCCACAAGA TGCTCCCAAA AGATGCTTCT
    GGAAAACCTT TTATTCAGAG TAACCCTAAC ATCCCTGCTG GATTTAATGA TTTAAGTTTC
    ACTGACTTTT CCTGCAGGAA GTTTCCTATC ATTTCTCAGG TCTGGTGCGA GACAAATTTA
    AGAAGATGCA TCAGTGATTT ACATCGCTTC ATCTGTGAAA CTTGCAATAA AGCATTTCCA
    ATGATCTCTG CTTTGAAACT GCACATGGAA ACTCACGAAA AAGGGCAACG TGACAGTAAG
    CATAAGAATG AATATACAAC TGCAGTAGCT CAAGAACAGA AAGCATATAT GGCAGCCCTG
    GGCCTTCAGC ACACCAAAGA TGTCAAACCT GCTAGCCAGG AAGACAGCAT GCCAGACTGT
    TTTGAGGCAA TGCGACGAGA AGCTTTGAAG AGTAACCTTT CTCAGGATAT TGGTAGTGTA
    AGCTTACTTA GCATGTCAAC TTTAGAAGCG CCCTCTGTGT GTGGCTCATT CTCCATTCTT
    CCACCAATGA AAGAGAATGT GAAGCTGCTT TCCCTTCAGC CTTTTCAAAA GGGCTTTACC
    ATACAGCCTG ACAACAGTAT TGTTGTAAAA CCCATCTCTG GGGAGCTTGC TGATATTCAG
    CAGATATTAA AGATGGCAGC CTCAGCTCCC CCGCAAATTA GTTTCCCACC TCTGGCTAAA
    ACTTCCCCTG GCAGCACTCA GCCTCAAGCC TTCAAGCACA TGCCTCTACT GAAGCCAAAG
    CCACTGGTGG CACCTCGTAC AGTTGTTGCT GCCTCTACGC CACCCCCACT CATCAGCACT
    CAGCAGGCAT CTCCAGGCTC TATCAGCCCA AGCCTACCTC CACCACAACT GAGAAATAAG
    AACACAGTGG AGTCTCCTAC AAGCGCCATA TTTTTGCAGT CAAGATCTGA AGCCAATAAC
    AGCTATTCAA CTCAGAATTT ACAATTACCA AACACTGATG CTTTGAGTCA GCATGAAATA
    AAAACTCAAC TTGAACAGGA CAGTATTATA GAAGCATTCA TGCCCTTGGA TTTGGACTCC
    AAAATAAAGC AAGAAGTAAC TGAAGGTGAT CTGAAAGCAA TTATTTCGAA CAACAAAAAA
    ACAACTCAAG CAAAAAAGGT TTTCTATCCT TGTCGGTTTT GTGATCAGGT ATTTACATTC
    TCAGGTCTTT TAAGGGCTCA TATTCGCACT CACTTGGGGA TCTCGCCATA CCAGTGTAAT
    ATCTGTGACT ATATTGCAGC TGACAAAGCA GCATTAATTC GTCACTTGCG TACACATAGT
    GGAGAAAGGC CATATGTATG TAAGATTTGC CAGTATCCTT TTACTGTCAA AGCCAACTGT
    GAGAGGCACC TTCGTAAGAA ACACCTTAAA GTCACCAGAA AAGACATTGA AAAAAATATT
    GATTATATAT CTACAAACAC AGCTGAAATG GTGGATGCAC TCTGTTCGCC AGATACTGTT
    TGCAAATGCT GTGGTGAGGA CTTGAAAAAC TATCGTGCCC TTCATATACA CATGAGGACC
    CACAAAAATT TTCAAAAAAA GAAGCCATTT GAGTGCAAGG AGTGTGGAAC TGCCTTTTCT
    GCTAAAAGAA ACTGCATACA CCACATACTT AAACAACACC AGAATGTGCA AGAGAAAGAA
    ATTGAGAGTC ATATTTTAAC TGTGACGTGT AGTCCTAAGC ATATTCGATC AGGCACCCCA
    GTTATGGGAG ATAGCACTTA CCTAGATCGG AAGCCTACAG CATACTTGGT GTCCCATAAC
    GGCTTTCTTC ATGGAGGGAT GACAAATTTT CCATTAAAAC TTGAACCTAA TACCAGCTAT
    CCTATAGATC TTGATGAGCC CTTAGATTTT TCACAAAAGA ATAAGATTTC TAGTGTTCCC
    CCAATCAAGC AGGAACAAAT CTACAGTCCC CCTGCAGCCT CATATGAGGA CATTATGGAG
    CCCATTGATC TTTCCATCCC TAAACAAGCT AAACAGGACA AAGAGGATTC TCAGATTCAA
    CCAAAAACAA CAGTGACTCC GCCTGGGTCT GTTGGACCAT TATACAACTG CCAACCATGC
    CCTGTTCCCT TAAGTGCCAA TGAAAACCCA GACAAAGCTA CAGCTGTCAT ACATTCCAAA
    TCAGTAAAAA CCCCTTTGCA ATTGACAGTC CCTATCATTT CGCCTGCTGT TCTTGGTAGT
    GCAACGGTTT TGCGCCCCTT GAGGCCTAAA CCACCACCTC TCTTGCCAAA GCCTCCAGTC
    TCTAAAGAAC TTCCTCCCCT GGCATCCATT GCACAAATAA TTTCATCAGT ATCATCTGCA
    TCTGCTTTGT TGAAGACTGA AATTACAAAT CCAGCTTCTC AGGTGAATGC CAATAGTTTA
    TCAGCCACTG ACAAATCTGG GTCTTCCAAG TCCGTAATGA CAATCCCAAA CAAAGAACTT
    GCTGCTTCTT GTAATGCTTC CCAACCTGCT GCAACCCCAA GTACTTCAAA CAGCAATGAT
    GCTCTGGTCA TAGGAGCAAA AAAACGAGGT AGAAAAAAAG GAACAAAAAA CAAGCCGAAA
    ACAGCTCCTG GTCTAGATCT TGAATCTAGT GGGGAATTTG CAAGTATTGA AAAAATGCTA
    GCCACTACAG ACACTAATAA GTTTAGCCCT TACCTTCAGT CTACTGAGGA CCTCAAAAAT
    AGCATAGACC GAAATGGAAC CAGTGAGGAA GACAGAGACA GCGGTGAAGA TAAAAGAGGA
    AAAAGAAATT CCTATTCCAA TTCCCTACAG AAAATCACCT GTCCCTATTG TCCTCGAGTT
    TTTCCCTGGG CCAGCTCTCT GCAAAGGCAT ATGCTCACTC ACACAGGTCA GAAGCCCTTC
    CCATGTGCAA AATGCGATGC CTTCTTTTCT ACCAAATCTA ACTGTGAACG CCATCTTTTA
    CGTAAGCATG GAGTTGCCAA CCTGTCCTTG CGAAGAAACG GTCTAATTTC CCCGTCTAAA
    GAAAGTGATG TTGGATCTCA TGATAGCACA GATAGCCAAT CGGATGCAGA GCTGTCCTCT
    CCTGAGCTTG ATGCACTGGA CCTGACGTCA GTGGACAAGG ATAAAAAAAA CGAAATGAAT
    CAAACTCAAG AAGGCAATCT TGCATTACAG AACTCACAAA TGGAAGATGA GCTGCCAGAT
    AACAAGAAAG AAACCAAAGT GGAACCAGAT GAATACAAGG CACAATTAGA AGATGATGTT
    GTAAGCAACA AAAGTCTTGA TCTTAATTTA GCAAGTAAAC TAATGGACTT TAAACTATCT
    GCAAGTGAGC AGACTGCCAG CAGCAATGGC AACTTCTGTG ATGTTTGTGG TAAAAACTTT
    AAGTTTGCTG CTACTTTGGG CAGACACAAA AAGGCCCATT CATGTGAAAA CAAGGGAGCA
    GGGGACAGCA ATGGAGATGA CAATGATGCG TCTGCCTGTA ATTCTTCTAA TAGTATCACC
    ATTGCAGAAG TTGGGGATAT GGAAGAAGCG CACCCAATTG ATCTAAAGGT ATCACAATCT
    CCCATGGAGA TTGAATTGGA CTCAAAAAGT AAGGGGGAAG GAGATGCTGT CTCAGCTGAA
    GAATGCATAG AAAGTAAACT TTCAGAAAAA AGTGATGATG AAAAGGAATC CAAAGCTAAT
    GAAACAAAGG CATCTTCAAA AGCTGATAAA CGGAAAAAAA TATGCACTGT TTGCAGCAAA
    CGCTTCTGGT CCTTGCAGGA TCTAACAAGA CACATGAGAT CCCATACAGG TGAAAGGCCA
    TATAAATGTC AGACCTGCGA ACGCACTTTC ACTCTGAAGC ACAGCCTGGT TCGCCATCAG
    CGTATACACC AGAAAATTAA AGATGTCAAG GGCCCAGGGA AAGACTATGA CAAAGAGGAG
    AGTCAGTCAA GGTGCGAAGA AGAAAGCGAC GCAGACTCCA TACAAAGCAG CACACATCAT
    ACATCTGAGA ACGAATGTGA TACACCAGCT AGTCTTAACC CAAACTTGCC AGAAGCAAAA
    AGATCCTCCT AA

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

    RefSeq XP_012820862.1
    CDS421..5412
    Translation

    Target ORF information:

    RefSeq Version XM_012965408.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965408.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGAGAAGAC TGGAAAACAA GAAATGAAAA CCATTCCAGA ACCATCAGCT
    GCCAATGCAG AGAAAGAGAA TGCATTTGAA AAAGACCAGC TCAAGGCAGT TAACTTAATG
    AATGGAGCAG AAGTCAGTGA CCTATCCTCT GTTAACGCAA TGATGTCTAC TGTAATGAGT
    GCCACCAGCA TAGCTGAAAA TGGTGGGAGC TTGCAGAACA CTAAATCCCC AGCGAAATCT
    CCAGCTCCAA ACAGGATTGG CCGAAGGAAT CAGGAATCAA AAGAGGAAAA ATCATCTTAT
    ATCTGTCCCT TGTGTGAAAA GGTCTGCAAT TCTCAGCATC AACTTACAAT GCATATCCGC
    CAGCATAATA CTGACACAGG AGGGACTGAC CATAGCTGCA GTATCTGCGG AAAGTCTCTG
    AGTTCGGCTA GCTCACTAGA TCGCCATATG CTTGTCCACT CTGGAGAGAG GCCCTACAAA
    TGTAGTATGT GTGGGCAGTC CTTTACTACC AATGGGAATA TGCACAGGCA TATGAAGATA
    CACGAGAAGG ACCCAAATGT TGCAGTTACT ACAAGTCCAC CATCACCCCA AAAGCGAAGG
    AGATTGACAG CAAAAAGGAA GTTAAGTCCT GAAGTGGAAG CAGAAAAAGA AGAAACACCA
    TCAGCAAAAA AGGTTGTTGA AGAGATTCAA GCTGTGGAGC CACTAAAGAA GACAGAAGAT
    ATTGTTCACT GCCCTGTGTG TGCTAAAGAA TTTCCATGCA AATCAGATCT GGATAGTCAC
    ATGGAACTGC ATCCTGAAGC CTCTCTTAAG TGTGACATTT GTTGCATTTC ATTCCGTACC
    CATCGGGGTA TGCTGCGCCA CAATGCTGTA ATCCACAAGA TGCTCCCAAA AGATGCTTCT
    GGAAAACCTT TTATTCAGAG TAACCCTAAC ATCCCTGCTG GATTTAATGA TTTAAGTTTC
    ACTGACTTTT CCTGCAGGAA GTTTCCTATC ATTTCTCAGG TCTGGTGCGA GACAAATTTA
    AGAAGATGCA TCAGTGATTT ACATCGCTTC ATCTGTGAAA CTTGCAATAA AGCATTTCCA
    ATGATCTCTG CTTTGAAACT GCACATGGAA ACTCACGAAA AAGGGCAACG TGACAGTAAG
    CATAAGAATG AATATACAAC TGCAGTAGCT CAAGAACAGA AAGCATATAT GGCAGCCCTG
    GGCCTTCAGC ACACCAAAGA TGTCAAACCT GCTAGCCAGG AAGACAGCAT GCCAGACTGT
    TTTGAGGCAA TGCGACGAGA AGCTTTGAAG AGTAACCTTT CTCAGGATAT TGGTAGTGTA
    AGCTTACTTA GCATGTCAAC TTTAGAAGCG CCCTCTGTGT GTGGCTCATT CTCCATTCTT
    CCACCAATGA AAGAGAATGT GAAGCTGCTT TCCCTTCAGC CTTTTCAAAA GGGCTTTACC
    ATACAGCCTG ACAACAGTAT TGTTGTAAAA CCCATCTCTG GGGAGCTTGC TGATATTCAG
    CAGATATTAA AGATGGCAGC CTCAGCTCCC CCGCAAATTA GTTTCCCACC TCTGGCTAAA
    ACTTCCCCTG GCAGCACTCA GCCTCAAGCC TTCAAGCACA TGCCTCTACT GAAGCCAAAG
    CCACTGGTGG CACCTCGTAC AGTTGTTGCT GCCTCTACGC CACCCCCACT CATCAGCACT
    CAGCAGGCAT CTCCAGGCTC TATCAGCCCA AGCCTACCTC CACCACAACT GAGAAATAAG
    AACACAGTGG AGTCTCCTAC AAGCGCCATA TTTTTGCAGT CAAGATCTGA AGCCAATAAC
    AGCTATTCAA CTCAGAATTT ACAATTACCA AACACTGATG CTTTGAGTCA GCATGAAATA
    AAAACTCAAC TTGAACAGGA CAGTATTATA GAAGCATTCA TGCCCTTGGA TTTGGACTCC
    AAAATAAAGC AAGAAGTAAC TGAAGGTGAT CTGAAAGCAA TTATTTCGAA CAACAAAAAA
    ACAACTCAAG CAAAAAAGGT TTTCTATCCT TGTCGGTTTT GTGATCAGGT ATTTACATTC
    TCAGGTCTTT TAAGGGCTCA TATTCGCACT CACTTGGGGA TCTCGCCATA CCAGTGTAAT
    ATCTGTGACT ATATTGCAGC TGACAAAGCA GCATTAATTC GTCACTTGCG TACACATAGT
    GGAGAAAGGC CATATGTATG TAAGATTTGC CAGTATCCTT TTACTGTCAA AGCCAACTGT
    GAGAGGCACC TTCGTAAGAA ACACCTTAAA GTCACCAGAA AAGACATTGA AAAAAATATT
    GATTATATAT CTACAAACAC AGCTGAAATG GTGGATGCAC TCTGTTCGCC AGATACTGTT
    TGCAAATGCT GTGGTGAGGA CTTGAAAAAC TATCGTGCCC TTCATATACA CATGAGGACC
    CACAAAAATT TTCAAAAAAA GAAGCCATTT GAGTGCAAGG AGTGTGGAAC TGCCTTTTCT
    GCTAAAAGAA ACTGCATACA CCACATACTT AAACAACACC AGAATGTGCA AGAGAAAGAA
    ATTGAGAGTC ATATTTTAAC TGTGACGTGT AGTCCTAAGC ATATTCGATC AGGCACCCCA
    GTTATGGGAG ATAGCACTTA CCTAGATCGG AAGCCTACAG CATACTTGGT GTCCCATAAC
    GGCTTTCTTC ATGGAGGGAT GACAAATTTT CCATTAAAAC TTGAACCTAA TACCAGCTAT
    CCTATAGATC TTGATGAGCC CTTAGATTTT TCACAAAAGA ATAAGATTTC TAGTGTTCCC
    CCAATCAAGC AGGAACAAAT CTACAGTCCC CCTGCAGCCT CATATGAGGA CATTATGGAG
    CCCATTGATC TTTCCATCCC TAAACAAGCT AAACAGGACA AAGAGGATTC TCAGATTCAA
    CCAAAAACAA CAGTGACTCC GCCTGGGTCT GTTGGACCAT TATACAACTG CCAACCATGC
    CCTGTTCCCT TAAGTGCCAA TGAAAACCCA GACAAAGCTA CAGCTGTCAT ACATTCCAAA
    TCAGTAAAAA CCCCTTTGCA ATTGACAGTC CCTATCATTT CGCCTGCTGT TCTTGGTAGT
    GCAACGGTTT TGCGCCCCTT GAGGCCTAAA CCACCACCTC TCTTGCCAAA GCCTCCAGTC
    TCTAAAGAAC TTCCTCCCCT GGCATCCATT GCACAAATAA TTTCATCAGT ATCATCTGCA
    TCTGCTTTGT TGAAGACTGA AATTACAAAT CCAGCTTCTC AGGTGAATGC CAATAGTTTA
    TCAGCCACTG ACAAATCTGG GTCTTCCAAG TCCGTAATGA CAATCCCAAA CAAAGAACTT
    GCTGCTTCTT GTAATGCTTC CCAACCTGCT GCAACCCCAA GTACTTCAAA CAGCAATGAT
    GCTCTGGTCA TAGGAGCAAA AAAACGAGGT AGAAAAAAAG GAACAAAAAA CAAGCCGAAA
    ACAGCTCCTG GTCTAGATCT TGAATCTAGT GGGGAATTTG CAAGTATTGA AAAAATGCTA
    GCCACTACAG ACACTAATAA GTTTAGCCCT TACCTTCAGT CTACTGAGGA CCTCAAAAAT
    AGCATAGACC GAAATGGAAC CAGTGAGGAA GACAGAGACA GCGGTGAAGA TAAAAGAGGA
    AAAAGAAATT CCTATTCCAA TTCCCTACAG AAAATCACCT GTCCCTATTG TCCTCGAGTT
    TTTCCCTGGG CCAGCTCTCT GCAAAGGCAT ATGCTCACTC ACACAGGTCA GAAGCCCTTC
    CCATGTGCAA AATGCGATGC CTTCTTTTCT ACCAAATCTA ACTGTGAACG CCATCTTTTA
    CGTAAGCATG GAGTTGCCAA CCTGTCCTTG CGAAGAAACG GTCTAATTTC CCCGTCTAAA
    GAAAGTGATG TTGGATCTCA TGATAGCACA GATAGCCAAT CGGATGCAGA GCTGTCCTCT
    CCTGAGCTTG ATGCACTGGA CCTGACGTCA GTGGACAAGG ATAAAAAAAA CGAAATGAAT
    CAAACTCAAG AAGGCAATCT TGCATTACAG AACTCACAAA TGGAAGATGA GCTGCCAGAT
    AACAAGAAAG AAACCAAAGT GGAACCAGAT GAATACAAGG CACAATTAGA AGATGATGTT
    GTAAGCAACA AAAGTCTTGA TCTTAATTTA GCAAGTAAAC TAATGGACTT TAAACTATCT
    GCAAGTGAGC AGACTGCCAG CAGCAATGGC AACTTCTGTG ATGTTTGTGG TAAAAACTTT
    AAGTTTGCTG CTACTTTGGG CAGACACAAA AAGGCCCATT CATGTGAAAA CAAGGGAGCA
    GGGGACAGCA ATGGAGATGA CAATGATGCG TCTGCCTGTA ATTCTTCTAA TAGTATCACC
    ATTGCAGAAG TTGGGGATAT GGAAGAAGCG CACCCAATTG ATCTAAAGGT ATCACAATCT
    CCCATGGAGA TTGAATTGGA CTCAAAAAGT AAGGGGGAAG GAGATGCTGT CTCAGCTGAA
    GAATGCATAG AAAGTAAACT TTCAGAAAAA AGTGATGATG AAAAGGAATC CAAAGCTAAT
    GAAACAAAGG CATCTTCAAA AGCTGATAAA CGGAAAAAAA TATGCACTGT TTGCAGCAAA
    CGCTTCTGGT CCTTGCAGGA TCTAACAAGA CACATGAGAT CCCATACAGG TGAAAGGCCA
    TATAAATGTC AGACCTGCGA ACGCACTTTC ACTCTGAAGC ACAGCCTGGT TCGCCATCAG
    CGTATACACC AGAAAATTAA AGATGTCAAG GGCCCAGGGA AAGACTATGA CAAAGAGGAG
    AGTCAGTCAA GGTGCGAAGA AGAAAGCGAC GCAGACTCCA TACAAAGCAG CACACATCAT
    ACATCTGAGA ACGAATGTGA TACACCAGCT AGTCTTAACC CAAACTTGCC AGAAGCAAAA
    AGATCCTCCT AA

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

    CloneID OXa11716
    Clone ID Related Accession (Same CDS sequence) XM_018095018.1 , XM_004915291.3 , XM_004915291.4
    Accession Version XM_004915291.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4989bp)
    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 ras-responsive element-binding protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_004915291.3. ##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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    RefSeq XP_004915348.1
    CDS1223..6211
    Translation

    Target ORF information:

    RefSeq Version XM_004915291.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915291.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    CloneID OXa11717
    Clone ID Related Accession (Same CDS sequence) XM_004915292.3 , XM_004915292.4
    Accession Version XM_004915292.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    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 ras-responsive element-binding protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_004915292.3. ##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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGA GAAGACTGGA AAACAAGAAA TGAAAACCAT TCCAGAACCA
    TCAGCTGCCA ATGCAGAGAA AGAGAATGCA TTTGAAAAAG ACCAGCTCAA GGCAGTTAAC
    TTAATGAATG GAGCAGAAGT CAGTGACCTA TCCTCTGTTA ACGCAATGAT GTCTACTGTA
    ATGAGTGCCA CCAGCATAGC TGAAAATGGT GGGAGCTTGC AGAACACTAA ATCCCCAGCG
    AAATCTCCAG CTCCAAACAG GATTGGCCGA AGGAATCAGG AATCAAAAGA GGAAAAATCA
    TCTTATATCT GTCCCTTGTG TGAAAAGGTC TGCAATTCTC AGCATCAACT TACAATGCAT
    ATCCGCCAGC ATAATACTGA CACAGGAGGG ACTGACCATA GCTGCAGTAT CTGCGGAAAG
    TCTCTGAGTT CGGCTAGCTC ACTAGATCGC CATATGCTTG TCCACTCTGG AGAGAGGCCC
    TACAAATGTA GTATGTGTGG GCAGTCCTTT ACTACCAATG GGAATATGCA CAGGCATATG
    AAGATACACG AGAAGGACCC AAATGTTGCA GTTACTACAA GTCCACCATC ACCCCAAAAG
    CGAAGGAGAT TGACAGCAAA AAGGAAGTTA AGTCCTGAAG TGGAAGCAGA AAAAGAAGAA
    ACACCATCAG CAAAAAAGGT TGTTGAAGAG ATTCAAGCTG TGGAGCCACT AAAGAAGACA
    GAAGATATTG TTCACTGCCC TGTGTGTGCT AAAGAATTTC CATGCAAATC AGATCTGGAT
    AGTCACATGG AACTGCATCC TGAAGCCTCT CTTAAGTGTG ACATTTGTTG CATTTCATTC
    CGTACCCATC GGGGTATGCT GCGCCACAAT GCTGTAATCC ACAAGATGCT CCCAAAAGAT
    GCTTCTGGAA AACCTTTTAT TCAGAGTAAC CCTAACATCC CTGCTGGATT TAATGATTTA
    AGTTTCACTG ACTTTTCCTG CAGGAAGTTT CCTATCATTT CTCAGGTCTG GTGCGAGACA
    AATTTAAGAA GATGCATCAG TGATTTACAT CGCTTCATCT GTGAAACTTG CAATAAAGCA
    TTTCCAATGA TCTCTGCTTT GAAACTGCAC ATGGAAACTC ACGAAAAAGG GCAACGTGAC
    AGTAAGCATA AGAATGAATA TACAACTGCA GTAGCTCAAG AACAGAAAGC ATATATGGCA
    GCCCTGGGCC TTCAGCACAC CAAAGATGTC AAACCTGCTA GCCAGGAAGA CAGCATGCCA
    GACTGTTTTG AGGCAATGCG ACGAGAAGCT TTGAAGAGTA ACCTTTCTCA GGATATTGGT
    AGTGTAAGCT TACTTAGCAT GTCAACTTTA GAAGCGCCCT CTGTGTGTGG CTCATTCTCC
    ATTCTTCCAC CAATGAAAGA GAATGTGAAG CTGCTTTCCC TTCAGCCTTT TCAAAAGGGC
    TTTACCATAC AGCCTGACAA CAGTATTGTT GTAAAACCCA TCTCTGGGGA GCTTGCTGAT
    ATTCAGCAGA TATTAAAGAT GGCAGCCTCA GCTCCCCCGC AAATTAGTTT CCCACCTCTG
    GCTAAAACTT CCCCTGGCAG CACTCAGCCT CAAGCCTTCA AGCACATGCC TCTACTGAAG
    CCAAAGCCAC TGGTGGCACC TCGTACAGTT GTTGCTGCCT CTACGCCACC CCCACTCATC
    AGCACTCAGC AGGCATCTCC AGGCTCTATC AGCCCAAGCC TACCTCCACC ACAACTGAGA
    AATAAGAACA CAGTGGAGTC TCCTACAAGC GCCATATTTT TGCAGTCAAG ATCTGAAGCC
    AATAACAGCT ATTCAACTCA GAATTTACAA TTACCAAACA CTGATGCTTT GAGTCAGCAT
    GAAATAAAAA CTCAACTTGA ACAGGACAGT ATTATAGAAG CATTCATGCC CTTGGATTTG
    GACTCCAAAA TAAAGCAAGA AGTAACTGAA GGTGATCTGA AAGCAATTAT TTCGAACAAC
    AAAAAAACAA CTCAAGCAAA AAAGGTTTTC TATCCTTGTC GGTTTTGTGA TCAGGTATTT
    ACATTCTCAG GTCTTTTAAG GGCTCATATT CGCACTCACT TGGGGATCTC GCCATACCAG
    TGTAATATCT GTGACTATAT TGCAGCTGAC AAAGCAGCAT TAATTCGTCA CTTGCGTACA
    CATAGTGGAG AAAGGCCATA TGTATGTAAG ATTTGCCAGT ATCCTTTTAC TGTCAAAGCC
    AACTGTGAGA GGCACCTTCG TAAGAAACAC CTTAAAGTCA CCAGAAAAGA CATTGAAAAA
    AATATTGATT ATATATCTAC AAACACAGCT GAAATGGTGG ATGCACTCTG TTCGCCAGAT
    ACTGTTTGCA AATGCTGTGG TGAGGACTTG AAAAACTATC GTGCCCTTCA TATACACATG
    AGGACCCACA AAAATTTTCA AAAAAAGAAG CCATTTGAGT GCAAGGAGTG TGGAACTGCC
    TTTTCTGCTA AAAGAAACTG CATACACCAC ATACTTAAAC AACACCAGAA TGTGCAAGAG
    AAAGAAATTG AGAGTCATAT TTTAACTGTG ACGTGTAGTC CTAAGCATAT TCGATCAGGC
    ACCCCAGTTA TGGGAGATAG CACTTACCTA GATCGGAAGC CTACAGCATA CTTGGTGTCC
    CATAACGGCT TTCTTCATGG AGGGATGACA AATTTTCCAT TAAAACTTGA ACCTAATACC
    AGCTATCCTA TAGATCTTGA TGAGCCCTTA GATTTTTCAC AAAAGAATAA GATTTCTAGT
    GTTCCCCCAA TCAAGCAGGA ACAAATCTAC AGTCCCCCTG CAGCCTCATA TGAGGACATT
    ATGGAGCCCA TTGATCTTTC CATCCCTAAA CAAGCTAAAC AGGACAAAGA GGATTCTCAG
    ATTCAACCAA AAACAACAGT GACTCCGCCT GGGTCTGTTG GACCATTATA CAACTGCCAA
    CCATGCCCTG TTCCCTTAAG TGCCAATGAA AACCCAGACA AAGCTACAGC TGTCATACAT
    TCCAAATCAG TAAAAACCCC TTTGCAATTG ACAGTCCCTA TCATTTCGCC TGCTGTTCTT
    GGTAGTGCAA CGGTTTTGCG CCCCTTGAGG CCTAAACCAC CACCTCTCTT GCCAAAGCCT
    CCAGTCTCTA AAGAACTTCC TCCCCTGGCA TCCATTGCAC AAATAATTTC ATCAGTATCA
    TCTGCATCTG CTTTGTTGAA GACTGAAATT ACAAATCCAG CTTCTCAGGT GAATGCCAAT
    AGTTTATCAG CCACTGACAA ATCTGGGTCT TCCAAGTCCG TAATGACAAT CCCAAACAAA
    GAACTTGCTG CTTCTTGTAA TGCTTCCCAA CCTGCTGCAA CCCCAAGTAC TTCAAACAGC
    AATGATGCTC TGGTCATAGG AGCAAAAAAA CGAGGTAGAA AAAAAGGAAC AAAAAACAAG
    CCGAAAACAG CTCCTGGTCT AGATCTTGAA TCTAGTGGGG AATTTGCAAG TATTGAAAAA
    ATGCTAGCCA CTACAGACAC TAATAAGTTT AGCCCTTACC TTCAGTCTAC TGAGGACCTC
    AAAAATAGCA TAGACCGAAA TGGAACCAGT GAGGAAGACA GAGACAGCGG TGAAGATAAA
    AGAGGAAAAA GAAATTCCTA TTCCAATTCC CTACAGAAAA TCACCTGTCC CTATTGTCCT
    CGAGTTTTTC CCTGGGCCAG CTCTCTGCAA AGGCATATGC TCACTCACAC AGGTCAGAAG
    CCCTTCCCAT GTGCAAAATG CGATGCCTTC TTTTCTACCA AATCTAACTG TGAACGCCAT
    CTTTTACGTA AGCATGGAGT TGCCAACCTG TCCTTGCGAA GAAACGGTCT AATTTCCCCG
    TCTAAAGAAA GTGATGTTGG ATCTCATGAT AGCACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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

    RefSeq XP_004915349.1
    CDS1224..6161
    Translation

    Target ORF information:

    RefSeq Version XM_004915292.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915292.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGA GAAGACTGGA AAACAAGAAA TGAAAACCAT TCCAGAACCA
    TCAGCTGCCA ATGCAGAGAA AGAGAATGCA TTTGAAAAAG ACCAGCTCAA GGCAGTTAAC
    TTAATGAATG GAGCAGAAGT CAGTGACCTA TCCTCTGTTA ACGCAATGAT GTCTACTGTA
    ATGAGTGCCA CCAGCATAGC TGAAAATGGT GGGAGCTTGC AGAACACTAA ATCCCCAGCG
    AAATCTCCAG CTCCAAACAG GATTGGCCGA AGGAATCAGG AATCAAAAGA GGAAAAATCA
    TCTTATATCT GTCCCTTGTG TGAAAAGGTC TGCAATTCTC AGCATCAACT TACAATGCAT
    ATCCGCCAGC ATAATACTGA CACAGGAGGG ACTGACCATA GCTGCAGTAT CTGCGGAAAG
    TCTCTGAGTT CGGCTAGCTC ACTAGATCGC CATATGCTTG TCCACTCTGG AGAGAGGCCC
    TACAAATGTA GTATGTGTGG GCAGTCCTTT ACTACCAATG GGAATATGCA CAGGCATATG
    AAGATACACG AGAAGGACCC AAATGTTGCA GTTACTACAA GTCCACCATC ACCCCAAAAG
    CGAAGGAGAT TGACAGCAAA AAGGAAGTTA AGTCCTGAAG TGGAAGCAGA AAAAGAAGAA
    ACACCATCAG CAAAAAAGGT TGTTGAAGAG ATTCAAGCTG TGGAGCCACT AAAGAAGACA
    GAAGATATTG TTCACTGCCC TGTGTGTGCT AAAGAATTTC CATGCAAATC AGATCTGGAT
    AGTCACATGG AACTGCATCC TGAAGCCTCT CTTAAGTGTG ACATTTGTTG CATTTCATTC
    CGTACCCATC GGGGTATGCT GCGCCACAAT GCTGTAATCC ACAAGATGCT CCCAAAAGAT
    GCTTCTGGAA AACCTTTTAT TCAGAGTAAC CCTAACATCC CTGCTGGATT TAATGATTTA
    AGTTTCACTG ACTTTTCCTG CAGGAAGTTT CCTATCATTT CTCAGGTCTG GTGCGAGACA
    AATTTAAGAA GATGCATCAG TGATTTACAT CGCTTCATCT GTGAAACTTG CAATAAAGCA
    TTTCCAATGA TCTCTGCTTT GAAACTGCAC ATGGAAACTC ACGAAAAAGG GCAACGTGAC
    AGTAAGCATA AGAATGAATA TACAACTGCA GTAGCTCAAG AACAGAAAGC ATATATGGCA
    GCCCTGGGCC TTCAGCACAC CAAAGATGTC AAACCTGCTA GCCAGGAAGA CAGCATGCCA
    GACTGTTTTG AGGCAATGCG ACGAGAAGCT TTGAAGAGTA ACCTTTCTCA GGATATTGGT
    AGTGTAAGCT TACTTAGCAT GTCAACTTTA GAAGCGCCCT CTGTGTGTGG CTCATTCTCC
    ATTCTTCCAC CAATGAAAGA GAATGTGAAG CTGCTTTCCC TTCAGCCTTT TCAAAAGGGC
    TTTACCATAC AGCCTGACAA CAGTATTGTT GTAAAACCCA TCTCTGGGGA GCTTGCTGAT
    ATTCAGCAGA TATTAAAGAT GGCAGCCTCA GCTCCCCCGC AAATTAGTTT CCCACCTCTG
    GCTAAAACTT CCCCTGGCAG CACTCAGCCT CAAGCCTTCA AGCACATGCC TCTACTGAAG
    CCAAAGCCAC TGGTGGCACC TCGTACAGTT GTTGCTGCCT CTACGCCACC CCCACTCATC
    AGCACTCAGC AGGCATCTCC AGGCTCTATC AGCCCAAGCC TACCTCCACC ACAACTGAGA
    AATAAGAACA CAGTGGAGTC TCCTACAAGC GCCATATTTT TGCAGTCAAG ATCTGAAGCC
    AATAACAGCT ATTCAACTCA GAATTTACAA TTACCAAACA CTGATGCTTT GAGTCAGCAT
    GAAATAAAAA CTCAACTTGA ACAGGACAGT ATTATAGAAG CATTCATGCC CTTGGATTTG
    GACTCCAAAA TAAAGCAAGA AGTAACTGAA GGTGATCTGA AAGCAATTAT TTCGAACAAC
    AAAAAAACAA CTCAAGCAAA AAAGGTTTTC TATCCTTGTC GGTTTTGTGA TCAGGTATTT
    ACATTCTCAG GTCTTTTAAG GGCTCATATT CGCACTCACT TGGGGATCTC GCCATACCAG
    TGTAATATCT GTGACTATAT TGCAGCTGAC AAAGCAGCAT TAATTCGTCA CTTGCGTACA
    CATAGTGGAG AAAGGCCATA TGTATGTAAG ATTTGCCAGT ATCCTTTTAC TGTCAAAGCC
    AACTGTGAGA GGCACCTTCG TAAGAAACAC CTTAAAGTCA CCAGAAAAGA CATTGAAAAA
    AATATTGATT ATATATCTAC AAACACAGCT GAAATGGTGG ATGCACTCTG TTCGCCAGAT
    ACTGTTTGCA AATGCTGTGG TGAGGACTTG AAAAACTATC GTGCCCTTCA TATACACATG
    AGGACCCACA AAAATTTTCA AAAAAAGAAG CCATTTGAGT GCAAGGAGTG TGGAACTGCC
    TTTTCTGCTA AAAGAAACTG CATACACCAC ATACTTAAAC AACACCAGAA TGTGCAAGAG
    AAAGAAATTG AGAGTCATAT TTTAACTGTG ACGTGTAGTC CTAAGCATAT TCGATCAGGC
    ACCCCAGTTA TGGGAGATAG CACTTACCTA GATCGGAAGC CTACAGCATA CTTGGTGTCC
    CATAACGGCT TTCTTCATGG AGGGATGACA AATTTTCCAT TAAAACTTGA ACCTAATACC
    AGCTATCCTA TAGATCTTGA TGAGCCCTTA GATTTTTCAC AAAAGAATAA GATTTCTAGT
    GTTCCCCCAA TCAAGCAGGA ACAAATCTAC AGTCCCCCTG CAGCCTCATA TGAGGACATT
    ATGGAGCCCA TTGATCTTTC CATCCCTAAA CAAGCTAAAC AGGACAAAGA GGATTCTCAG
    ATTCAACCAA AAACAACAGT GACTCCGCCT GGGTCTGTTG GACCATTATA CAACTGCCAA
    CCATGCCCTG TTCCCTTAAG TGCCAATGAA AACCCAGACA AAGCTACAGC TGTCATACAT
    TCCAAATCAG TAAAAACCCC TTTGCAATTG ACAGTCCCTA TCATTTCGCC TGCTGTTCTT
    GGTAGTGCAA CGGTTTTGCG CCCCTTGAGG CCTAAACCAC CACCTCTCTT GCCAAAGCCT
    CCAGTCTCTA AAGAACTTCC TCCCCTGGCA TCCATTGCAC AAATAATTTC ATCAGTATCA
    TCTGCATCTG CTTTGTTGAA GACTGAAATT ACAAATCCAG CTTCTCAGGT GAATGCCAAT
    AGTTTATCAG CCACTGACAA ATCTGGGTCT TCCAAGTCCG TAATGACAAT CCCAAACAAA
    GAACTTGCTG CTTCTTGTAA TGCTTCCCAA CCTGCTGCAA CCCCAAGTAC TTCAAACAGC
    AATGATGCTC TGGTCATAGG AGCAAAAAAA CGAGGTAGAA AAAAAGGAAC AAAAAACAAG
    CCGAAAACAG CTCCTGGTCT AGATCTTGAA TCTAGTGGGG AATTTGCAAG TATTGAAAAA
    ATGCTAGCCA CTACAGACAC TAATAAGTTT AGCCCTTACC TTCAGTCTAC TGAGGACCTC
    AAAAATAGCA TAGACCGAAA TGGAACCAGT GAGGAAGACA GAGACAGCGG TGAAGATAAA
    AGAGGAAAAA GAAATTCCTA TTCCAATTCC CTACAGAAAA TCACCTGTCC CTATTGTCCT
    CGAGTTTTTC CCTGGGCCAG CTCTCTGCAA AGGCATATGC TCACTCACAC AGGTCAGAAG
    CCCTTCCCAT GTGCAAAATG CGATGCCTTC TTTTCTACCA AATCTAACTG TGAACGCCAT
    CTTTTACGTA AGCATGGAGT TGCCAACCTG TCCTTGCGAA GAAACGGTCT AATTTCCCCG
    TCTAAAGAAA GTGATGTTGG ATCTCATGAT AGCACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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

    CloneID OXa11718
    Clone ID Related Accession (Same CDS sequence) XM_031904172.1
    Accession Version XM_031904172.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 ras-responsive element-binding protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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 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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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

    RefSeq XP_031760032.1
    CDS422..5299
    Translation

    Target ORF information:

    RefSeq Version XM_031904172.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031904172.1

    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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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

    CloneID OXa45167
    Clone ID Related Accession (Same CDS sequence) XM_018095015.1
    Accession Version XM_018095015.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5076bp)
    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 ras-responsive element-binding protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGTGCT AGATAGAGCT
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG GTCAGAAGCC CTTCCCATGT GCAAAATGCG ATGCCTTCTT TTCTACCAAA
    TCTAACTGTG AACGCCATCT TTTACGTAAG CATGGAGTTG CCAACCTGTC CTTGCGAAGA
    AACGGTCTAA TTTCCCCGTC TAAAGAAAGT GATGTTGGAT CTCATGATAG CACAGATAGC
    CAATCGGATG CAGAGCTGTC CTCTCCTGAG CTTGATGCAC TGGACCTGAC GTCAGTGGAC
    AAGGATAAAA AAAACGAAAT GAATCAAACT CAAGAAGGCA ATCTTGCATT ACAGAACTCA
    CAAATGGAAG ATGAGCTGCC AGATAACAAG AAAGAAACCA AAGTGGAACC AGATGAATAC
    AAGGCACAAT TAGAAGATGA TGTTGTAAGC AACAAAAGTC TTGATCTTAA TTTAGCAAGT
    AAACTAATGG ACTTTAAACT ATCTGCAAGT GAGCAGACTG CCAGCAGCAA TGGCAACTTC
    TGTGATGTTT GTGGTAAAAA CTTTAAGTTT GCTGCTACTT TGGGCAGACA CAAAAAGGCC
    CATTCATGTG AAAACAAGGG AGCAGGGGAC AGCAATGGAG ATGACAATGA TGCGTCTGCC
    TGTAATTCTT CTAATAGTAT CACCATTGCA GAAGTTGGGG ATATGGAAGA AGCGCACCCA
    ATTGATCTAA AGGTATCACA ATCTCCCATG GAGATTGAAT TGGACTCAAA AAGTAAGGGG
    GAAGGAGATG CTGTCTCAGC TGAAGAATGC ATAGAAAGTA AACTTTCAGA AAAAAGTGAT
    GATGAAAAGG AATCCAAAGC TAATGAAACA AAGGCATCTT CAAAAGCTGA TAAACGGAAA
    AAAATATGCA CTGTTTGCAG CAAACGCTTC TGGTCCTTGC AGGATCTAAC AAGACACATG
    AGATCCCATA CAGGTGAAAG GCCATATAAA TGTCAGACCT GCGAACGCAC TTTCACTCTG
    AAGCACAGCC TGGTTCGCCA TCAGCGTATA CACCAGAAAA TTAAAGATGT CAAGGGCCCA
    GGGAAAGACT ATGACAAAGA GGAGAGTCAG TCAAGGTGCG AAGAAGAAAG CGACGCAGAC
    TCCATACAAA GCAGCACACA TCATACATCT GAGAACGAAT GTGATACACC AGCTAGTCTT
    AACCCAAACT TGCCAGAAGC AAAAAGATCC TCCTAA

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

    RefSeq XP_017950504.1
    CDS395..5470
    Translation

    Target ORF information:

    RefSeq Version XM_018095015.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095015.1

    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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGTGCT AGATAGAGCT
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG GTCAGAAGCC CTTCCCATGT GCAAAATGCG ATGCCTTCTT TTCTACCAAA
    TCTAACTGTG AACGCCATCT TTTACGTAAG CATGGAGTTG CCAACCTGTC CTTGCGAAGA
    AACGGTCTAA TTTCCCCGTC TAAAGAAAGT GATGTTGGAT CTCATGATAG CACAGATAGC
    CAATCGGATG CAGAGCTGTC CTCTCCTGAG CTTGATGCAC TGGACCTGAC GTCAGTGGAC
    AAGGATAAAA AAAACGAAAT GAATCAAACT CAAGAAGGCA ATCTTGCATT ACAGAACTCA
    CAAATGGAAG ATGAGCTGCC AGATAACAAG AAAGAAACCA AAGTGGAACC AGATGAATAC
    AAGGCACAAT TAGAAGATGA TGTTGTAAGC AACAAAAGTC TTGATCTTAA TTTAGCAAGT
    AAACTAATGG ACTTTAAACT ATCTGCAAGT GAGCAGACTG CCAGCAGCAA TGGCAACTTC
    TGTGATGTTT GTGGTAAAAA CTTTAAGTTT GCTGCTACTT TGGGCAGACA CAAAAAGGCC
    CATTCATGTG AAAACAAGGG AGCAGGGGAC AGCAATGGAG ATGACAATGA TGCGTCTGCC
    TGTAATTCTT CTAATAGTAT CACCATTGCA GAAGTTGGGG ATATGGAAGA AGCGCACCCA
    ATTGATCTAA AGGTATCACA ATCTCCCATG GAGATTGAAT TGGACTCAAA AAGTAAGGGG
    GAAGGAGATG CTGTCTCAGC TGAAGAATGC ATAGAAAGTA AACTTTCAGA AAAAAGTGAT
    GATGAAAAGG AATCCAAAGC TAATGAAACA AAGGCATCTT CAAAAGCTGA TAAACGGAAA
    AAAATATGCA CTGTTTGCAG CAAACGCTTC TGGTCCTTGC AGGATCTAAC AAGACACATG
    AGATCCCATA CAGGTGAAAG GCCATATAAA TGTCAGACCT GCGAACGCAC TTTCACTCTG
    AAGCACAGCC TGGTTCGCCA TCAGCGTATA CACCAGAAAA TTAAAGATGT CAAGGGCCCA
    GGGAAAGACT ATGACAAAGA GGAGAGTCAG TCAAGGTGCG AAGAAGAAAG CGACGCAGAC
    TCCATACAAA GCAGCACACA TCATACATCT GAGAACGAAT GTGATACACC AGCTAGTCTT
    AACCCAAACT TGCCAGAAGC AAAAAGATCC TCCTAA

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

    CloneID OXa45168
    Clone ID Related Accession (Same CDS sequence) XM_018095017.1
    Accession Version XM_018095017.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5025bp)
    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 ras-responsive element-binding protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGAGAA GACTGGAAAA
    CAAGAAATGA AAACCATTCC AGAACCATCA GCTGCCAATG CAGAGAAAGA GAATGCATTT
    GAAAAAGACC AGCTCAAGGC AGTTAACTTA ATGAATGGAG CAGAAGTCAG TGACCTATCC
    TCTGTTAACG CAATGATGTC TACTGTAATG AGTGCCACCA GCATAGCTGA AAATGGTGGG
    AGCTTGCAGA ACACTAAATC CCCAGCGAAA TCTCCAGCTC CAAACAGGAT TGGCCGAAGG
    AATCAGGAAT CAAAAGAGGA AAAATCATCT TATATCTGTC CCTTGTGTGA AAAGGTCTGC
    AATTCTCAGC ATCAACTTAC AATGCATATC CGCCAGCATA ATACTGACAC AGGAGGGACT
    GACCATAGCT GCAGTATCTG CGGAAAGTCT CTGAGTTCGG CTAGCTCACT AGATCGCCAT
    ATGCTTGTCC ACTCTGGAGA GAGGCCCTAC AAATGTAGTA TGTGTGGGCA GTCCTTTACT
    ACCAATGGGA ATATGCACAG GCATATGAAG ATACACGAGA AGGACCCAAA TGTTGCAGTT
    ACTACAAGTC CACCATCACC CCAAAAGCGA AGGAGATTGA CAGCAAAAAG GAAGTTAAGT
    CCTGAAGTGG AAGCAGAAAA AGAAGAAACA CCATCAGCAA AAAAGGTTGT TGAAGAGATT
    CAAGCTGTGG AGCCACTAAA GAAGACAGAA GATATTGTTC ACTGCCCTGT GTGTGCTAAA
    GAATTTCCAT GCAAATCAGA TCTGGATAGT CACATGGAAC TGCATCCTGA AGCCTCTCTT
    AAGTGTGACA TTTGTTGCAT TTCATTCCGT ACCCATCGGG GTATGCTGCG CCACAATGCT
    GTAATCCACA AGATGCTCCC AAAAGATGCT TCTGGAAAAC CTTTTATTCA GAGTAACCCT
    AACATCCCTG CTGGATTTAA TGATTTAAGT TTCACTGACT TTTCCTGCAG GAAGTTTCCT
    ATCATTTCTC AGGTCTGGTG CGAGACAAAT TTAAGAAGAT GCATCAGTGA TTTACATCGC
    TTCATCTGTG AAACTTGCAA TAAAGCATTT CCAATGATCT CTGCTTTGAA ACTGCACATG
    GAAACTCACG AAAAAGGGCA ACGTGACAGT AAGCATAAGA ATGAATATAC AACTGCAGTA
    GCTCAAGAAC AGAAAGCATA TATGGCAGCC CTGGGCCTTC AGCACACCAA AGATGTCAAA
    CCTGCTAGCC AGGAAGACAG CATGCCAGAC TGTTTTGAGG CAATGCGACG AGAAGCTTTG
    AAGAGTAACC TTTCTCAGGA TATTGGTAGT GTAAGCTTAC TTAGCATGTC AACTTTAGAA
    GCGCCCTCTG TGTGTGGCTC ATTCTCCATT CTTCCACCAA TGAAAGAGAA TGTGAAGCTG
    CTTTCCCTTC AGCCTTTTCA AAAGGGCTTT ACCATACAGC CTGACAACAG TATTGTTGTA
    AAACCCATCT CTGGGGAGCT TGCTGATATT CAGCAGATAT TAAAGATGGC AGCCTCAGCT
    CCCCCGCAAA TTAGTTTCCC ACCTCTGGCT AAAACTTCCC CTGGCAGCAC TCAGCCTCAA
    GCCTTCAAGC ACATGCCTCT ACTGAAGCCA AAGCCACTGG TGGCACCTCG TACAGTTGTT
    GCTGCCTCTA CGCCACCCCC ACTCATCAGC ACTCAGCAGG CATCTCCAGG CTCTATCAGC
    CCAAGCCTAC CTCCACCACA ACTGAGAAAT AAGAACACAG TGGAGTCTCC TACAAGCGCC
    ATATTTTTGC AGTCAAGATC TGAAGCCAAT AACAGCTATT CAACTCAGAA TTTACAATTA
    CCAAACACTG ATGCTTTGAG TCAGCATGAA ATAAAAACTC AACTTGAACA GGACAGTATT
    ATAGAAGCAT TCATGCCCTT GGATTTGGAC TCCAAAATAA AGCAAGAAGT AACTGAAGGT
    GATCTGAAAG CAATTATTTC GAACAACAAA AAAACAACTC AAGCAAAAAA GGTTTTCTAT
    CCTTGTCGGT TTTGTGATCA GGTATTTACA TTCTCAGGTC TTTTAAGGGC TCATATTCGC
    ACTCACTTGG GGATCTCGCC ATACCAGTGT AATATCTGTG ACTATATTGC AGCTGACAAA
    GCAGCATTAA TTCGTCACTT GCGTACACAT AGTGGAGAAA GGCCATATGT ATGTAAGATT
    TGCCAGTATC CTTTTACTGT CAAAGCCAAC TGTGAGAGGC ACCTTCGTAA GAAACACCTT
    AAAGTCACCA GAAAAGACAT TGAAAAAAAT ATTGATTATA TATCTACAAA CACAGCTGAA
    ATGGTGGATG CACTCTGTTC GCCAGATACT GTTTGCAAAT GCTGTGGTGA GGACTTGAAA
    AACTATCGTG CCCTTCATAT ACACATGAGG ACCCACAAAA ATTTTCAAAA AAAGAAGCCA
    TTTGAGTGCA AGGAGTGTGG AACTGCCTTT TCTGCTAAAA GAAACTGCAT ACACCACATA
    CTTAAACAAC ACCAGAATGT GCAAGAGAAA GAAATTGAGA GTCATATTTT AACTGTGACG
    TGTAGTCCTA AGCATATTCG ATCAGGCACC CCAGTTATGG GAGATAGCAC TTACCTAGAT
    CGGAAGCCTA CAGCATACTT GGTGTCCCAT AACGGCTTTC TTCATGGAGG GATGACAAAT
    TTTCCATTAA AACTTGAACC TAATACCAGC TATCCTATAG ATCTTGATGA GCCCTTAGAT
    TTTTCACAAA AGAATAAGAT TTCTAGTGTT CCCCCAATCA AGCAGGAACA AATCTACAGT
    CCCCCTGCAG CCTCATATGA GGACATTATG GAGCCCATTG ATCTTTCCAT CCCTAAACAA
    GCTAAACAGG ACAAAGAGGA TTCTCAGATT CAACCAAAAA CAACAGTGAC TCCGCCTGGG
    TCTGTTGGAC CATTATACAA CTGCCAACCA TGCCCTGTTC CCTTAAGTGC CAATGAAAAC
    CCAGACAAAG CTACAGCTGT CATACATTCC AAATCAGTAA AAACCCCTTT GCAATTGACA
    GTCCCTATCA TTTCGCCTGC TGTTCTTGGT AGTGCAACGG TTTTGCGCCC CTTGAGGCCT
    AAACCACCAC CTCTCTTGCC AAAGCCTCCA GTCTCTAAAG AACTTCCTCC CCTGGCATCC
    ATTGCACAAA TAATTTCATC AGTATCATCT GCATCTGCTT TGTTGAAGAC TGAAATTACA
    AATCCAGCTT CTCAGGTGAA TGCCAATAGT TTATCAGCCA CTGACAAATC TGGGTCTTCC
    AAGTCCGTAA TGACAATCCC AAACAAAGAA CTTGCTGCTT CTTGTAATGC TTCCCAACCT
    GCTGCAACCC CAAGTACTTC AAACAGCAAT GATGCTCTGG TCATAGGAGC AAAAAAACGA
    GGTAGAAAAA AAGGAACAAA AAACAAGCCG AAAACAGCTC CTGGTCTAGA TCTTGAATCT
    AGTGGGGAAT TTGCAAGTAT TGAAAAAATG CTAGCCACTA CAGACACTAA TAAGTTTAGC
    CCTTACCTTC AGTCTACTGA GGACCTCAAA AATAGCATAG ACCGAAATGG AACCAGTGAG
    GAAGACAGAG ACAGCGGTGA AGATAAAAGA GGAAAAAGAA ATTCCTATTC CAATTCCCTA
    CAGAAAATCA CCTGTCCCTA TTGTCCTCGA GTTTTTCCCT GGGCCAGCTC TCTGCAAAGG
    CATATGCTCA CTCACACAGG TCAGAAGCCC TTCCCATGTG CAAAATGCGA TGCCTTCTTT
    TCTACCAAAT CTAACTGTGA ACGCCATCTT TTACGTAAGC ATGGAGTTGC CAACCTGTCC
    TTGCGAAGAA ACGGTCTAAT TTCCCCGTCT AAAGAAAGTG ATGTTGGATC TCATGATAGC
    ACAGATAGCC AATCGGATGC AGAGCTGTCC TCTCCTGAGC TTGATGCACT GGACCTGACG
    TCAGTGGACA AGGATAAAAA AAACGAAATG AATCAAACTC AAGAAGGCAA TCTTGCATTA
    CAGAACTCAC AAATGGAAGA TGAGCTGCCA GATAACAAGA AAGAAACCAA AGTGGAACCA
    GATGAATACA AGGCACAATT AGAAGATGAT GTTGTAAGCA ACAAAAGTCT TGATCTTAAT
    TTAGCAAGTA AACTAATGGA CTTTAAACTA TCTGCAAGTG AGCAGACTGC CAGCAGCAAT
    GGCAACTTCT GTGATGTTTG TGGTAAAAAC TTTAAGTTTG CTGCTACTTT GGGCAGACAC
    AAAAAGGCCC ATTCATGTGA AAACAAGGGA GCAGGGGACA GCAATGGAGA TGACAATGAT
    GCGTCTGCCT GTAATTCTTC TAATAGTATC ACCATTGCAG AAGTTGGGGA TATGGAAGAA
    GCGCACCCAA TTGATCTAAA GGTATCACAA TCTCCCATGG AGATTGAATT GGACTCAAAA
    AGTAAGGGGG AAGGAGATGC TGTCTCAGCT GAAGAATGCA TAGAAAGTAA ACTTTCAGAA
    AAAAGTGATG ATGAAAAGGA ATCCAAAGCT AATGAAACAA AGGCATCTTC AAAAGCTGAT
    AAACGGAAAA AAATATGCAC TGTTTGCAGC AAACGCTTCT GGTCCTTGCA GGATCTAACA
    AGACACATGA GATCCCATAC AGGTGAAAGG CCATATAAAT GTCAGACCTG CGAACGCACT
    TTCACTCTGA AGCACAGCCT GGTTCGCCAT CAGCGTATAC ACCAGAAAAT TAAAGATGTC
    AAGGGCCCAG GGAAAGACTA TGACAAAGAG GAGAGTCAGT CAAGGTGCGA AGAAGAAAGC
    GACGCAGACT CCATACAAAG CAGCACACAT CATACATCTG AGAACGAATG TGATACACCA
    GCTAGTCTTA ACCCAAACTT GCCAGAAGCA AAAAGATCCT CCTAA

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

    RefSeq XP_017950506.1
    CDS395..5419
    Translation

    Target ORF information:

    RefSeq Version XM_018095017.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095017.1

    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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGAGAA GACTGGAAAA
    CAAGAAATGA AAACCATTCC AGAACCATCA GCTGCCAATG CAGAGAAAGA GAATGCATTT
    GAAAAAGACC AGCTCAAGGC AGTTAACTTA ATGAATGGAG CAGAAGTCAG TGACCTATCC
    TCTGTTAACG CAATGATGTC TACTGTAATG AGTGCCACCA GCATAGCTGA AAATGGTGGG
    AGCTTGCAGA ACACTAAATC CCCAGCGAAA TCTCCAGCTC CAAACAGGAT TGGCCGAAGG
    AATCAGGAAT CAAAAGAGGA AAAATCATCT TATATCTGTC CCTTGTGTGA AAAGGTCTGC
    AATTCTCAGC ATCAACTTAC AATGCATATC CGCCAGCATA ATACTGACAC AGGAGGGACT
    GACCATAGCT GCAGTATCTG CGGAAAGTCT CTGAGTTCGG CTAGCTCACT AGATCGCCAT
    ATGCTTGTCC ACTCTGGAGA GAGGCCCTAC AAATGTAGTA TGTGTGGGCA GTCCTTTACT
    ACCAATGGGA ATATGCACAG GCATATGAAG ATACACGAGA AGGACCCAAA TGTTGCAGTT
    ACTACAAGTC CACCATCACC CCAAAAGCGA AGGAGATTGA CAGCAAAAAG GAAGTTAAGT
    CCTGAAGTGG AAGCAGAAAA AGAAGAAACA CCATCAGCAA AAAAGGTTGT TGAAGAGATT
    CAAGCTGTGG AGCCACTAAA GAAGACAGAA GATATTGTTC ACTGCCCTGT GTGTGCTAAA
    GAATTTCCAT GCAAATCAGA TCTGGATAGT CACATGGAAC TGCATCCTGA AGCCTCTCTT
    AAGTGTGACA TTTGTTGCAT TTCATTCCGT ACCCATCGGG GTATGCTGCG CCACAATGCT
    GTAATCCACA AGATGCTCCC AAAAGATGCT TCTGGAAAAC CTTTTATTCA GAGTAACCCT
    AACATCCCTG CTGGATTTAA TGATTTAAGT TTCACTGACT TTTCCTGCAG GAAGTTTCCT
    ATCATTTCTC AGGTCTGGTG CGAGACAAAT TTAAGAAGAT GCATCAGTGA TTTACATCGC
    TTCATCTGTG AAACTTGCAA TAAAGCATTT CCAATGATCT CTGCTTTGAA ACTGCACATG
    GAAACTCACG AAAAAGGGCA ACGTGACAGT AAGCATAAGA ATGAATATAC AACTGCAGTA
    GCTCAAGAAC AGAAAGCATA TATGGCAGCC CTGGGCCTTC AGCACACCAA AGATGTCAAA
    CCTGCTAGCC AGGAAGACAG CATGCCAGAC TGTTTTGAGG CAATGCGACG AGAAGCTTTG
    AAGAGTAACC TTTCTCAGGA TATTGGTAGT GTAAGCTTAC TTAGCATGTC AACTTTAGAA
    GCGCCCTCTG TGTGTGGCTC ATTCTCCATT CTTCCACCAA TGAAAGAGAA TGTGAAGCTG
    CTTTCCCTTC AGCCTTTTCA AAAGGGCTTT ACCATACAGC CTGACAACAG TATTGTTGTA
    AAACCCATCT CTGGGGAGCT TGCTGATATT CAGCAGATAT TAAAGATGGC AGCCTCAGCT
    CCCCCGCAAA TTAGTTTCCC ACCTCTGGCT AAAACTTCCC CTGGCAGCAC TCAGCCTCAA
    GCCTTCAAGC ACATGCCTCT ACTGAAGCCA AAGCCACTGG TGGCACCTCG TACAGTTGTT
    GCTGCCTCTA CGCCACCCCC ACTCATCAGC ACTCAGCAGG CATCTCCAGG CTCTATCAGC
    CCAAGCCTAC CTCCACCACA ACTGAGAAAT AAGAACACAG TGGAGTCTCC TACAAGCGCC
    ATATTTTTGC AGTCAAGATC TGAAGCCAAT AACAGCTATT CAACTCAGAA TTTACAATTA
    CCAAACACTG ATGCTTTGAG TCAGCATGAA ATAAAAACTC AACTTGAACA GGACAGTATT
    ATAGAAGCAT TCATGCCCTT GGATTTGGAC TCCAAAATAA AGCAAGAAGT AACTGAAGGT
    GATCTGAAAG CAATTATTTC GAACAACAAA AAAACAACTC AAGCAAAAAA GGTTTTCTAT
    CCTTGTCGGT TTTGTGATCA GGTATTTACA TTCTCAGGTC TTTTAAGGGC TCATATTCGC
    ACTCACTTGG GGATCTCGCC ATACCAGTGT AATATCTGTG ACTATATTGC AGCTGACAAA
    GCAGCATTAA TTCGTCACTT GCGTACACAT AGTGGAGAAA GGCCATATGT ATGTAAGATT
    TGCCAGTATC CTTTTACTGT CAAAGCCAAC TGTGAGAGGC ACCTTCGTAA GAAACACCTT
    AAAGTCACCA GAAAAGACAT TGAAAAAAAT ATTGATTATA TATCTACAAA CACAGCTGAA
    ATGGTGGATG CACTCTGTTC GCCAGATACT GTTTGCAAAT GCTGTGGTGA GGACTTGAAA
    AACTATCGTG CCCTTCATAT ACACATGAGG ACCCACAAAA ATTTTCAAAA AAAGAAGCCA
    TTTGAGTGCA AGGAGTGTGG AACTGCCTTT TCTGCTAAAA GAAACTGCAT ACACCACATA
    CTTAAACAAC ACCAGAATGT GCAAGAGAAA GAAATTGAGA GTCATATTTT AACTGTGACG
    TGTAGTCCTA AGCATATTCG ATCAGGCACC CCAGTTATGG GAGATAGCAC TTACCTAGAT
    CGGAAGCCTA CAGCATACTT GGTGTCCCAT AACGGCTTTC TTCATGGAGG GATGACAAAT
    TTTCCATTAA AACTTGAACC TAATACCAGC TATCCTATAG ATCTTGATGA GCCCTTAGAT
    TTTTCACAAA AGAATAAGAT TTCTAGTGTT CCCCCAATCA AGCAGGAACA AATCTACAGT
    CCCCCTGCAG CCTCATATGA GGACATTATG GAGCCCATTG ATCTTTCCAT CCCTAAACAA
    GCTAAACAGG ACAAAGAGGA TTCTCAGATT CAACCAAAAA CAACAGTGAC TCCGCCTGGG
    TCTGTTGGAC CATTATACAA CTGCCAACCA TGCCCTGTTC CCTTAAGTGC CAATGAAAAC
    CCAGACAAAG CTACAGCTGT CATACATTCC AAATCAGTAA AAACCCCTTT GCAATTGACA
    GTCCCTATCA TTTCGCCTGC TGTTCTTGGT AGTGCAACGG TTTTGCGCCC CTTGAGGCCT
    AAACCACCAC CTCTCTTGCC AAAGCCTCCA GTCTCTAAAG AACTTCCTCC CCTGGCATCC
    ATTGCACAAA TAATTTCATC AGTATCATCT GCATCTGCTT TGTTGAAGAC TGAAATTACA
    AATCCAGCTT CTCAGGTGAA TGCCAATAGT TTATCAGCCA CTGACAAATC TGGGTCTTCC
    AAGTCCGTAA TGACAATCCC AAACAAAGAA CTTGCTGCTT CTTGTAATGC TTCCCAACCT
    GCTGCAACCC CAAGTACTTC AAACAGCAAT GATGCTCTGG TCATAGGAGC AAAAAAACGA
    GGTAGAAAAA AAGGAACAAA AAACAAGCCG AAAACAGCTC CTGGTCTAGA TCTTGAATCT
    AGTGGGGAAT TTGCAAGTAT TGAAAAAATG CTAGCCACTA CAGACACTAA TAAGTTTAGC
    CCTTACCTTC AGTCTACTGA GGACCTCAAA AATAGCATAG ACCGAAATGG AACCAGTGAG
    GAAGACAGAG ACAGCGGTGA AGATAAAAGA GGAAAAAGAA ATTCCTATTC CAATTCCCTA
    CAGAAAATCA CCTGTCCCTA TTGTCCTCGA GTTTTTCCCT GGGCCAGCTC TCTGCAAAGG
    CATATGCTCA CTCACACAGG TCAGAAGCCC TTCCCATGTG CAAAATGCGA TGCCTTCTTT
    TCTACCAAAT CTAACTGTGA ACGCCATCTT TTACGTAAGC ATGGAGTTGC CAACCTGTCC
    TTGCGAAGAA ACGGTCTAAT TTCCCCGTCT AAAGAAAGTG ATGTTGGATC TCATGATAGC
    ACAGATAGCC AATCGGATGC AGAGCTGTCC TCTCCTGAGC TTGATGCACT GGACCTGACG
    TCAGTGGACA AGGATAAAAA AAACGAAATG AATCAAACTC AAGAAGGCAA TCTTGCATTA
    CAGAACTCAC AAATGGAAGA TGAGCTGCCA GATAACAAGA AAGAAACCAA AGTGGAACCA
    GATGAATACA AGGCACAATT AGAAGATGAT GTTGTAAGCA ACAAAAGTCT TGATCTTAAT
    TTAGCAAGTA AACTAATGGA CTTTAAACTA TCTGCAAGTG AGCAGACTGC CAGCAGCAAT
    GGCAACTTCT GTGATGTTTG TGGTAAAAAC TTTAAGTTTG CTGCTACTTT GGGCAGACAC
    AAAAAGGCCC ATTCATGTGA AAACAAGGGA GCAGGGGACA GCAATGGAGA TGACAATGAT
    GCGTCTGCCT GTAATTCTTC TAATAGTATC ACCATTGCAG AAGTTGGGGA TATGGAAGAA
    GCGCACCCAA TTGATCTAAA GGTATCACAA TCTCCCATGG AGATTGAATT GGACTCAAAA
    AGTAAGGGGG AAGGAGATGC TGTCTCAGCT GAAGAATGCA TAGAAAGTAA ACTTTCAGAA
    AAAAGTGATG ATGAAAAGGA ATCCAAAGCT AATGAAACAA AGGCATCTTC AAAAGCTGAT
    AAACGGAAAA AAATATGCAC TGTTTGCAGC AAACGCTTCT GGTCCTTGCA GGATCTAACA
    AGACACATGA GATCCCATAC AGGTGAAAGG CCATATAAAT GTCAGACCTG CGAACGCACT
    TTCACTCTGA AGCACAGCCT GGTTCGCCAT CAGCGTATAC ACCAGAAAAT TAAAGATGTC
    AAGGGCCCAG GGAAAGACTA TGACAAAGAG GAGAGTCAGT CAAGGTGCGA AGAAGAAAGC
    GACGCAGACT CCATACAAAG CAGCACACAT CATACATCTG AGAACGAATG TGATACACCA
    GCTAGTCTTA ACCCAAACTT GCCAGAAGCA AAAAGATCCT CCTAA

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

    CloneID OXa45169
    Clone ID Related Accession (Same CDS sequence) XM_018095019.1
    Accession Version XM_018095019.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    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 ras-responsive element-binding protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGTGCT AGATAGAGCT
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG ATAGCCAATC GGATGCAGAG CTGTCCTCTC CTGAGCTTGA TGCACTGGAC
    CTGACGTCAG TGGACAAGGA TAAAAAAAAC GAAATGAATC AAACTCAAGA AGGCAATCTT
    GCATTACAGA ACTCACAAAT GGAAGATGAG CTGCCAGATA ACAAGAAAGA AACCAAAGTG
    GAACCAGATG AATACAAGGC ACAATTAGAA GATGATGTTG TAAGCAACAA AAGTCTTGAT
    CTTAATTTAG CAAGTAAACT AATGGACTTT AAACTATCTG CAAGTGAGCA GACTGCCAGC
    AGCAATGGCA ACTTCTGTGA TGTTTGTGGT AAAAACTTTA AGTTTGCTGC TACTTTGGGC
    AGACACAAAA AGGCCCATTC ATGTGAAAAC AAGGGAGCAG GGGACAGCAA TGGAGATGAC
    AATGATGCGT CTGCCTGTAA TTCTTCTAAT AGTATCACCA TTGCAGAAGT TGGGGATATG
    GAAGAAGCGC ACCCAATTGA TCTAAAGGTA TCACAATCTC CCATGGAGAT TGAATTGGAC
    TCAAAAAGTA AGGGGGAAGG AGATGCTGTC TCAGCTGAAG AATGCATAGA AAGTAAACTT
    TCAGAAAAAA GTGATGATGA AAAGGAATCC AAAGCTAATG AAACAAAGGC ATCTTCAAAA
    GCTGATAAAC GGAAAAAAAT ATGCACTGTT TGCAGCAAAC GCTTCTGGTC CTTGCAGGAT
    CTAACAAGAC ACATGAGATC CCATACAGGT GAAAGGCCAT ATAAATGTCA GACCTGCGAA
    CGCACTTTCA CTCTGAAGCA CAGCCTGGTT CGCCATCAGC GTATACACCA GAAAATTAAA
    GATGTCAAGG GCCCAGGGAA AGACTATGAC AAAGAGGAGA GTCAGTCAAG GTGCGAAGAA
    GAAAGCGACG CAGACTCCAT ACAAAGCAGC ACACATCATA CATCTGAGAA CGAATGTGAT
    ACACCAGCTA GTCTTAACCC AAACTTGCCA GAAGCAAAAA GATCCTCCTA A

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

    RefSeq XP_017950508.1
    CDS395..5305
    Translation

    Target ORF information:

    RefSeq Version XM_018095019.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095019.1

    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
    ATGAGAAGGA CATGCAGTAT TAGACAATAT GCCCCACATG GACTGGCAGC TGTGTACTGG 
    TGCCCCTCTG GTGGAGGTAT TGAAGGGATG TTGCCAGCAA ACTTTTCGAC AGGGTCCTGT
    CAGTTCCAAC CTTTTCAGCA GCCAGGGAGC AGCCTAGTAG TTGAAGTGCT AGATAGAGCT
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG ATAGCCAATC GGATGCAGAG CTGTCCTCTC CTGAGCTTGA TGCACTGGAC
    CTGACGTCAG TGGACAAGGA TAAAAAAAAC GAAATGAATC AAACTCAAGA AGGCAATCTT
    GCATTACAGA ACTCACAAAT GGAAGATGAG CTGCCAGATA ACAAGAAAGA AACCAAAGTG
    GAACCAGATG AATACAAGGC ACAATTAGAA GATGATGTTG TAAGCAACAA AAGTCTTGAT
    CTTAATTTAG CAAGTAAACT AATGGACTTT AAACTATCTG CAAGTGAGCA GACTGCCAGC
    AGCAATGGCA ACTTCTGTGA TGTTTGTGGT AAAAACTTTA AGTTTGCTGC TACTTTGGGC
    AGACACAAAA AGGCCCATTC ATGTGAAAAC AAGGGAGCAG GGGACAGCAA TGGAGATGAC
    AATGATGCGT CTGCCTGTAA TTCTTCTAAT AGTATCACCA TTGCAGAAGT TGGGGATATG
    GAAGAAGCGC ACCCAATTGA TCTAAAGGTA TCACAATCTC CCATGGAGAT TGAATTGGAC
    TCAAAAAGTA AGGGGGAAGG AGATGCTGTC TCAGCTGAAG AATGCATAGA AAGTAAACTT
    TCAGAAAAAA GTGATGATGA AAAGGAATCC AAAGCTAATG AAACAAAGGC ATCTTCAAAA
    GCTGATAAAC GGAAAAAAAT ATGCACTGTT TGCAGCAAAC GCTTCTGGTC CTTGCAGGAT
    CTAACAAGAC ACATGAGATC CCATACAGGT GAAAGGCCAT ATAAATGTCA GACCTGCGAA
    CGCACTTTCA CTCTGAAGCA CAGCCTGGTT CGCCATCAGC GTATACACCA GAAAATTAAA
    GATGTCAAGG GCCCAGGGAA AGACTATGAC AAAGAGGAGA GTCAGTCAAG GTGCGAAGAA
    GAAAGCGACG CAGACTCCAT ACAAAGCAGC ACACATCATA CATCTGAGAA CGAATGTGAT
    ACACCAGCTA GTCTTAACCC AAACTTGCCA GAAGCAAAAA GATCCTCCTA A

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

    CloneID OXa45170
    Clone ID Related Accession (Same CDS sequence) XM_018095020.1
    Accession Version XM_018095020.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4896bp)
    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 ras-responsive element-binding protein 1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG 
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG GTCAGAAGCC CTTCCCATGT GCAAAATGCG ATGCCTTCTT TTCTACCAAA
    TCTAACTGTG AACGCCATCT TTTACGTAAG CATGGAGTTG CCAACCTGTC CTTGCGAAGA
    AACGGTCTAA TTTCCCCGTC TAAAGAAAGT GATGTTGGAT CTCATGATAG CACAGATAGC
    CAATCGGATG CAGAGCTGTC CTCTCCTGAG CTTGATGCAC TGGACCTGAC GTCAGTGGAC
    AAGGATAAAA AAAACGAAAT GAATCAAACT CAAGAAGGCA ATCTTGCATT ACAGAACTCA
    CAAATGGAAG ATGAGCTGCC AGATAACAAG AAAGAAACCA AAGTGGAACC AGATGAATAC
    AAGGCACAAT TAGAAGATGA TGTTGTAAGC AACAAAAGTC TTGATCTTAA TTTAGCAAGT
    AAACTAATGG ACTTTAAACT ATCTGCAAGT GAGCAGACTG CCAGCAGCAA TGGCAACTTC
    TGTGATGTTT GTGGTAAAAA CTTTAAGTTT GCTGCTACTT TGGGCAGACA CAAAAAGGCC
    CATTCATGTG AAAACAAGGG AGCAGGGGAC AGCAATGGAG ATGACAATGA TGCGTCTGCC
    TGTAATTCTT CTAATAGTAT CACCATTGCA GAAGTTGGGG ATATGGAAGA AGCGCACCCA
    ATTGATCTAA AGGTATCACA ATCTCCCATG GAGATTGAAT TGGACTCAAA AAGTAAGGGG
    GAAGGAGATG CTGTCTCAGC TGAAGAATGC ATAGAAAGTA AACTTTCAGA AAAAAGTGAT
    GATGAAAAGG AATCCAAAGC TAATGAAACA AAGGCATCTT CAAAAGCTGA TAAACGGAAA
    AAAATATGCA CTGTTTGCAG CAAACGCTTC TGGTCCTTGC AGGATCTAAC AAGACACATG
    AGATCCCATA CAGGTGAAAG GCCATATAAA TGTCAGACCT GCGAACGCAC TTTCACTCTG
    AAGCACAGCC TGGTTCGCCA TCAGCGTATA CACCAGAAAA TTAAAGATGT CAAGGGCCCA
    GGGAAAGACT ATGACAAAGA GGAGAGTCAG TCAAGGTGCG AAGAAGAAAG CGACGCAGAC
    TCCATACAAA GCAGCACACA TCATACATCT GAGAACGAAT GTGATACACC AGCTAGTCTT
    AACCCAAACT TGCCAGAAGC AAAAAGATCC TCCTAA

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

    RefSeq XP_017950509.1
    CDS169..5064
    Translation

    Target ORF information:

    RefSeq Version XM_018095020.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095020.1

    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
    ATGGTTAATG CTAAAGTCTG TGTCCCCAAC ATTGCAGAGA AGACTGGAAA ACAAGAAATG 
    AAAACCATTC CAGAACCATC AGCTGCCAAT GCAGAGAAAG AGAATGCATT TGAAAAAGAC
    CAGCTCAAGG CAGTTAACTT AATGAATGGA GCAGAAGTCA GTGACCTATC CTCTGTTAAC
    GCAATGATGT CTACTGTAAT GAGTGCCACC AGCATAGCTG AAAATGGTGG GAGCTTGCAG
    AACACTAAAT CCCCAGCGAA ATCTCCAGCT CCAAACAGGA TTGGCCGAAG GAATCAGGAA
    TCAAAAGAGG AAAAATCATC TTATATCTGT CCCTTGTGTG AAAAGGTCTG CAATTCTCAG
    CATCAACTTA CAATGCATAT CCGCCAGCAT AATACTGACA CAGGAGGGAC TGACCATAGC
    TGCAGTATCT GCGGAAAGTC TCTGAGTTCG GCTAGCTCAC TAGATCGCCA TATGCTTGTC
    CACTCTGGAG AGAGGCCCTA CAAATGTAGT ATGTGTGGGC AGTCCTTTAC TACCAATGGG
    AATATGCACA GGCATATGAA GATACACGAG AAGGACCCAA ATGTTGCAGT TACTACAAGT
    CCACCATCAC CCCAAAAGCG AAGGAGATTG ACAGCAAAAA GGAAGTTAAG TCCTGAAGTG
    GAAGCAGAAA AAGAAGAAAC ACCATCAGCA AAAAAGGTTG TTGAAGAGAT TCAAGCTGTG
    GAGCCACTAA AGAAGACAGA AGATATTGTT CACTGCCCTG TGTGTGCTAA AGAATTTCCA
    TGCAAATCAG ATCTGGATAG TCACATGGAA CTGCATCCTG AAGCCTCTCT TAAGTGTGAC
    ATTTGTTGCA TTTCATTCCG TACCCATCGG GGTATGCTGC GCCACAATGC TGTAATCCAC
    AAGATGCTCC CAAAAGATGC TTCTGGAAAA CCTTTTATTC AGAGTAACCC TAACATCCCT
    GCTGGATTTA ATGATTTAAG TTTCACTGAC TTTTCCTGCA GGAAGTTTCC TATCATTTCT
    CAGGTCTGGT GCGAGACAAA TTTAAGAAGA TGCATCAGTG ATTTACATCG CTTCATCTGT
    GAAACTTGCA ATAAAGCATT TCCAATGATC TCTGCTTTGA AACTGCACAT GGAAACTCAC
    GAAAAAGGGC AACGTGACAG TAAGCATAAG AATGAATATA CAACTGCAGT AGCTCAAGAA
    CAGAAAGCAT ATATGGCAGC CCTGGGCCTT CAGCACACCA AAGATGTCAA ACCTGCTAGC
    CAGGAAGACA GCATGCCAGA CTGTTTTGAG GCAATGCGAC GAGAAGCTTT GAAGAGTAAC
    CTTTCTCAGG ATATTGGTAG TGTAAGCTTA CTTAGCATGT CAACTTTAGA AGCGCCCTCT
    GTGTGTGGCT CATTCTCCAT TCTTCCACCA ATGAAAGAGA ATGTGAAGCT GCTTTCCCTT
    CAGCCTTTTC AAAAGGGCTT TACCATACAG CCTGACAACA GTATTGTTGT AAAACCCATC
    TCTGGGGAGC TTGCTGATAT TCAGCAGATA TTAAAGATGG CAGCCTCAGC TCCCCCGCAA
    ATTAGTTTCC CACCTCTGGC TAAAACTTCC CCTGGCAGCA CTCAGCCTCA AGCCTTCAAG
    CACATGCCTC TACTGAAGCC AAAGCCACTG GTGGCACCTC GTACAGTTGT TGCTGCCTCT
    ACGCCACCCC CACTCATCAG CACTCAGCAG GCATCTCCAG GCTCTATCAG CCCAAGCCTA
    CCTCCACCAC AACTGAGAAA TAAGAACACA GTGGAGTCTC CTACAAGCGC CATATTTTTG
    CAGTCAAGAT CTGAAGCCAA TAACAGCTAT TCAACTCAGA ATTTACAATT ACCAAACACT
    GATGCTTTGA GTCAGCATGA AATAAAAACT CAACTTGAAC AGGACAGTAT TATAGAAGCA
    TTCATGCCCT TGGATTTGGA CTCCAAAATA AAGCAAGAAG TAACTGAAGG TGATCTGAAA
    GCAATTATTT CGAACAACAA AAAAACAACT CAAGCAAAAA AGGTTTTCTA TCCTTGTCGG
    TTTTGTGATC AGGTATTTAC ATTCTCAGGT CTTTTAAGGG CTCATATTCG CACTCACTTG
    GGGATCTCGC CATACCAGTG TAATATCTGT GACTATATTG CAGCTGACAA AGCAGCATTA
    ATTCGTCACT TGCGTACACA TAGTGGAGAA AGGCCATATG TATGTAAGAT TTGCCAGTAT
    CCTTTTACTG TCAAAGCCAA CTGTGAGAGG CACCTTCGTA AGAAACACCT TAAAGTCACC
    AGAAAAGACA TTGAAAAAAA TATTGATTAT ATATCTACAA ACACAGCTGA AATGGTGGAT
    GCACTCTGTT CGCCAGATAC TGTTTGCAAA TGCTGTGGTG AGGACTTGAA AAACTATCGT
    GCCCTTCATA TACACATGAG GACCCACAAA AATTTTCAAA AAAAGAAGCC ATTTGAGTGC
    AAGGAGTGTG GAACTGCCTT TTCTGCTAAA AGAAACTGCA TACACCACAT ACTTAAACAA
    CACCAGAATG TGCAAGAGAA AGAAATTGAG AGTCATATTT TAACTGTGAC GTGTAGTCCT
    AAGCATATTC GATCAGGCAC CCCAGTTATG GGAGATAGCA CTTACCTAGA TCGGAAGCCT
    ACAGCATACT TGGTGTCCCA TAACGGCTTT CTTCATGGAG GGATGACAAA TTTTCCATTA
    AAACTTGAAC CTAATACCAG CTATCCTATA GATCTTGATG AGCCCTTAGA TTTTTCACAA
    AAGAATAAGA TTTCTAGTGT TCCCCCAATC AAGCAGGAAC AAATCTACAG TCCCCCTGCA
    GCCTCATATG AGGACATTAT GGAGCCCATT GATCTTTCCA TCCCTAAACA AGCTAAACAG
    GACAAAGAGG ATTCTCAGAT TCAACCAAAA ACAACAGTGA CTCCGCCTGG GTCTGTTGGA
    CCATTATACA ACTGCCAACC ATGCCCTGTT CCCTTAAGTG CCAATGAAAA CCCAGACAAA
    GCTACAGCTG TCATACATTC CAAATCAGTA AAAACCCCTT TGCAATTGAC AGTCCCTATC
    ATTTCGCCTG CTGTTCTTGG TAGTGCAACG GTTTTGCGCC CCTTGAGGCC TAAACCACCA
    CCTCTCTTGC CAAAGCCTCC AGTCTCTAAA GAACTTCCTC CCCTGGCATC CATTGCACAA
    ATAATTTCAT CAGTATCATC TGCATCTGCT TTGTTGAAGA CTGAAATTAC AAATCCAGCT
    TCTCAGGTGA ATGCCAATAG TTTATCAGCC ACTGACAAAT CTGGGTCTTC CAAGTCCGTA
    ATGACAATCC CAAACAAAGA ACTTGCTGCT TCTTGTAATG CTTCCCAACC TGCTGCAACC
    CCAAGTACTT CAAACAGCAA TGATGCTCTG GTCATAGGAG CAAAAAAACG AGGTAGAAAA
    AAAGGAACAA AAAACAAGCC GAAAACAGCT CCTGGTCTAG ATCTTGAATC TAGTGGGGAA
    TTTGCAAGTA TTGAAAAAAT GCTAGCCACT ACAGACACTA ATAAGTTTAG CCCTTACCTT
    CAGTCTACTG AGGACCTCAA AAATAGCATA GACCGAAATG GAACCAGTGA GGAAGACAGA
    GACAGCGGTG AAGATAAAAG AGGAAAAAGA AATTCCTATT CCAATTCCCT ACAGAAAATC
    ACCTGTCCCT ATTGTCCTCG AGTTTTTCCC TGGGCCAGCT CTCTGCAAAG GCATATGCTC
    ACTCACACAG GTCAGAAGCC CTTCCCATGT GCAAAATGCG ATGCCTTCTT TTCTACCAAA
    TCTAACTGTG AACGCCATCT TTTACGTAAG CATGGAGTTG CCAACCTGTC CTTGCGAAGA
    AACGGTCTAA TTTCCCCGTC TAAAGAAAGT GATGTTGGAT CTCATGATAG CACAGATAGC
    CAATCGGATG CAGAGCTGTC CTCTCCTGAG CTTGATGCAC TGGACCTGAC GTCAGTGGAC
    AAGGATAAAA AAAACGAAAT GAATCAAACT CAAGAAGGCA ATCTTGCATT ACAGAACTCA
    CAAATGGAAG ATGAGCTGCC AGATAACAAG AAAGAAACCA AAGTGGAACC AGATGAATAC
    AAGGCACAAT TAGAAGATGA TGTTGTAAGC AACAAAAGTC TTGATCTTAA TTTAGCAAGT
    AAACTAATGG ACTTTAAACT ATCTGCAAGT GAGCAGACTG CCAGCAGCAA TGGCAACTTC
    TGTGATGTTT GTGGTAAAAA CTTTAAGTTT GCTGCTACTT TGGGCAGACA CAAAAAGGCC
    CATTCATGTG AAAACAAGGG AGCAGGGGAC AGCAATGGAG ATGACAATGA TGCGTCTGCC
    TGTAATTCTT CTAATAGTAT CACCATTGCA GAAGTTGGGG ATATGGAAGA AGCGCACCCA
    ATTGATCTAA AGGTATCACA ATCTCCCATG GAGATTGAAT TGGACTCAAA AAGTAAGGGG
    GAAGGAGATG CTGTCTCAGC TGAAGAATGC ATAGAAAGTA AACTTTCAGA AAAAAGTGAT
    GATGAAAAGG AATCCAAAGC TAATGAAACA AAGGCATCTT CAAAAGCTGA TAAACGGAAA
    AAAATATGCA CTGTTTGCAG CAAACGCTTC TGGTCCTTGC AGGATCTAAC AAGACACATG
    AGATCCCATA CAGGTGAAAG GCCATATAAA TGTCAGACCT GCGAACGCAC TTTCACTCTG
    AAGCACAGCC TGGTTCGCCA TCAGCGTATA CACCAGAAAA TTAAAGATGT CAAGGGCCCA
    GGGAAAGACT ATGACAAAGA GGAGAGTCAG TCAAGGTGCG AAGAAGAAAG CGACGCAGAC
    TCCATACAAA GCAGCACACA TCATACATCT GAGAACGAAT GTGATACACC AGCTAGTCTT
    AACCCAAACT TGCCAGAAGC AAAAAGATCC TCCTAA

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

    CloneID OXa11714
    Clone ID Related Accession (Same CDS sequence) XM_012965407.2 , XM_018095016.1 , XM_002932676.4 , XM_012965407.3 , XM_002932676.5
    Accession Version XM_012965407.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5043bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_012965407.1. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    RefSeq XP_012820861.1
    CDS567..5609
    Translation

    Target ORF information:

    RefSeq Version XM_012965407.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965407.2

    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
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    CloneID OXa11714
    Clone ID Related Accession (Same CDS sequence) XM_012965407.2 , XM_018095016.1 , XM_002932676.4 , XM_012965407.3 , XM_002932676.5
    Accession Version XM_018095016.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5043bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    RefSeq XP_017950505.1
    CDS2969..8011
    Translation

    Target ORF information:

    RefSeq Version XM_018095016.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095016.1

    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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    CloneID OXa11714
    Clone ID Related Accession (Same CDS sequence) XM_012965407.2 , XM_018095016.1 , XM_002932676.4 , XM_012965407.3 , XM_002932676.5
    Accession Version XM_002932676.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5043bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_002932676.3. ##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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    RefSeq XP_002932722.1
    CDS352..5394
    Translation

    Target ORF information:

    RefSeq Version XM_002932676.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932676.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGTGCTAGA TAGAGCTATG GTTAATGCTA AAGTCTGTGT CCCCAACATT
    GCAGAGAAGA CTGGAAAACA AGAAATGAAA ACCATTCCAG AACCATCAGC TGCCAATGCA
    GAGAAAGAGA ATGCATTTGA AAAAGACCAG CTCAAGGCAG TTAACTTAAT GAATGGAGCA
    GAAGTCAGTG ACCTATCCTC TGTTAACGCA ATGATGTCTA CTGTAATGAG TGCCACCAGC
    ATAGCTGAAA ATGGTGGGAG CTTGCAGAAC ACTAAATCCC CAGCGAAATC TCCAGCTCCA
    AACAGGATTG GCCGAAGGAA TCAGGAATCA AAAGAGGAAA AATCATCTTA TATCTGTCCC
    TTGTGTGAAA AGGTCTGCAA TTCTCAGCAT CAACTTACAA TGCATATCCG CCAGCATAAT
    ACTGACACAG GAGGGACTGA CCATAGCTGC AGTATCTGCG GAAAGTCTCT GAGTTCGGCT
    AGCTCACTAG ATCGCCATAT GCTTGTCCAC TCTGGAGAGA GGCCCTACAA ATGTAGTATG
    TGTGGGCAGT CCTTTACTAC CAATGGGAAT ATGCACAGGC ATATGAAGAT ACACGAGAAG
    GACCCAAATG TTGCAGTTAC TACAAGTCCA CCATCACCCC AAAAGCGAAG GAGATTGACA
    GCAAAAAGGA AGTTAAGTCC TGAAGTGGAA GCAGAAAAAG AAGAAACACC ATCAGCAAAA
    AAGGTTGTTG AAGAGATTCA AGCTGTGGAG CCACTAAAGA AGACAGAAGA TATTGTTCAC
    TGCCCTGTGT GTGCTAAAGA ATTTCCATGC AAATCAGATC TGGATAGTCA CATGGAACTG
    CATCCTGAAG CCTCTCTTAA GTGTGACATT TGTTGCATTT CATTCCGTAC CCATCGGGGT
    ATGCTGCGCC ACAATGCTGT AATCCACAAG ATGCTCCCAA AAGATGCTTC TGGAAAACCT
    TTTATTCAGA GTAACCCTAA CATCCCTGCT GGATTTAATG ATTTAAGTTT CACTGACTTT
    TCCTGCAGGA AGTTTCCTAT CATTTCTCAG GTCTGGTGCG AGACAAATTT AAGAAGATGC
    ATCAGTGATT TACATCGCTT CATCTGTGAA ACTTGCAATA AAGCATTTCC AATGATCTCT
    GCTTTGAAAC TGCACATGGA AACTCACGAA AAAGGGCAAC GTGACAGTAA GCATAAGAAT
    GAATATACAA CTGCAGTAGC TCAAGAACAG AAAGCATATA TGGCAGCCCT GGGCCTTCAG
    CACACCAAAG ATGTCAAACC TGCTAGCCAG GAAGACAGCA TGCCAGACTG TTTTGAGGCA
    ATGCGACGAG AAGCTTTGAA GAGTAACCTT TCTCAGGATA TTGGTAGTGT AAGCTTACTT
    AGCATGTCAA CTTTAGAAGC GCCCTCTGTG TGTGGCTCAT TCTCCATTCT TCCACCAATG
    AAAGAGAATG TGAAGCTGCT TTCCCTTCAG CCTTTTCAAA AGGGCTTTAC CATACAGCCT
    GACAACAGTA TTGTTGTAAA ACCCATCTCT GGGGAGCTTG CTGATATTCA GCAGATATTA
    AAGATGGCAG CCTCAGCTCC CCCGCAAATT AGTTTCCCAC CTCTGGCTAA AACTTCCCCT
    GGCAGCACTC AGCCTCAAGC CTTCAAGCAC ATGCCTCTAC TGAAGCCAAA GCCACTGGTG
    GCACCTCGTA CAGTTGTTGC TGCCTCTACG CCACCCCCAC TCATCAGCAC TCAGCAGGCA
    TCTCCAGGCT CTATCAGCCC AAGCCTACCT CCACCACAAC TGAGAAATAA GAACACAGTG
    GAGTCTCCTA CAAGCGCCAT ATTTTTGCAG TCAAGATCTG AAGCCAATAA CAGCTATTCA
    ACTCAGAATT TACAATTACC AAACACTGAT GCTTTGAGTC AGCATGAAAT AAAAACTCAA
    CTTGAACAGG ACAGTATTAT AGAAGCATTC ATGCCCTTGG ATTTGGACTC CAAAATAAAG
    CAAGAAGTAA CTGAAGGTGA TCTGAAAGCA ATTATTTCGA ACAACAAAAA AACAACTCAA
    GCAAAAAAGG TTTTCTATCC TTGTCGGTTT TGTGATCAGG TATTTACATT CTCAGGTCTT
    TTAAGGGCTC ATATTCGCAC TCACTTGGGG ATCTCGCCAT ACCAGTGTAA TATCTGTGAC
    TATATTGCAG CTGACAAAGC AGCATTAATT CGTCACTTGC GTACACATAG TGGAGAAAGG
    CCATATGTAT GTAAGATTTG CCAGTATCCT TTTACTGTCA AAGCCAACTG TGAGAGGCAC
    CTTCGTAAGA AACACCTTAA AGTCACCAGA AAAGACATTG AAAAAAATAT TGATTATATA
    TCTACAAACA CAGCTGAAAT GGTGGATGCA CTCTGTTCGC CAGATACTGT TTGCAAATGC
    TGTGGTGAGG ACTTGAAAAA CTATCGTGCC CTTCATATAC ACATGAGGAC CCACAAAAAT
    TTTCAAAAAA AGAAGCCATT TGAGTGCAAG GAGTGTGGAA CTGCCTTTTC TGCTAAAAGA
    AACTGCATAC ACCACATACT TAAACAACAC CAGAATGTGC AAGAGAAAGA AATTGAGAGT
    CATATTTTAA CTGTGACGTG TAGTCCTAAG CATATTCGAT CAGGCACCCC AGTTATGGGA
    GATAGCACTT ACCTAGATCG GAAGCCTACA GCATACTTGG TGTCCCATAA CGGCTTTCTT
    CATGGAGGGA TGACAAATTT TCCATTAAAA CTTGAACCTA ATACCAGCTA TCCTATAGAT
    CTTGATGAGC CCTTAGATTT TTCACAAAAG AATAAGATTT CTAGTGTTCC CCCAATCAAG
    CAGGAACAAA TCTACAGTCC CCCTGCAGCC TCATATGAGG ACATTATGGA GCCCATTGAT
    CTTTCCATCC CTAAACAAGC TAAACAGGAC AAAGAGGATT CTCAGATTCA ACCAAAAACA
    ACAGTGACTC CGCCTGGGTC TGTTGGACCA TTATACAACT GCCAACCATG CCCTGTTCCC
    TTAAGTGCCA ATGAAAACCC AGACAAAGCT ACAGCTGTCA TACATTCCAA ATCAGTAAAA
    ACCCCTTTGC AATTGACAGT CCCTATCATT TCGCCTGCTG TTCTTGGTAG TGCAACGGTT
    TTGCGCCCCT TGAGGCCTAA ACCACCACCT CTCTTGCCAA AGCCTCCAGT CTCTAAAGAA
    CTTCCTCCCC TGGCATCCAT TGCACAAATA ATTTCATCAG TATCATCTGC ATCTGCTTTG
    TTGAAGACTG AAATTACAAA TCCAGCTTCT CAGGTGAATG CCAATAGTTT ATCAGCCACT
    GACAAATCTG GGTCTTCCAA GTCCGTAATG ACAATCCCAA ACAAAGAACT TGCTGCTTCT
    TGTAATGCTT CCCAACCTGC TGCAACCCCA AGTACTTCAA ACAGCAATGA TGCTCTGGTC
    ATAGGAGCAA AAAAACGAGG TAGAAAAAAA GGAACAAAAA ACAAGCCGAA AACAGCTCCT
    GGTCTAGATC TTGAATCTAG TGGGGAATTT GCAAGTATTG AAAAAATGCT AGCCACTACA
    GACACTAATA AGTTTAGCCC TTACCTTCAG TCTACTGAGG ACCTCAAAAA TAGCATAGAC
    CGAAATGGAA CCAGTGAGGA AGACAGAGAC AGCGGTGAAG ATAAAAGAGG AAAAAGAAAT
    TCCTATTCCA ATTCCCTACA GAAAATCACC TGTCCCTATT GTCCTCGAGT TTTTCCCTGG
    GCCAGCTCTC TGCAAAGGCA TATGCTCACT CACACAGGTC AGAAGCCCTT CCCATGTGCA
    AAATGCGATG CCTTCTTTTC TACCAAATCT AACTGTGAAC GCCATCTTTT ACGTAAGCAT
    GGAGTTGCCA ACCTGTCCTT GCGAAGAAAC GGTCTAATTT CCCCGTCTAA AGAAAGTGAT
    GTTGGATCTC ATGATAGCAC AGATAGCCAA TCGGATGCAG AGCTGTCCTC TCCTGAGCTT
    GATGCACTGG ACCTGACGTC AGTGGACAAG GATAAAAAAA ACGAAATGAA TCAAACTCAA
    GAAGGCAATC TTGCATTACA GAACTCACAA ATGGAAGATG AGCTGCCAGA TAACAAGAAA
    GAAACCAAAG TGGAACCAGA TGAATACAAG GCACAATTAG AAGATGATGT TGTAAGCAAC
    AAAAGTCTTG ATCTTAATTT AGCAAGTAAA CTAATGGACT TTAAACTATC TGCAAGTGAG
    CAGACTGCCA GCAGCAATGG CAACTTCTGT GATGTTTGTG GTAAAAACTT TAAGTTTGCT
    GCTACTTTGG GCAGACACAA AAAGGCCCAT TCATGTGAAA ACAAGGGAGC AGGGGACAGC
    AATGGAGATG ACAATGATGC GTCTGCCTGT AATTCTTCTA ATAGTATCAC CATTGCAGAA
    GTTGGGGATA TGGAAGAAGC GCACCCAATT GATCTAAAGG TATCACAATC TCCCATGGAG
    ATTGAATTGG ACTCAAAAAG TAAGGGGGAA GGAGATGCTG TCTCAGCTGA AGAATGCATA
    GAAAGTAAAC TTTCAGAAAA AAGTGATGAT GAAAAGGAAT CCAAAGCTAA TGAAACAAAG
    GCATCTTCAA AAGCTGATAA ACGGAAAAAA ATATGCACTG TTTGCAGCAA ACGCTTCTGG
    TCCTTGCAGG ATCTAACAAG ACACATGAGA TCCCATACAG GTGAAAGGCC ATATAAATGT
    CAGACCTGCG AACGCACTTT CACTCTGAAG CACAGCCTGG TTCGCCATCA GCGTATACAC
    CAGAAAATTA AAGATGTCAA GGGCCCAGGG AAAGACTATG ACAAAGAGGA GAGTCAGTCA
    AGGTGCGAAG AAGAAAGCGA CGCAGACTCC ATACAAAGCA GCACACATCA TACATCTGAG
    AACGAATGTG ATACACCAGC TAGTCTTAAC CCAAACTTGC CAGAAGCAAA AAGATCCTCC
    TAA

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

    CloneID OXa11715
    Clone ID Related Accession (Same CDS sequence) XM_012965408.2 , XM_012965408.3
    Accession Version XM_012965408.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4992bp)
    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 ras-responsive element-binding protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_012965408.1. ##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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGAGAAGAC TGGAAAACAA GAAATGAAAA CCATTCCAGA ACCATCAGCT
    GCCAATGCAG AGAAAGAGAA TGCATTTGAA AAAGACCAGC TCAAGGCAGT TAACTTAATG
    AATGGAGCAG AAGTCAGTGA CCTATCCTCT GTTAACGCAA TGATGTCTAC TGTAATGAGT
    GCCACCAGCA TAGCTGAAAA TGGTGGGAGC TTGCAGAACA CTAAATCCCC AGCGAAATCT
    CCAGCTCCAA ACAGGATTGG CCGAAGGAAT CAGGAATCAA AAGAGGAAAA ATCATCTTAT
    ATCTGTCCCT TGTGTGAAAA GGTCTGCAAT TCTCAGCATC AACTTACAAT GCATATCCGC
    CAGCATAATA CTGACACAGG AGGGACTGAC CATAGCTGCA GTATCTGCGG AAAGTCTCTG
    AGTTCGGCTA GCTCACTAGA TCGCCATATG CTTGTCCACT CTGGAGAGAG GCCCTACAAA
    TGTAGTATGT GTGGGCAGTC CTTTACTACC AATGGGAATA TGCACAGGCA TATGAAGATA
    CACGAGAAGG ACCCAAATGT TGCAGTTACT ACAAGTCCAC CATCACCCCA AAAGCGAAGG
    AGATTGACAG CAAAAAGGAA GTTAAGTCCT GAAGTGGAAG CAGAAAAAGA AGAAACACCA
    TCAGCAAAAA AGGTTGTTGA AGAGATTCAA GCTGTGGAGC CACTAAAGAA GACAGAAGAT
    ATTGTTCACT GCCCTGTGTG TGCTAAAGAA TTTCCATGCA AATCAGATCT GGATAGTCAC
    ATGGAACTGC ATCCTGAAGC CTCTCTTAAG TGTGACATTT GTTGCATTTC ATTCCGTACC
    CATCGGGGTA TGCTGCGCCA CAATGCTGTA ATCCACAAGA TGCTCCCAAA AGATGCTTCT
    GGAAAACCTT TTATTCAGAG TAACCCTAAC ATCCCTGCTG GATTTAATGA TTTAAGTTTC
    ACTGACTTTT CCTGCAGGAA GTTTCCTATC ATTTCTCAGG TCTGGTGCGA GACAAATTTA
    AGAAGATGCA TCAGTGATTT ACATCGCTTC ATCTGTGAAA CTTGCAATAA AGCATTTCCA
    ATGATCTCTG CTTTGAAACT GCACATGGAA ACTCACGAAA AAGGGCAACG TGACAGTAAG
    CATAAGAATG AATATACAAC TGCAGTAGCT CAAGAACAGA AAGCATATAT GGCAGCCCTG
    GGCCTTCAGC ACACCAAAGA TGTCAAACCT GCTAGCCAGG AAGACAGCAT GCCAGACTGT
    TTTGAGGCAA TGCGACGAGA AGCTTTGAAG AGTAACCTTT CTCAGGATAT TGGTAGTGTA
    AGCTTACTTA GCATGTCAAC TTTAGAAGCG CCCTCTGTGT GTGGCTCATT CTCCATTCTT
    CCACCAATGA AAGAGAATGT GAAGCTGCTT TCCCTTCAGC CTTTTCAAAA GGGCTTTACC
    ATACAGCCTG ACAACAGTAT TGTTGTAAAA CCCATCTCTG GGGAGCTTGC TGATATTCAG
    CAGATATTAA AGATGGCAGC CTCAGCTCCC CCGCAAATTA GTTTCCCACC TCTGGCTAAA
    ACTTCCCCTG GCAGCACTCA GCCTCAAGCC TTCAAGCACA TGCCTCTACT GAAGCCAAAG
    CCACTGGTGG CACCTCGTAC AGTTGTTGCT GCCTCTACGC CACCCCCACT CATCAGCACT
    CAGCAGGCAT CTCCAGGCTC TATCAGCCCA AGCCTACCTC CACCACAACT GAGAAATAAG
    AACACAGTGG AGTCTCCTAC AAGCGCCATA TTTTTGCAGT CAAGATCTGA AGCCAATAAC
    AGCTATTCAA CTCAGAATTT ACAATTACCA AACACTGATG CTTTGAGTCA GCATGAAATA
    AAAACTCAAC TTGAACAGGA CAGTATTATA GAAGCATTCA TGCCCTTGGA TTTGGACTCC
    AAAATAAAGC AAGAAGTAAC TGAAGGTGAT CTGAAAGCAA TTATTTCGAA CAACAAAAAA
    ACAACTCAAG CAAAAAAGGT TTTCTATCCT TGTCGGTTTT GTGATCAGGT ATTTACATTC
    TCAGGTCTTT TAAGGGCTCA TATTCGCACT CACTTGGGGA TCTCGCCATA CCAGTGTAAT
    ATCTGTGACT ATATTGCAGC TGACAAAGCA GCATTAATTC GTCACTTGCG TACACATAGT
    GGAGAAAGGC CATATGTATG TAAGATTTGC CAGTATCCTT TTACTGTCAA AGCCAACTGT
    GAGAGGCACC TTCGTAAGAA ACACCTTAAA GTCACCAGAA AAGACATTGA AAAAAATATT
    GATTATATAT CTACAAACAC AGCTGAAATG GTGGATGCAC TCTGTTCGCC AGATACTGTT
    TGCAAATGCT GTGGTGAGGA CTTGAAAAAC TATCGTGCCC TTCATATACA CATGAGGACC
    CACAAAAATT TTCAAAAAAA GAAGCCATTT GAGTGCAAGG AGTGTGGAAC TGCCTTTTCT
    GCTAAAAGAA ACTGCATACA CCACATACTT AAACAACACC AGAATGTGCA AGAGAAAGAA
    ATTGAGAGTC ATATTTTAAC TGTGACGTGT AGTCCTAAGC ATATTCGATC AGGCACCCCA
    GTTATGGGAG ATAGCACTTA CCTAGATCGG AAGCCTACAG CATACTTGGT GTCCCATAAC
    GGCTTTCTTC ATGGAGGGAT GACAAATTTT CCATTAAAAC TTGAACCTAA TACCAGCTAT
    CCTATAGATC TTGATGAGCC CTTAGATTTT TCACAAAAGA ATAAGATTTC TAGTGTTCCC
    CCAATCAAGC AGGAACAAAT CTACAGTCCC CCTGCAGCCT CATATGAGGA CATTATGGAG
    CCCATTGATC TTTCCATCCC TAAACAAGCT AAACAGGACA AAGAGGATTC TCAGATTCAA
    CCAAAAACAA CAGTGACTCC GCCTGGGTCT GTTGGACCAT TATACAACTG CCAACCATGC
    CCTGTTCCCT TAAGTGCCAA TGAAAACCCA GACAAAGCTA CAGCTGTCAT ACATTCCAAA
    TCAGTAAAAA CCCCTTTGCA ATTGACAGTC CCTATCATTT CGCCTGCTGT TCTTGGTAGT
    GCAACGGTTT TGCGCCCCTT GAGGCCTAAA CCACCACCTC TCTTGCCAAA GCCTCCAGTC
    TCTAAAGAAC TTCCTCCCCT GGCATCCATT GCACAAATAA TTTCATCAGT ATCATCTGCA
    TCTGCTTTGT TGAAGACTGA AATTACAAAT CCAGCTTCTC AGGTGAATGC CAATAGTTTA
    TCAGCCACTG ACAAATCTGG GTCTTCCAAG TCCGTAATGA CAATCCCAAA CAAAGAACTT
    GCTGCTTCTT GTAATGCTTC CCAACCTGCT GCAACCCCAA GTACTTCAAA CAGCAATGAT
    GCTCTGGTCA TAGGAGCAAA AAAACGAGGT AGAAAAAAAG GAACAAAAAA CAAGCCGAAA
    ACAGCTCCTG GTCTAGATCT TGAATCTAGT GGGGAATTTG CAAGTATTGA AAAAATGCTA
    GCCACTACAG ACACTAATAA GTTTAGCCCT TACCTTCAGT CTACTGAGGA CCTCAAAAAT
    AGCATAGACC GAAATGGAAC CAGTGAGGAA GACAGAGACA GCGGTGAAGA TAAAAGAGGA
    AAAAGAAATT CCTATTCCAA TTCCCTACAG AAAATCACCT GTCCCTATTG TCCTCGAGTT
    TTTCCCTGGG CCAGCTCTCT GCAAAGGCAT ATGCTCACTC ACACAGGTCA GAAGCCCTTC
    CCATGTGCAA AATGCGATGC CTTCTTTTCT ACCAAATCTA ACTGTGAACG CCATCTTTTA
    CGTAAGCATG GAGTTGCCAA CCTGTCCTTG CGAAGAAACG GTCTAATTTC CCCGTCTAAA
    GAAAGTGATG TTGGATCTCA TGATAGCACA GATAGCCAAT CGGATGCAGA GCTGTCCTCT
    CCTGAGCTTG ATGCACTGGA CCTGACGTCA GTGGACAAGG ATAAAAAAAA CGAAATGAAT
    CAAACTCAAG AAGGCAATCT TGCATTACAG AACTCACAAA TGGAAGATGA GCTGCCAGAT
    AACAAGAAAG AAACCAAAGT GGAACCAGAT GAATACAAGG CACAATTAGA AGATGATGTT
    GTAAGCAACA AAAGTCTTGA TCTTAATTTA GCAAGTAAAC TAATGGACTT TAAACTATCT
    GCAAGTGAGC AGACTGCCAG CAGCAATGGC AACTTCTGTG ATGTTTGTGG TAAAAACTTT
    AAGTTTGCTG CTACTTTGGG CAGACACAAA AAGGCCCATT CATGTGAAAA CAAGGGAGCA
    GGGGACAGCA ATGGAGATGA CAATGATGCG TCTGCCTGTA ATTCTTCTAA TAGTATCACC
    ATTGCAGAAG TTGGGGATAT GGAAGAAGCG CACCCAATTG ATCTAAAGGT ATCACAATCT
    CCCATGGAGA TTGAATTGGA CTCAAAAAGT AAGGGGGAAG GAGATGCTGT CTCAGCTGAA
    GAATGCATAG AAAGTAAACT TTCAGAAAAA AGTGATGATG AAAAGGAATC CAAAGCTAAT
    GAAACAAAGG CATCTTCAAA AGCTGATAAA CGGAAAAAAA TATGCACTGT TTGCAGCAAA
    CGCTTCTGGT CCTTGCAGGA TCTAACAAGA CACATGAGAT CCCATACAGG TGAAAGGCCA
    TATAAATGTC AGACCTGCGA ACGCACTTTC ACTCTGAAGC ACAGCCTGGT TCGCCATCAG
    CGTATACACC AGAAAATTAA AGATGTCAAG GGCCCAGGGA AAGACTATGA CAAAGAGGAG
    AGTCAGTCAA GGTGCGAAGA AGAAAGCGAC GCAGACTCCA TACAAAGCAG CACACATCAT
    ACATCTGAGA ACGAATGTGA TACACCAGCT AGTCTTAACC CAAACTTGCC AGAAGCAAAA
    AGATCCTCCT AA

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

    RefSeq XP_012820862.1
    CDS567..5558
    Translation

    Target ORF information:

    RefSeq Version XM_012965408.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012965408.2

    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
    ATGGAAAACC AGGCAGCTGT GTACTGGTGC CCCTCTGGTG GAGGTATTGA AGGGATGTTG 
    CCAGCAAACT TTTCGACAGG GTCCTGTCAG TTCCAACCTT TTCAGCAGCC AGGGAGCAGC
    CTAGTAGTTG AAGAGAAGAC TGGAAAACAA GAAATGAAAA CCATTCCAGA ACCATCAGCT
    GCCAATGCAG AGAAAGAGAA TGCATTTGAA AAAGACCAGC TCAAGGCAGT TAACTTAATG
    AATGGAGCAG AAGTCAGTGA CCTATCCTCT GTTAACGCAA TGATGTCTAC TGTAATGAGT
    GCCACCAGCA TAGCTGAAAA TGGTGGGAGC TTGCAGAACA CTAAATCCCC AGCGAAATCT
    CCAGCTCCAA ACAGGATTGG CCGAAGGAAT CAGGAATCAA AAGAGGAAAA ATCATCTTAT
    ATCTGTCCCT TGTGTGAAAA GGTCTGCAAT TCTCAGCATC AACTTACAAT GCATATCCGC
    CAGCATAATA CTGACACAGG AGGGACTGAC CATAGCTGCA GTATCTGCGG AAAGTCTCTG
    AGTTCGGCTA GCTCACTAGA TCGCCATATG CTTGTCCACT CTGGAGAGAG GCCCTACAAA
    TGTAGTATGT GTGGGCAGTC CTTTACTACC AATGGGAATA TGCACAGGCA TATGAAGATA
    CACGAGAAGG ACCCAAATGT TGCAGTTACT ACAAGTCCAC CATCACCCCA AAAGCGAAGG
    AGATTGACAG CAAAAAGGAA GTTAAGTCCT GAAGTGGAAG CAGAAAAAGA AGAAACACCA
    TCAGCAAAAA AGGTTGTTGA AGAGATTCAA GCTGTGGAGC CACTAAAGAA GACAGAAGAT
    ATTGTTCACT GCCCTGTGTG TGCTAAAGAA TTTCCATGCA AATCAGATCT GGATAGTCAC
    ATGGAACTGC ATCCTGAAGC CTCTCTTAAG TGTGACATTT GTTGCATTTC ATTCCGTACC
    CATCGGGGTA TGCTGCGCCA CAATGCTGTA ATCCACAAGA TGCTCCCAAA AGATGCTTCT
    GGAAAACCTT TTATTCAGAG TAACCCTAAC ATCCCTGCTG GATTTAATGA TTTAAGTTTC
    ACTGACTTTT CCTGCAGGAA GTTTCCTATC ATTTCTCAGG TCTGGTGCGA GACAAATTTA
    AGAAGATGCA TCAGTGATTT ACATCGCTTC ATCTGTGAAA CTTGCAATAA AGCATTTCCA
    ATGATCTCTG CTTTGAAACT GCACATGGAA ACTCACGAAA AAGGGCAACG TGACAGTAAG
    CATAAGAATG AATATACAAC TGCAGTAGCT CAAGAACAGA AAGCATATAT GGCAGCCCTG
    GGCCTTCAGC ACACCAAAGA TGTCAAACCT GCTAGCCAGG AAGACAGCAT GCCAGACTGT
    TTTGAGGCAA TGCGACGAGA AGCTTTGAAG AGTAACCTTT CTCAGGATAT TGGTAGTGTA
    AGCTTACTTA GCATGTCAAC TTTAGAAGCG CCCTCTGTGT GTGGCTCATT CTCCATTCTT
    CCACCAATGA AAGAGAATGT GAAGCTGCTT TCCCTTCAGC CTTTTCAAAA GGGCTTTACC
    ATACAGCCTG ACAACAGTAT TGTTGTAAAA CCCATCTCTG GGGAGCTTGC TGATATTCAG
    CAGATATTAA AGATGGCAGC CTCAGCTCCC CCGCAAATTA GTTTCCCACC TCTGGCTAAA
    ACTTCCCCTG GCAGCACTCA GCCTCAAGCC TTCAAGCACA TGCCTCTACT GAAGCCAAAG
    CCACTGGTGG CACCTCGTAC AGTTGTTGCT GCCTCTACGC CACCCCCACT CATCAGCACT
    CAGCAGGCAT CTCCAGGCTC TATCAGCCCA AGCCTACCTC CACCACAACT GAGAAATAAG
    AACACAGTGG AGTCTCCTAC AAGCGCCATA TTTTTGCAGT CAAGATCTGA AGCCAATAAC
    AGCTATTCAA CTCAGAATTT ACAATTACCA AACACTGATG CTTTGAGTCA GCATGAAATA
    AAAACTCAAC TTGAACAGGA CAGTATTATA GAAGCATTCA TGCCCTTGGA TTTGGACTCC
    AAAATAAAGC AAGAAGTAAC TGAAGGTGAT CTGAAAGCAA TTATTTCGAA CAACAAAAAA
    ACAACTCAAG CAAAAAAGGT TTTCTATCCT TGTCGGTTTT GTGATCAGGT ATTTACATTC
    TCAGGTCTTT TAAGGGCTCA TATTCGCACT CACTTGGGGA TCTCGCCATA CCAGTGTAAT
    ATCTGTGACT ATATTGCAGC TGACAAAGCA GCATTAATTC GTCACTTGCG TACACATAGT
    GGAGAAAGGC CATATGTATG TAAGATTTGC CAGTATCCTT TTACTGTCAA AGCCAACTGT
    GAGAGGCACC TTCGTAAGAA ACACCTTAAA GTCACCAGAA AAGACATTGA AAAAAATATT
    GATTATATAT CTACAAACAC AGCTGAAATG GTGGATGCAC TCTGTTCGCC AGATACTGTT
    TGCAAATGCT GTGGTGAGGA CTTGAAAAAC TATCGTGCCC TTCATATACA CATGAGGACC
    CACAAAAATT TTCAAAAAAA GAAGCCATTT GAGTGCAAGG AGTGTGGAAC TGCCTTTTCT
    GCTAAAAGAA ACTGCATACA CCACATACTT AAACAACACC AGAATGTGCA AGAGAAAGAA
    ATTGAGAGTC ATATTTTAAC TGTGACGTGT AGTCCTAAGC ATATTCGATC AGGCACCCCA
    GTTATGGGAG ATAGCACTTA CCTAGATCGG AAGCCTACAG CATACTTGGT GTCCCATAAC
    GGCTTTCTTC ATGGAGGGAT GACAAATTTT CCATTAAAAC TTGAACCTAA TACCAGCTAT
    CCTATAGATC TTGATGAGCC CTTAGATTTT TCACAAAAGA ATAAGATTTC TAGTGTTCCC
    CCAATCAAGC AGGAACAAAT CTACAGTCCC CCTGCAGCCT CATATGAGGA CATTATGGAG
    CCCATTGATC TTTCCATCCC TAAACAAGCT AAACAGGACA AAGAGGATTC TCAGATTCAA
    CCAAAAACAA CAGTGACTCC GCCTGGGTCT GTTGGACCAT TATACAACTG CCAACCATGC
    CCTGTTCCCT TAAGTGCCAA TGAAAACCCA GACAAAGCTA CAGCTGTCAT ACATTCCAAA
    TCAGTAAAAA CCCCTTTGCA ATTGACAGTC CCTATCATTT CGCCTGCTGT TCTTGGTAGT
    GCAACGGTTT TGCGCCCCTT GAGGCCTAAA CCACCACCTC TCTTGCCAAA GCCTCCAGTC
    TCTAAAGAAC TTCCTCCCCT GGCATCCATT GCACAAATAA TTTCATCAGT ATCATCTGCA
    TCTGCTTTGT TGAAGACTGA AATTACAAAT CCAGCTTCTC AGGTGAATGC CAATAGTTTA
    TCAGCCACTG ACAAATCTGG GTCTTCCAAG TCCGTAATGA CAATCCCAAA CAAAGAACTT
    GCTGCTTCTT GTAATGCTTC CCAACCTGCT GCAACCCCAA GTACTTCAAA CAGCAATGAT
    GCTCTGGTCA TAGGAGCAAA AAAACGAGGT AGAAAAAAAG GAACAAAAAA CAAGCCGAAA
    ACAGCTCCTG GTCTAGATCT TGAATCTAGT GGGGAATTTG CAAGTATTGA AAAAATGCTA
    GCCACTACAG ACACTAATAA GTTTAGCCCT TACCTTCAGT CTACTGAGGA CCTCAAAAAT
    AGCATAGACC GAAATGGAAC CAGTGAGGAA GACAGAGACA GCGGTGAAGA TAAAAGAGGA
    AAAAGAAATT CCTATTCCAA TTCCCTACAG AAAATCACCT GTCCCTATTG TCCTCGAGTT
    TTTCCCTGGG CCAGCTCTCT GCAAAGGCAT ATGCTCACTC ACACAGGTCA GAAGCCCTTC
    CCATGTGCAA AATGCGATGC CTTCTTTTCT ACCAAATCTA ACTGTGAACG CCATCTTTTA
    CGTAAGCATG GAGTTGCCAA CCTGTCCTTG CGAAGAAACG GTCTAATTTC CCCGTCTAAA
    GAAAGTGATG TTGGATCTCA TGATAGCACA GATAGCCAAT CGGATGCAGA GCTGTCCTCT
    CCTGAGCTTG ATGCACTGGA CCTGACGTCA GTGGACAAGG ATAAAAAAAA CGAAATGAAT
    CAAACTCAAG AAGGCAATCT TGCATTACAG AACTCACAAA TGGAAGATGA GCTGCCAGAT
    AACAAGAAAG AAACCAAAGT GGAACCAGAT GAATACAAGG CACAATTAGA AGATGATGTT
    GTAAGCAACA AAAGTCTTGA TCTTAATTTA GCAAGTAAAC TAATGGACTT TAAACTATCT
    GCAAGTGAGC AGACTGCCAG CAGCAATGGC AACTTCTGTG ATGTTTGTGG TAAAAACTTT
    AAGTTTGCTG CTACTTTGGG CAGACACAAA AAGGCCCATT CATGTGAAAA CAAGGGAGCA
    GGGGACAGCA ATGGAGATGA CAATGATGCG TCTGCCTGTA ATTCTTCTAA TAGTATCACC
    ATTGCAGAAG TTGGGGATAT GGAAGAAGCG CACCCAATTG ATCTAAAGGT ATCACAATCT
    CCCATGGAGA TTGAATTGGA CTCAAAAAGT AAGGGGGAAG GAGATGCTGT CTCAGCTGAA
    GAATGCATAG AAAGTAAACT TTCAGAAAAA AGTGATGATG AAAAGGAATC CAAAGCTAAT
    GAAACAAAGG CATCTTCAAA AGCTGATAAA CGGAAAAAAA TATGCACTGT TTGCAGCAAA
    CGCTTCTGGT CCTTGCAGGA TCTAACAAGA CACATGAGAT CCCATACAGG TGAAAGGCCA
    TATAAATGTC AGACCTGCGA ACGCACTTTC ACTCTGAAGC ACAGCCTGGT TCGCCATCAG
    CGTATACACC AGAAAATTAA AGATGTCAAG GGCCCAGGGA AAGACTATGA CAAAGAGGAG
    AGTCAGTCAA GGTGCGAAGA AGAAAGCGAC GCAGACTCCA TACAAAGCAG CACACATCAT
    ACATCTGAGA ACGAATGTGA TACACCAGCT AGTCTTAACC CAAACTTGCC AGAAGCAAAA
    AGATCCTCCT AA

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

    CloneID OXa11716
    Clone ID Related Accession (Same CDS sequence) XM_018095018.1 , XM_004915291.3 , XM_004915291.4
    Accession Version XM_018095018.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4989bp)
    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 ras-responsive element-binding protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    RefSeq XP_017950507.1
    CDS557..5545
    Translation

    Target ORF information:

    RefSeq Version XM_018095018.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095018.1

    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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    CloneID OXa11716
    Clone ID Related Accession (Same CDS sequence) XM_018095018.1 , XM_004915291.3 , XM_004915291.4
    Accession Version XM_004915291.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4989bp)
    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 ras-responsive element-binding protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_004915291.2. ##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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    RefSeq XP_004915348.1
    CDS342..5330
    Translation

    Target ORF information:

    RefSeq Version XM_004915291.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915291.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGT GCTAGATAGA GCTATGGTTA ATGCTAAAGT CTGTGTCCCC
    AACATTGCAG AGAAGACTGG AAAACAAGAA ATGAAAACCA TTCCAGAACC ATCAGCTGCC
    AATGCAGAGA AAGAGAATGC ATTTGAAAAA GACCAGCTCA AGGCAGTTAA CTTAATGAAT
    GGAGCAGAAG TCAGTGACCT ATCCTCTGTT AACGCAATGA TGTCTACTGT AATGAGTGCC
    ACCAGCATAG CTGAAAATGG TGGGAGCTTG CAGAACACTA AATCCCCAGC GAAATCTCCA
    GCTCCAAACA GGATTGGCCG AAGGAATCAG GAATCAAAAG AGGAAAAATC ATCTTATATC
    TGTCCCTTGT GTGAAAAGGT CTGCAATTCT CAGCATCAAC TTACAATGCA TATCCGCCAG
    CATAATACTG ACACAGGAGG GACTGACCAT AGCTGCAGTA TCTGCGGAAA GTCTCTGAGT
    TCGGCTAGCT CACTAGATCG CCATATGCTT GTCCACTCTG GAGAGAGGCC CTACAAATGT
    AGTATGTGTG GGCAGTCCTT TACTACCAAT GGGAATATGC ACAGGCATAT GAAGATACAC
    GAGAAGGACC CAAATGTTGC AGTTACTACA AGTCCACCAT CACCCCAAAA GCGAAGGAGA
    TTGACAGCAA AAAGGAAGTT AAGTCCTGAA GTGGAAGCAG AAAAAGAAGA AACACCATCA
    GCAAAAAAGG TTGTTGAAGA GATTCAAGCT GTGGAGCCAC TAAAGAAGAC AGAAGATATT
    GTTCACTGCC CTGTGTGTGC TAAAGAATTT CCATGCAAAT CAGATCTGGA TAGTCACATG
    GAACTGCATC CTGAAGCCTC TCTTAAGTGT GACATTTGTT GCATTTCATT CCGTACCCAT
    CGGGGTATGC TGCGCCACAA TGCTGTAATC CACAAGATGC TCCCAAAAGA TGCTTCTGGA
    AAACCTTTTA TTCAGAGTAA CCCTAACATC CCTGCTGGAT TTAATGATTT AAGTTTCACT
    GACTTTTCCT GCAGGAAGTT TCCTATCATT TCTCAGGTCT GGTGCGAGAC AAATTTAAGA
    AGATGCATCA GTGATTTACA TCGCTTCATC TGTGAAACTT GCAATAAAGC ATTTCCAATG
    ATCTCTGCTT TGAAACTGCA CATGGAAACT CACGAAAAAG GGCAACGTGA CAGTAAGCAT
    AAGAATGAAT ATACAACTGC AGTAGCTCAA GAACAGAAAG CATATATGGC AGCCCTGGGC
    CTTCAGCACA CCAAAGATGT CAAACCTGCT AGCCAGGAAG ACAGCATGCC AGACTGTTTT
    GAGGCAATGC GACGAGAAGC TTTGAAGAGT AACCTTTCTC AGGATATTGG TAGTGTAAGC
    TTACTTAGCA TGTCAACTTT AGAAGCGCCC TCTGTGTGTG GCTCATTCTC CATTCTTCCA
    CCAATGAAAG AGAATGTGAA GCTGCTTTCC CTTCAGCCTT TTCAAAAGGG CTTTACCATA
    CAGCCTGACA ACAGTATTGT TGTAAAACCC ATCTCTGGGG AGCTTGCTGA TATTCAGCAG
    ATATTAAAGA TGGCAGCCTC AGCTCCCCCG CAAATTAGTT TCCCACCTCT GGCTAAAACT
    TCCCCTGGCA GCACTCAGCC TCAAGCCTTC AAGCACATGC CTCTACTGAA GCCAAAGCCA
    CTGGTGGCAC CTCGTACAGT TGTTGCTGCC TCTACGCCAC CCCCACTCAT CAGCACTCAG
    CAGGCATCTC CAGGCTCTAT CAGCCCAAGC CTACCTCCAC CACAACTGAG AAATAAGAAC
    ACAGTGGAGT CTCCTACAAG CGCCATATTT TTGCAGTCAA GATCTGAAGC CAATAACAGC
    TATTCAACTC AGAATTTACA ATTACCAAAC ACTGATGCTT TGAGTCAGCA TGAAATAAAA
    ACTCAACTTG AACAGGACAG TATTATAGAA GCATTCATGC CCTTGGATTT GGACTCCAAA
    ATAAAGCAAG AAGTAACTGA AGGTGATCTG AAAGCAATTA TTTCGAACAA CAAAAAAACA
    ACTCAAGCAA AAAAGGTTTT CTATCCTTGT CGGTTTTGTG ATCAGGTATT TACATTCTCA
    GGTCTTTTAA GGGCTCATAT TCGCACTCAC TTGGGGATCT CGCCATACCA GTGTAATATC
    TGTGACTATA TTGCAGCTGA CAAAGCAGCA TTAATTCGTC ACTTGCGTAC ACATAGTGGA
    GAAAGGCCAT ATGTATGTAA GATTTGCCAG TATCCTTTTA CTGTCAAAGC CAACTGTGAG
    AGGCACCTTC GTAAGAAACA CCTTAAAGTC ACCAGAAAAG ACATTGAAAA AAATATTGAT
    TATATATCTA CAAACACAGC TGAAATGGTG GATGCACTCT GTTCGCCAGA TACTGTTTGC
    AAATGCTGTG GTGAGGACTT GAAAAACTAT CGTGCCCTTC ATATACACAT GAGGACCCAC
    AAAAATTTTC AAAAAAAGAA GCCATTTGAG TGCAAGGAGT GTGGAACTGC CTTTTCTGCT
    AAAAGAAACT GCATACACCA CATACTTAAA CAACACCAGA ATGTGCAAGA GAAAGAAATT
    GAGAGTCATA TTTTAACTGT GACGTGTAGT CCTAAGCATA TTCGATCAGG CACCCCAGTT
    ATGGGAGATA GCACTTACCT AGATCGGAAG CCTACAGCAT ACTTGGTGTC CCATAACGGC
    TTTCTTCATG GAGGGATGAC AAATTTTCCA TTAAAACTTG AACCTAATAC CAGCTATCCT
    ATAGATCTTG ATGAGCCCTT AGATTTTTCA CAAAAGAATA AGATTTCTAG TGTTCCCCCA
    ATCAAGCAGG AACAAATCTA CAGTCCCCCT GCAGCCTCAT ATGAGGACAT TATGGAGCCC
    ATTGATCTTT CCATCCCTAA ACAAGCTAAA CAGGACAAAG AGGATTCTCA GATTCAACCA
    AAAACAACAG TGACTCCGCC TGGGTCTGTT GGACCATTAT ACAACTGCCA ACCATGCCCT
    GTTCCCTTAA GTGCCAATGA AAACCCAGAC AAAGCTACAG CTGTCATACA TTCCAAATCA
    GTAAAAACCC CTTTGCAATT GACAGTCCCT ATCATTTCGC CTGCTGTTCT TGGTAGTGCA
    ACGGTTTTGC GCCCCTTGAG GCCTAAACCA CCACCTCTCT TGCCAAAGCC TCCAGTCTCT
    AAAGAACTTC CTCCCCTGGC ATCCATTGCA CAAATAATTT CATCAGTATC ATCTGCATCT
    GCTTTGTTGA AGACTGAAAT TACAAATCCA GCTTCTCAGG TGAATGCCAA TAGTTTATCA
    GCCACTGACA AATCTGGGTC TTCCAAGTCC GTAATGACAA TCCCAAACAA AGAACTTGCT
    GCTTCTTGTA ATGCTTCCCA ACCTGCTGCA ACCCCAAGTA CTTCAAACAG CAATGATGCT
    CTGGTCATAG GAGCAAAAAA ACGAGGTAGA AAAAAAGGAA CAAAAAACAA GCCGAAAACA
    GCTCCTGGTC TAGATCTTGA ATCTAGTGGG GAATTTGCAA GTATTGAAAA AATGCTAGCC
    ACTACAGACA CTAATAAGTT TAGCCCTTAC CTTCAGTCTA CTGAGGACCT CAAAAATAGC
    ATAGACCGAA ATGGAACCAG TGAGGAAGAC AGAGACAGCG GTGAAGATAA AAGAGGAAAA
    AGAAATTCCT ATTCCAATTC CCTACAGAAA ATCACCTGTC CCTATTGTCC TCGAGTTTTT
    CCCTGGGCCA GCTCTCTGCA AAGGCATATG CTCACTCACA CAGGTCAGAA GCCCTTCCCA
    TGTGCAAAAT GCGATGCCTT CTTTTCTACC AAATCTAACT GTGAACGCCA TCTTTTACGT
    AAGCATGGAG TTGCCAACCT GTCCTTGCGA AGAAACGGTC TAATTTCCCC GTCTAAAGAA
    AGTGATGTTG GATCTCATGA TAGCACAGAT AGCCAATCGG ATGCAGAGCT GTCCTCTCCT
    GAGCTTGATG CACTGGACCT GACGTCAGTG GACAAGGATA AAAAAAACGA AATGAATCAA
    ACTCAAGAAG GCAATCTTGC ATTACAGAAC TCACAAATGG AAGATGAGCT GCCAGATAAC
    AAGAAAGAAA CCAAAGTGGA ACCAGATGAA TACAAGGCAC AATTAGAAGA TGATGTTGTA
    AGCAACAAAA GTCTTGATCT TAATTTAGCA AGTAAACTAA TGGACTTTAA ACTATCTGCA
    AGTGAGCAGA CTGCCAGCAG CAATGGCAAC TTCTGTGATG TTTGTGGTAA AAACTTTAAG
    TTTGCTGCTA CTTTGGGCAG ACACAAAAAG GCCCATTCAT GTGAAAACAA GGGAGCAGGG
    GACAGCAATG GAGATGACAA TGATGCGTCT GCCTGTAATT CTTCTAATAG TATCACCATT
    GCAGAAGTTG GGGATATGGA AGAAGCGCAC CCAATTGATC TAAAGGTATC ACAATCTCCC
    ATGGAGATTG AATTGGACTC AAAAAGTAAG GGGGAAGGAG ATGCTGTCTC AGCTGAAGAA
    TGCATAGAAA GTAAACTTTC AGAAAAAAGT GATGATGAAA AGGAATCCAA AGCTAATGAA
    ACAAAGGCAT CTTCAAAAGC TGATAAACGG AAAAAAATAT GCACTGTTTG CAGCAAACGC
    TTCTGGTCCT TGCAGGATCT AACAAGACAC ATGAGATCCC ATACAGGTGA AAGGCCATAT
    AAATGTCAGA CCTGCGAACG CACTTTCACT CTGAAGCACA GCCTGGTTCG CCATCAGCGT
    ATACACCAGA AAATTAAAGA TGTCAAGGGC CCAGGGAAAG ACTATGACAA AGAGGAGAGT
    CAGTCAAGGT GCGAAGAAGA AAGCGACGCA GACTCCATAC AAAGCAGCAC ACATCATACA
    TCTGAGAACG AATGTGATAC ACCAGCTAGT CTTAACCCAA ACTTGCCAGA AGCAAAAAGA
    TCCTCCTAA

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

    CloneID OXa11717
    Clone ID Related Accession (Same CDS sequence) XM_004915292.3 , XM_004915292.4
    Accession Version XM_004915292.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    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 ras-responsive element-binding protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_004915292.2. ##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
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGA GAAGACTGGA AAACAAGAAA TGAAAACCAT TCCAGAACCA
    TCAGCTGCCA ATGCAGAGAA AGAGAATGCA TTTGAAAAAG ACCAGCTCAA GGCAGTTAAC
    TTAATGAATG GAGCAGAAGT CAGTGACCTA TCCTCTGTTA ACGCAATGAT GTCTACTGTA
    ATGAGTGCCA CCAGCATAGC TGAAAATGGT GGGAGCTTGC AGAACACTAA ATCCCCAGCG
    AAATCTCCAG CTCCAAACAG GATTGGCCGA AGGAATCAGG AATCAAAAGA GGAAAAATCA
    TCTTATATCT GTCCCTTGTG TGAAAAGGTC TGCAATTCTC AGCATCAACT TACAATGCAT
    ATCCGCCAGC ATAATACTGA CACAGGAGGG ACTGACCATA GCTGCAGTAT CTGCGGAAAG
    TCTCTGAGTT CGGCTAGCTC ACTAGATCGC CATATGCTTG TCCACTCTGG AGAGAGGCCC
    TACAAATGTA GTATGTGTGG GCAGTCCTTT ACTACCAATG GGAATATGCA CAGGCATATG
    AAGATACACG AGAAGGACCC AAATGTTGCA GTTACTACAA GTCCACCATC ACCCCAAAAG
    CGAAGGAGAT TGACAGCAAA AAGGAAGTTA AGTCCTGAAG TGGAAGCAGA AAAAGAAGAA
    ACACCATCAG CAAAAAAGGT TGTTGAAGAG ATTCAAGCTG TGGAGCCACT AAAGAAGACA
    GAAGATATTG TTCACTGCCC TGTGTGTGCT AAAGAATTTC CATGCAAATC AGATCTGGAT
    AGTCACATGG AACTGCATCC TGAAGCCTCT CTTAAGTGTG ACATTTGTTG CATTTCATTC
    CGTACCCATC GGGGTATGCT GCGCCACAAT GCTGTAATCC ACAAGATGCT CCCAAAAGAT
    GCTTCTGGAA AACCTTTTAT TCAGAGTAAC CCTAACATCC CTGCTGGATT TAATGATTTA
    AGTTTCACTG ACTTTTCCTG CAGGAAGTTT CCTATCATTT CTCAGGTCTG GTGCGAGACA
    AATTTAAGAA GATGCATCAG TGATTTACAT CGCTTCATCT GTGAAACTTG CAATAAAGCA
    TTTCCAATGA TCTCTGCTTT GAAACTGCAC ATGGAAACTC ACGAAAAAGG GCAACGTGAC
    AGTAAGCATA AGAATGAATA TACAACTGCA GTAGCTCAAG AACAGAAAGC ATATATGGCA
    GCCCTGGGCC TTCAGCACAC CAAAGATGTC AAACCTGCTA GCCAGGAAGA CAGCATGCCA
    GACTGTTTTG AGGCAATGCG ACGAGAAGCT TTGAAGAGTA ACCTTTCTCA GGATATTGGT
    AGTGTAAGCT TACTTAGCAT GTCAACTTTA GAAGCGCCCT CTGTGTGTGG CTCATTCTCC
    ATTCTTCCAC CAATGAAAGA GAATGTGAAG CTGCTTTCCC TTCAGCCTTT TCAAAAGGGC
    TTTACCATAC AGCCTGACAA CAGTATTGTT GTAAAACCCA TCTCTGGGGA GCTTGCTGAT
    ATTCAGCAGA TATTAAAGAT GGCAGCCTCA GCTCCCCCGC AAATTAGTTT CCCACCTCTG
    GCTAAAACTT CCCCTGGCAG CACTCAGCCT CAAGCCTTCA AGCACATGCC TCTACTGAAG
    CCAAAGCCAC TGGTGGCACC TCGTACAGTT GTTGCTGCCT CTACGCCACC CCCACTCATC
    AGCACTCAGC AGGCATCTCC AGGCTCTATC AGCCCAAGCC TACCTCCACC ACAACTGAGA
    AATAAGAACA CAGTGGAGTC TCCTACAAGC GCCATATTTT TGCAGTCAAG ATCTGAAGCC
    AATAACAGCT ATTCAACTCA GAATTTACAA TTACCAAACA CTGATGCTTT GAGTCAGCAT
    GAAATAAAAA CTCAACTTGA ACAGGACAGT ATTATAGAAG CATTCATGCC CTTGGATTTG
    GACTCCAAAA TAAAGCAAGA AGTAACTGAA GGTGATCTGA AAGCAATTAT TTCGAACAAC
    AAAAAAACAA CTCAAGCAAA AAAGGTTTTC TATCCTTGTC GGTTTTGTGA TCAGGTATTT
    ACATTCTCAG GTCTTTTAAG GGCTCATATT CGCACTCACT TGGGGATCTC GCCATACCAG
    TGTAATATCT GTGACTATAT TGCAGCTGAC AAAGCAGCAT TAATTCGTCA CTTGCGTACA
    CATAGTGGAG AAAGGCCATA TGTATGTAAG ATTTGCCAGT ATCCTTTTAC TGTCAAAGCC
    AACTGTGAGA GGCACCTTCG TAAGAAACAC CTTAAAGTCA CCAGAAAAGA CATTGAAAAA
    AATATTGATT ATATATCTAC AAACACAGCT GAAATGGTGG ATGCACTCTG TTCGCCAGAT
    ACTGTTTGCA AATGCTGTGG TGAGGACTTG AAAAACTATC GTGCCCTTCA TATACACATG
    AGGACCCACA AAAATTTTCA AAAAAAGAAG CCATTTGAGT GCAAGGAGTG TGGAACTGCC
    TTTTCTGCTA AAAGAAACTG CATACACCAC ATACTTAAAC AACACCAGAA TGTGCAAGAG
    AAAGAAATTG AGAGTCATAT TTTAACTGTG ACGTGTAGTC CTAAGCATAT TCGATCAGGC
    ACCCCAGTTA TGGGAGATAG CACTTACCTA GATCGGAAGC CTACAGCATA CTTGGTGTCC
    CATAACGGCT TTCTTCATGG AGGGATGACA AATTTTCCAT TAAAACTTGA ACCTAATACC
    AGCTATCCTA TAGATCTTGA TGAGCCCTTA GATTTTTCAC AAAAGAATAA GATTTCTAGT
    GTTCCCCCAA TCAAGCAGGA ACAAATCTAC AGTCCCCCTG CAGCCTCATA TGAGGACATT
    ATGGAGCCCA TTGATCTTTC CATCCCTAAA CAAGCTAAAC AGGACAAAGA GGATTCTCAG
    ATTCAACCAA AAACAACAGT GACTCCGCCT GGGTCTGTTG GACCATTATA CAACTGCCAA
    CCATGCCCTG TTCCCTTAAG TGCCAATGAA AACCCAGACA AAGCTACAGC TGTCATACAT
    TCCAAATCAG TAAAAACCCC TTTGCAATTG ACAGTCCCTA TCATTTCGCC TGCTGTTCTT
    GGTAGTGCAA CGGTTTTGCG CCCCTTGAGG CCTAAACCAC CACCTCTCTT GCCAAAGCCT
    CCAGTCTCTA AAGAACTTCC TCCCCTGGCA TCCATTGCAC AAATAATTTC ATCAGTATCA
    TCTGCATCTG CTTTGTTGAA GACTGAAATT ACAAATCCAG CTTCTCAGGT GAATGCCAAT
    AGTTTATCAG CCACTGACAA ATCTGGGTCT TCCAAGTCCG TAATGACAAT CCCAAACAAA
    GAACTTGCTG CTTCTTGTAA TGCTTCCCAA CCTGCTGCAA CCCCAAGTAC TTCAAACAGC
    AATGATGCTC TGGTCATAGG AGCAAAAAAA CGAGGTAGAA AAAAAGGAAC AAAAAACAAG
    CCGAAAACAG CTCCTGGTCT AGATCTTGAA TCTAGTGGGG AATTTGCAAG TATTGAAAAA
    ATGCTAGCCA CTACAGACAC TAATAAGTTT AGCCCTTACC TTCAGTCTAC TGAGGACCTC
    AAAAATAGCA TAGACCGAAA TGGAACCAGT GAGGAAGACA GAGACAGCGG TGAAGATAAA
    AGAGGAAAAA GAAATTCCTA TTCCAATTCC CTACAGAAAA TCACCTGTCC CTATTGTCCT
    CGAGTTTTTC CCTGGGCCAG CTCTCTGCAA AGGCATATGC TCACTCACAC AGGTCAGAAG
    CCCTTCCCAT GTGCAAAATG CGATGCCTTC TTTTCTACCA AATCTAACTG TGAACGCCAT
    CTTTTACGTA AGCATGGAGT TGCCAACCTG TCCTTGCGAA GAAACGGTCT AATTTCCCCG
    TCTAAAGAAA GTGATGTTGG ATCTCATGAT AGCACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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

    RefSeq XP_004915349.1
    CDS491..5428
    Translation

    Target ORF information:

    RefSeq Version XM_004915292.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ras responsive element binding protein 1 (rreb1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915292.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGTTGCCAG CAAACTTTTC GACAGGGTCC TGTCAGTTCC AACCTTTTCA GCAGCCAGGG 
    AGCAGCCTAG TAGTTGAAGA GAAGACTGGA AAACAAGAAA TGAAAACCAT TCCAGAACCA
    TCAGCTGCCA ATGCAGAGAA AGAGAATGCA TTTGAAAAAG ACCAGCTCAA GGCAGTTAAC
    TTAATGAATG GAGCAGAAGT CAGTGACCTA TCCTCTGTTA ACGCAATGAT GTCTACTGTA
    ATGAGTGCCA CCAGCATAGC TGAAAATGGT GGGAGCTTGC AGAACACTAA ATCCCCAGCG
    AAATCTCCAG CTCCAAACAG GATTGGCCGA AGGAATCAGG AATCAAAAGA GGAAAAATCA
    TCTTATATCT GTCCCTTGTG TGAAAAGGTC TGCAATTCTC AGCATCAACT TACAATGCAT
    ATCCGCCAGC ATAATACTGA CACAGGAGGG ACTGACCATA GCTGCAGTAT CTGCGGAAAG
    TCTCTGAGTT CGGCTAGCTC ACTAGATCGC CATATGCTTG TCCACTCTGG AGAGAGGCCC
    TACAAATGTA GTATGTGTGG GCAGTCCTTT ACTACCAATG GGAATATGCA CAGGCATATG
    AAGATACACG AGAAGGACCC AAATGTTGCA GTTACTACAA GTCCACCATC ACCCCAAAAG
    CGAAGGAGAT TGACAGCAAA AAGGAAGTTA AGTCCTGAAG TGGAAGCAGA AAAAGAAGAA
    ACACCATCAG CAAAAAAGGT TGTTGAAGAG ATTCAAGCTG TGGAGCCACT AAAGAAGACA
    GAAGATATTG TTCACTGCCC TGTGTGTGCT AAAGAATTTC CATGCAAATC AGATCTGGAT
    AGTCACATGG AACTGCATCC TGAAGCCTCT CTTAAGTGTG ACATTTGTTG CATTTCATTC
    CGTACCCATC GGGGTATGCT GCGCCACAAT GCTGTAATCC ACAAGATGCT CCCAAAAGAT
    GCTTCTGGAA AACCTTTTAT TCAGAGTAAC CCTAACATCC CTGCTGGATT TAATGATTTA
    AGTTTCACTG ACTTTTCCTG CAGGAAGTTT CCTATCATTT CTCAGGTCTG GTGCGAGACA
    AATTTAAGAA GATGCATCAG TGATTTACAT CGCTTCATCT GTGAAACTTG CAATAAAGCA
    TTTCCAATGA TCTCTGCTTT GAAACTGCAC ATGGAAACTC ACGAAAAAGG GCAACGTGAC
    AGTAAGCATA AGAATGAATA TACAACTGCA GTAGCTCAAG AACAGAAAGC ATATATGGCA
    GCCCTGGGCC TTCAGCACAC CAAAGATGTC AAACCTGCTA GCCAGGAAGA CAGCATGCCA
    GACTGTTTTG AGGCAATGCG ACGAGAAGCT TTGAAGAGTA ACCTTTCTCA GGATATTGGT
    AGTGTAAGCT TACTTAGCAT GTCAACTTTA GAAGCGCCCT CTGTGTGTGG CTCATTCTCC
    ATTCTTCCAC CAATGAAAGA GAATGTGAAG CTGCTTTCCC TTCAGCCTTT TCAAAAGGGC
    TTTACCATAC AGCCTGACAA CAGTATTGTT GTAAAACCCA TCTCTGGGGA GCTTGCTGAT
    ATTCAGCAGA TATTAAAGAT GGCAGCCTCA GCTCCCCCGC AAATTAGTTT CCCACCTCTG
    GCTAAAACTT CCCCTGGCAG CACTCAGCCT CAAGCCTTCA AGCACATGCC TCTACTGAAG
    CCAAAGCCAC TGGTGGCACC TCGTACAGTT GTTGCTGCCT CTACGCCACC CCCACTCATC
    AGCACTCAGC AGGCATCTCC AGGCTCTATC AGCCCAAGCC TACCTCCACC ACAACTGAGA
    AATAAGAACA CAGTGGAGTC TCCTACAAGC GCCATATTTT TGCAGTCAAG ATCTGAAGCC
    AATAACAGCT ATTCAACTCA GAATTTACAA TTACCAAACA CTGATGCTTT GAGTCAGCAT
    GAAATAAAAA CTCAACTTGA ACAGGACAGT ATTATAGAAG CATTCATGCC CTTGGATTTG
    GACTCCAAAA TAAAGCAAGA AGTAACTGAA GGTGATCTGA AAGCAATTAT TTCGAACAAC
    AAAAAAACAA CTCAAGCAAA AAAGGTTTTC TATCCTTGTC GGTTTTGTGA TCAGGTATTT
    ACATTCTCAG GTCTTTTAAG GGCTCATATT CGCACTCACT TGGGGATCTC GCCATACCAG
    TGTAATATCT GTGACTATAT TGCAGCTGAC AAAGCAGCAT TAATTCGTCA CTTGCGTACA
    CATAGTGGAG AAAGGCCATA TGTATGTAAG ATTTGCCAGT ATCCTTTTAC TGTCAAAGCC
    AACTGTGAGA GGCACCTTCG TAAGAAACAC CTTAAAGTCA CCAGAAAAGA CATTGAAAAA
    AATATTGATT ATATATCTAC AAACACAGCT GAAATGGTGG ATGCACTCTG TTCGCCAGAT
    ACTGTTTGCA AATGCTGTGG TGAGGACTTG AAAAACTATC GTGCCCTTCA TATACACATG
    AGGACCCACA AAAATTTTCA AAAAAAGAAG CCATTTGAGT GCAAGGAGTG TGGAACTGCC
    TTTTCTGCTA AAAGAAACTG CATACACCAC ATACTTAAAC AACACCAGAA TGTGCAAGAG
    AAAGAAATTG AGAGTCATAT TTTAACTGTG ACGTGTAGTC CTAAGCATAT TCGATCAGGC
    ACCCCAGTTA TGGGAGATAG CACTTACCTA GATCGGAAGC CTACAGCATA CTTGGTGTCC
    CATAACGGCT TTCTTCATGG AGGGATGACA AATTTTCCAT TAAAACTTGA ACCTAATACC
    AGCTATCCTA TAGATCTTGA TGAGCCCTTA GATTTTTCAC AAAAGAATAA GATTTCTAGT
    GTTCCCCCAA TCAAGCAGGA ACAAATCTAC AGTCCCCCTG CAGCCTCATA TGAGGACATT
    ATGGAGCCCA TTGATCTTTC CATCCCTAAA CAAGCTAAAC AGGACAAAGA GGATTCTCAG
    ATTCAACCAA AAACAACAGT GACTCCGCCT GGGTCTGTTG GACCATTATA CAACTGCCAA
    CCATGCCCTG TTCCCTTAAG TGCCAATGAA AACCCAGACA AAGCTACAGC TGTCATACAT
    TCCAAATCAG TAAAAACCCC TTTGCAATTG ACAGTCCCTA TCATTTCGCC TGCTGTTCTT
    GGTAGTGCAA CGGTTTTGCG CCCCTTGAGG CCTAAACCAC CACCTCTCTT GCCAAAGCCT
    CCAGTCTCTA AAGAACTTCC TCCCCTGGCA TCCATTGCAC AAATAATTTC ATCAGTATCA
    TCTGCATCTG CTTTGTTGAA GACTGAAATT ACAAATCCAG CTTCTCAGGT GAATGCCAAT
    AGTTTATCAG CCACTGACAA ATCTGGGTCT TCCAAGTCCG TAATGACAAT CCCAAACAAA
    GAACTTGCTG CTTCTTGTAA TGCTTCCCAA CCTGCTGCAA CCCCAAGTAC TTCAAACAGC
    AATGATGCTC TGGTCATAGG AGCAAAAAAA CGAGGTAGAA AAAAAGGAAC AAAAAACAAG
    CCGAAAACAG CTCCTGGTCT AGATCTTGAA TCTAGTGGGG AATTTGCAAG TATTGAAAAA
    ATGCTAGCCA CTACAGACAC TAATAAGTTT AGCCCTTACC TTCAGTCTAC TGAGGACCTC
    AAAAATAGCA TAGACCGAAA TGGAACCAGT GAGGAAGACA GAGACAGCGG TGAAGATAAA
    AGAGGAAAAA GAAATTCCTA TTCCAATTCC CTACAGAAAA TCACCTGTCC CTATTGTCCT
    CGAGTTTTTC CCTGGGCCAG CTCTCTGCAA AGGCATATGC TCACTCACAC AGGTCAGAAG
    CCCTTCCCAT GTGCAAAATG CGATGCCTTC TTTTCTACCA AATCTAACTG TGAACGCCAT
    CTTTTACGTA AGCATGGAGT TGCCAACCTG TCCTTGCGAA GAAACGGTCT AATTTCCCCG
    TCTAAAGAAA GTGATGTTGG ATCTCATGAT AGCACAGATA GCCAATCGGA TGCAGAGCTG
    TCCTCTCCTG AGCTTGATGC ACTGGACCTG ACGTCAGTGG ACAAGGATAA AAAAAACGAA
    ATGAATCAAA CTCAAGAAGG CAATCTTGCA TTACAGAACT CACAAATGGA AGATGAGCTG
    CCAGATAACA AGAAAGAAAC CAAAGTGGAA CCAGATGAAT ACAAGGCACA ATTAGAAGAT
    GATGTTGTAA GCAACAAAAG TCTTGATCTT AATTTAGCAA GTAAACTAAT GGACTTTAAA
    CTATCTGCAA GTGAGCAGAC TGCCAGCAGC AATGGCAACT TCTGTGATGT TTGTGGTAAA
    AACTTTAAGT TTGCTGCTAC TTTGGGCAGA CACAAAAAGG CCCATTCATG TGAAAACAAG
    GGAGCAGGGG ACAGCAATGG AGATGACAAT GATGCGTCTG CCTGTAATTC TTCTAATAGT
    ATCACCATTG CAGAAGTTGG GGATATGGAA GAAGCGCACC CAATTGATCT AAAGGTATCA
    CAATCTCCCA TGGAGATTGA ATTGGACTCA AAAAGTAAGG GGGAAGGAGA TGCTGTCTCA
    GCTGAAGAAT GCATAGAAAG TAAACTTTCA GAAAAAAGTG ATGATGAAAA GGAATCCAAA
    GCTAATGAAA CAAAGGCATC TTCAAAAGCT GATAAACGGA AAAAAATATG CACTGTTTGC
    AGCAAACGCT TCTGGTCCTT GCAGGATCTA ACAAGACACA TGAGATCCCA TACAGGTGAA
    AGGCCATATA AATGTCAGAC CTGCGAACGC ACTTTCACTC TGAAGCACAG CCTGGTTCGC
    CATCAGCGTA TACACCAGAA AATTAAAGAT GTCAAGGGCC CAGGGAAAGA CTATGACAAA
    GAGGAGAGTC AGTCAAGGTG CGAAGAAGAA AGCGACGCAG ACTCCATACA AAGCAGCACA
    CATCATACAT CTGAGAACGA ATGTGATACA CCAGCTAGTC TTAACCCAAA CTTGCCAGAA
    GCAAAAAGAT CCTCCTAA

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