cfap43 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following cfap43 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cfap43 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
OXa43205 XM_018092208.1
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa43206 XM_018092209.1
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa43207 XM_018092210.1
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa43208 XM_018092211.1
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa54543 XM_018092209.2
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa54544 XM_018092211.2
Latest version!
Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa43205
    Clone ID Related Accession (Same CDS sequence) XM_018092208.1
    Accession Version XM_018092208.1 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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product cilia- and flagella-associated protein 43 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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
    ATGTCATTAA TAAGGAAGAT AACGATAAGG ACTGCATTTG TCAGGTGGGT ACAAGGAATT 
    AACAAGAAGA AAGTCACGTT CATCAATGAC CACACAGTAT GCTATCCATG TGGGAACTTT
    ATTGTGTTTC ATGACACAAA CACAAGGAAG CAGTCCTTTC TGCAGTGCAT GACAGGGAGC
    ATAGGAGCAT TCTCAGTTAA CACCTACAGT GAAGTGGTTG CTTTCTCAGA CCAGAAGCTT
    CATCCCAGTA TTTATGTTTA CACATTTCCT GGATTTGTGA AACGAGTTGA ACTTAAAGAG
    GGAGCACAGC TGGATTATTC TTTAATTGCT TTTAGCAATG CTGCACCTTA TCTGGCTAGT
    TTTTCCTCTG TTCCTGACCA TGTACTTACA ATTTGGAACT GGCAAGAAGG TATTCCTCTG
    TGCAGCCAGT CAGAATCTCA AACCACTTAT ACTACCTTAA CCTTTAATCC TATGAACTGG
    CACCAACTGT GTTTGTCCAG TGAGACATCT CTTATTGTGT GGAACATTGA AATATGTGAC
    AACCTGTACC AGTTGAAAGC AATGCCAGTC AAACTTCCCA GTGAGGATGG TACAATTGGT
    GTGGAGGAGG AGAACTTTAA TTCTTCTGCA CCCAACGGTG TGTCCTATTA TGGGCCTGTA
    ATGCCAAAAT CTGCAGTTGC TGGATTAGTG GGCGAAGAAG CGGAAATCTT TATTCCTAAA
    GAACAAAGAA AACATTCTGT CCAGCCAAGT TTCCATTGCT GGAATGCCAC TTCTGATTTG
    TATGTGGGCT GTGAAAGGGG AAAGATTCTA ACAATCAGTG CTGAGACACA GAAAGTCATT
    GTACTGGCCC AAAAAGACCA AGATGCAGAT CCTTTATCTG GGGTTACTCT TCTAGAAGGA
    AATATAAAGA CAATGGCGTT TCACAAGGAA GGACTCTATA TAGCTGGGAA AGATGGTGTG
    TTGCGTTCAT GTACAATAAA AGGTTCAGAA TTAAAACTCG AAGACTGCTG GAGTGTGCAG
    GAATCCATTG AAAGCATCAG TTTCTCCCCC AATTACAAAA TGCTCTCAAT TGCAACCTGT
    AAGGGATCTG TATATCTCTA CAACCACAGA AATCCTGGAG AAACATATAA AGTATTTGAT
    GTTTACAGTG GAGACTTGCT TGCTGCTGAT TTCCTGACCT TTGGAAACAA ATACTGCTTA
    AGCACAGATA TATCAGGACA TGTGCAGTTA TGGTCAGTGG AGGATGGAAG AAGTGTAAGC
    TCTCTCAGCC TAAATATACA GGCCACTGCC ATGGCATGCT GCCCTTCATC TAATTATGCA
    GCTGTAGGTA GCAGCACTGG ACATATATAT TTTATTGATG CTATGAAAAT AGAAGCTCTA
    CGAGTTGTCC AGAGAATGAG ACTTTATTGT GTTCCTGTAC AACACATTCA TTTTGATCCA
    AGGGGTAATT TTCTTCTCAC TGGGGCAGCT GACAGACACA TTTTTATTCT GGATGCCAGA
    CCTTCCCATT CATTTGAGGT TCTTGGATAC ATCGTGGTTT GCGGAGAGAT TCTCACCTTG
    TCGTCACTAA GTTCTGAAGA TTCACAGCAA ACAAAAGCTA TGGCGCTTAT CTGTCCTGTG
    AATGAAGGGA AAGAAGAGAA AGGAGGAACA CGATTGGAGA TGTTTTCTCT ACCACTTCAA
    ATGTTATCAA GTCCATCTGA ATATATTGAT GAGAAAGGAA TGTTTAAGGA TGCAATGGTT
    CAGAAGATTT CTTATGATGT AGATCAGCCT CTGTTTTCTG CAGTTCTGGG TTACAATGTC
    AGCTCCGTAT TTGGATTTGG CAGCTATGCA CCAATGCTTT TAAAATATGT AATCCACAAG
    GAAATATCTG GAGATCCTTT GACTGCACTT GTTACAGAGA AGGTGGTACG GGGTAGCCAT
    CTTGGGCCTG GAGTACTTTG CTTGTCTCCT CATCTCAAGT GGATTTCTGT GTCTGGGAGG
    GATGGAATTG TATATGTAAA AGACATAAAG AATATGGAAA CTGTGGCACA AGTACAATGT
    CATTCCTACC ACACAGGCGG TATCAATTCT TTATCCTTTT CCTTGGATGG TCAAAGTATC
    ATCACTACAG GAACGTTTGA TGGAGCCCTG GTGTGCCTGC AATGGAAATC AACTGGAAGT
    AGCAGACTGG GTGCAGCTGT TGAGTATGGA AAGGCTTTTA CACTTTCTCT TCAAGCTGCA
    ATGAAGGAAG AAAATCAGAT GTTGAGCCGA ATGCCAGAAT GGACAGCAGA TACCAGTTCT
    ATGGCCGTGG AAAGCAAGGA AAAAGAGTAC AGAAATCTAA GTGTGGATGT AACTGAGCAG
    GACACCTTTC CAAACACTTC TGCTGATGTC ACTTGGATTT ACAGGAAGCT GGAGGAAGCT
    AAAAAGAAAG AAACAGAGAA ATATGCAGCA GAAAAGGAAA TAATTAAAAC CGGCATTAAA
    AAACTTCGCA AAACTATACA AGCAATGATG CGAGAGAATG AATCATTACC AGACATAGAA
    AAGCTGGACC AGCAGGAGTT TAACTTGGAC ACTGAGGAGC AGGAGAGACT GTATCTAGAG
    AGTGAGAAGG AAGTGGCAAG AGTGCGACAA GAGATTGAGT TGGAAAATTT GTCCAAACAA
    TATCTTCGAG AAGTTATAAA GCAGGAATGC TGGGATTCCA TGGCTGTAAA GGGACGTTCT
    GTTATGGCTT TCCATACAGG ATATGAAGTT ATGAATTATC CAATGAAAGA ACGAACACCA
    AAGGAACTGG AAGATTTTGC TAGAGTGTTA AATCTCAAGA AAATTGAAGC TGTTGATCTC
    AAGGTTCGAA AGGAAATTGT TGAGACTCAG CCAAAAATTA AGGCTGATGA CGAAGAGGAA
    GTGGAAGAGG AATCAGTGTC AAAGAGTCAA GACAGCTCAT CTTTGGTTGG CAGCCTGAGT
    GATCTTTATG GTGGGGATAC CAGTTACCTG TACAGTCAGC TAATTCTTCA TTCTAGAGAA
    GAGAAGATTA ACCAGATCAT TCTATTGCAA GACATCATTC ACAATATCAA GAAAGCCTTC
    AACAAAGACT TTGATATAGC ATGTCGTCAA AAAGAGCAAG AGGTCACACG TGTGAAGGAA
    AGAAATAATC GCATTCAGGA GATCATGGTC GAACTTAACC TGCAAGAGAA ACTCCTGGAG
    CCTACATTTA CTGATAATGA GAAGCCTGAG AGAGCGCTGA CTGTGGATGA TTCAGAGGTA
    AAAGTAGAAA GGTACCTAAC ACCTGAACAG AAAGCAAAGG CAGAGAAGCT AGCAAAAGAG
    GAAGAAGCAA AGCGCCTTGC GGAACAGGAA GACAATGCTA AGCAGCGAGC CCTGGATGAC
    ATGATGGGTG GTGTCCTAGA AGTAAAGAAG GAAGATATTC TTCGAATGGA AGTTCCACAA
    CCAGGTTTTA TAGCTCGAGC TGAGGCTGAA TGGACTGATG AAGAAAAGAA GCAATTCAAA
    GAGTACGAGA AAAAATGTAA GGACCTCAGT GAAGAAAAGG AGAAATACAG TAAGGTTTTG
    GAAGCAGAAA TGAAAAAACT TCAATTGTCT GTAATTGAAA CCACCCAGAG TTTTGATGAT
    GTGTTGGCCA GACTGTTTGA AAAGAAGGTG AAATCAGAAA TGGCAATTTA CCAGGAGGAA
    CTGAAAATCA ATAATCTCCT TTTCTCACTT CTCATTGAAG AGGAAATAAA CACAAGAGTG
    GCACACCTAG CTCATATTCT GGATAAGAAG CGCAAACAAA AGAATCAAAC AGCGGAAATT
    GTCAAGTCTT TTAAAACACA AGTACTTGCA TTTAGGGAGT CCTATGACAA TCTGGTAGCA
    GAGGATAAGC TTTTAGATCG TGGCTTTAAG AAGGAGTTTT CTGACATTAC ATCTTACCAA
    GTTGATCAAC TTTATAAGCT TTACAAACGA AGACCAAGGG TTCAGCGCTT GAGGACTCAG
    ACTGACAGTG CAGCACCATT TGGAGAACGA CCAGGATCAG CTAAGGCAAA TAAGGATTCC
    ATTGCTTTGC TAATGAAAGC TATGGATGAA CTTGACACCC CAGAAAATAT GCCTGAAGGA
    GTAGAATTGC CAGTGTGGGA GCGTTTCTGT CTTGCAAGAC GATCAAAGAT AGAATATGAA
    CAGCAGGTGA AGATCAAGGC CCTTGTCTTA GCAGAAATGC AGGCATTCCT AGATAAGAGG
    ATAGAAGAAG ATGAGAAGAT ACGTCAGGAT ACTGAGAATA TCATGCAGGA ACTCAATGTG
    TTGCGGAGTG AAAAAATGAA ATTTCAGCTC GATTTGACTG TCCAGTTCCT TCTTAAACAA
    GGTCAAGTTG AGTTGGAAAA TTCAGATTTA ATTCCCAGTT TTGAAGACGC CATTCTTCTT
    CATAGGAGTG TTATTGAAGA TTTAAACAGC ACCATACGGG GTTTGGGAGA ACAGAAAATT
    GCAAGCATGG TTGAAAGCAA AGATTTCCGA AAAGGGATTT TTCAGCTGGA ATGGGAACAT
    AGGAAAATAC GGATGGAAAT GGAAGATTTG GAACAGAAAT CTAGGGATAT TAGCTTGCTT
    CACGTCTCAA AAGATTTCCA AGTATTCCTT AGTGAGCAGA ATTATGACAA GCGCATATCT
    GATCAGATAC AGGTCCTAGA AGCAACTCTC AATGCTCAAG AAAAACAACA TGAGAAAAAT
    GTCAAGACCT ACAAAAAAAG TCTGAAGGAC CTAGAAACAA ATATAAATAA AAAGAGAACA
    GCAAACCTAG ACCTTGACAA AGATCTGCAG GAATTGCTGG TGTCTTTTTC TGAAAGAAAG
    CACATTTATG ATGTAGTTGG TGTAGAACAA AGCACAGAGA AGGCTGCGAA GGAAAGATAT
    GTGGAGATTG TTCAGCGACG CAAACTAGTG GATCTTGCCA AGATTCAAGC CCAAGAGATC
    ATTGAGCTAA GAACTGAAGT AGATAGACTG AGGATGAAAA CATTTCCTGC ATTAGTGCAA
    ATGGAATATT AG

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

    RefSeq XP_017947697.1
    CDS352..5343
    Translation

    Target ORF information:

    RefSeq Version XM_018092208.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092208.1

    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
    ATGTCATTAA TAAGGAAGAT AACGATAAGG ACTGCATTTG TCAGGTGGGT ACAAGGAATT 
    AACAAGAAGA AAGTCACGTT CATCAATGAC CACACAGTAT GCTATCCATG TGGGAACTTT
    ATTGTGTTTC ATGACACAAA CACAAGGAAG CAGTCCTTTC TGCAGTGCAT GACAGGGAGC
    ATAGGAGCAT TCTCAGTTAA CACCTACAGT GAAGTGGTTG CTTTCTCAGA CCAGAAGCTT
    CATCCCAGTA TTTATGTTTA CACATTTCCT GGATTTGTGA AACGAGTTGA ACTTAAAGAG
    GGAGCACAGC TGGATTATTC TTTAATTGCT TTTAGCAATG CTGCACCTTA TCTGGCTAGT
    TTTTCCTCTG TTCCTGACCA TGTACTTACA ATTTGGAACT GGCAAGAAGG TATTCCTCTG
    TGCAGCCAGT CAGAATCTCA AACCACTTAT ACTACCTTAA CCTTTAATCC TATGAACTGG
    CACCAACTGT GTTTGTCCAG TGAGACATCT CTTATTGTGT GGAACATTGA AATATGTGAC
    AACCTGTACC AGTTGAAAGC AATGCCAGTC AAACTTCCCA GTGAGGATGG TACAATTGGT
    GTGGAGGAGG AGAACTTTAA TTCTTCTGCA CCCAACGGTG TGTCCTATTA TGGGCCTGTA
    ATGCCAAAAT CTGCAGTTGC TGGATTAGTG GGCGAAGAAG CGGAAATCTT TATTCCTAAA
    GAACAAAGAA AACATTCTGT CCAGCCAAGT TTCCATTGCT GGAATGCCAC TTCTGATTTG
    TATGTGGGCT GTGAAAGGGG AAAGATTCTA ACAATCAGTG CTGAGACACA GAAAGTCATT
    GTACTGGCCC AAAAAGACCA AGATGCAGAT CCTTTATCTG GGGTTACTCT TCTAGAAGGA
    AATATAAAGA CAATGGCGTT TCACAAGGAA GGACTCTATA TAGCTGGGAA AGATGGTGTG
    TTGCGTTCAT GTACAATAAA AGGTTCAGAA TTAAAACTCG AAGACTGCTG GAGTGTGCAG
    GAATCCATTG AAAGCATCAG TTTCTCCCCC AATTACAAAA TGCTCTCAAT TGCAACCTGT
    AAGGGATCTG TATATCTCTA CAACCACAGA AATCCTGGAG AAACATATAA AGTATTTGAT
    GTTTACAGTG GAGACTTGCT TGCTGCTGAT TTCCTGACCT TTGGAAACAA ATACTGCTTA
    AGCACAGATA TATCAGGACA TGTGCAGTTA TGGTCAGTGG AGGATGGAAG AAGTGTAAGC
    TCTCTCAGCC TAAATATACA GGCCACTGCC ATGGCATGCT GCCCTTCATC TAATTATGCA
    GCTGTAGGTA GCAGCACTGG ACATATATAT TTTATTGATG CTATGAAAAT AGAAGCTCTA
    CGAGTTGTCC AGAGAATGAG ACTTTATTGT GTTCCTGTAC AACACATTCA TTTTGATCCA
    AGGGGTAATT TTCTTCTCAC TGGGGCAGCT GACAGACACA TTTTTATTCT GGATGCCAGA
    CCTTCCCATT CATTTGAGGT TCTTGGATAC ATCGTGGTTT GCGGAGAGAT TCTCACCTTG
    TCGTCACTAA GTTCTGAAGA TTCACAGCAA ACAAAAGCTA TGGCGCTTAT CTGTCCTGTG
    AATGAAGGGA AAGAAGAGAA AGGAGGAACA CGATTGGAGA TGTTTTCTCT ACCACTTCAA
    ATGTTATCAA GTCCATCTGA ATATATTGAT GAGAAAGGAA TGTTTAAGGA TGCAATGGTT
    CAGAAGATTT CTTATGATGT AGATCAGCCT CTGTTTTCTG CAGTTCTGGG TTACAATGTC
    AGCTCCGTAT TTGGATTTGG CAGCTATGCA CCAATGCTTT TAAAATATGT AATCCACAAG
    GAAATATCTG GAGATCCTTT GACTGCACTT GTTACAGAGA AGGTGGTACG GGGTAGCCAT
    CTTGGGCCTG GAGTACTTTG CTTGTCTCCT CATCTCAAGT GGATTTCTGT GTCTGGGAGG
    GATGGAATTG TATATGTAAA AGACATAAAG AATATGGAAA CTGTGGCACA AGTACAATGT
    CATTCCTACC ACACAGGCGG TATCAATTCT TTATCCTTTT CCTTGGATGG TCAAAGTATC
    ATCACTACAG GAACGTTTGA TGGAGCCCTG GTGTGCCTGC AATGGAAATC AACTGGAAGT
    AGCAGACTGG GTGCAGCTGT TGAGTATGGA AAGGCTTTTA CACTTTCTCT TCAAGCTGCA
    ATGAAGGAAG AAAATCAGAT GTTGAGCCGA ATGCCAGAAT GGACAGCAGA TACCAGTTCT
    ATGGCCGTGG AAAGCAAGGA AAAAGAGTAC AGAAATCTAA GTGTGGATGT AACTGAGCAG
    GACACCTTTC CAAACACTTC TGCTGATGTC ACTTGGATTT ACAGGAAGCT GGAGGAAGCT
    AAAAAGAAAG AAACAGAGAA ATATGCAGCA GAAAAGGAAA TAATTAAAAC CGGCATTAAA
    AAACTTCGCA AAACTATACA AGCAATGATG CGAGAGAATG AATCATTACC AGACATAGAA
    AAGCTGGACC AGCAGGAGTT TAACTTGGAC ACTGAGGAGC AGGAGAGACT GTATCTAGAG
    AGTGAGAAGG AAGTGGCAAG AGTGCGACAA GAGATTGAGT TGGAAAATTT GTCCAAACAA
    TATCTTCGAG AAGTTATAAA GCAGGAATGC TGGGATTCCA TGGCTGTAAA GGGACGTTCT
    GTTATGGCTT TCCATACAGG ATATGAAGTT ATGAATTATC CAATGAAAGA ACGAACACCA
    AAGGAACTGG AAGATTTTGC TAGAGTGTTA AATCTCAAGA AAATTGAAGC TGTTGATCTC
    AAGGTTCGAA AGGAAATTGT TGAGACTCAG CCAAAAATTA AGGCTGATGA CGAAGAGGAA
    GTGGAAGAGG AATCAGTGTC AAAGAGTCAA GACAGCTCAT CTTTGGTTGG CAGCCTGAGT
    GATCTTTATG GTGGGGATAC CAGTTACCTG TACAGTCAGC TAATTCTTCA TTCTAGAGAA
    GAGAAGATTA ACCAGATCAT TCTATTGCAA GACATCATTC ACAATATCAA GAAAGCCTTC
    AACAAAGACT TTGATATAGC ATGTCGTCAA AAAGAGCAAG AGGTCACACG TGTGAAGGAA
    AGAAATAATC GCATTCAGGA GATCATGGTC GAACTTAACC TGCAAGAGAA ACTCCTGGAG
    CCTACATTTA CTGATAATGA GAAGCCTGAG AGAGCGCTGA CTGTGGATGA TTCAGAGGTA
    AAAGTAGAAA GGTACCTAAC ACCTGAACAG AAAGCAAAGG CAGAGAAGCT AGCAAAAGAG
    GAAGAAGCAA AGCGCCTTGC GGAACAGGAA GACAATGCTA AGCAGCGAGC CCTGGATGAC
    ATGATGGGTG GTGTCCTAGA AGTAAAGAAG GAAGATATTC TTCGAATGGA AGTTCCACAA
    CCAGGTTTTA TAGCTCGAGC TGAGGCTGAA TGGACTGATG AAGAAAAGAA GCAATTCAAA
    GAGTACGAGA AAAAATGTAA GGACCTCAGT GAAGAAAAGG AGAAATACAG TAAGGTTTTG
    GAAGCAGAAA TGAAAAAACT TCAATTGTCT GTAATTGAAA CCACCCAGAG TTTTGATGAT
    GTGTTGGCCA GACTGTTTGA AAAGAAGGTG AAATCAGAAA TGGCAATTTA CCAGGAGGAA
    CTGAAAATCA ATAATCTCCT TTTCTCACTT CTCATTGAAG AGGAAATAAA CACAAGAGTG
    GCACACCTAG CTCATATTCT GGATAAGAAG CGCAAACAAA AGAATCAAAC AGCGGAAATT
    GTCAAGTCTT TTAAAACACA AGTACTTGCA TTTAGGGAGT CCTATGACAA TCTGGTAGCA
    GAGGATAAGC TTTTAGATCG TGGCTTTAAG AAGGAGTTTT CTGACATTAC ATCTTACCAA
    GTTGATCAAC TTTATAAGCT TTACAAACGA AGACCAAGGG TTCAGCGCTT GAGGACTCAG
    ACTGACAGTG CAGCACCATT TGGAGAACGA CCAGGATCAG CTAAGGCAAA TAAGGATTCC
    ATTGCTTTGC TAATGAAAGC TATGGATGAA CTTGACACCC CAGAAAATAT GCCTGAAGGA
    GTAGAATTGC CAGTGTGGGA GCGTTTCTGT CTTGCAAGAC GATCAAAGAT AGAATATGAA
    CAGCAGGTGA AGATCAAGGC CCTTGTCTTA GCAGAAATGC AGGCATTCCT AGATAAGAGG
    ATAGAAGAAG ATGAGAAGAT ACGTCAGGAT ACTGAGAATA TCATGCAGGA ACTCAATGTG
    TTGCGGAGTG AAAAAATGAA ATTTCAGCTC GATTTGACTG TCCAGTTCCT TCTTAAACAA
    GGTCAAGTTG AGTTGGAAAA TTCAGATTTA ATTCCCAGTT TTGAAGACGC CATTCTTCTT
    CATAGGAGTG TTATTGAAGA TTTAAACAGC ACCATACGGG GTTTGGGAGA ACAGAAAATT
    GCAAGCATGG TTGAAAGCAA AGATTTCCGA AAAGGGATTT TTCAGCTGGA ATGGGAACAT
    AGGAAAATAC GGATGGAAAT GGAAGATTTG GAACAGAAAT CTAGGGATAT TAGCTTGCTT
    CACGTCTCAA AAGATTTCCA AGTATTCCTT AGTGAGCAGA ATTATGACAA GCGCATATCT
    GATCAGATAC AGGTCCTAGA AGCAACTCTC AATGCTCAAG AAAAACAACA TGAGAAAAAT
    GTCAAGACCT ACAAAAAAAG TCTGAAGGAC CTAGAAACAA ATATAAATAA AAAGAGAACA
    GCAAACCTAG ACCTTGACAA AGATCTGCAG GAATTGCTGG TGTCTTTTTC TGAAAGAAAG
    CACATTTATG ATGTAGTTGG TGTAGAACAA AGCACAGAGA AGGCTGCGAA GGAAAGATAT
    GTGGAGATTG TTCAGCGACG CAAACTAGTG GATCTTGCCA AGATTCAAGC CCAAGAGATC
    ATTGAGCTAA GAACTGAAGT AGATAGACTG AGGATGAAAA CATTTCCTGC ATTAGTGCAA
    ATGGAATATT AG

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

    CloneID OXa43206
    Clone ID Related Accession (Same CDS sequence) XM_018092209.1
    Accession Version XM_018092209.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4983bp)
    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 cilia- and flagella-associated protein 43 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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
    ATGGTTGAAA ACTCCGGTTG TGCTCTGGAA GTTAGGTGGG TACAAGGAAT TAACAAGAAG 
    AAAGTCACGT TCATCAATGA CCACACAGTA TGCTATCCAT GTGGGAACTT TATTGTGTTT
    CATGACACAA ACACAAGGAA GCAGTCCTTT CTGCAGTGCA TGACAGGGAG CATAGGAGCA
    TTCTCAGTTA ACACCTACAG TGAAGTGGTT GCTTTCTCAG ACCAGAAGCT TCATCCCAGT
    ATTTATGTTT ACACATTTCC TGGATTTGTG AAACGAGTTG AACTTAAAGA GGGAGCACAG
    CTGGATTATT CTTTAATTGC TTTTAGCAAT GCTGCACCTT ATCTGGCTAG TTTTTCCTCT
    GTTCCTGACC ATGTACTTAC AATTTGGAAC TGGCAAGAAG GTATTCCTCT GTGCAGCCAG
    TCAGAATCTC AAACCACTTA TACTACCTTA ACCTTTAATC CTATGAACTG GCACCAACTG
    TGTTTGTCCA GTGAGACATC TCTTATTGTG TGGAACATTG AAATATGTGA CAACCTGTAC
    CAGTTGAAAG CAATGCCAGT CAAACTTCCC AGTGAGGATG GTACAATTGG TGTGGAGGAG
    GAGAACTTTA ATTCTTCTGC ACCCAACGGT GTGTCCTATT ATGGGCCTGT AATGCCAAAA
    TCTGCAGTTG CTGGATTAGT GGGCGAAGAA GCGGAAATCT TTATTCCTAA AGAACAAAGA
    AAACATTCTG TCCAGCCAAG TTTCCATTGC TGGAATGCCA CTTCTGATTT GTATGTGGGC
    TGTGAAAGGG GAAAGATTCT AACAATCAGT GCTGAGACAC AGAAAGTCAT TGTACTGGCC
    CAAAAAGACC AAGATGCAGA TCCTTTATCT GGGGTTACTC TTCTAGAAGG AAATATAAAG
    ACAATGGCGT TTCACAAGGA AGGACTCTAT ATAGCTGGGA AAGATGGTGT GTTGCGTTCA
    TGTACAATAA AAGGTTCAGA ATTAAAACTC GAAGACTGCT GGAGTGTGCA GGAATCCATT
    GAAAGCATCA GTTTCTCCCC CAATTACAAA ATGCTCTCAA TTGCAACCTG TAAGGGATCT
    GTATATCTCT ACAACCACAG AAATCCTGGA GAAACATATA AAGTATTTGA TGTTTACAGT
    GGAGACTTGC TTGCTGCTGA TTTCCTGACC TTTGGAAACA AATACTGCTT AAGCACAGAT
    ATATCAGGAC ATGTGCAGTT ATGGTCAGTG GAGGATGGAA GAAGTGTAAG CTCTCTCAGC
    CTAAATATAC AGGCCACTGC CATGGCATGC TGCCCTTCAT CTAATTATGC AGCTGTAGGT
    AGCAGCACTG GACATATATA TTTTATTGAT GCTATGAAAA TAGAAGCTCT ACGAGTTGTC
    CAGAGAATGA GACTTTATTG TGTTCCTGTA CAACACATTC ATTTTGATCC AAGGGGTAAT
    TTTCTTCTCA CTGGGGCAGC TGACAGACAC ATTTTTATTC TGGATGCCAG ACCTTCCCAT
    TCATTTGAGG TTCTTGGATA CATCGTGGTT TGCGGAGAGA TTCTCACCTT GTCGTCACTA
    AGTTCTGAAG ATTCACAGCA AACAAAAGCT ATGGCGCTTA TCTGTCCTGT GAATGAAGGG
    AAAGAAGAGA AAGGAGGAAC ACGATTGGAG ATGTTTTCTC TACCACTTCA AATGTTATCA
    AGTCCATCTG AATATATTGA TGAGAAAGGA ATGTTTAAGG ATGCAATGGT TCAGAAGATT
    TCTTATGATG TAGATCAGCC TCTGTTTTCT GCAGTTCTGG GTTACAATGT CAGCTCCGTA
    TTTGGATTTG GCAGCTATGC ACCAATGCTT TTAAAATATG TAATCCACAA GGAAATATCT
    GGAGATCCTT TGACTGCACT TGTTACAGAG AAGGTGGTAC GGGGTAGCCA TCTTGGGCCT
    GGAGTACTTT GCTTGTCTCC TCATCTCAAG TGGATTTCTG TGTCTGGGAG GGATGGAATT
    GTATATGTAA AAGACATAAA GAATATGGAA ACTGTGGCAC AAGTACAATG TCATTCCTAC
    CACACAGGCG GTATCAATTC TTTATCCTTT TCCTTGGATG GTCAAAGTAT CATCACTACA
    GGAACGTTTG ATGGAGCCCT GGTGTGCCTG CAATGGAAAT CAACTGGAAG TAGCAGACTG
    GGTGCAGCTG TTGAGTATGG AAAGGCTTTT ACACTTTCTC TTCAAGCTGC AATGAAGGAA
    GAAAATCAGA TGTTGAGCCG AATGCCAGAA TGGACAGCAG ATACCAGTTC TATGGCCGTG
    GAAAGCAAGG AAAAAGAGTA CAGAAATCTA AGTGTGGATG TAACTGAGCA GGACACCTTT
    CCAAACACTT CTGCTGATGT CACTTGGATT TACAGGAAGC TGGAGGAAGC TAAAAAGAAA
    GAAACAGAGA AATATGCAGC AGAAAAGGAA ATAATTAAAA CCGGCATTAA AAAACTTCGC
    AAAACTATAC AAGCAATGAT GCGAGAGAAT GAATCATTAC CAGACATAGA AAAGCTGGAC
    CAGCAGGAGT TTAACTTGGA CACTGAGGAG CAGGAGAGAC TGTATCTAGA GAGTGAGAAG
    GAAGTGGCAA GAGTGCGACA AGAGATTGAG TTGGAAAATT TGTCCAAACA ATATCTTCGA
    GAAGTTATAA AGCAGGAATG CTGGGATTCC ATGGCTGTAA AGGGACGTTC TGTTATGGCT
    TTCCATACAG GATATGAAGT TATGAATTAT CCAATGAAAG AACGAACACC AAAGGAACTG
    GAAGATTTTG CTAGAGTGTT AAATCTCAAG AAAATTGAAG CTGTTGATCT CAAGGTTCGA
    AAGGAAATTG TTGAGACTCA GCCAAAAATT AAGGCTGATG ACGAAGAGGA AGTGGAAGAG
    GAATCAGTGT CAAAGAGTCA AGACAGCTCA TCTTTGGTTG GCAGCCTGAG TGATCTTTAT
    GGTGGGGATA CCAGTTACCT GTACAGTCAG CTAATTCTTC ATTCTAGAGA AGAGAAGATT
    AACCAGATCA TTCTATTGCA AGACATCATT CACAATATCA AGAAAGCCTT CAACAAAGAC
    TTTGATATAG CATGTCGTCA AAAAGAGCAA GAGGTCACAC GTGTGAAGGA AAGAAATAAT
    CGCATTCAGG AGATCATGGT CGAACTTAAC CTGCAAGAGA AACTCCTGGA GCCTACATTT
    ACTGATAATG AGAAGCCTGA GAGAGCGCTG ACTGTGGATG ATTCAGAGGT AAAAGTAGAA
    AGGTACCTAA CACCTGAACA GAAAGCAAAG GCAGAGAAGC TAGCAAAAGA GGAAGAAGCA
    AAGCGCCTTG CGGAACAGGA AGACAATGCT AAGCAGCGAG CCCTGGATGA CATGATGGGT
    GGTGTCCTAG AAGTAAAGAA GGAAGATATT CTTCGAATGG AAGTTCCACA ACCAGGTTTT
    ATAGCTCGAG CTGAGGCTGA ATGGACTGAT GAAGAAAAGA AGCAATTCAA AGAGTACGAG
    AAAAAATGTA AGGACCTCAG TGAAGAAAAG GAGAAATACA GTAAGGTTTT GGAAGCAGAA
    ATGAAAAAAC TTCAATTGTC TGTAATTGAA ACCACCCAGA GTTTTGATGA TGTGTTGGCC
    AGACTGTTTG AAAAGAAGGT GAAATCAGAA ATGGCAATTT ACCAGGAGGA ACTGAAAATC
    AATAATCTCC TTTTCTCACT TCTCATTGAA GAGGAAATAA ACACAAGAGT GGCACACCTA
    GCTCATATTC TGGATAAGAA GCGCAAACAA AAGAATCAAA CAGCGGAAAT TGTCAAGTCT
    TTTAAAACAC AAGTACTTGC ATTTAGGGAG TCCTATGACA ATCTGGTAGC AGAGGATAAG
    CTTTTAGATC GTGGCTTTAA GAAGGAGTTT TCTGACATTA CATCTTACCA AGTTGATCAA
    CTTTATAAGC TTTACAAACG AAGACCAAGG GTTCAGCGCT TGAGGACTCA GACTGACAGT
    GCAGCACCAT TTGGAGAACG ACCAGGATCA GCTAAGGCAA ATAAGGATTC CATTGCTTTG
    CTAATGAAAG CTATGGATGA ACTTGACACC CCAGAAAATA TGCCTGAAGG AGTAGAATTG
    CCAGTGTGGG AGCGTTTCTG TCTTGCAAGA CGATCAAAGA TAGAATATGA ACAGCAGGTG
    AAGATCAAGG CCCTTGTCTT AGCAGAAATG CAGGCATTCC TAGATAAGAG GATAGAAGAA
    GATGAGAAGA TACGTCAGGA TACTGAGAAT ATCATGCAGG AACTCAATGT GTTGCGGAGT
    GAAAAAATGA AATTTCAGCT CGATTTGACT GTCCAGTTCC TTCTTAAACA AGGTCAAGTT
    GAGTTGGAAA ATTCAGATTT AATTCCCAGT TTTGAAGACG CCATTCTTCT TCATAGGAGT
    GTTATTGAAG ATTTAAACAG CACCATACGG GGTTTGGGAG AACAGAAAAT TGCAAGCATG
    GTTGAAAGCA AAGATTTCCG AAAAGGGATT TTTCAGCTGG AATGGGAACA TAGGAAAATA
    CGGATGGAAA TGGAAGATTT GGAACAGAAA TCTAGGGATA TTAGCTTGCT TCACGTCTCA
    AAAGATTTCC AAGTATTCCT TAGTGAGCAG AATTATGACA AGCGCATATC TGATCAGATA
    CAGGTCCTAG AAGCAACTCT CAATGCTCAA GAAAAACAAC ATGAGAAAAA TGTCAAGACC
    TACAAAAAAA GTCTGAAGGA CCTAGAAACA AATATAAATA AAAAGAGAAC AGCAAACCTA
    GACCTTGACA AAGATCTGCA GGAATTGCTG GTGTCTTTTT CTGAAAGAAA GCACATTTAT
    GATGTAGTTG GTGTAGAACA AAGCACAGAG AAGGCTGCGA AGGAAAGATA TGTGGAGATT
    GTTCAGCGAC GCAAACTAGT GGATCTTGCC AAGATTCAAG CCCAAGAGAT CATTGAGCTA
    AGAACTGAAG TAGATAGACT GAGGATGAAA ACATTTCCTG CATTAGTGCA AATGGAATAT
    TAG

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

    RefSeq XP_017947698.1
    CDS168..5150
    Translation

    Target ORF information:

    RefSeq Version XM_018092209.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092209.1

    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
    ATGGTTGAAA ACTCCGGTTG TGCTCTGGAA GTTAGGTGGG TACAAGGAAT TAACAAGAAG 
    AAAGTCACGT TCATCAATGA CCACACAGTA TGCTATCCAT GTGGGAACTT TATTGTGTTT
    CATGACACAA ACACAAGGAA GCAGTCCTTT CTGCAGTGCA TGACAGGGAG CATAGGAGCA
    TTCTCAGTTA ACACCTACAG TGAAGTGGTT GCTTTCTCAG ACCAGAAGCT TCATCCCAGT
    ATTTATGTTT ACACATTTCC TGGATTTGTG AAACGAGTTG AACTTAAAGA GGGAGCACAG
    CTGGATTATT CTTTAATTGC TTTTAGCAAT GCTGCACCTT ATCTGGCTAG TTTTTCCTCT
    GTTCCTGACC ATGTACTTAC AATTTGGAAC TGGCAAGAAG GTATTCCTCT GTGCAGCCAG
    TCAGAATCTC AAACCACTTA TACTACCTTA ACCTTTAATC CTATGAACTG GCACCAACTG
    TGTTTGTCCA GTGAGACATC TCTTATTGTG TGGAACATTG AAATATGTGA CAACCTGTAC
    CAGTTGAAAG CAATGCCAGT CAAACTTCCC AGTGAGGATG GTACAATTGG TGTGGAGGAG
    GAGAACTTTA ATTCTTCTGC ACCCAACGGT GTGTCCTATT ATGGGCCTGT AATGCCAAAA
    TCTGCAGTTG CTGGATTAGT GGGCGAAGAA GCGGAAATCT TTATTCCTAA AGAACAAAGA
    AAACATTCTG TCCAGCCAAG TTTCCATTGC TGGAATGCCA CTTCTGATTT GTATGTGGGC
    TGTGAAAGGG GAAAGATTCT AACAATCAGT GCTGAGACAC AGAAAGTCAT TGTACTGGCC
    CAAAAAGACC AAGATGCAGA TCCTTTATCT GGGGTTACTC TTCTAGAAGG AAATATAAAG
    ACAATGGCGT TTCACAAGGA AGGACTCTAT ATAGCTGGGA AAGATGGTGT GTTGCGTTCA
    TGTACAATAA AAGGTTCAGA ATTAAAACTC GAAGACTGCT GGAGTGTGCA GGAATCCATT
    GAAAGCATCA GTTTCTCCCC CAATTACAAA ATGCTCTCAA TTGCAACCTG TAAGGGATCT
    GTATATCTCT ACAACCACAG AAATCCTGGA GAAACATATA AAGTATTTGA TGTTTACAGT
    GGAGACTTGC TTGCTGCTGA TTTCCTGACC TTTGGAAACA AATACTGCTT AAGCACAGAT
    ATATCAGGAC ATGTGCAGTT ATGGTCAGTG GAGGATGGAA GAAGTGTAAG CTCTCTCAGC
    CTAAATATAC AGGCCACTGC CATGGCATGC TGCCCTTCAT CTAATTATGC AGCTGTAGGT
    AGCAGCACTG GACATATATA TTTTATTGAT GCTATGAAAA TAGAAGCTCT ACGAGTTGTC
    CAGAGAATGA GACTTTATTG TGTTCCTGTA CAACACATTC ATTTTGATCC AAGGGGTAAT
    TTTCTTCTCA CTGGGGCAGC TGACAGACAC ATTTTTATTC TGGATGCCAG ACCTTCCCAT
    TCATTTGAGG TTCTTGGATA CATCGTGGTT TGCGGAGAGA TTCTCACCTT GTCGTCACTA
    AGTTCTGAAG ATTCACAGCA AACAAAAGCT ATGGCGCTTA TCTGTCCTGT GAATGAAGGG
    AAAGAAGAGA AAGGAGGAAC ACGATTGGAG ATGTTTTCTC TACCACTTCA AATGTTATCA
    AGTCCATCTG AATATATTGA TGAGAAAGGA ATGTTTAAGG ATGCAATGGT TCAGAAGATT
    TCTTATGATG TAGATCAGCC TCTGTTTTCT GCAGTTCTGG GTTACAATGT CAGCTCCGTA
    TTTGGATTTG GCAGCTATGC ACCAATGCTT TTAAAATATG TAATCCACAA GGAAATATCT
    GGAGATCCTT TGACTGCACT TGTTACAGAG AAGGTGGTAC GGGGTAGCCA TCTTGGGCCT
    GGAGTACTTT GCTTGTCTCC TCATCTCAAG TGGATTTCTG TGTCTGGGAG GGATGGAATT
    GTATATGTAA AAGACATAAA GAATATGGAA ACTGTGGCAC AAGTACAATG TCATTCCTAC
    CACACAGGCG GTATCAATTC TTTATCCTTT TCCTTGGATG GTCAAAGTAT CATCACTACA
    GGAACGTTTG ATGGAGCCCT GGTGTGCCTG CAATGGAAAT CAACTGGAAG TAGCAGACTG
    GGTGCAGCTG TTGAGTATGG AAAGGCTTTT ACACTTTCTC TTCAAGCTGC AATGAAGGAA
    GAAAATCAGA TGTTGAGCCG AATGCCAGAA TGGACAGCAG ATACCAGTTC TATGGCCGTG
    GAAAGCAAGG AAAAAGAGTA CAGAAATCTA AGTGTGGATG TAACTGAGCA GGACACCTTT
    CCAAACACTT CTGCTGATGT CACTTGGATT TACAGGAAGC TGGAGGAAGC TAAAAAGAAA
    GAAACAGAGA AATATGCAGC AGAAAAGGAA ATAATTAAAA CCGGCATTAA AAAACTTCGC
    AAAACTATAC AAGCAATGAT GCGAGAGAAT GAATCATTAC CAGACATAGA AAAGCTGGAC
    CAGCAGGAGT TTAACTTGGA CACTGAGGAG CAGGAGAGAC TGTATCTAGA GAGTGAGAAG
    GAAGTGGCAA GAGTGCGACA AGAGATTGAG TTGGAAAATT TGTCCAAACA ATATCTTCGA
    GAAGTTATAA AGCAGGAATG CTGGGATTCC ATGGCTGTAA AGGGACGTTC TGTTATGGCT
    TTCCATACAG GATATGAAGT TATGAATTAT CCAATGAAAG AACGAACACC AAAGGAACTG
    GAAGATTTTG CTAGAGTGTT AAATCTCAAG AAAATTGAAG CTGTTGATCT CAAGGTTCGA
    AAGGAAATTG TTGAGACTCA GCCAAAAATT AAGGCTGATG ACGAAGAGGA AGTGGAAGAG
    GAATCAGTGT CAAAGAGTCA AGACAGCTCA TCTTTGGTTG GCAGCCTGAG TGATCTTTAT
    GGTGGGGATA CCAGTTACCT GTACAGTCAG CTAATTCTTC ATTCTAGAGA AGAGAAGATT
    AACCAGATCA TTCTATTGCA AGACATCATT CACAATATCA AGAAAGCCTT CAACAAAGAC
    TTTGATATAG CATGTCGTCA AAAAGAGCAA GAGGTCACAC GTGTGAAGGA AAGAAATAAT
    CGCATTCAGG AGATCATGGT CGAACTTAAC CTGCAAGAGA AACTCCTGGA GCCTACATTT
    ACTGATAATG AGAAGCCTGA GAGAGCGCTG ACTGTGGATG ATTCAGAGGT AAAAGTAGAA
    AGGTACCTAA CACCTGAACA GAAAGCAAAG GCAGAGAAGC TAGCAAAAGA GGAAGAAGCA
    AAGCGCCTTG CGGAACAGGA AGACAATGCT AAGCAGCGAG CCCTGGATGA CATGATGGGT
    GGTGTCCTAG AAGTAAAGAA GGAAGATATT CTTCGAATGG AAGTTCCACA ACCAGGTTTT
    ATAGCTCGAG CTGAGGCTGA ATGGACTGAT GAAGAAAAGA AGCAATTCAA AGAGTACGAG
    AAAAAATGTA AGGACCTCAG TGAAGAAAAG GAGAAATACA GTAAGGTTTT GGAAGCAGAA
    ATGAAAAAAC TTCAATTGTC TGTAATTGAA ACCACCCAGA GTTTTGATGA TGTGTTGGCC
    AGACTGTTTG AAAAGAAGGT GAAATCAGAA ATGGCAATTT ACCAGGAGGA ACTGAAAATC
    AATAATCTCC TTTTCTCACT TCTCATTGAA GAGGAAATAA ACACAAGAGT GGCACACCTA
    GCTCATATTC TGGATAAGAA GCGCAAACAA AAGAATCAAA CAGCGGAAAT TGTCAAGTCT
    TTTAAAACAC AAGTACTTGC ATTTAGGGAG TCCTATGACA ATCTGGTAGC AGAGGATAAG
    CTTTTAGATC GTGGCTTTAA GAAGGAGTTT TCTGACATTA CATCTTACCA AGTTGATCAA
    CTTTATAAGC TTTACAAACG AAGACCAAGG GTTCAGCGCT TGAGGACTCA GACTGACAGT
    GCAGCACCAT TTGGAGAACG ACCAGGATCA GCTAAGGCAA ATAAGGATTC CATTGCTTTG
    CTAATGAAAG CTATGGATGA ACTTGACACC CCAGAAAATA TGCCTGAAGG AGTAGAATTG
    CCAGTGTGGG AGCGTTTCTG TCTTGCAAGA CGATCAAAGA TAGAATATGA ACAGCAGGTG
    AAGATCAAGG CCCTTGTCTT AGCAGAAATG CAGGCATTCC TAGATAAGAG GATAGAAGAA
    GATGAGAAGA TACGTCAGGA TACTGAGAAT ATCATGCAGG AACTCAATGT GTTGCGGAGT
    GAAAAAATGA AATTTCAGCT CGATTTGACT GTCCAGTTCC TTCTTAAACA AGGTCAAGTT
    GAGTTGGAAA ATTCAGATTT AATTCCCAGT TTTGAAGACG CCATTCTTCT TCATAGGAGT
    GTTATTGAAG ATTTAAACAG CACCATACGG GGTTTGGGAG AACAGAAAAT TGCAAGCATG
    GTTGAAAGCA AAGATTTCCG AAAAGGGATT TTTCAGCTGG AATGGGAACA TAGGAAAATA
    CGGATGGAAA TGGAAGATTT GGAACAGAAA TCTAGGGATA TTAGCTTGCT TCACGTCTCA
    AAAGATTTCC AAGTATTCCT TAGTGAGCAG AATTATGACA AGCGCATATC TGATCAGATA
    CAGGTCCTAG AAGCAACTCT CAATGCTCAA GAAAAACAAC ATGAGAAAAA TGTCAAGACC
    TACAAAAAAA GTCTGAAGGA CCTAGAAACA AATATAAATA AAAAGAGAAC AGCAAACCTA
    GACCTTGACA AAGATCTGCA GGAATTGCTG GTGTCTTTTT CTGAAAGAAA GCACATTTAT
    GATGTAGTTG GTGTAGAACA AAGCACAGAG AAGGCTGCGA AGGAAAGATA TGTGGAGATT
    GTTCAGCGAC GCAAACTAGT GGATCTTGCC AAGATTCAAG CCCAAGAGAT CATTGAGCTA
    AGAACTGAAG TAGATAGACT GAGGATGAAA ACATTTCCTG CATTAGTGCA AATGGAATAT
    TAG

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

    CloneID OXa43207
    Clone ID Related Accession (Same CDS sequence) XM_018092210.1
    Accession Version XM_018092210.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4872bp)
    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 cilia- and flagella-associated protein 43 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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
    ATGTCATTAA TAAGGAAGAT AACGATAAGG ACTGCATTTG TCAGGTGGGT ACAAGGAATT 
    AACAAGAAGA AAGTCACGTT CATCAATGAC CACACAGTAT GCTATCCATG TGGGAACTTT
    ATTGTGTTTC ATGACACAAA CACAAGGAAG CAGTCCTTTC TGCAGTGCAT GACAGGGAGC
    ATAGGAGCAT TCTCAGTTAA CACCTACAGT GAAGTGGTTG CTTTCTCAGA CCAGAAGCTT
    CATCCCAGTA TTTATGTTTA CACATTTCCT GGATTTGTGA AACGAGTTGA ACTTAAAGAG
    GGAGCACAGC TGGATTATTC TTTAATTGCT TTTAGCAATG CTGCACCTTA TCTGGCTAGT
    TTTTCCTCTG TTCCTGACCA TGTACTTACA ATTTGGAACT GGCAAGAAGG TATTCCTCTG
    TGCAGCCAGT CAGAATCTCA AACCACTTAT ACTACCTTAA CCTTTAATCC TATGAACTGG
    CACCAACTGT GTTTGTCCAG TGAGACATCT CTTATTGTGT GGAACATTGA AATATGTGAC
    AACCTGTACC AGTTGAAAGC AATGCCAGTC AAACTTCCCA GTGAGGATGG TACAATTGGT
    GTGGAGGAGG AGAACTTTAA TTCTTCTGCA CCCAACGGTG TGTCCTATTA TGGGCCTGTA
    ATGCCAAAAT CTGCAGTTGC TGGATTAGTG GGCGAAGAAG CGGAAATCTT TATTCCTAAA
    GAACAAAGAA AACATTCTGT CCAGCCAAGT TTCCATTGCT GGAATGCCAC TTCTGATTTG
    TATGTGGGCT GTGAAAGGGG AAAGATTCTA ACAATCAGTG CTGAGACACA GAAAGTCATT
    GTACTGGCCC AAAAAGACCA AGATGCAGAT CCTTTATCTG GGGTTACTCT TCTAGAAGGA
    AATATAAAGA CAATGGCGTT TCACAAGGAA GGACTCTATA TAGCTGGGAA AGATGGTGTG
    TTGCGTTCAT GTACAATAAA AGGTTCAGAA TTAAAACTCG AAGACTGCTG GAGTGTGCAG
    GAATCCATTG AAAGCATCAG TTTCTCCCCC AATTACAAAA TGCTCTCAAT TGCAACCTGT
    AAGGGATCTG TATATCTCTA CAACCACAGA AATCCTGGAG AAACATATAA AGTATTTGAT
    GTTTACAGTG GAGACTTGCT TGCTGCTGAT TTCCTGACCT TTGGAAACAA ATACTGCTTA
    AGCACAGATA TATCAGGACA TGTGCAGTTA TGGTCAGTGG AGGATGGAAG AAGTGTAAGC
    TCTCTCAGCC TAAATATACA GGCCACTGCC ATGGCATGCT GCCCTTCATC TAATTATGCA
    GCTGTAGGTA GCAGCACTGG ACATATATAT TTTATTGATG CTATGAAAAT AGAAGCTCTA
    CGAGTTGTCC AGAGAATGAG ACTTTATTGT GTTCCTGTAC AACACATTCA TTTTGATCCA
    AGGGGTAATT TTCTTCTCAC TGGGGCAGCT GACAGACACA TTTTTATTCT GGATGCCAGA
    CCTTCCCATT CATTTGAGGT TCTTGGATAC ATCGTGGTTT GCGGAGAGAT TCTCACCTTG
    TCGTCACTAA GTTCTGAAGA TTCACAGCAA ACAAAAGCTA TGGCGCTTAT CTGTCCTGTG
    AATGAAGGGA AAGAAGAGAA AGGAGGAACA CGATTGGAGA TGTTTTCTCT ACCACTTCAA
    ATGTTATCAA GTCCATCTGA ATATATTGAT GAGAAAGGAA TGTTTAAGGA TGCAATGGTT
    CAGAAGATTT CTTATGATGT AGATCAGCCT CTGTTTTCTG CAGTTCTGGG TTACAATGTC
    AGCTCCGTAT TTGGATTTGG CAGCTATGCA CCAATGCTTT TAAAATATGT AATCCACAAG
    GAAATATCTG GAGATCCTTT GACTGCACTT GTTACAGAGA AGGTGGTACG GGGTAGCCAT
    CTTGGGCCTG GAGTACTTTG CTTGTCTCCT CATCTCAAGT GGATTTCTGT GTCTGGGAGG
    GATGGAATTG TATATGTAAA AGACATAAAG AATATGGAAA CTGTGGCACA AGTACAATGT
    CATTCCTACC ACACAGGCGG TATCAATTCT TTATCCTTTT CCTTGGATGG TCAAAGTATC
    ATCACTACAG GAACGTTTGA TGGAGCCCTG GTGTGCCTGC AATGGAAATC AACTGGAAGT
    AGCAGACTGG GTGCAGCTGT TGAGTATGGA AAGGCTTTTA CACTTTCTCT TCAAGCTGCA
    ATGAAGGAAG AAAATCAGAT GTTGAGCCGA ATGCCAGAAT GGACAGCAGA TACCAGTTCT
    ATGGCCGTGG AAAGCAAGGA AAAAGAGTAC AGAAATCTAA GTGTGGATGT AACTGAGCAG
    GACACCTTTC CAAACACTTC TGCTGATGTC ACTTGGATTT ACAGGAAGCT GGAGGAAGCT
    AAAAAGAAAG AAACAGAGAA ATATGCAGCA GAAAAGGAAA TAATTAAAAC CGGCATTAAA
    AAACTTCGCA AAACTATACA AGCAATGATG CGAGAGAATG AATCATTACC AGACATAGAA
    AAGCTGGACC AGCAGGAGTT TAACTTGGAC ACTGAGGAGC AGGAGAGACT GTATCTAGAG
    AGTGAGAAGG AAGTGGCAAG AGTGCGACAA GAGATTGAGT TGGAAAATTT GTCCAAACAA
    TATCTTCGAG AAGTTATAAA GCAGGAATGC TGGGATTCCA TGGCTGTAAA GGGACGTTCT
    GTTATGGCTT TCCATACAGG ATATGAAGTT ATGAATTATC CAATGAAAGA ACGAACACCA
    AAGGAACTGG AAGATTTTGC TAGAGTGTTA AATCTCAAGA AAATTGAAGC TGTTGATCTC
    AAGGTTCGAA AGGAAATTGT TGAGACTCAG CCAAAAATTA AGGCTGATGA CGAAGAGGAA
    GTGGAAGAGG AATCAGTGTC AAAGAGTCAA GACAGCTCAT CTTTGGTTGG CAGCCTGAGT
    GATCTTTATG GTGGGGATAC CAGTTACCTG TACAGTCAGC TAATTCTTCA TTCTAGAGAA
    GAGAAGATTA ACCAGATCAT TCTATTGCAA GACATCATTC ACAATATCAA GAAAGCCTTC
    AACAAAGACT TTGATATAGC ATGTCGTCAA AAAGAGCAAG AGGTCACACG TGTGAAGGAA
    AGAAATAATC GCATTCAGGA GATCATGGTC GAACTTAACC TGCAAGAGAA ACTCCTGGAG
    CCTACATTTA CTGATAATGA GAAGCCTGAG AGAGCGCTGA CTGTGGATGA TTCAGAGGTA
    AAAGTAGAAA GGTACCTAAC ACCTGAACAG AAAGCAAAGG CAGAGAAGCT AGCAAAAGAG
    GAAGAAGCAA AGCGCCTTGC GGAACAGGAA GACAATGCTA AGCAGCGAGC CCTGGATGAC
    ATGATGGGTG GTGTCCTAGA AGTAAAGAAG GAAGATATTC TTCGAATGGA AGTTCCACAA
    CCAGGTTTTA TAGCTCGAGC TGAGGCTGAA TGGACTGATG AAGAAAAGAA GCAATTCAAA
    GAGTACGAGA AAAAATGTAA GGACCTCAGT GAAGAAAAGG AGAAATACAG TAAGGAGGAA
    CTGAAAATCA ATAATCTCCT TTTCTCACTT CTCATTGAAG AGGAAATAAA CACAAGAGTG
    GCACACCTAG CTCATATTCT GGATAAGAAG CGCAAACAAA AGAATCAAAC AGCGGAAATT
    GTCAAGTCTT TTAAAACACA AGTACTTGCA TTTAGGGAGT CCTATGACAA TCTGGTAGCA
    GAGGATAAGC TTTTAGATCG TGGCTTTAAG AAGGAGTTTT CTGACATTAC ATCTTACCAA
    GTTGATCAAC TTTATAAGCT TTACAAACGA AGACCAAGGG TTCAGCGCTT GAGGACTCAG
    ACTGACAGTG CAGCACCATT TGGAGAACGA CCAGGATCAG CTAAGGCAAA TAAGGATTCC
    ATTGCTTTGC TAATGAAAGC TATGGATGAA CTTGACACCC CAGAAAATAT GCCTGAAGGA
    GTAGAATTGC CAGTGTGGGA GCGTTTCTGT CTTGCAAGAC GATCAAAGAT AGAATATGAA
    CAGCAGGTGA AGATCAAGGC CCTTGTCTTA GCAGAAATGC AGGCATTCCT AGATAAGAGG
    ATAGAAGAAG ATGAGAAGAT ACGTCAGGAT ACTGAGAATA TCATGCAGGA ACTCAATGTG
    TTGCGGAGTG AAAAAATGAA ATTTCAGCTC GATTTGACTG TCCAGTTCCT TCTTAAACAA
    GGTCAAGTTG AGTTGGAAAA TTCAGATTTA ATTCCCAGTT TTGAAGACGC CATTCTTCTT
    CATAGGAGTG TTATTGAAGA TTTAAACAGC ACCATACGGG GTTTGGGAGA ACAGAAAATT
    GCAAGCATGG TTGAAAGCAA AGATTTCCGA AAAGGGATTT TTCAGCTGGA ATGGGAACAT
    AGGAAAATAC GGATGGAAAT GGAAGATTTG GAACAGAAAT CTAGGGATAT TAGCTTGCTT
    CACGTCTCAA AAGATTTCCA AGTATTCCTT AGTGAGCAGA ATTATGACAA GCGCATATCT
    GATCAGATAC AGGTCCTAGA AGCAACTCTC AATGCTCAAG AAAAACAACA TGAGAAAAAT
    GTCAAGACCT ACAAAAAAAG TCTGAAGGAC CTAGAAACAA ATATAAATAA AAAGAGAACA
    GCAAACCTAG ACCTTGACAA AGATCTGCAG GAATTGCTGG TGTCTTTTTC TGAAAGAAAG
    CACATTTATG ATGTAGTTGG TGTAGAACAA AGCACAGAGA AGGCTGCGAA GGAAAGATAT
    GTGGAGATTG TTCAGCGACG CAAACTAGTG GATCTTGCCA AGATTCAAGC CCAAGAGATC
    ATTGAGCTAA GAACTGAAGT AGATAGACTG AGGATGAAAA CATTTCCTGC ATTAGTGCAA
    ATGGAATATT AG

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

    RefSeq XP_017947699.1
    CDS352..5223
    Translation

    Target ORF information:

    RefSeq Version XM_018092210.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092210.1

    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
    ATGTCATTAA TAAGGAAGAT AACGATAAGG ACTGCATTTG TCAGGTGGGT ACAAGGAATT 
    AACAAGAAGA AAGTCACGTT CATCAATGAC CACACAGTAT GCTATCCATG TGGGAACTTT
    ATTGTGTTTC ATGACACAAA CACAAGGAAG CAGTCCTTTC TGCAGTGCAT GACAGGGAGC
    ATAGGAGCAT TCTCAGTTAA CACCTACAGT GAAGTGGTTG CTTTCTCAGA CCAGAAGCTT
    CATCCCAGTA TTTATGTTTA CACATTTCCT GGATTTGTGA AACGAGTTGA ACTTAAAGAG
    GGAGCACAGC TGGATTATTC TTTAATTGCT TTTAGCAATG CTGCACCTTA TCTGGCTAGT
    TTTTCCTCTG TTCCTGACCA TGTACTTACA ATTTGGAACT GGCAAGAAGG TATTCCTCTG
    TGCAGCCAGT CAGAATCTCA AACCACTTAT ACTACCTTAA CCTTTAATCC TATGAACTGG
    CACCAACTGT GTTTGTCCAG TGAGACATCT CTTATTGTGT GGAACATTGA AATATGTGAC
    AACCTGTACC AGTTGAAAGC AATGCCAGTC AAACTTCCCA GTGAGGATGG TACAATTGGT
    GTGGAGGAGG AGAACTTTAA TTCTTCTGCA CCCAACGGTG TGTCCTATTA TGGGCCTGTA
    ATGCCAAAAT CTGCAGTTGC TGGATTAGTG GGCGAAGAAG CGGAAATCTT TATTCCTAAA
    GAACAAAGAA AACATTCTGT CCAGCCAAGT TTCCATTGCT GGAATGCCAC TTCTGATTTG
    TATGTGGGCT GTGAAAGGGG AAAGATTCTA ACAATCAGTG CTGAGACACA GAAAGTCATT
    GTACTGGCCC AAAAAGACCA AGATGCAGAT CCTTTATCTG GGGTTACTCT TCTAGAAGGA
    AATATAAAGA CAATGGCGTT TCACAAGGAA GGACTCTATA TAGCTGGGAA AGATGGTGTG
    TTGCGTTCAT GTACAATAAA AGGTTCAGAA TTAAAACTCG AAGACTGCTG GAGTGTGCAG
    GAATCCATTG AAAGCATCAG TTTCTCCCCC AATTACAAAA TGCTCTCAAT TGCAACCTGT
    AAGGGATCTG TATATCTCTA CAACCACAGA AATCCTGGAG AAACATATAA AGTATTTGAT
    GTTTACAGTG GAGACTTGCT TGCTGCTGAT TTCCTGACCT TTGGAAACAA ATACTGCTTA
    AGCACAGATA TATCAGGACA TGTGCAGTTA TGGTCAGTGG AGGATGGAAG AAGTGTAAGC
    TCTCTCAGCC TAAATATACA GGCCACTGCC ATGGCATGCT GCCCTTCATC TAATTATGCA
    GCTGTAGGTA GCAGCACTGG ACATATATAT TTTATTGATG CTATGAAAAT AGAAGCTCTA
    CGAGTTGTCC AGAGAATGAG ACTTTATTGT GTTCCTGTAC AACACATTCA TTTTGATCCA
    AGGGGTAATT TTCTTCTCAC TGGGGCAGCT GACAGACACA TTTTTATTCT GGATGCCAGA
    CCTTCCCATT CATTTGAGGT TCTTGGATAC ATCGTGGTTT GCGGAGAGAT TCTCACCTTG
    TCGTCACTAA GTTCTGAAGA TTCACAGCAA ACAAAAGCTA TGGCGCTTAT CTGTCCTGTG
    AATGAAGGGA AAGAAGAGAA AGGAGGAACA CGATTGGAGA TGTTTTCTCT ACCACTTCAA
    ATGTTATCAA GTCCATCTGA ATATATTGAT GAGAAAGGAA TGTTTAAGGA TGCAATGGTT
    CAGAAGATTT CTTATGATGT AGATCAGCCT CTGTTTTCTG CAGTTCTGGG TTACAATGTC
    AGCTCCGTAT TTGGATTTGG CAGCTATGCA CCAATGCTTT TAAAATATGT AATCCACAAG
    GAAATATCTG GAGATCCTTT GACTGCACTT GTTACAGAGA AGGTGGTACG GGGTAGCCAT
    CTTGGGCCTG GAGTACTTTG CTTGTCTCCT CATCTCAAGT GGATTTCTGT GTCTGGGAGG
    GATGGAATTG TATATGTAAA AGACATAAAG AATATGGAAA CTGTGGCACA AGTACAATGT
    CATTCCTACC ACACAGGCGG TATCAATTCT TTATCCTTTT CCTTGGATGG TCAAAGTATC
    ATCACTACAG GAACGTTTGA TGGAGCCCTG GTGTGCCTGC AATGGAAATC AACTGGAAGT
    AGCAGACTGG GTGCAGCTGT TGAGTATGGA AAGGCTTTTA CACTTTCTCT TCAAGCTGCA
    ATGAAGGAAG AAAATCAGAT GTTGAGCCGA ATGCCAGAAT GGACAGCAGA TACCAGTTCT
    ATGGCCGTGG AAAGCAAGGA AAAAGAGTAC AGAAATCTAA GTGTGGATGT AACTGAGCAG
    GACACCTTTC CAAACACTTC TGCTGATGTC ACTTGGATTT ACAGGAAGCT GGAGGAAGCT
    AAAAAGAAAG AAACAGAGAA ATATGCAGCA GAAAAGGAAA TAATTAAAAC CGGCATTAAA
    AAACTTCGCA AAACTATACA AGCAATGATG CGAGAGAATG AATCATTACC AGACATAGAA
    AAGCTGGACC AGCAGGAGTT TAACTTGGAC ACTGAGGAGC AGGAGAGACT GTATCTAGAG
    AGTGAGAAGG AAGTGGCAAG AGTGCGACAA GAGATTGAGT TGGAAAATTT GTCCAAACAA
    TATCTTCGAG AAGTTATAAA GCAGGAATGC TGGGATTCCA TGGCTGTAAA GGGACGTTCT
    GTTATGGCTT TCCATACAGG ATATGAAGTT ATGAATTATC CAATGAAAGA ACGAACACCA
    AAGGAACTGG AAGATTTTGC TAGAGTGTTA AATCTCAAGA AAATTGAAGC TGTTGATCTC
    AAGGTTCGAA AGGAAATTGT TGAGACTCAG CCAAAAATTA AGGCTGATGA CGAAGAGGAA
    GTGGAAGAGG AATCAGTGTC AAAGAGTCAA GACAGCTCAT CTTTGGTTGG CAGCCTGAGT
    GATCTTTATG GTGGGGATAC CAGTTACCTG TACAGTCAGC TAATTCTTCA TTCTAGAGAA
    GAGAAGATTA ACCAGATCAT TCTATTGCAA GACATCATTC ACAATATCAA GAAAGCCTTC
    AACAAAGACT TTGATATAGC ATGTCGTCAA AAAGAGCAAG AGGTCACACG TGTGAAGGAA
    AGAAATAATC GCATTCAGGA GATCATGGTC GAACTTAACC TGCAAGAGAA ACTCCTGGAG
    CCTACATTTA CTGATAATGA GAAGCCTGAG AGAGCGCTGA CTGTGGATGA TTCAGAGGTA
    AAAGTAGAAA GGTACCTAAC ACCTGAACAG AAAGCAAAGG CAGAGAAGCT AGCAAAAGAG
    GAAGAAGCAA AGCGCCTTGC GGAACAGGAA GACAATGCTA AGCAGCGAGC CCTGGATGAC
    ATGATGGGTG GTGTCCTAGA AGTAAAGAAG GAAGATATTC TTCGAATGGA AGTTCCACAA
    CCAGGTTTTA TAGCTCGAGC TGAGGCTGAA TGGACTGATG AAGAAAAGAA GCAATTCAAA
    GAGTACGAGA AAAAATGTAA GGACCTCAGT GAAGAAAAGG AGAAATACAG TAAGGAGGAA
    CTGAAAATCA ATAATCTCCT TTTCTCACTT CTCATTGAAG AGGAAATAAA CACAAGAGTG
    GCACACCTAG CTCATATTCT GGATAAGAAG CGCAAACAAA AGAATCAAAC AGCGGAAATT
    GTCAAGTCTT TTAAAACACA AGTACTTGCA TTTAGGGAGT CCTATGACAA TCTGGTAGCA
    GAGGATAAGC TTTTAGATCG TGGCTTTAAG AAGGAGTTTT CTGACATTAC ATCTTACCAA
    GTTGATCAAC TTTATAAGCT TTACAAACGA AGACCAAGGG TTCAGCGCTT GAGGACTCAG
    ACTGACAGTG CAGCACCATT TGGAGAACGA CCAGGATCAG CTAAGGCAAA TAAGGATTCC
    ATTGCTTTGC TAATGAAAGC TATGGATGAA CTTGACACCC CAGAAAATAT GCCTGAAGGA
    GTAGAATTGC CAGTGTGGGA GCGTTTCTGT CTTGCAAGAC GATCAAAGAT AGAATATGAA
    CAGCAGGTGA AGATCAAGGC CCTTGTCTTA GCAGAAATGC AGGCATTCCT AGATAAGAGG
    ATAGAAGAAG ATGAGAAGAT ACGTCAGGAT ACTGAGAATA TCATGCAGGA ACTCAATGTG
    TTGCGGAGTG AAAAAATGAA ATTTCAGCTC GATTTGACTG TCCAGTTCCT TCTTAAACAA
    GGTCAAGTTG AGTTGGAAAA TTCAGATTTA ATTCCCAGTT TTGAAGACGC CATTCTTCTT
    CATAGGAGTG TTATTGAAGA TTTAAACAGC ACCATACGGG GTTTGGGAGA ACAGAAAATT
    GCAAGCATGG TTGAAAGCAA AGATTTCCGA AAAGGGATTT TTCAGCTGGA ATGGGAACAT
    AGGAAAATAC GGATGGAAAT GGAAGATTTG GAACAGAAAT CTAGGGATAT TAGCTTGCTT
    CACGTCTCAA AAGATTTCCA AGTATTCCTT AGTGAGCAGA ATTATGACAA GCGCATATCT
    GATCAGATAC AGGTCCTAGA AGCAACTCTC AATGCTCAAG AAAAACAACA TGAGAAAAAT
    GTCAAGACCT ACAAAAAAAG TCTGAAGGAC CTAGAAACAA ATATAAATAA AAAGAGAACA
    GCAAACCTAG ACCTTGACAA AGATCTGCAG GAATTGCTGG TGTCTTTTTC TGAAAGAAAG
    CACATTTATG ATGTAGTTGG TGTAGAACAA AGCACAGAGA AGGCTGCGAA GGAAAGATAT
    GTGGAGATTG TTCAGCGACG CAAACTAGTG GATCTTGCCA AGATTCAAGC CCAAGAGATC
    ATTGAGCTAA GAACTGAAGT AGATAGACTG AGGATGAAAA CATTTCCTGC ATTAGTGCAA
    ATGGAATATT AG

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

    CloneID OXa43208
    Clone ID Related Accession (Same CDS sequence) XM_018092211.1
    Accession Version XM_018092211.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4824bp)
    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 cilia- and flagella-associated protein 43 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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
    ATGACAGGGA GCATAGGAGC ATTCTCAGTT AACACCTACA GTGAAGTGGT TGCTTTCTCA 
    GACCAGAAGC TTCATCCCAG TATTTATGTT TACACATTTC CTGGATTTGT GAAACGAGTT
    GAACTTAAAG AGGGAGCACA GCTGGATTAT TCTTTAATTG CTTTTAGCAA TGCTGCACCT
    TATCTGGCTA GTTTTTCCTC TGTTCCTGAC CATGTACTTA CAATTTGGAA CTGGCAAGAA
    GGTATTCCTC TGTGCAGCCA GTCAGAATCT CAAACCACTT ATACTACCTT AACCTTTAAT
    CCTATGAACT GGCACCAACT GTGTTTGTCC AGTGAGACAT CTCTTATTGT GTGGAACATT
    GAAATATGTG ACAACCTGTA CCAGTTGAAA GCAATGCCAG TCAAACTTCC CAGTGAGGAT
    GGTACAATTG GTGTGGAGGA GGAGAACTTT AATTCTTCTG CACCCAACGG TGTGTCCTAT
    TATGGGCCTG TAATGCCAAA ATCTGCAGTT GCTGGATTAG TGGGCGAAGA AGCGGAAATC
    TTTATTCCTA AAGAACAAAG AAAACATTCT GTCCAGCCAA GTTTCCATTG CTGGAATGCC
    ACTTCTGATT TGTATGTGGG CTGTGAAAGG GGAAAGATTC TAACAATCAG TGCTGAGACA
    CAGAAAGTCA TTGTACTGGC CCAAAAAGAC CAAGATGCAG ATCCTTTATC TGGGGTTACT
    CTTCTAGAAG GAAATATAAA GACAATGGCG TTTCACAAGG AAGGACTCTA TATAGCTGGG
    AAAGATGGTG TGTTGCGTTC ATGTACAATA AAAGGTTCAG AATTAAAACT CGAAGACTGC
    TGGAGTGTGC AGGAATCCAT TGAAAGCATC AGTTTCTCCC CCAATTACAA AATGCTCTCA
    ATTGCAACCT GTAAGGGATC TGTATATCTC TACAACCACA GAAATCCTGG AGAAACATAT
    AAAGTATTTG ATGTTTACAG TGGAGACTTG CTTGCTGCTG ATTTCCTGAC CTTTGGAAAC
    AAATACTGCT TAAGCACAGA TATATCAGGA CATGTGCAGT TATGGTCAGT GGAGGATGGA
    AGAAGTGTAA GCTCTCTCAG CCTAAATATA CAGGCCACTG CCATGGCATG CTGCCCTTCA
    TCTAATTATG CAGCTGTAGG TAGCAGCACT GGACATATAT ATTTTATTGA TGCTATGAAA
    ATAGAAGCTC TACGAGTTGT CCAGAGAATG AGACTTTATT GTGTTCCTGT ACAACACATT
    CATTTTGATC CAAGGGGTAA TTTTCTTCTC ACTGGGGCAG CTGACAGACA CATTTTTATT
    CTGGATGCCA GACCTTCCCA TTCATTTGAG GTTCTTGGAT ACATCGTGGT TTGCGGAGAG
    ATTCTCACCT TGTCGTCACT AAGTTCTGAA GATTCACAGC AAACAAAAGC TATGGCGCTT
    ATCTGTCCTG TGAATGAAGG GAAAGAAGAG AAAGGAGGAA CACGATTGGA GATGTTTTCT
    CTACCACTTC AAATGTTATC AAGTCCATCT GAATATATTG ATGAGAAAGG AATGTTTAAG
    GATGCAATGG TTCAGAAGAT TTCTTATGAT GTAGATCAGC CTCTGTTTTC TGCAGTTCTG
    GGTTACAATG TCAGCTCCGT ATTTGGATTT GGCAGCTATG CACCAATGCT TTTAAAATAT
    GTAATCCACA AGGAAATATC TGGAGATCCT TTGACTGCAC TTGTTACAGA GAAGGTGGTA
    CGGGGTAGCC ATCTTGGGCC TGGAGTACTT TGCTTGTCTC CTCATCTCAA GTGGATTTCT
    GTGTCTGGGA GGGATGGAAT TGTATATGTA AAAGACATAA AGAATATGGA AACTGTGGCA
    CAAGTACAAT GTCATTCCTA CCACACAGGC GGTATCAATT CTTTATCCTT TTCCTTGGAT
    GGTCAAAGTA TCATCACTAC AGGAACGTTT GATGGAGCCC TGGTGTGCCT GCAATGGAAA
    TCAACTGGAA GTAGCAGACT GGGTGCAGCT GTTGAGTATG GAAAGGCTTT TACACTTTCT
    CTTCAAGCTG CAATGAAGGA AGAAAATCAG ATGTTGAGCC GAATGCCAGA ATGGACAGCA
    GATACCAGTT CTATGGCCGT GGAAAGCAAG GAAAAAGAGT ACAGAAATCT AAGTGTGGAT
    GTAACTGAGC AGGACACCTT TCCAAACACT TCTGCTGATG TCACTTGGAT TTACAGGAAG
    CTGGAGGAAG CTAAAAAGAA AGAAACAGAG AAATATGCAG CAGAAAAGGA AATAATTAAA
    ACCGGCATTA AAAAACTTCG CAAAACTATA CAAGCAATGA TGCGAGAGAA TGAATCATTA
    CCAGACATAG AAAAGCTGGA CCAGCAGGAG TTTAACTTGG ACACTGAGGA GCAGGAGAGA
    CTGTATCTAG AGAGTGAGAA GGAAGTGGCA AGAGTGCGAC AAGAGATTGA GTTGGAAAAT
    TTGTCCAAAC AATATCTTCG AGAAGTTATA AAGCAGGAAT GCTGGGATTC CATGGCTGTA
    AAGGGACGTT CTGTTATGGC TTTCCATACA GGATATGAAG TTATGAATTA TCCAATGAAA
    GAACGAACAC CAAAGGAACT GGAAGATTTT GCTAGAGTGT TAAATCTCAA GAAAATTGAA
    GCTGTTGATC TCAAGGTTCG AAAGGAAATT GTTGAGACTC AGCCAAAAAT TAAGGCTGAT
    GACGAAGAGG AAGTGGAAGA GGAATCAGTG TCAAAGAGTC AAGACAGCTC ATCTTTGGTT
    GGCAGCCTGA GTGATCTTTA TGGTGGGGAT ACCAGTTACC TGTACAGTCA GCTAATTCTT
    CATTCTAGAG AAGAGAAGAT TAACCAGATC ATTCTATTGC AAGACATCAT TCACAATATC
    AAGAAAGCCT TCAACAAAGA CTTTGATATA GCATGTCGTC AAAAAGAGCA AGAGGTCACA
    CGTGTGAAGG AAAGAAATAA TCGCATTCAG GAGATCATGG TCGAACTTAA CCTGCAAGAG
    AAACTCCTGG AGCCTACATT TACTGATAAT GAGAAGCCTG AGAGAGCGCT GACTGTGGAT
    GATTCAGAGG TAAAAGTAGA AAGGTACCTA ACACCTGAAC AGAAAGCAAA GGCAGAGAAG
    CTAGCAAAAG AGGAAGAAGC AAAGCGCCTT GCGGAACAGG AAGACAATGC TAAGCAGCGA
    GCCCTGGATG ACATGATGGG TGGTGTCCTA GAAGTAAAGA AGGAAGATAT TCTTCGAATG
    GAAGTTCCAC AACCAGGTTT TATAGCTCGA GCTGAGGCTG AATGGACTGA TGAAGAAAAG
    AAGCAATTCA AAGAGTACGA GAAAAAATGT AAGGACCTCA GTGAAGAAAA GGAGAAATAC
    AGTAAGGTTT TGGAAGCAGA AATGAAAAAA CTTCAATTGT CTGTAATTGA AACCACCCAG
    AGTTTTGATG ATGTGTTGGC CAGACTGTTT GAAAAGAAGG TGAAATCAGA AATGGCAATT
    TACCAGGAGG AACTGAAAAT CAATAATCTC CTTTTCTCAC TTCTCATTGA AGAGGAAATA
    AACACAAGAG TGGCACACCT AGCTCATATT CTGGATAAGA AGCGCAAACA AAAGAATCAA
    ACAGCGGAAA TTGTCAAGTC TTTTAAAACA CAAGTACTTG CATTTAGGGA GTCCTATGAC
    AATCTGGTAG CAGAGGATAA GCTTTTAGAT CGTGGCTTTA AGAAGGAGTT TTCTGACATT
    ACATCTTACC AAGTTGATCA ACTTTATAAG CTTTACAAAC GAAGACCAAG GGTTCAGCGC
    TTGAGGACTC AGACTGACAG TGCAGCACCA TTTGGAGAAC GACCAGGATC AGCTAAGGCA
    AATAAGGATT CCATTGCTTT GCTAATGAAA GCTATGGATG AACTTGACAC CCCAGAAAAT
    ATGCCTGAAG GAGTAGAATT GCCAGTGTGG GAGCGTTTCT GTCTTGCAAG ACGATCAAAG
    ATAGAATATG AACAGCAGGT GAAGATCAAG GCCCTTGTCT TAGCAGAAAT GCAGGCATTC
    CTAGATAAGA GGATAGAAGA AGATGAGAAG ATACGTCAGG ATACTGAGAA TATCATGCAG
    GAACTCAATG TGTTGCGGAG TGAAAAAATG AAATTTCAGC TCGATTTGAC TGTCCAGTTC
    CTTCTTAAAC AAGGTCAAGT TGAGTTGGAA AATTCAGATT TAATTCCCAG TTTTGAAGAC
    GCCATTCTTC TTCATAGGAG TGTTATTGAA GATTTAAACA GCACCATACG GGGTTTGGGA
    GAACAGAAAA TTGCAAGCAT GGTTGAAAGC AAAGATTTCC GAAAAGGGAT TTTTCAGCTG
    GAATGGGAAC ATAGGAAAAT ACGGATGGAA ATGGAAGATT TGGAACAGAA ATCTAGGGAT
    ATTAGCTTGC TTCACGTCTC AAAAGATTTC CAAGTATTCC TTAGTGAGCA GAATTATGAC
    AAGCGCATAT CTGATCAGAT ACAGGTCCTA GAAGCAACTC TCAATGCTCA AGAAAAACAA
    CATGAGAAAA ATGTCAAGAC CTACAAAAAA AGTCTGAAGG ACCTAGAAAC AAATATAAAT
    AAAAAGAGAA CAGCAAACCT AGACCTTGAC AAAGATCTGC AGGAATTGCT GGTGTCTTTT
    TCTGAAAGAA AGCACATTTA TGATGTAGTT GGTGTAGAAC AAAGCACAGA GAAGGCTGCG
    AAGGAAAGAT ATGTGGAGAT TGTTCAGCGA CGCAAACTAG TGGATCTTGC CAAGATTCAA
    GCCCAAGAGA TCATTGAGCT AAGAACTGAA GTAGATAGAC TGAGGATGAA AACATTTCCT
    GCATTAGTGC AAATGGAATA TTAG

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

    RefSeq XP_017947700.1
    CDS204..5027
    Translation

    Target ORF information:

    RefSeq Version XM_018092211.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092211.1

    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
    ATGACAGGGA GCATAGGAGC ATTCTCAGTT AACACCTACA GTGAAGTGGT TGCTTTCTCA 
    GACCAGAAGC TTCATCCCAG TATTTATGTT TACACATTTC CTGGATTTGT GAAACGAGTT
    GAACTTAAAG AGGGAGCACA GCTGGATTAT TCTTTAATTG CTTTTAGCAA TGCTGCACCT
    TATCTGGCTA GTTTTTCCTC TGTTCCTGAC CATGTACTTA CAATTTGGAA CTGGCAAGAA
    GGTATTCCTC TGTGCAGCCA GTCAGAATCT CAAACCACTT ATACTACCTT AACCTTTAAT
    CCTATGAACT GGCACCAACT GTGTTTGTCC AGTGAGACAT CTCTTATTGT GTGGAACATT
    GAAATATGTG ACAACCTGTA CCAGTTGAAA GCAATGCCAG TCAAACTTCC CAGTGAGGAT
    GGTACAATTG GTGTGGAGGA GGAGAACTTT AATTCTTCTG CACCCAACGG TGTGTCCTAT
    TATGGGCCTG TAATGCCAAA ATCTGCAGTT GCTGGATTAG TGGGCGAAGA AGCGGAAATC
    TTTATTCCTA AAGAACAAAG AAAACATTCT GTCCAGCCAA GTTTCCATTG CTGGAATGCC
    ACTTCTGATT TGTATGTGGG CTGTGAAAGG GGAAAGATTC TAACAATCAG TGCTGAGACA
    CAGAAAGTCA TTGTACTGGC CCAAAAAGAC CAAGATGCAG ATCCTTTATC TGGGGTTACT
    CTTCTAGAAG GAAATATAAA GACAATGGCG TTTCACAAGG AAGGACTCTA TATAGCTGGG
    AAAGATGGTG TGTTGCGTTC ATGTACAATA AAAGGTTCAG AATTAAAACT CGAAGACTGC
    TGGAGTGTGC AGGAATCCAT TGAAAGCATC AGTTTCTCCC CCAATTACAA AATGCTCTCA
    ATTGCAACCT GTAAGGGATC TGTATATCTC TACAACCACA GAAATCCTGG AGAAACATAT
    AAAGTATTTG ATGTTTACAG TGGAGACTTG CTTGCTGCTG ATTTCCTGAC CTTTGGAAAC
    AAATACTGCT TAAGCACAGA TATATCAGGA CATGTGCAGT TATGGTCAGT GGAGGATGGA
    AGAAGTGTAA GCTCTCTCAG CCTAAATATA CAGGCCACTG CCATGGCATG CTGCCCTTCA
    TCTAATTATG CAGCTGTAGG TAGCAGCACT GGACATATAT ATTTTATTGA TGCTATGAAA
    ATAGAAGCTC TACGAGTTGT CCAGAGAATG AGACTTTATT GTGTTCCTGT ACAACACATT
    CATTTTGATC CAAGGGGTAA TTTTCTTCTC ACTGGGGCAG CTGACAGACA CATTTTTATT
    CTGGATGCCA GACCTTCCCA TTCATTTGAG GTTCTTGGAT ACATCGTGGT TTGCGGAGAG
    ATTCTCACCT TGTCGTCACT AAGTTCTGAA GATTCACAGC AAACAAAAGC TATGGCGCTT
    ATCTGTCCTG TGAATGAAGG GAAAGAAGAG AAAGGAGGAA CACGATTGGA GATGTTTTCT
    CTACCACTTC AAATGTTATC AAGTCCATCT GAATATATTG ATGAGAAAGG AATGTTTAAG
    GATGCAATGG TTCAGAAGAT TTCTTATGAT GTAGATCAGC CTCTGTTTTC TGCAGTTCTG
    GGTTACAATG TCAGCTCCGT ATTTGGATTT GGCAGCTATG CACCAATGCT TTTAAAATAT
    GTAATCCACA AGGAAATATC TGGAGATCCT TTGACTGCAC TTGTTACAGA GAAGGTGGTA
    CGGGGTAGCC ATCTTGGGCC TGGAGTACTT TGCTTGTCTC CTCATCTCAA GTGGATTTCT
    GTGTCTGGGA GGGATGGAAT TGTATATGTA AAAGACATAA AGAATATGGA AACTGTGGCA
    CAAGTACAAT GTCATTCCTA CCACACAGGC GGTATCAATT CTTTATCCTT TTCCTTGGAT
    GGTCAAAGTA TCATCACTAC AGGAACGTTT GATGGAGCCC TGGTGTGCCT GCAATGGAAA
    TCAACTGGAA GTAGCAGACT GGGTGCAGCT GTTGAGTATG GAAAGGCTTT TACACTTTCT
    CTTCAAGCTG CAATGAAGGA AGAAAATCAG ATGTTGAGCC GAATGCCAGA ATGGACAGCA
    GATACCAGTT CTATGGCCGT GGAAAGCAAG GAAAAAGAGT ACAGAAATCT AAGTGTGGAT
    GTAACTGAGC AGGACACCTT TCCAAACACT TCTGCTGATG TCACTTGGAT TTACAGGAAG
    CTGGAGGAAG CTAAAAAGAA AGAAACAGAG AAATATGCAG CAGAAAAGGA AATAATTAAA
    ACCGGCATTA AAAAACTTCG CAAAACTATA CAAGCAATGA TGCGAGAGAA TGAATCATTA
    CCAGACATAG AAAAGCTGGA CCAGCAGGAG TTTAACTTGG ACACTGAGGA GCAGGAGAGA
    CTGTATCTAG AGAGTGAGAA GGAAGTGGCA AGAGTGCGAC AAGAGATTGA GTTGGAAAAT
    TTGTCCAAAC AATATCTTCG AGAAGTTATA AAGCAGGAAT GCTGGGATTC CATGGCTGTA
    AAGGGACGTT CTGTTATGGC TTTCCATACA GGATATGAAG TTATGAATTA TCCAATGAAA
    GAACGAACAC CAAAGGAACT GGAAGATTTT GCTAGAGTGT TAAATCTCAA GAAAATTGAA
    GCTGTTGATC TCAAGGTTCG AAAGGAAATT GTTGAGACTC AGCCAAAAAT TAAGGCTGAT
    GACGAAGAGG AAGTGGAAGA GGAATCAGTG TCAAAGAGTC AAGACAGCTC ATCTTTGGTT
    GGCAGCCTGA GTGATCTTTA TGGTGGGGAT ACCAGTTACC TGTACAGTCA GCTAATTCTT
    CATTCTAGAG AAGAGAAGAT TAACCAGATC ATTCTATTGC AAGACATCAT TCACAATATC
    AAGAAAGCCT TCAACAAAGA CTTTGATATA GCATGTCGTC AAAAAGAGCA AGAGGTCACA
    CGTGTGAAGG AAAGAAATAA TCGCATTCAG GAGATCATGG TCGAACTTAA CCTGCAAGAG
    AAACTCCTGG AGCCTACATT TACTGATAAT GAGAAGCCTG AGAGAGCGCT GACTGTGGAT
    GATTCAGAGG TAAAAGTAGA AAGGTACCTA ACACCTGAAC AGAAAGCAAA GGCAGAGAAG
    CTAGCAAAAG AGGAAGAAGC AAAGCGCCTT GCGGAACAGG AAGACAATGC TAAGCAGCGA
    GCCCTGGATG ACATGATGGG TGGTGTCCTA GAAGTAAAGA AGGAAGATAT TCTTCGAATG
    GAAGTTCCAC AACCAGGTTT TATAGCTCGA GCTGAGGCTG AATGGACTGA TGAAGAAAAG
    AAGCAATTCA AAGAGTACGA GAAAAAATGT AAGGACCTCA GTGAAGAAAA GGAGAAATAC
    AGTAAGGTTT TGGAAGCAGA AATGAAAAAA CTTCAATTGT CTGTAATTGA AACCACCCAG
    AGTTTTGATG ATGTGTTGGC CAGACTGTTT GAAAAGAAGG TGAAATCAGA AATGGCAATT
    TACCAGGAGG AACTGAAAAT CAATAATCTC CTTTTCTCAC TTCTCATTGA AGAGGAAATA
    AACACAAGAG TGGCACACCT AGCTCATATT CTGGATAAGA AGCGCAAACA AAAGAATCAA
    ACAGCGGAAA TTGTCAAGTC TTTTAAAACA CAAGTACTTG CATTTAGGGA GTCCTATGAC
    AATCTGGTAG CAGAGGATAA GCTTTTAGAT CGTGGCTTTA AGAAGGAGTT TTCTGACATT
    ACATCTTACC AAGTTGATCA ACTTTATAAG CTTTACAAAC GAAGACCAAG GGTTCAGCGC
    TTGAGGACTC AGACTGACAG TGCAGCACCA TTTGGAGAAC GACCAGGATC AGCTAAGGCA
    AATAAGGATT CCATTGCTTT GCTAATGAAA GCTATGGATG AACTTGACAC CCCAGAAAAT
    ATGCCTGAAG GAGTAGAATT GCCAGTGTGG GAGCGTTTCT GTCTTGCAAG ACGATCAAAG
    ATAGAATATG AACAGCAGGT GAAGATCAAG GCCCTTGTCT TAGCAGAAAT GCAGGCATTC
    CTAGATAAGA GGATAGAAGA AGATGAGAAG ATACGTCAGG ATACTGAGAA TATCATGCAG
    GAACTCAATG TGTTGCGGAG TGAAAAAATG AAATTTCAGC TCGATTTGAC TGTCCAGTTC
    CTTCTTAAAC AAGGTCAAGT TGAGTTGGAA AATTCAGATT TAATTCCCAG TTTTGAAGAC
    GCCATTCTTC TTCATAGGAG TGTTATTGAA GATTTAAACA GCACCATACG GGGTTTGGGA
    GAACAGAAAA TTGCAAGCAT GGTTGAAAGC AAAGATTTCC GAAAAGGGAT TTTTCAGCTG
    GAATGGGAAC ATAGGAAAAT ACGGATGGAA ATGGAAGATT TGGAACAGAA ATCTAGGGAT
    ATTAGCTTGC TTCACGTCTC AAAAGATTTC CAAGTATTCC TTAGTGAGCA GAATTATGAC
    AAGCGCATAT CTGATCAGAT ACAGGTCCTA GAAGCAACTC TCAATGCTCA AGAAAAACAA
    CATGAGAAAA ATGTCAAGAC CTACAAAAAA AGTCTGAAGG ACCTAGAAAC AAATATAAAT
    AAAAAGAGAA CAGCAAACCT AGACCTTGAC AAAGATCTGC AGGAATTGCT GGTGTCTTTT
    TCTGAAAGAA AGCACATTTA TGATGTAGTT GGTGTAGAAC AAAGCACAGA GAAGGCTGCG
    AAGGAAAGAT ATGTGGAGAT TGTTCAGCGA CGCAAACTAG TGGATCTTGC CAAGATTCAA
    GCCCAAGAGA TCATTGAGCT AAGAACTGAA GTAGATAGAC TGAGGATGAA AACATTTCCT
    GCATTAGTGC AAATGGAATA TTAG

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

    CloneID OXa54543
    Clone ID Related Accession (Same CDS sequence) XM_018092209.2
    Accession Version XM_018092209.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4983bp)
    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 cilia- and flagella-associated protein 43 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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_018092209.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGTTGAAA ACTCCGGTTG TGCTCTGGAA GTTAGGTGGG TACAAGGAAT TAACAAGAAG 
    AAAGTCACGT TCATCAATGA CCACACAGTA TGCTATCCAT GTGGGAACTT TATTGTGTTT
    CATGACACAA ACACAAGGAA GCAGTCCTTT CTGCAGTGCA TGACAGGGAG CATAGGAGCA
    TTCTCAGTTA ACACCTACAG TGAAGTGGTT GCTTTCTCAG ACCAGAAGCT TCATCCCAGT
    ATTTATGTTT ACACATTTCC TGGATTTGTG AAACGAGTTG AACTTAAAGA GGGAGCACAG
    CTGGATTATT CTTTAATTGC TTTTAGCAAT GCTGCACCTT ATCTGGCTAG TTTTTCCTCT
    GTTCCTGACC ATGTACTTAC AATTTGGAAC TGGCAAGAAG GTATTCCTCT GTGCAGCCAG
    TCAGAATCTC AAACCACTTA TACTACGTTA ACCTTTAATC CTATGAACTG GCACCAACTG
    TGTTTGTCCA GTGAGACATC TCTTATTGTG TGGAACATTG AAATATGTGA CAACCTGTAC
    CAGTTGAAAG CAATGCCAGT CAAACTTCCC AGTGAGGATG GTACAATTGG TGTGGAGGAG
    GAGAACTTTA ATTCTTCTGC ACCCAACGGT GTGTCCTATT ATGGGCCTGT AATGCCAAAA
    TCTGCAGTTG CTGGATTAGT GGGCGAAGAA GCAGAAATCT TTATTCCTAA AGAACAAAGA
    AAACATTCTG TCCAGCCAAG TTTCCATTGC TGGAATGCCA CTTCTGATTT GTATGTGGGC
    TGTGAAAGGG GAAAGATTCT AACAATCAGT GCTGAGACAC AGAAAGTCAT TGTACTGGCC
    CAAAAAGACC AAGATGCAGA TCCTTTATCT GGGGTTACTC TTCTAGAAGG AAATATAAAG
    ACAATGGCGT TTCACAAGGA AGGACTCTAT ATAGCTGGGA AAGATGGTGT GTTGCGTTCA
    TGTACAATAA AAGGTTCAGA ATTAAAACTC GAAGACTGCT GGAGTGTGCA GGAATCCATT
    GAAAGCATCA GTTTCTCCCC CAATTACAAA ATGCTCTCAA TTGCAACCTG TAAGGGATCT
    GTATATCTCT ACAACCACAG AAATCCTGGA GAAACATATA AAGTATTTGA TGTTTACAGT
    GGAGACTTGC TTGCTGCTGA TTTCCTGACC TTTGGAAACA AATACTGCTT AAGCACAGAT
    ATATCAGGAC ATGTGCAGTT ATGGTCAGTG GAGGATGGAA GAAGTGTAAG CTCTCTCAGC
    CTAAATATAC AGGCCACTGC CATGGCATGC TGCCCTTCAT CTAATTATGC AGCTGTAGGT
    AGCAGCACTG GACATATATA TTTTATTGAT GCTATGAAAA TAGAAGCTCT ACGAGTTGTC
    CAGAGAATGA GACTTTATTG TGTTCCTGTA CAACACATTC ATTTTGATCC AAGGGGTAAT
    TTTCTTCTCA CTGGGGCAGC TGACAGACAC ATTTTTATTC TGGATGCCAG ACCTTCCCAT
    TCATTTGAGG TTCTTGGATA CATCGTGGTT TGCGGAGAGA TTCTCACCTT GTCGTCACTA
    AGTTCTGAAG ATTCACAGCA AACAAAAGCT ATGGCGCTTA TCTGTCCTGT GAATGAAGGG
    AAAGAAGAGA AAGGAGGAAC ACGATTGGAG ATGTTTTCTC TACCACTTCA AATGTTATCA
    AGTCCATCTG AATATATTGA TGAGAAAGGA ATGTTTAAGG ATGCAATGGT TCAGAAGATT
    TCTTATGATG TAGATCAGCC TCTGTTTTCT GCAGTTCTGG GTTACAATGT CAGCTCCGTG
    TTTGGATTTG GCAGCTATGC ACCAATGCTT TTAAAATATG TAATCCACAA GGAAATATCT
    GGAGATCCTT TGACTGCACT TGTTACAGAG AAGGTGGTAC GGGGTAGCCA TCTTGGGCCT
    GGAGTACTTT GCTTGTCTCC TCATCTCAAG TGGATTTCTG TGTCTGGGAG GGATGGAATT
    GTATATGTAA AAGACATAAA GAATATGGAA ACTGTGGCAC AAGTACAATG TCATTCCTAC
    CACACAGGCG GTATCAATTC TTTATCCTTT TCCTTGGATG GTCAAAGTAT CATCACTACA
    GGAACGTCTG ATGGAGCCCT GGTGTGCCTG CAATGGAAAT CAACTGGAAG TAGCAGACTG
    GGTGCAGCTG TTGAGTATGG AAAGGCTTTT ACACTTTCTC TTCAAGCTGC AATGAAGGAA
    GAAAATCAGA TGTTGAGCAG AATGCCAGAA TGGACAGCAG ATACCAGTTC TATGGCCGTG
    GAAAGCAAGG AAAAAGAGTA CAGAAATCTA AGTGTGGATG TAACTGAGCA GGACACCTTT
    CCAAACACTT CTGCTGATGT CACTTGGATT TACAGGAAGC TGGAGGAAGC TAAAAAGAAA
    GAAACAGAGA AATATGCAGC AGAAAAGGAA ATAATTAAAA CCGGCATTAA AAAACTTCGC
    AAAACTATAC AAGCAATGAT GCGAGAGAAT GAATCATTAC CAGACATAGA AAAGCTGGAC
    CAGCAGGAGT TTAACTTGGA CACTGAGGAG CAGGAGAGAC TGTATCTAGA GAGTGAGAAG
    GAAGTGGCAA GAGTGCGACA AGAGATTGAG TTGGAAAATT TGTCCAAACA ATATCTTCGA
    GAAGTTATAA AGCAGGAATG CTGGGATTCC ATGGCTGTAA AGGGACGTTC TGTTATGGCT
    TTCCATACAG GATATGAAGT TATGAATTAT CCAATGAAAG AACGAACACC AAAGGAACTG
    GAAGATTTTG CTAGAGTGTT AAATCTCAAG AAAATTGAAG CTGTTGATCT CAAGGTTCGA
    AAGGAAATTG TTGAGACTCA GCCAAAAATT AAGGCTGATG ACGAAGAGGA AGTGGAAGAG
    GAATCAGTGT CAAAGAGTCA AGACAGCTCA TCTTTGGTTG GCAGCCTGAG TGATCTTTAT
    GGTGGGGATA CCAGTTACCT GTACAGTCAG CTAATTCTTC ATTCTAGAGA AGAGAAGATT
    AACCAGATCA TTCTATTGCA AGACATCATT CACAATATCA AGAAAGCCTT CAACAAAGAC
    TTTGATATAG CATGTCGTCA AAAAGAGCAA GAGGTCACAC GTGTGAAGGA AAGAAATAAT
    CGCATTCAGG AGATCATGGT CGAACTTAAC CTGCAAGAGA AACTCCTGGA GCCTACATTT
    ACTGATAATG AGAAGCCTGA GAGAGCGCTG ACTGTGGATG ATTCAGAGGT AAAAGTAGAA
    AGGTACCTAA CACCTGAACA GAAAGCAAAG GCAGAGAAGC TAGCAAAAGA GGAAGAAGCA
    AAGCGCCTTG CGGAACAGGA AGACAATGCT AAGCAGCGAG CCCTGGATGA CATGATGGGT
    GGTGTCCTAG AAGTAAAGAA GGAAGATATT CTTCGAATGG AAGTTCCACA ACCAGGTTTT
    ATAGCTCGAG CTGAGGCTGA ATGGACTGAC GAAGAAAAGA AGCAATTCAA AGAGTACGAG
    AAAAAATGTA AGGACCTCAG TGAAGAAAAG GAGAAATACA GTAAGGTTTT GGAAGCAGAA
    ATGAAAAAAC TTCAATTGTC TGTAATTGAA ACCACCCAGA GTTTTGATGA TGTGTTGGCC
    AGACTGTTTG AAAAAAAAGT GAAATCAGAA ATGGCAATTT ACCAGGAGGA ACTGAAAATC
    AATAATCTCC TTTTCTCACT TCTCATTGAA GAGGAAATAA ACACAAGAGT GGCACACCTA
    GCTCATATTC TGGATAAGAA GCGCAAACAA AAGAATCAAA CAGCGGAAAT TGTCAAGTCT
    TTTAAAACAC AAGTACTTGC ATTTAGGGAG TCCTATGACA ATCTGGTAGC AGAGGATAAG
    CTTTTAGATC GTGGCTTTAA GAAGGAGTTT TCTGACATTA CATCTTACCA AGTTGATCAA
    CTTTATAAGC TTTACAAACG AAGACCAAGG GTTCAGCGCT TGAGGACTCA GACTGACAGT
    GCAGCACCAT TTGGAGAACG ACCAGGATCA GCTAAGGCAA ATAAGGATTC CATTGCTTTG
    CTAATGAAAG CTATGGATGA ACTTGACACC CCAGAAAATA TGCCTGAAGG AGTAGAATTT
    CCAGTGTGGG AGCGTTTCTG TCTTGCAAGA CGATCAAAGA TAGAATATGA ACAGCAGGTG
    AAGATCAAGG CCCTTGTCTT AGCAGAAATG CAGGCATTCC TAGATAAGAG GATAGAAGAA
    GATGAGAAGA TACGTCAGGA TACTGAGAAT ATCATGCAGG AACTCAATGT GTTGCGGAGT
    GAAAAAATGA AATTTCAGCT CGATTTGACT GTCCAGTTCC TTCTTAAACA AGGTCAAGTT
    GAGTTGGAAA ATTCAGATTT AATTCCCAGT TTTGAAGACG CCATTCTTCT TCATAGGAGT
    GTTATTGAAG ATTTAAACAG CACCATACGG GGTTTGGGAG AACAGAAAAT TGCAAGCATG
    GTTGAAAGCA AAGATTTCCG AAAAGGGATT TTTCAGCTGG AATGGGAACA TAGGAAAATA
    CGGATGGAAA TGGAAGATTT GGAACAGAAA TCTAGGGATA TTAGCTTGCT TCACGTCTCA
    AAAGATTTCC AAGTATTCCT TAGTGAGCAG AATTATGACA AGCGCATATC TGATCAGATA
    CAGGTCCTAG AAGCAACTCT CAATGCTCAA GAAAAACAAC ATGAGAAAAA TGTCAAGACC
    TACAAAAAAA GTCTGAAGGA CCTAGAAACA AATATAAATA AAAAGAGAAC AGCAAACCTA
    GACCTTGACA AAGATCTGCA GGAATTGCTG GTGTCTTTTT CTGAAAGAAA GCACATTTAT
    GATGTAGTTG GTGTAGAACA AAGCACAGAG AAGGCTGCGA AGGAAAGATA TGTGGAGATT
    GTTCAGCGAC GCAAACTAGT GGATCTTGCT AAGATTCAAG CCCAAGAGAT CATTGAGCTA
    AGAACTGAAG TAGATAGACT GAGGATGAAA ACATTTCCTG CATTAGTGCA AATGGAATAT
    TAG

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

    RefSeq XP_017947698.2
    CDS71..5053
    Translation

    Target ORF information:

    RefSeq Version XM_018092209.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092209.2

    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
    ATGGTTGAAA ACTCCGGTTG TGCTCTGGAA GTTAGGTGGG TACAAGGAAT TAACAAGAAG 
    AAAGTCACGT TCATCAATGA CCACACAGTA TGCTATCCAT GTGGGAACTT TATTGTGTTT
    CATGACACAA ACACAAGGAA GCAGTCCTTT CTGCAGTGCA TGACAGGGAG CATAGGAGCA
    TTCTCAGTTA ACACCTACAG TGAAGTGGTT GCTTTCTCAG ACCAGAAGCT TCATCCCAGT
    ATTTATGTTT ACACATTTCC TGGATTTGTG AAACGAGTTG AACTTAAAGA GGGAGCACAG
    CTGGATTATT CTTTAATTGC TTTTAGCAAT GCTGCACCTT ATCTGGCTAG TTTTTCCTCT
    GTTCCTGACC ATGTACTTAC AATTTGGAAC TGGCAAGAAG GTATTCCTCT GTGCAGCCAG
    TCAGAATCTC AAACCACTTA TACTACGTTA ACCTTTAATC CTATGAACTG GCACCAACTG
    TGTTTGTCCA GTGAGACATC TCTTATTGTG TGGAACATTG AAATATGTGA CAACCTGTAC
    CAGTTGAAAG CAATGCCAGT CAAACTTCCC AGTGAGGATG GTACAATTGG TGTGGAGGAG
    GAGAACTTTA ATTCTTCTGC ACCCAACGGT GTGTCCTATT ATGGGCCTGT AATGCCAAAA
    TCTGCAGTTG CTGGATTAGT GGGCGAAGAA GCAGAAATCT TTATTCCTAA AGAACAAAGA
    AAACATTCTG TCCAGCCAAG TTTCCATTGC TGGAATGCCA CTTCTGATTT GTATGTGGGC
    TGTGAAAGGG GAAAGATTCT AACAATCAGT GCTGAGACAC AGAAAGTCAT TGTACTGGCC
    CAAAAAGACC AAGATGCAGA TCCTTTATCT GGGGTTACTC TTCTAGAAGG AAATATAAAG
    ACAATGGCGT TTCACAAGGA AGGACTCTAT ATAGCTGGGA AAGATGGTGT GTTGCGTTCA
    TGTACAATAA AAGGTTCAGA ATTAAAACTC GAAGACTGCT GGAGTGTGCA GGAATCCATT
    GAAAGCATCA GTTTCTCCCC CAATTACAAA ATGCTCTCAA TTGCAACCTG TAAGGGATCT
    GTATATCTCT ACAACCACAG AAATCCTGGA GAAACATATA AAGTATTTGA TGTTTACAGT
    GGAGACTTGC TTGCTGCTGA TTTCCTGACC TTTGGAAACA AATACTGCTT AAGCACAGAT
    ATATCAGGAC ATGTGCAGTT ATGGTCAGTG GAGGATGGAA GAAGTGTAAG CTCTCTCAGC
    CTAAATATAC AGGCCACTGC CATGGCATGC TGCCCTTCAT CTAATTATGC AGCTGTAGGT
    AGCAGCACTG GACATATATA TTTTATTGAT GCTATGAAAA TAGAAGCTCT ACGAGTTGTC
    CAGAGAATGA GACTTTATTG TGTTCCTGTA CAACACATTC ATTTTGATCC AAGGGGTAAT
    TTTCTTCTCA CTGGGGCAGC TGACAGACAC ATTTTTATTC TGGATGCCAG ACCTTCCCAT
    TCATTTGAGG TTCTTGGATA CATCGTGGTT TGCGGAGAGA TTCTCACCTT GTCGTCACTA
    AGTTCTGAAG ATTCACAGCA AACAAAAGCT ATGGCGCTTA TCTGTCCTGT GAATGAAGGG
    AAAGAAGAGA AAGGAGGAAC ACGATTGGAG ATGTTTTCTC TACCACTTCA AATGTTATCA
    AGTCCATCTG AATATATTGA TGAGAAAGGA ATGTTTAAGG ATGCAATGGT TCAGAAGATT
    TCTTATGATG TAGATCAGCC TCTGTTTTCT GCAGTTCTGG GTTACAATGT CAGCTCCGTG
    TTTGGATTTG GCAGCTATGC ACCAATGCTT TTAAAATATG TAATCCACAA GGAAATATCT
    GGAGATCCTT TGACTGCACT TGTTACAGAG AAGGTGGTAC GGGGTAGCCA TCTTGGGCCT
    GGAGTACTTT GCTTGTCTCC TCATCTCAAG TGGATTTCTG TGTCTGGGAG GGATGGAATT
    GTATATGTAA AAGACATAAA GAATATGGAA ACTGTGGCAC AAGTACAATG TCATTCCTAC
    CACACAGGCG GTATCAATTC TTTATCCTTT TCCTTGGATG GTCAAAGTAT CATCACTACA
    GGAACGTCTG ATGGAGCCCT GGTGTGCCTG CAATGGAAAT CAACTGGAAG TAGCAGACTG
    GGTGCAGCTG TTGAGTATGG AAAGGCTTTT ACACTTTCTC TTCAAGCTGC AATGAAGGAA
    GAAAATCAGA TGTTGAGCAG AATGCCAGAA TGGACAGCAG ATACCAGTTC TATGGCCGTG
    GAAAGCAAGG AAAAAGAGTA CAGAAATCTA AGTGTGGATG TAACTGAGCA GGACACCTTT
    CCAAACACTT CTGCTGATGT CACTTGGATT TACAGGAAGC TGGAGGAAGC TAAAAAGAAA
    GAAACAGAGA AATATGCAGC AGAAAAGGAA ATAATTAAAA CCGGCATTAA AAAACTTCGC
    AAAACTATAC AAGCAATGAT GCGAGAGAAT GAATCATTAC CAGACATAGA AAAGCTGGAC
    CAGCAGGAGT TTAACTTGGA CACTGAGGAG CAGGAGAGAC TGTATCTAGA GAGTGAGAAG
    GAAGTGGCAA GAGTGCGACA AGAGATTGAG TTGGAAAATT TGTCCAAACA ATATCTTCGA
    GAAGTTATAA AGCAGGAATG CTGGGATTCC ATGGCTGTAA AGGGACGTTC TGTTATGGCT
    TTCCATACAG GATATGAAGT TATGAATTAT CCAATGAAAG AACGAACACC AAAGGAACTG
    GAAGATTTTG CTAGAGTGTT AAATCTCAAG AAAATTGAAG CTGTTGATCT CAAGGTTCGA
    AAGGAAATTG TTGAGACTCA GCCAAAAATT AAGGCTGATG ACGAAGAGGA AGTGGAAGAG
    GAATCAGTGT CAAAGAGTCA AGACAGCTCA TCTTTGGTTG GCAGCCTGAG TGATCTTTAT
    GGTGGGGATA CCAGTTACCT GTACAGTCAG CTAATTCTTC ATTCTAGAGA AGAGAAGATT
    AACCAGATCA TTCTATTGCA AGACATCATT CACAATATCA AGAAAGCCTT CAACAAAGAC
    TTTGATATAG CATGTCGTCA AAAAGAGCAA GAGGTCACAC GTGTGAAGGA AAGAAATAAT
    CGCATTCAGG AGATCATGGT CGAACTTAAC CTGCAAGAGA AACTCCTGGA GCCTACATTT
    ACTGATAATG AGAAGCCTGA GAGAGCGCTG ACTGTGGATG ATTCAGAGGT AAAAGTAGAA
    AGGTACCTAA CACCTGAACA GAAAGCAAAG GCAGAGAAGC TAGCAAAAGA GGAAGAAGCA
    AAGCGCCTTG CGGAACAGGA AGACAATGCT AAGCAGCGAG CCCTGGATGA CATGATGGGT
    GGTGTCCTAG AAGTAAAGAA GGAAGATATT CTTCGAATGG AAGTTCCACA ACCAGGTTTT
    ATAGCTCGAG CTGAGGCTGA ATGGACTGAC GAAGAAAAGA AGCAATTCAA AGAGTACGAG
    AAAAAATGTA AGGACCTCAG TGAAGAAAAG GAGAAATACA GTAAGGTTTT GGAAGCAGAA
    ATGAAAAAAC TTCAATTGTC TGTAATTGAA ACCACCCAGA GTTTTGATGA TGTGTTGGCC
    AGACTGTTTG AAAAAAAAGT GAAATCAGAA ATGGCAATTT ACCAGGAGGA ACTGAAAATC
    AATAATCTCC TTTTCTCACT TCTCATTGAA GAGGAAATAA ACACAAGAGT GGCACACCTA
    GCTCATATTC TGGATAAGAA GCGCAAACAA AAGAATCAAA CAGCGGAAAT TGTCAAGTCT
    TTTAAAACAC AAGTACTTGC ATTTAGGGAG TCCTATGACA ATCTGGTAGC AGAGGATAAG
    CTTTTAGATC GTGGCTTTAA GAAGGAGTTT TCTGACATTA CATCTTACCA AGTTGATCAA
    CTTTATAAGC TTTACAAACG AAGACCAAGG GTTCAGCGCT TGAGGACTCA GACTGACAGT
    GCAGCACCAT TTGGAGAACG ACCAGGATCA GCTAAGGCAA ATAAGGATTC CATTGCTTTG
    CTAATGAAAG CTATGGATGA ACTTGACACC CCAGAAAATA TGCCTGAAGG AGTAGAATTT
    CCAGTGTGGG AGCGTTTCTG TCTTGCAAGA CGATCAAAGA TAGAATATGA ACAGCAGGTG
    AAGATCAAGG CCCTTGTCTT AGCAGAAATG CAGGCATTCC TAGATAAGAG GATAGAAGAA
    GATGAGAAGA TACGTCAGGA TACTGAGAAT ATCATGCAGG AACTCAATGT GTTGCGGAGT
    GAAAAAATGA AATTTCAGCT CGATTTGACT GTCCAGTTCC TTCTTAAACA AGGTCAAGTT
    GAGTTGGAAA ATTCAGATTT AATTCCCAGT TTTGAAGACG CCATTCTTCT TCATAGGAGT
    GTTATTGAAG ATTTAAACAG CACCATACGG GGTTTGGGAG AACAGAAAAT TGCAAGCATG
    GTTGAAAGCA AAGATTTCCG AAAAGGGATT TTTCAGCTGG AATGGGAACA TAGGAAAATA
    CGGATGGAAA TGGAAGATTT GGAACAGAAA TCTAGGGATA TTAGCTTGCT TCACGTCTCA
    AAAGATTTCC AAGTATTCCT TAGTGAGCAG AATTATGACA AGCGCATATC TGATCAGATA
    CAGGTCCTAG AAGCAACTCT CAATGCTCAA GAAAAACAAC ATGAGAAAAA TGTCAAGACC
    TACAAAAAAA GTCTGAAGGA CCTAGAAACA AATATAAATA AAAAGAGAAC AGCAAACCTA
    GACCTTGACA AAGATCTGCA GGAATTGCTG GTGTCTTTTT CTGAAAGAAA GCACATTTAT
    GATGTAGTTG GTGTAGAACA AAGCACAGAG AAGGCTGCGA AGGAAAGATA TGTGGAGATT
    GTTCAGCGAC GCAAACTAGT GGATCTTGCT AAGATTCAAG CCCAAGAGAT CATTGAGCTA
    AGAACTGAAG TAGATAGACT GAGGATGAAA ACATTTCCTG CATTAGTGCA AATGGAATAT
    TAG

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

    CloneID OXa54544
    Clone ID Related Accession (Same CDS sequence) XM_018092211.2
    Accession Version XM_018092211.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4824bp)
    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 cilia- and flagella-associated protein 43 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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_018092211.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGACAGGGA GCATAGGAGC ATTCTCAGTT AACACCTACA GTGAAGTGGT TGCTTTCTCA 
    GACCAGAAGC TTCATCCCAG TATTTATGTT TACACATTTC CTGGATTTGT GAAACGAGTT
    GAACTTAAAG AGGGAGCACA GCTGGATTAT TCTTTAATTG CTTTTAGCAA TGCTGCACCT
    TATCTGGCTA GTTTTTCCTC TGTTCCTGAC CATGTACTTA CAATTTGGAA CTGGCAAGAA
    GGTATTCCTC TGTGCAGCCA GTCAGAATCT CAAACCACTT ATACTACGTT AACCTTTAAT
    CCTATGAACT GGCACCAACT GTGTTTGTCC AGTGAGACAT CTCTTATTGT GTGGAACATT
    GAAATATGTG ACAACCTGTA CCAGTTGAAA GCAATGCCAG TCAAACTTCC CAGTGAGGAT
    GGTACAATTG GTGTGGAGGA GGAGAACTTT AATTCTTCTG CACCCAACGG TGTGTCCTAT
    TATGGGCCTG TAATGCCAAA ATCTGCAGTT GCTGGATTAG TGGGCGAAGA AGCAGAAATC
    TTTATTCCTA AAGAACAAAG AAAACATTCT GTCCAGCCAA GTTTCCATTG CTGGAATGCC
    ACTTCTGATT TGTATGTGGG CTGTGAAAGG GGAAAGATTC TAACAATCAG TGCTGAGACA
    CAGAAAGTCA TTGTACTGGC CCAAAAAGAC CAAGATGCAG ATCCTTTATC TGGGGTTACT
    CTTCTAGAAG GAAATATAAA GACAATGGCG TTTCACAAGG AAGGACTCTA TATAGCTGGG
    AAAGATGGTG TGTTGCGTTC ATGTACAATA AAAGGTTCAG AATTAAAACT CGAAGACTGC
    TGGAGTGTGC AGGAATCCAT TGAAAGCATC AGTTTCTCCC CCAATTACAA AATGCTCTCA
    ATTGCAACCT GTAAGGGATC TGTATATCTC TACAACCACA GAAATCCTGG AGAAACATAT
    AAAGTATTTG ATGTTTACAG TGGAGACTTG CTTGCTGCTG ATTTCCTGAC CTTTGGAAAC
    AAATACTGCT TAAGCACAGA TATATCAGGA CATGTGCAGT TATGGTCAGT GGAGGATGGA
    AGAAGTGTAA GCTCTCTCAG CCTAAATATA CAGGCCACTG CCATGGCATG CTGCCCTTCA
    TCTAATTATG CAGCTGTAGG TAGCAGCACT GGACATATAT ATTTTATTGA TGCTATGAAA
    ATAGAAGCTC TACGAGTTGT CCAGAGAATG AGACTTTATT GTGTTCCTGT ACAACACATT
    CATTTTGATC CAAGGGGTAA TTTTCTTCTC ACTGGGGCAG CTGACAGACA CATTTTTATT
    CTGGATGCCA GACCTTCCCA TTCATTTGAG GTTCTTGGAT ACATCGTGGT TTGCGGAGAG
    ATTCTCACCT TGTCGTCACT AAGTTCTGAA GATTCACAGC AAACAAAAGC TATGGCGCTT
    ATCTGTCCTG TGAATGAAGG GAAAGAAGAG AAAGGAGGAA CACGATTGGA GATGTTTTCT
    CTACCACTTC AAATGTTATC AAGTCCATCT GAATATATTG ATGAGAAAGG AATGTTTAAG
    GATGCAATGG TTCAGAAGAT TTCTTATGAT GTAGATCAGC CTCTGTTTTC TGCAGTTCTG
    GGTTACAATG TCAGCTCCGT GTTTGGATTT GGCAGCTATG CACCAATGCT TTTAAAATAT
    GTAATCCACA AGGAAATATC TGGAGATCCT TTGACTGCAC TTGTTACAGA GAAGGTGGTA
    CGGGGTAGCC ATCTTGGGCC TGGAGTACTT TGCTTGTCTC CTCATCTCAA GTGGATTTCT
    GTGTCTGGGA GGGATGGAAT TGTATATGTA AAAGACATAA AGAATATGGA AACTGTGGCA
    CAAGTACAAT GTCATTCCTA CCACACAGGC GGTATCAATT CTTTATCCTT TTCCTTGGAT
    GGTCAAAGTA TCATCACTAC AGGAACGTCT GATGGAGCCC TGGTGTGCCT GCAATGGAAA
    TCAACTGGAA GTAGCAGACT GGGTGCAGCT GTTGAGTATG GAAAGGCTTT TACACTTTCT
    CTTCAAGCTG CAATGAAGGA AGAAAATCAG ATGTTGAGCA GAATGCCAGA ATGGACAGCA
    GATACCAGTT CTATGGCCGT GGAAAGCAAG GAAAAAGAGT ACAGAAATCT AAGTGTGGAT
    GTAACTGAGC AGGACACCTT TCCAAACACT TCTGCTGATG TCACTTGGAT TTACAGGAAG
    CTGGAGGAAG CTAAAAAGAA AGAAACAGAG AAATATGCAG CAGAAAAGGA AATAATTAAA
    ACCGGCATTA AAAAACTTCG CAAAACTATA CAAGCAATGA TGCGAGAGAA TGAATCATTA
    CCAGACATAG AAAAGCTGGA CCAGCAGGAG TTTAACTTGG ACACTGAGGA GCAGGAGAGA
    CTGTATCTAG AGAGTGAGAA GGAAGTGGCA AGAGTGCGAC AAGAGATTGA GTTGGAAAAT
    TTGTCCAAAC AATATCTTCG AGAAGTTATA AAGCAGGAAT GCTGGGATTC CATGGCTGTA
    AAGGGACGTT CTGTTATGGC TTTCCATACA GGATATGAAG TTATGAATTA TCCAATGAAA
    GAACGAACAC CAAAGGAACT GGAAGATTTT GCTAGAGTGT TAAATCTCAA GAAAATTGAA
    GCTGTTGATC TCAAGGTTCG AAAGGAAATT GTTGAGACTC AGCCAAAAAT TAAGGCTGAT
    GACGAAGAGG AAGTGGAAGA GGAATCAGTG TCAAAGAGTC AAGACAGCTC ATCTTTGGTT
    GGCAGCCTGA GTGATCTTTA TGGTGGGGAT ACCAGTTACC TGTACAGTCA GCTAATTCTT
    CATTCTAGAG AAGAGAAGAT TAACCAGATC ATTCTATTGC AAGACATCAT TCACAATATC
    AAGAAAGCCT TCAACAAAGA CTTTGATATA GCATGTCGTC AAAAAGAGCA AGAGGTCACA
    CGTGTGAAGG AAAGAAATAA TCGCATTCAG GAGATCATGG TCGAACTTAA CCTGCAAGAG
    AAACTCCTGG AGCCTACATT TACTGATAAT GAGAAGCCTG AGAGAGCGCT GACTGTGGAT
    GATTCAGAGG TAAAAGTAGA AAGGTACCTA ACACCTGAAC AGAAAGCAAA GGCAGAGAAG
    CTAGCAAAAG AGGAAGAAGC AAAGCGCCTT GCGGAACAGG AAGACAATGC TAAGCAGCGA
    GCCCTGGATG ACATGATGGG TGGTGTCCTA GAAGTAAAGA AGGAAGATAT TCTTCGAATG
    GAAGTTCCAC AACCAGGTTT TATAGCTCGA GCTGAGGCTG AATGGACTGA CGAAGAAAAG
    AAGCAATTCA AAGAGTACGA GAAAAAATGT AAGGACCTCA GTGAAGAAAA GGAGAAATAC
    AGTAAGGTTT TGGAAGCAGA AATGAAAAAA CTTCAATTGT CTGTAATTGA AACCACCCAG
    AGTTTTGATG ATGTGTTGGC CAGACTGTTT GAAAAAAAAG TGAAATCAGA AATGGCAATT
    TACCAGGAGG AACTGAAAAT CAATAATCTC CTTTTCTCAC TTCTCATTGA AGAGGAAATA
    AACACAAGAG TGGCACACCT AGCTCATATT CTGGATAAGA AGCGCAAACA AAAGAATCAA
    ACAGCGGAAA TTGTCAAGTC TTTTAAAACA CAAGTACTTG CATTTAGGGA GTCCTATGAC
    AATCTGGTAG CAGAGGATAA GCTTTTAGAT CGTGGCTTTA AGAAGGAGTT TTCTGACATT
    ACATCTTACC AAGTTGATCA ACTTTATAAG CTTTACAAAC GAAGACCAAG GGTTCAGCGC
    TTGAGGACTC AGACTGACAG TGCAGCACCA TTTGGAGAAC GACCAGGATC AGCTAAGGCA
    AATAAGGATT CCATTGCTTT GCTAATGAAA GCTATGGATG AACTTGACAC CCCAGAAAAT
    ATGCCTGAAG GAGTAGAATT TCCAGTGTGG GAGCGTTTCT GTCTTGCAAG ACGATCAAAG
    ATAGAATATG AACAGCAGGT GAAGATCAAG GCCCTTGTCT TAGCAGAAAT GCAGGCATTC
    CTAGATAAGA GGATAGAAGA AGATGAGAAG ATACGTCAGG ATACTGAGAA TATCATGCAG
    GAACTCAATG TGTTGCGGAG TGAAAAAATG AAATTTCAGC TCGATTTGAC TGTCCAGTTC
    CTTCTTAAAC AAGGTCAAGT TGAGTTGGAA AATTCAGATT TAATTCCCAG TTTTGAAGAC
    GCCATTCTTC TTCATAGGAG TGTTATTGAA GATTTAAACA GCACCATACG GGGTTTGGGA
    GAACAGAAAA TTGCAAGCAT GGTTGAAAGC AAAGATTTCC GAAAAGGGAT TTTTCAGCTG
    GAATGGGAAC ATAGGAAAAT ACGGATGGAA ATGGAAGATT TGGAACAGAA ATCTAGGGAT
    ATTAGCTTGC TTCACGTCTC AAAAGATTTC CAAGTATTCC TTAGTGAGCA GAATTATGAC
    AAGCGCATAT CTGATCAGAT ACAGGTCCTA GAAGCAACTC TCAATGCTCA AGAAAAACAA
    CATGAGAAAA ATGTCAAGAC CTACAAAAAA AGTCTGAAGG ACCTAGAAAC AAATATAAAT
    AAAAAGAGAA CAGCAAACCT AGACCTTGAC AAAGATCTGC AGGAATTGCT GGTGTCTTTT
    TCTGAAAGAA AGCACATTTA TGATGTAGTT GGTGTAGAAC AAAGCACAGA GAAGGCTGCG
    AAGGAAAGAT ATGTGGAGAT TGTTCAGCGA CGCAAACTAG TGGATCTTGC TAAGATTCAA
    GCCCAAGAGA TCATTGAGCT AAGAACTGAA GTAGATAGAC TGAGGATGAA AACATTTCCT
    GCATTAGTGC AAATGGAATA TTAG

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

    RefSeq XP_017947700.2
    CDS437..5260
    Translation

    Target ORF information:

    RefSeq Version XM_018092211.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis cilia and flagella associated protein 43 (cfap43), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018092211.2

    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
    ATGACAGGGA GCATAGGAGC ATTCTCAGTT AACACCTACA GTGAAGTGGT TGCTTTCTCA 
    GACCAGAAGC TTCATCCCAG TATTTATGTT TACACATTTC CTGGATTTGT GAAACGAGTT
    GAACTTAAAG AGGGAGCACA GCTGGATTAT TCTTTAATTG CTTTTAGCAA TGCTGCACCT
    TATCTGGCTA GTTTTTCCTC TGTTCCTGAC CATGTACTTA CAATTTGGAA CTGGCAAGAA
    GGTATTCCTC TGTGCAGCCA GTCAGAATCT CAAACCACTT ATACTACGTT AACCTTTAAT
    CCTATGAACT GGCACCAACT GTGTTTGTCC AGTGAGACAT CTCTTATTGT GTGGAACATT
    GAAATATGTG ACAACCTGTA CCAGTTGAAA GCAATGCCAG TCAAACTTCC CAGTGAGGAT
    GGTACAATTG GTGTGGAGGA GGAGAACTTT AATTCTTCTG CACCCAACGG TGTGTCCTAT
    TATGGGCCTG TAATGCCAAA ATCTGCAGTT GCTGGATTAG TGGGCGAAGA AGCAGAAATC
    TTTATTCCTA AAGAACAAAG AAAACATTCT GTCCAGCCAA GTTTCCATTG CTGGAATGCC
    ACTTCTGATT TGTATGTGGG CTGTGAAAGG GGAAAGATTC TAACAATCAG TGCTGAGACA
    CAGAAAGTCA TTGTACTGGC CCAAAAAGAC CAAGATGCAG ATCCTTTATC TGGGGTTACT
    CTTCTAGAAG GAAATATAAA GACAATGGCG TTTCACAAGG AAGGACTCTA TATAGCTGGG
    AAAGATGGTG TGTTGCGTTC ATGTACAATA AAAGGTTCAG AATTAAAACT CGAAGACTGC
    TGGAGTGTGC AGGAATCCAT TGAAAGCATC AGTTTCTCCC CCAATTACAA AATGCTCTCA
    ATTGCAACCT GTAAGGGATC TGTATATCTC TACAACCACA GAAATCCTGG AGAAACATAT
    AAAGTATTTG ATGTTTACAG TGGAGACTTG CTTGCTGCTG ATTTCCTGAC CTTTGGAAAC
    AAATACTGCT TAAGCACAGA TATATCAGGA CATGTGCAGT TATGGTCAGT GGAGGATGGA
    AGAAGTGTAA GCTCTCTCAG CCTAAATATA CAGGCCACTG CCATGGCATG CTGCCCTTCA
    TCTAATTATG CAGCTGTAGG TAGCAGCACT GGACATATAT ATTTTATTGA TGCTATGAAA
    ATAGAAGCTC TACGAGTTGT CCAGAGAATG AGACTTTATT GTGTTCCTGT ACAACACATT
    CATTTTGATC CAAGGGGTAA TTTTCTTCTC ACTGGGGCAG CTGACAGACA CATTTTTATT
    CTGGATGCCA GACCTTCCCA TTCATTTGAG GTTCTTGGAT ACATCGTGGT TTGCGGAGAG
    ATTCTCACCT TGTCGTCACT AAGTTCTGAA GATTCACAGC AAACAAAAGC TATGGCGCTT
    ATCTGTCCTG TGAATGAAGG GAAAGAAGAG AAAGGAGGAA CACGATTGGA GATGTTTTCT
    CTACCACTTC AAATGTTATC AAGTCCATCT GAATATATTG ATGAGAAAGG AATGTTTAAG
    GATGCAATGG TTCAGAAGAT TTCTTATGAT GTAGATCAGC CTCTGTTTTC TGCAGTTCTG
    GGTTACAATG TCAGCTCCGT GTTTGGATTT GGCAGCTATG CACCAATGCT TTTAAAATAT
    GTAATCCACA AGGAAATATC TGGAGATCCT TTGACTGCAC TTGTTACAGA GAAGGTGGTA
    CGGGGTAGCC ATCTTGGGCC TGGAGTACTT TGCTTGTCTC CTCATCTCAA GTGGATTTCT
    GTGTCTGGGA GGGATGGAAT TGTATATGTA AAAGACATAA AGAATATGGA AACTGTGGCA
    CAAGTACAAT GTCATTCCTA CCACACAGGC GGTATCAATT CTTTATCCTT TTCCTTGGAT
    GGTCAAAGTA TCATCACTAC AGGAACGTCT GATGGAGCCC TGGTGTGCCT GCAATGGAAA
    TCAACTGGAA GTAGCAGACT GGGTGCAGCT GTTGAGTATG GAAAGGCTTT TACACTTTCT
    CTTCAAGCTG CAATGAAGGA AGAAAATCAG ATGTTGAGCA GAATGCCAGA ATGGACAGCA
    GATACCAGTT CTATGGCCGT GGAAAGCAAG GAAAAAGAGT ACAGAAATCT AAGTGTGGAT
    GTAACTGAGC AGGACACCTT TCCAAACACT TCTGCTGATG TCACTTGGAT TTACAGGAAG
    CTGGAGGAAG CTAAAAAGAA AGAAACAGAG AAATATGCAG CAGAAAAGGA AATAATTAAA
    ACCGGCATTA AAAAACTTCG CAAAACTATA CAAGCAATGA TGCGAGAGAA TGAATCATTA
    CCAGACATAG AAAAGCTGGA CCAGCAGGAG TTTAACTTGG ACACTGAGGA GCAGGAGAGA
    CTGTATCTAG AGAGTGAGAA GGAAGTGGCA AGAGTGCGAC AAGAGATTGA GTTGGAAAAT
    TTGTCCAAAC AATATCTTCG AGAAGTTATA AAGCAGGAAT GCTGGGATTC CATGGCTGTA
    AAGGGACGTT CTGTTATGGC TTTCCATACA GGATATGAAG TTATGAATTA TCCAATGAAA
    GAACGAACAC CAAAGGAACT GGAAGATTTT GCTAGAGTGT TAAATCTCAA GAAAATTGAA
    GCTGTTGATC TCAAGGTTCG AAAGGAAATT GTTGAGACTC AGCCAAAAAT TAAGGCTGAT
    GACGAAGAGG AAGTGGAAGA GGAATCAGTG TCAAAGAGTC AAGACAGCTC ATCTTTGGTT
    GGCAGCCTGA GTGATCTTTA TGGTGGGGAT ACCAGTTACC TGTACAGTCA GCTAATTCTT
    CATTCTAGAG AAGAGAAGAT TAACCAGATC ATTCTATTGC AAGACATCAT TCACAATATC
    AAGAAAGCCT TCAACAAAGA CTTTGATATA GCATGTCGTC AAAAAGAGCA AGAGGTCACA
    CGTGTGAAGG AAAGAAATAA TCGCATTCAG GAGATCATGG TCGAACTTAA CCTGCAAGAG
    AAACTCCTGG AGCCTACATT TACTGATAAT GAGAAGCCTG AGAGAGCGCT GACTGTGGAT
    GATTCAGAGG TAAAAGTAGA AAGGTACCTA ACACCTGAAC AGAAAGCAAA GGCAGAGAAG
    CTAGCAAAAG AGGAAGAAGC AAAGCGCCTT GCGGAACAGG AAGACAATGC TAAGCAGCGA
    GCCCTGGATG ACATGATGGG TGGTGTCCTA GAAGTAAAGA AGGAAGATAT TCTTCGAATG
    GAAGTTCCAC AACCAGGTTT TATAGCTCGA GCTGAGGCTG AATGGACTGA CGAAGAAAAG
    AAGCAATTCA AAGAGTACGA GAAAAAATGT AAGGACCTCA GTGAAGAAAA GGAGAAATAC
    AGTAAGGTTT TGGAAGCAGA AATGAAAAAA CTTCAATTGT CTGTAATTGA AACCACCCAG
    AGTTTTGATG ATGTGTTGGC CAGACTGTTT GAAAAAAAAG TGAAATCAGA AATGGCAATT
    TACCAGGAGG AACTGAAAAT CAATAATCTC CTTTTCTCAC TTCTCATTGA AGAGGAAATA
    AACACAAGAG TGGCACACCT AGCTCATATT CTGGATAAGA AGCGCAAACA AAAGAATCAA
    ACAGCGGAAA TTGTCAAGTC TTTTAAAACA CAAGTACTTG CATTTAGGGA GTCCTATGAC
    AATCTGGTAG CAGAGGATAA GCTTTTAGAT CGTGGCTTTA AGAAGGAGTT TTCTGACATT
    ACATCTTACC AAGTTGATCA ACTTTATAAG CTTTACAAAC GAAGACCAAG GGTTCAGCGC
    TTGAGGACTC AGACTGACAG TGCAGCACCA TTTGGAGAAC GACCAGGATC AGCTAAGGCA
    AATAAGGATT CCATTGCTTT GCTAATGAAA GCTATGGATG AACTTGACAC CCCAGAAAAT
    ATGCCTGAAG GAGTAGAATT TCCAGTGTGG GAGCGTTTCT GTCTTGCAAG ACGATCAAAG
    ATAGAATATG AACAGCAGGT GAAGATCAAG GCCCTTGTCT TAGCAGAAAT GCAGGCATTC
    CTAGATAAGA GGATAGAAGA AGATGAGAAG ATACGTCAGG ATACTGAGAA TATCATGCAG
    GAACTCAATG TGTTGCGGAG TGAAAAAATG AAATTTCAGC TCGATTTGAC TGTCCAGTTC
    CTTCTTAAAC AAGGTCAAGT TGAGTTGGAA AATTCAGATT TAATTCCCAG TTTTGAAGAC
    GCCATTCTTC TTCATAGGAG TGTTATTGAA GATTTAAACA GCACCATACG GGGTTTGGGA
    GAACAGAAAA TTGCAAGCAT GGTTGAAAGC AAAGATTTCC GAAAAGGGAT TTTTCAGCTG
    GAATGGGAAC ATAGGAAAAT ACGGATGGAA ATGGAAGATT TGGAACAGAA ATCTAGGGAT
    ATTAGCTTGC TTCACGTCTC AAAAGATTTC CAAGTATTCC TTAGTGAGCA GAATTATGAC
    AAGCGCATAT CTGATCAGAT ACAGGTCCTA GAAGCAACTC TCAATGCTCA AGAAAAACAA
    CATGAGAAAA ATGTCAAGAC CTACAAAAAA AGTCTGAAGG ACCTAGAAAC AAATATAAAT
    AAAAAGAGAA CAGCAAACCT AGACCTTGAC AAAGATCTGC AGGAATTGCT GGTGTCTTTT
    TCTGAAAGAA AGCACATTTA TGATGTAGTT GGTGTAGAAC AAAGCACAGA GAAGGCTGCG
    AAGGAAAGAT ATGTGGAGAT TGTTCAGCGA CGCAAACTAG TGGATCTTGC TAAGATTCAA
    GCCCAAGAGA TCATTGAGCT AAGAACTGAA GTAGATAGAC TGAGGATGAA AACATTTCCT
    GCATTAGTGC AAATGGAATA TTAG

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