ORF » Species Summary » Homo sapiens » CFAP65 cDNA ORF clone

CFAP65 cDNA ORF clone, Homo sapiens(human)

The following CFAP65 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CFAP65 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
OHu08199 NM_152389.4
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $69.30
$99.00
OHu04405 NM_001278295.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu04406 NM_001278296.2
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu78301 XM_011510919.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu00446 NM_194302.4
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu78296 XM_011510903.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78296 XM_011510904.2
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78297 XM_011510908.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78297 XM_011510909.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78297 XM_017003752.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78298 XM_011510910.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_011510915.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_011510911.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_011510912.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_017003755.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_011510914.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78299 XM_017003754.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78300 XM_011510916.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu78303 XM_011510921.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu89244 XM_017003753.1
Latest version!		 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
View Old Accession Versions >>
OHu00446 NM_194302.3 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu04406 NM_001278296.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu08199 NM_152389.3 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $69.30
$99.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CFAP65 ( NM_152389.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_689602.2 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu08199
    Clone ID Related Accession (Same CDS sequence) NM_152389.3 , NM_152389.4
    Accession Version NM_152389.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 495bp)
    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 2018-06-24
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY027454.1, AK302678.1, DB070903.1, BC031585.1 and AC097468.3. On May 24, 2013 this sequence version replaced NM_152389.2. Transcript Variant: This variant (2) contains multiple differences in the UTRs and coding region, including the lack of multiple 3' coding exons, compared to variant 1. It initiates translation at a downstream in-frame start codon. The encoded isoform (2) is shorter than isoform 1 and has a shorter N-terminus and a distinct C-terminus. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BC031585.1, BI824095.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGTA CCAGTATAAG 
    GGATCAAGGA CCCAGTGCCA CAGCCTTGAG CCCCGAAAGC AGGCTCTCTT CAAAACAAAA 
    CAAAACAAAC AAAAAAAACC TTTAACATGC CATATAAAAG CCAGTGAGTG TTTAAAATAC 
    GTGCAGTATG AATAA

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

    RefSeq NP_689602.2
    CDS153..647
    Translation

    Target ORF information:

    RefSeq Version NM_152389.3
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_152389.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGTA CCAGTATAAG 
    GGATCAAGGA CCCAGTGCCA CAGCCTTGAG CCCCGAAAGC AGGCTCTCTT CAAAACAAAA 
    CAAAACAAAC AAAAAAAACC TTTAACATGC CATATAAAAG CCAGTGAGTG TTTAAAATAC 
    GTGCAGTATG AATAA

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

    CFAP65 ( NM_152389.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_689602.2 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu08199
    Clone ID Related Accession (Same CDS sequence) NM_152389.3 , NM_152389.4
    Accession Version NM_152389.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 495bp)
    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 2019-12-20
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK302678.1, DB070903.1, BC031585.1 and AC097468.3. On Jun 1, 2019 this sequence version replaced NM_152389.3. Transcript Variant: This variant (2) contains multiple differences in the UTRs and coding region, including the lack of multiple 3' coding exons, compared to variant 1. It initiates translation at a downstream in-frame start codon. The encoded isoform (2) is shorter than isoform 1 and has a shorter N-terminus and a distinct C-terminus. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BC031585.1, HY051635.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGTA CCAGTATAAG 
    GGATCAAGGA CCCAGTGCCA CAGCCTTGAG CCCCGAAAGC AGGCTCTCTT CAAAACAAAA 
    CAAAACAAAC AAAAAAAACC TTTAACATGC CATATAAAAG CCAGTGAGTG TTTAAAATAC 
    GTGCAGTATG AATAA

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

    RefSeq NP_689602.2
    CDS118..612
    Translation

    Target ORF information:

    RefSeq Version NM_152389.4
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_152389.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGTA CCAGTATAAG 
    GGATCAAGGA CCCAGTGCCA CAGCCTTGAG CCCCGAAAGC AGGCTCTCTT CAAAACAAAA 
    CAAAACAAAC AAAAAAAACC TTTAACATGC CATATAAAAG CCAGTGAGTG TTTAAAATAC 
    GTGCAGTATG AATAA

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

    CFAP65 ( NM_001278295.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265224.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu04405
    Clone ID Related Accession (Same CDS sequence) NM_001278295.1
    Accession Version NM_001278295.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2355bp)
    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 2019-12-20
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY027454.1, AK302688.1, DB070903.1 and BC047637.1. Transcript Variant: This variant (3) contains multiple differences in the UTRs and coding region, including the lack of multiple 3' coding exons, compared to variant 1. It initiates translation at an alternate upstream start codon. The encoded isoform (3) is shorter than isoform 1 and has distinct N- and C-termini. ##Evidence-Data-START## Transcript exon combination :: AK302688.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGAGACGG CAATATGGAG GCGATCTTAC ATTTCTTTGA TTTCATCTGA ACGTCCAGTT 
    CACAATTGGA GAGGCAAGAG TGTTCAGAAG AAACAAGCAG AGAGTAAAAG CCAGATAAAG 
    CTCCATACTC AGAGTGCTCC CTTTGGACTG TGTCCCAAGG ACATGATGCT CACCCAGGCT 
    CCAAGCTCCG TCGTGAGGTC CAGGAACAGC AGGAACCACA CCGTGAACTC TGGTGGATCC 
    TGCCTGAGTG CCAGCACAGT GGCCATCCCT GCCATCAACG ACAGCAGTGC AGCCATGAGT 
    GCCTGCAGCA CCATCAGCGC CCAGCCCGCA AGCTCCATGG ACACTCAGAT GCACTCCCCA 
    AAGAAGCAGG AGAGAGTGAA CAAGAGGGTC ATCTGGGGCA TTGAGGTGGC TGAGGAGCTG 
    CATTGGAAAG GCTGGGAGCT AGGAAAGGAG ACCACAAGGA ATCTGGTTCT GAAAAATCGA 
    TCCTTGAAAC TCCAGAAGAT GAAGTACAGG CCCCCCAAGA CCAAGTTCTT CTTCACGGTC 
    ATCCCTCAGC CCATCTTCCT GAGCCCAGGC ATAACCCTCA CGCTCCCCAT CGTCTTCCGG 
    CCTCTGGAGG CGAAGGAGTA CATGGACCAG CTGTGGTTTG AGAAAGCGGA GGGGATGTTC 
    TGTGTCGGCC TACGGGCCAC CCTGCCCTGC CACAGGCTGA TCTGCCGCCC ACCATCCCTG 
    CAGCTGCCCA TGTGTGCTGT GGGAGATACG ACTGAGGCCT TTTTCTGCCT GGATAATGTG 
    GGGGACCTGC CCACCTTCTT CACCTGGGAG TTCTCCAGCC CATTCCAGAT GCTGCCCGCC 
    ACGGGGCTCC TGGAGCCAGG CCAGGCCTCT CAGATCAAGG TGACCTTTCA GCCCCTTACA 
    GCCGTCATCT ACGAGGTGCA GGCCACGTGC TGGTACGGGG CGGGCAGCCG GCAGAGGAGC 
    AGCATCCAGC TGCAGGCTGT GGCCAAGTGC GCCCAGCTGC TGGTGAGCAT AAAGCACAAG 
    TGCCCGGAGG ACCAGGATGC CGAGGGCTTC CAGAAGCTGT TGTACTTTGG CTCTGTTGCT 
    GTGGGCTGCA CCTCGGAGAG GCAGATCAGG CTACACAACC CGTCGGCGGT AAATGCCCCC 
    TTCAGGATTG AAATTTCCCC GGATGAACTG GCCGAAGACC AGGCCTTCTC ATGCCCCACG 
    GCCCATGGCA TCGTGCTTCC GGGAGAGAAG AAATGTGTGT CGGTGTTCTT CCACCCCAAG 
    ACTCTGGACA CCAGAACTGT GGACTACTGC TCCATCATGC CTTCTGGCTG TGCCTCCAAG 
    ACCCTGCTTA AAGTCGTTGG TTTCTGTAGA GGCCCTGCTG TGTCCCTGCA GCACTACTGT 
    GTCAACTTCA GCTGGGTCAA CCTTGGGGAG CGCTCCGAGC AGCCCCTGTG GATTGAGAAC 
    CAATCGGACT GCACGGCCCA CTTCCAGTTT GCCATCGACT GCTTGGAGAG TGTCTTTACC 
    ATCAGGCCTG CCTTTGGGAC GCTGGTGGGC AAGGCCCGTA TGACCCTGCA CTGTGCCTTC 
    CAGCCCACTC ACCCCATCAT CTGCTTTCGG CGTGTGGCCT GTCTCATCCA CCACCAGGAC 
    CCACTGTTCC TGGACCTGAT GGGGACCTGC CACTCGGACA GCACCAAGCC AGCCATCCTG 
    AAGCCTCAGC ACCTCACCTG GTACCGCACA CACCTGGCCC GGGGCCTGAC GCTCTACCCC 
    CCTGACATCC TGGATGCCAT GCTGAAGGAG AAGAAGCTGG CACAGGACCA GAACGGGGCT 
    CTCATGATTC CCATCCAGGA TCTGGAGGAC ATGCCGGCCC CGCAGTACCC TTATATCCCC 
    CCCATGACCG AGTTCTTCTT CGACGGCACC AGCGACATAA CCATCTTCCC CCCGCCCATC 
    AGTGTAGAGC CTGTCGAGGT AGACTTCGGT GCCTGCCCAG GGCCTGAGGC CCCCAACCCT 
    GTACCCCTGT GCCTGATGAA CCACACCAAG GGCAAGATCA TGGTGGTCTG GACGCGAAGG 
    TCTGACTGCC CCTTCTGGGT GACTCCAGAG AGCTGCGACG TGCCCCCACT CAAGTCCATG 
    GCCATGCGCC TGCACTTCCA GCCGCCTCAC CCCAACTGCC TTTACACGGT GGAGCTCGAA 
    GCCTTCGCCA TCTATAAGGT GTGTGCACGC AATGAGAGGG AGGAATGCGG GGTCTCTGCT 
    AGGAGCCTGA GTGGCTTGGT GGGGTGGCAG GAAGTGACCG AGGGCAGCTT CAGGCTCCAT 
    CCTCTGCGTG CCAGGCTTTC TCTTGGCTGG ACAGTGACCC CTATGAGTTT GTCTCCTCCA 
    AAGCTCCTGG CCTAG

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

    RefSeq NP_001265224.1
    CDS40..2394
    Translation

    Target ORF information:

    RefSeq Version NM_001278295.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001278295.1

    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
    ATGGAGACGG CAATATGGAG GCGATCTTAC ATTTCTTTGA TTTCATCTGA ACGTCCAGTT 
    CACAATTGGA GAGGCAAGAG TGTTCAGAAG AAACAAGCAG AGAGTAAAAG CCAGATAAAG 
    CTCCATACTC AGAGTGCTCC CTTTGGACTG TGTCCCAAGG ACATGATGCT CACCCAGGCT 
    CCAAGCTCCG TCGTGAGGTC CAGGAACAGC AGGAACCACA CCGTGAACTC TGGTGGATCC 
    TGCCTGAGTG CCAGCACAGT GGCCATCCCT GCCATCAACG ACAGCAGTGC AGCCATGAGT 
    GCCTGCAGCA CCATCAGCGC CCAGCCCGCA AGCTCCATGG ACACTCAGAT GCACTCCCCA 
    AAGAAGCAGG AGAGAGTGAA CAAGAGGGTC ATCTGGGGCA TTGAGGTGGC TGAGGAGCTG 
    CATTGGAAAG GCTGGGAGCT AGGAAAGGAG ACCACAAGGA ATCTGGTTCT GAAAAATCGA 
    TCCTTGAAAC TCCAGAAGAT GAAGTACAGG CCCCCCAAGA CCAAGTTCTT CTTCACGGTC 
    ATCCCTCAGC CCATCTTCCT GAGCCCAGGC ATAACCCTCA CGCTCCCCAT CGTCTTCCGG 
    CCTCTGGAGG CGAAGGAGTA CATGGACCAG CTGTGGTTTG AGAAAGCGGA GGGGATGTTC 
    TGTGTCGGCC TACGGGCCAC CCTGCCCTGC CACAGGCTGA TCTGCCGCCC ACCATCCCTG 
    CAGCTGCCCA TGTGTGCTGT GGGAGATACG ACTGAGGCCT TTTTCTGCCT GGATAATGTG 
    GGGGACCTGC CCACCTTCTT CACCTGGGAG TTCTCCAGCC CATTCCAGAT GCTGCCCGCC 
    ACGGGGCTCC TGGAGCCAGG CCAGGCCTCT CAGATCAAGG TGACCTTTCA GCCCCTTACA 
    GCCGTCATCT ACGAGGTGCA GGCCACGTGC TGGTACGGGG CGGGCAGCCG GCAGAGGAGC 
    AGCATCCAGC TGCAGGCTGT GGCCAAGTGC GCCCAGCTGC TGGTGAGCAT AAAGCACAAG 
    TGCCCGGAGG ACCAGGATGC CGAGGGCTTC CAGAAGCTGT TGTACTTTGG CTCTGTTGCT 
    GTGGGCTGCA CCTCGGAGAG GCAGATCAGG CTACACAACC CGTCGGCGGT AAATGCCCCC 
    TTCAGGATTG AAATTTCCCC GGATGAACTG GCCGAAGACC AGGCCTTCTC ATGCCCCACG 
    GCCCATGGCA TCGTGCTTCC GGGAGAGAAG AAATGTGTGT CGGTGTTCTT CCACCCCAAG 
    ACTCTGGACA CCAGAACTGT GGACTACTGC TCCATCATGC CTTCTGGCTG TGCCTCCAAG 
    ACCCTGCTTA AAGTCGTTGG TTTCTGTAGA GGCCCTGCTG TGTCCCTGCA GCACTACTGT 
    GTCAACTTCA GCTGGGTCAA CCTTGGGGAG CGCTCCGAGC AGCCCCTGTG GATTGAGAAC 
    CAATCGGACT GCACGGCCCA CTTCCAGTTT GCCATCGACT GCTTGGAGAG TGTCTTTACC 
    ATCAGGCCTG CCTTTGGGAC GCTGGTGGGC AAGGCCCGTA TGACCCTGCA CTGTGCCTTC 
    CAGCCCACTC ACCCCATCAT CTGCTTTCGG CGTGTGGCCT GTCTCATCCA CCACCAGGAC 
    CCACTGTTCC TGGACCTGAT GGGGACCTGC CACTCGGACA GCACCAAGCC AGCCATCCTG 
    AAGCCTCAGC ACCTCACCTG GTACCGCACA CACCTGGCCC GGGGCCTGAC GCTCTACCCC 
    CCTGACATCC TGGATGCCAT GCTGAAGGAG AAGAAGCTGG CACAGGACCA GAACGGGGCT 
    CTCATGATTC CCATCCAGGA TCTGGAGGAC ATGCCGGCCC CGCAGTACCC TTATATCCCC 
    CCCATGACCG AGTTCTTCTT CGACGGCACC AGCGACATAA CCATCTTCCC CCCGCCCATC 
    AGTGTAGAGC CTGTCGAGGT AGACTTCGGT GCCTGCCCAG GGCCTGAGGC CCCCAACCCT 
    GTACCCCTGT GCCTGATGAA CCACACCAAG GGCAAGATCA TGGTGGTCTG GACGCGAAGG 
    TCTGACTGCC CCTTCTGGGT GACTCCAGAG AGCTGCGACG TGCCCCCACT CAAGTCCATG 
    GCCATGCGCC TGCACTTCCA GCCGCCTCAC CCCAACTGCC TTTACACGGT GGAGCTCGAA 
    GCCTTCGCCA TCTATAAGGT GTGTGCACGC AATGAGAGGG AGGAATGCGG GGTCTCTGCT 
    AGGAGCCTGA GTGGCTTGGT GGGGTGGCAG GAAGTGACCG AGGGCAGCTT CAGGCTCCAT 
    CCTCTGCGTG CCAGGCTTTC TCTTGGCTGG ACAGTGACCC CTATGAGTTT GTCTCCTCCA 
    AAGCTCCTGG CCTAG

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

    CFAP65 ( NM_001278296.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265225.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu04406
    Clone ID Related Accession (Same CDS sequence) NM_001278296.1 , NM_001278296.2
    Accession Version NM_001278296.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2193bp)
    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 2018-06-24
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 4
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY027454.1, AK302678.1, DB070903.1 and BC047637.1. Transcript Variant: This variant (4) contains multiple differences in the UTRs and coding region, including the lack of multiple 3' coding exons, compared to variant 1. It initiates translation at a downstream in-frame start codon. The encoded isoform (4) is shorter than isoform 1 and has a shorter N-terminus and a distinct C-terminus. ##Evidence-Data-START## Transcript exon combination :: AK302678.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTGT GTGCACGCAA TGAGAGGGAG 
    GAATGCGGGG TCTCTGCTAG GAGCCTGAGT GGCTTGGTGG GGTGGCAGGA AGTGACCGAG 
    GGCAGCTTCA GGCTCCATCC TCTGCGTGCC AGGCTTTCTC TTGGCTGGAC AGTGACCCCT 
    ATGAGTTTGT CTCCTCCAAA GCTCCTGGCC TAG

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

    RefSeq NP_001265225.1
    CDS153..2345
    Translation

    Target ORF information:

    RefSeq Version NM_001278296.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001278296.1

    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
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTGT GTGCACGCAA TGAGAGGGAG 
    GAATGCGGGG TCTCTGCTAG GAGCCTGAGT GGCTTGGTGG GGTGGCAGGA AGTGACCGAG 
    GGCAGCTTCA GGCTCCATCC TCTGCGTGCC AGGCTTTCTC TTGGCTGGAC AGTGACCCCT 
    ATGAGTTTGT CTCCTCCAAA GCTCCTGGCC TAG

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

    CFAP65 ( NM_001278296.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265225.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu04406
    Clone ID Related Accession (Same CDS sequence) NM_001278296.1 , NM_001278296.2
    Accession Version NM_001278296.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2193bp)
    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 2019-12-20
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 4
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK302678.1, DB070903.1 and BC047637.1. On May 31, 2019 this sequence version replaced NM_001278296.1. Transcript Variant: This variant (4) contains multiple differences in the UTRs and coding region, including the lack of multiple 3' coding exons, compared to variant 1. It initiates translation at a downstream in-frame start codon. The encoded isoform (4) is shorter than isoform 1 and has a shorter N-terminus and a distinct C-terminus. ##Evidence-Data-START## Transcript exon combination :: AK302678.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2142348 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTGT GTGCACGCAA TGAGAGGGAG 
    GAATGCGGGG TCTCTGCTAG GAGCCTGAGT GGCTTGGTGG GGTGGCAGGA AGTGACCGAG 
    GGCAGCTTCA GGCTCCATCC TCTGCGTGCC AGGCTTTCTC TTGGCTGGAC AGTGACCCCT 
    ATGAGTTTGT CTCCTCCAAA GCTCCTGGCC TAG

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

    RefSeq NP_001265225.1
    CDS118..2310
    Translation

    Target ORF information:

    RefSeq Version NM_001278296.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001278296.2

    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
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTGT GTGCACGCAA TGAGAGGGAG 
    GAATGCGGGG TCTCTGCTAG GAGCCTGAGT GGCTTGGTGG GGTGGCAGGA AGTGACCGAG 
    GGCAGCTTCA GGCTCCATCC TCTGCGTGCC AGGCTTTCTC TTGGCTGGAC AGTGACCCCT 
    ATGAGTTTGT CTCCTCCAAA GCTCCTGGCC TAG

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

    CFAP65 ( XM_011510919.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509221.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu78301
    Clone ID Related Accession (Same CDS sequence) XM_011510919.1
    Accession Version XM_011510919.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5049bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCTACC ACCACTGCTT GTGCCCCCAA CCCCAGCATG GTGGCTTGCC CAGGCCACTC 
    AGAATGTCAT GGCTGCCACA GGGAGCTGCC AAAGAGGAAG GCCCCCAGGG AAGAGTCAGA 
    GACTTCTGA

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

    RefSeq XP_011509221.1
    CDS171..5219
    Translation

    Target ORF information:

    RefSeq Version XM_011510919.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510919.1

    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
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCTACC ACCACTGCTT GTGCCCCCAA CCCCAGCATG GTGGCTTGCC CAGGCCACTC 
    AGAATGTCAT GGCTGCCACA GGGAGCTGCC AAAGAGGAAG GCCCCCAGGG AAGAGTCAGA 
    GACTTCTGA

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

    CFAP65 ( NM_194302.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_919278.2 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu00446
    Clone ID Related Accession (Same CDS sequence) NM_194302.3 , NM_194302.4
    Accession Version NM_194302.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5778bp)
    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 2017-10-02
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY027454.1, DB070903.1, AK127189.1, AK302688.1, BC130281.1 and AA503417.1. This sequence is a reference standard in the RefSeqGene project. On May 23, 2013 this sequence version replaced NM_194302.2. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1968540, SAMEA1968968 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGGGAGCTGC CAAAGAGGAA GGCCCCCAGG GAAGAGTCAG AGACTTCTGA GGAAAAATCC 
    CCTAACAAGT GGGGCCCTGT TTCCAAGCAG AAGAAGCAGC TCCTGGTTGA CATTCTCACC 
    ACAATAATCA GGGGCCTGCT GGAAGACAAG AACTTCCATG AGGCTGTGGA CCAAAGCCTG 
    GTGGAGCAGG TGCCGTACTT CCGCCAATTC TGGAATGAGC AGTCAACTAA GTTCATGGAC 
    CAGAAAAACA GCCTGTACTT AATGCCAATC CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT 
    GGGAAGGGCA AGCAGCCGAA GGAAGACAGA CCAGAGCACT ATCCAGGGTT GGGAAAGAAG 
    GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG 
    GAAGAAGAGG AGACAGAAGA GGAGGAGTTG GGCAAGGAGG AGATAGAGGA GAAGGAGGAG 
    GAGAGGGATG AGAAGGAAGA GAAAGTGAGC TGGGCGGGCA TCGGGCCCAC ACCACAGCCT 
    GAGTCCCAGG AGTCCATGCA ATGGCAGTGG CAACAGCAGC TGAATGTCAT GGTGAAGGAG 
    GAGCAAGAAC AGGACGAGAA GGAGGCCATC AGAAGGCTCC CGGCCTTCGC CAACCTGCAG 
    GAGGCGCTGC TGGAGAACAT GATCCAGAAC ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG 
    GTACTCACCT CGCGGCCACG CGTCATCGCC CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG 
    ACCCCGGACA CGCTGCTGCC GACGCAGCAA GCAGAGGTAC TCCACCCGGT GGTGCCACTT 
    CCTACCGACC TTCCGTAA

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

    RefSeq NP_919278.2
    CDS113..5890
    Translation

    Target ORF information:

    RefSeq Version NM_194302.3
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_194302.3

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGGGAGCTGC CAAAGAGGAA GGCCCCCAGG GAAGAGTCAG AGACTTCTGA GGAAAAATCC 
    CCTAACAAGT GGGGCCCTGT TTCCAAGCAG AAGAAGCAGC TCCTGGTTGA CATTCTCACC 
    ACAATAATCA GGGGCCTGCT GGAAGACAAG AACTTCCATG AGGCTGTGGA CCAAAGCCTG 
    GTGGAGCAGG TGCCGTACTT CCGCCAATTC TGGAATGAGC AGTCAACTAA GTTCATGGAC 
    CAGAAAAACA GCCTGTACTT AATGCCAATC CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT 
    GGGAAGGGCA AGCAGCCGAA GGAAGACAGA CCAGAGCACT ATCCAGGGTT GGGAAAGAAG 
    GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG 
    GAAGAAGAGG AGACAGAAGA GGAGGAGTTG GGCAAGGAGG AGATAGAGGA GAAGGAGGAG 
    GAGAGGGATG AGAAGGAAGA GAAAGTGAGC TGGGCGGGCA TCGGGCCCAC ACCACAGCCT 
    GAGTCCCAGG AGTCCATGCA ATGGCAGTGG CAACAGCAGC TGAATGTCAT GGTGAAGGAG 
    GAGCAAGAAC AGGACGAGAA GGAGGCCATC AGAAGGCTCC CGGCCTTCGC CAACCTGCAG 
    GAGGCGCTGC TGGAGAACAT GATCCAGAAC ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG 
    GTACTCACCT CGCGGCCACG CGTCATCGCC CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG 
    ACCCCGGACA CGCTGCTGCC GACGCAGCAA GCAGAGGTAC TCCACCCGGT GGTGCCACTT 
    CCTACCGACC TTCCGTAA

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

    CFAP65 ( NM_194302.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_919278.2 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu00446
    Clone ID Related Accession (Same CDS sequence) NM_194302.3 , NM_194302.4
    Accession Version NM_194302.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5778bp)
    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 2019-12-30
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB070903.1, AK127189.1, AK302688.1, BC130281.1 and AA503417.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_194302.3. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1968540, SAMEA1968968 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology MANE Ensembl match :: ENST00000341552.10/ ENSP00000340776.5 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGGGAGCTGC CAAAGAGGAA GGCCCCCAGG GAAGAGTCAG AGACTTCTGA GGAAAAATCC 
    CCTAACAAGT GGGGCCCTGT TTCCAAGCAG AAGAAGCAGC TCCTGGTTGA CATTCTCACC 
    ACAATAATCA GGGGCCTGCT GGAAGACAAG AACTTCCATG AGGCTGTGGA CCAAAGCCTG 
    GTGGAGCAGG TGCCGTACTT CCGCCAATTC TGGAATGAGC AGTCAACTAA GTTCATGGAC 
    CAGAAAAACA GCCTGTACTT AATGCCAATC CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT 
    GGGAAGGGCA AGCAGCCGAA GGAAGACAGA CCAGAGCACT ATCCAGGGTT GGGAAAGAAG 
    GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG 
    GAAGAAGAGG AGACAGAAGA GGAGGAGTTG GGCAAGGAGG AGATAGAGGA GAAGGAGGAG 
    GAGAGGGATG AGAAGGAAGA GAAAGTGAGC TGGGCGGGCA TCGGGCCCAC ACCACAGCCT 
    GAGTCCCAGG AGTCCATGCA ATGGCAGTGG CAACAGCAGC TGAATGTCAT GGTGAAGGAG 
    GAGCAAGAAC AGGACGAGAA GGAGGCCATC AGAAGGCTCC CGGCCTTCGC CAACCTGCAG 
    GAGGCGCTGC TGGAGAACAT GATCCAGAAC ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG 
    GTACTCACCT CGCGGCCACG CGTCATCGCC CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG 
    ACCCCGGACA CGCTGCTGCC GACGCAGCAA GCAGAGGTAC TCCACCCGGT GGTGCCACTT 
    CCTACCGACC TTCCGTAA

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

    RefSeq NP_919278.2
    CDS78..5855
    Translation

    Target ORF information:

    RefSeq Version NM_194302.4
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_194302.4

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGGGAGCTGC CAAAGAGGAA GGCCCCCAGG GAAGAGTCAG AGACTTCTGA GGAAAAATCC 
    CCTAACAAGT GGGGCCCTGT TTCCAAGCAG AAGAAGCAGC TCCTGGTTGA CATTCTCACC 
    ACAATAATCA GGGGCCTGCT GGAAGACAAG AACTTCCATG AGGCTGTGGA CCAAAGCCTG 
    GTGGAGCAGG TGCCGTACTT CCGCCAATTC TGGAATGAGC AGTCAACTAA GTTCATGGAC 
    CAGAAAAACA GCCTGTACTT AATGCCAATC CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT 
    GGGAAGGGCA AGCAGCCGAA GGAAGACAGA CCAGAGCACT ATCCAGGGTT GGGAAAGAAG 
    GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG 
    GAAGAAGAGG AGACAGAAGA GGAGGAGTTG GGCAAGGAGG AGATAGAGGA GAAGGAGGAG 
    GAGAGGGATG AGAAGGAAGA GAAAGTGAGC TGGGCGGGCA TCGGGCCCAC ACCACAGCCT 
    GAGTCCCAGG AGTCCATGCA ATGGCAGTGG CAACAGCAGC TGAATGTCAT GGTGAAGGAG 
    GAGCAAGAAC AGGACGAGAA GGAGGCCATC AGAAGGCTCC CGGCCTTCGC CAACCTGCAG 
    GAGGCGCTGC TGGAGAACAT GATCCAGAAC ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG 
    GTACTCACCT CGCGGCCACG CGTCATCGCC CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG 
    ACCCCGGACA CGCTGCTGCC GACGCAGCAA GCAGAGGTAC TCCACCCGGT GGTGCCACTT 
    CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510904.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509206.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu78296
    Clone ID Related Accession (Same CDS sequence) XM_011510904.2 , XM_011510903.1
    Accession Version XM_011510904.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5826bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510904.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCATGG TGGCTTGCCC AGGCCACTCA GAATGTCATG GCTGCCACAG GGAGCTGCCA 
    AAGAGGAAGG CCCCCAGGGA AGAGTCAGAG ACTTCTGAGG AAAAATCCCC TAACAAGTGG 
    GGCCCTGTTT CCAAGCAGAA GAAGCAGCTC CTGGTTGACA TTCTCACCAC AATAATCAGG 
    GGCCTGCTGG AAGACAAGAA CTTCCATGAG GCTGTGGACC AAAGCCTGGT GGAGCAGGTG 
    CCGTACTTCC GCCAATTCTG GAATGAGCAG TCAACTAAGT TCATGGACCA GAAAAACAGC 
    CTGTACTTAA TGCCAATCCT GCCTGTACCC TCCAGCAGCT GGGAGGATGG GAAGGGCAAG 
    CAGCCGAAGG AAGACAGACC AGAGCACTAT CCAGGGTTGG GAAAGAAGGA AGAGGGGGAG 
    GAGGAGAAGG GTGAAGAGGA AGAAGAAGAG TTGGAGGAGG AAGAGGAGGA AGAAGAGGAG 
    ACAGAAGAGG AGGAGTTGGG CAAGGAGGAG ATAGAGGAGA AGGAGGAGGA GAGGGATGAG 
    AAGGAAGAGA AAGTGAGCTG GGCGGGCATC GGGCCCACAC CACAGCCTGA GTCCCAGGAG 
    TCCATGCAAT GGCAGTGGCA ACAGCAGCTG AATGTCATGG TGAAGGAGGA GCAAGAACAG 
    GACGAGAAGG AGGCCATCAG AAGGCTCCCG GCCTTCGCCA ACCTGCAGGA GGCGCTGCTG 
    GAGAACATGA TCCAGAACAT CCTGGTGGAG GCGAGCCGCG GGGAGGTGGT ACTCACCTCG 
    CGGCCACGCG TCATCGCCCT GCCGCCGTTC TGCGTGCCCA GGAGTCTGAC CCCGGACACG 
    CTGCTGCCGA CGCAGCAAGC AGAGGTACTC CACCCGGTGG TGCCACTTCC TACCGACCTT 
    CCGTAA

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

    RefSeq XP_011509206.1
    CDS1755..7580
    Translation

    Target ORF information:

    RefSeq Version XM_011510904.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510904.2

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCATGG TGGCTTGCCC AGGCCACTCA GAATGTCATG GCTGCCACAG GGAGCTGCCA 
    AAGAGGAAGG CCCCCAGGGA AGAGTCAGAG ACTTCTGAGG AAAAATCCCC TAACAAGTGG 
    GGCCCTGTTT CCAAGCAGAA GAAGCAGCTC CTGGTTGACA TTCTCACCAC AATAATCAGG 
    GGCCTGCTGG AAGACAAGAA CTTCCATGAG GCTGTGGACC AAAGCCTGGT GGAGCAGGTG 
    CCGTACTTCC GCCAATTCTG GAATGAGCAG TCAACTAAGT TCATGGACCA GAAAAACAGC 
    CTGTACTTAA TGCCAATCCT GCCTGTACCC TCCAGCAGCT GGGAGGATGG GAAGGGCAAG 
    CAGCCGAAGG AAGACAGACC AGAGCACTAT CCAGGGTTGG GAAAGAAGGA AGAGGGGGAG 
    GAGGAGAAGG GTGAAGAGGA AGAAGAAGAG TTGGAGGAGG AAGAGGAGGA AGAAGAGGAG 
    ACAGAAGAGG AGGAGTTGGG CAAGGAGGAG ATAGAGGAGA AGGAGGAGGA GAGGGATGAG 
    AAGGAAGAGA AAGTGAGCTG GGCGGGCATC GGGCCCACAC CACAGCCTGA GTCCCAGGAG 
    TCCATGCAAT GGCAGTGGCA ACAGCAGCTG AATGTCATGG TGAAGGAGGA GCAAGAACAG 
    GACGAGAAGG AGGCCATCAG AAGGCTCCCG GCCTTCGCCA ACCTGCAGGA GGCGCTGCTG 
    GAGAACATGA TCCAGAACAT CCTGGTGGAG GCGAGCCGCG GGGAGGTGGT ACTCACCTCG 
    CGGCCACGCG TCATCGCCCT GCCGCCGTTC TGCGTGCCCA GGAGTCTGAC CCCGGACACG 
    CTGCTGCCGA CGCAGCAAGC AGAGGTACTC CACCCGGTGG TGCCACTTCC TACCGACCTT 
    CCGTAA

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

    CFAP65 ( XM_011510903.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509205.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu78296
    Clone ID Related Accession (Same CDS sequence) XM_011510904.2 , XM_011510903.1
    Accession Version XM_011510903.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5826bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCATGG TGGCTTGCCC AGGCCACTCA GAATGTCATG GCTGCCACAG GGAGCTGCCA 
    AAGAGGAAGG CCCCCAGGGA AGAGTCAGAG ACTTCTGAGG AAAAATCCCC TAACAAGTGG 
    GGCCCTGTTT CCAAGCAGAA GAAGCAGCTC CTGGTTGACA TTCTCACCAC AATAATCAGG 
    GGCCTGCTGG AAGACAAGAA CTTCCATGAG GCTGTGGACC AAAGCCTGGT GGAGCAGGTG 
    CCGTACTTCC GCCAATTCTG GAATGAGCAG TCAACTAAGT TCATGGACCA GAAAAACAGC 
    CTGTACTTAA TGCCAATCCT GCCTGTACCC TCCAGCAGCT GGGAGGATGG GAAGGGCAAG 
    CAGCCGAAGG AAGACAGACC AGAGCACTAT CCAGGGTTGG GAAAGAAGGA AGAGGGGGAG 
    GAGGAGAAGG GTGAAGAGGA AGAAGAAGAG TTGGAGGAGG AAGAGGAGGA AGAAGAGGAG 
    ACAGAAGAGG AGGAGTTGGG CAAGGAGGAG ATAGAGGAGA AGGAGGAGGA GAGGGATGAG 
    AAGGAAGAGA AAGTGAGCTG GGCGGGCATC GGGCCCACAC CACAGCCTGA GTCCCAGGAG 
    TCCATGCAAT GGCAGTGGCA ACAGCAGCTG AATGTCATGG TGAAGGAGGA GCAAGAACAG 
    GACGAGAAGG AGGCCATCAG AAGGCTCCCG GCCTTCGCCA ACCTGCAGGA GGCGCTGCTG 
    GAGAACATGA TCCAGAACAT CCTGGTGGAG GCGAGCCGCG GGGAGGTGGT ACTCACCTCG 
    CGGCCACGCG TCATCGCCCT GCCGCCGTTC TGCGTGCCCA GGAGTCTGAC CCCGGACACG 
    CTGCTGCCGA CGCAGCAAGC AGAGGTACTC CACCCGGTGG TGCCACTTCC TACCGACCTT 
    CCGTAA

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

    RefSeq XP_011509205.1
    CDS171..5996
    Translation

    Target ORF information:

    RefSeq Version XM_011510903.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510903.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGCATGG TGGCTTGCCC AGGCCACTCA GAATGTCATG GCTGCCACAG GGAGCTGCCA 
    AAGAGGAAGG CCCCCAGGGA AGAGTCAGAG ACTTCTGAGG AAAAATCCCC TAACAAGTGG 
    GGCCCTGTTT CCAAGCAGAA GAAGCAGCTC CTGGTTGACA TTCTCACCAC AATAATCAGG 
    GGCCTGCTGG AAGACAAGAA CTTCCATGAG GCTGTGGACC AAAGCCTGGT GGAGCAGGTG 
    CCGTACTTCC GCCAATTCTG GAATGAGCAG TCAACTAAGT TCATGGACCA GAAAAACAGC 
    CTGTACTTAA TGCCAATCCT GCCTGTACCC TCCAGCAGCT GGGAGGATGG GAAGGGCAAG 
    CAGCCGAAGG AAGACAGACC AGAGCACTAT CCAGGGTTGG GAAAGAAGGA AGAGGGGGAG 
    GAGGAGAAGG GTGAAGAGGA AGAAGAAGAG TTGGAGGAGG AAGAGGAGGA AGAAGAGGAG 
    ACAGAAGAGG AGGAGTTGGG CAAGGAGGAG ATAGAGGAGA AGGAGGAGGA GAGGGATGAG 
    AAGGAAGAGA AAGTGAGCTG GGCGGGCATC GGGCCCACAC CACAGCCTGA GTCCCAGGAG 
    TCCATGCAAT GGCAGTGGCA ACAGCAGCTG AATGTCATGG TGAAGGAGGA GCAAGAACAG 
    GACGAGAAGG AGGCCATCAG AAGGCTCCCG GCCTTCGCCA ACCTGCAGGA GGCGCTGCTG 
    GAGAACATGA TCCAGAACAT CCTGGTGGAG GCGAGCCGCG GGGAGGTGGT ACTCACCTCG 
    CGGCCACGCG TCATCGCCCT GCCGCCGTTC TGCGTGCCCA GGAGTCTGAC CCCGGACACG 
    CTGCTGCCGA CGCAGCAAGC AGAGGTACTC CACCCGGTGG TGCCACTTCC TACCGACCTT 
    CCGTAA

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

    CFAP65 ( XM_011510909.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509211.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu78297
    Clone ID Related Accession (Same CDS sequence) XM_011510909.1 , XM_011510908.1 , XM_017003752.1
    Accession Version XM_011510909.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5823bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    RefSeq XP_011509211.1
    CDS120..5942
    Translation

    Target ORF information:

    RefSeq Version XM_011510909.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510909.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    CFAP65 ( XM_011510908.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509210.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu78297
    Clone ID Related Accession (Same CDS sequence) XM_011510909.1 , XM_011510908.1 , XM_017003752.1
    Accession Version XM_011510908.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5823bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    RefSeq XP_011509210.1
    CDS80..5902
    Translation

    Target ORF information:

    RefSeq Version XM_011510908.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510908.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    CFAP65 ( XM_017003752.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859241.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu78297
    Clone ID Related Accession (Same CDS sequence) XM_011510909.1 , XM_011510908.1 , XM_017003752.1
    Accession Version XM_017003752.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5823bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    RefSeq XP_016859241.1
    CDS241..6063
    Translation

    Target ORF information:

    RefSeq Version XM_017003752.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003752.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTTTACCT TAACCGGTTG TAGACTGGTG GAGAAAACCC AGAAGGTGGA GAATCCATCA 
    GTCTCATTTG CCTCTTCTTT CCCCCTTATT CCTCTTCTCC TAAGAGGCAA GAGTGTTCAG 
    AAGAAACAAG CAGAGAGTAA AAGCCAGATA AAGCTCCATA CTCAGAGTGC TCCCTTTGGA 
    CTGTGTCCCA AGGACATGAT GCTCACCCAG GCTCCAAGCT CCGTCGTGAG GTCCAGGAAC 
    AGCAGGAACC ACACCGTGAA CTCTGGTGGA TCCTGCCTGA GTGCCAGCAC AGTGGCCATC 
    CCTGCCATCA ACGACAGCAG TGCAGCCATG AGTGCCTGCA GCACCATCAG CGCCCAGCCC 
    GCAAGCTCCA TGGACACTCA GATGCACTCC CCAAAGAAGC AGGAGAGAGT GAACAAGAGG 
    GTCATCTGGG GCATTGAGGT GGCTGAGGAG CTGCATTGGA AAGGCTGGGA GCTAGGAAAG 
    GAGACCACAA GGAATCTGGT TCTGAAAAAT CGATCCTTGA AACTCCAGAA GATGAAGTAC 
    AGGCCCCCCA AGACCAAGTT CTTCTTCACG GTCATCCCTC AGCCCATCTT CCTGAGCCCA 
    GGCATAACCC TCACGCTCCC CATCGTCTTC CGGCCTCTGG AGGCGAAGGA GTACATGGAC 
    CAGCTGTGGT TTGAGAAAGC GGAGGGGATG TTCTGTGTCG GCCTACGGGC CACCCTGCCC 
    TGCCACAGGC TGATCTGCCG CCCACCATCC CTGCAGCTGC CCATGTGTGC TGTGGGAGAT 
    ACGACTGAGG CCTTTTTCTG CCTGGATAAT GTGGGGGACC TGCCCACCTT CTTCACCTGG 
    GAGTTCTCCA GCCCATTCCA GATGCTGCCC GCCACGGGGC TCCTGGAGCC AGGCCAGGCC 
    TCTCAGATCA AGGTGACCTT TCAGCCCCTT ACAGCCGTCA TCTACGAGGT GCAGGCCACG 
    TGCTGGTACG GGGCGGGCAG CCGGCAGAGG AGCAGCATCC AGCTGCAGGC TGTGGCCAAG 
    TGCGCCCAGC TGCTGGTGAG CATAAAGCAC AAGTGCCCGG AGGACCAGGA TGCCGAGGGC 
    TTCCAGAAGC TGTTGTACTT TGGCTCTGTT GCTGTGGGCT GCACCTCGGA GAGGCAGATC 
    AGGCTACACA ACCCGTCGGC GGTAAATGCC CCCTTCAGGA TTGAAATTTC CCCGGATGAA 
    CTGGCCGAAG ACCAGGCCTT CTCATGCCCC ACGGCCCATG GCATCGTGCT TCCGGGAGAG 
    AAGAAATGTG TGTCGGTGTT CTTCCACCCC AAGACTCTGG ACACCAGAAC TGTGGACTAC 
    TGCTCCATCA TGCCTTCTGG CTGTGCCTCC AAGACCCTGC TTAAAGTCGT TGGTTTCTGT 
    AGAGGCCCTG CTGTGTCCCT GCAGCACTAC TGTGTCAACT TCAGCTGGGT CAACCTTGGG 
    GAGCGCTCCG AGCAGCCCCT GTGGATTGAG AACCAATCGG ACTGCACGGC CCACTTCCAG 
    TTTGCCATCG ACTGCTTGGA GAGTGTCTTT ACCATCAGGC CTGCCTTTGG GACGCTGGTG 
    GGCAAGGCCC GTATGACCCT GCACTGTGCC TTCCAGCCCA CTCACCCCAT CATCTGCTTT 
    CGGCGTGTGG CCTGTCTCAT CCACCACCAG GACCCACTGT TCCTGGACCT GATGGGGACC 
    TGCCACTCGG ACAGCACCAA GCCAGCCATC CTGAAGCCTC AGCACCTCAC CTGGTACCGC 
    ACACACCTGG CCCGGGGCCT GACGCTCTAC CCCCCTGACA TCCTGGATGC CATGCTGAAG 
    GAGAAGAAGC TGGCACAGGA CCAGAACGGG GCTCTCATGA TTCCCATCCA GGATCTGGAG 
    GACATGCCGG CCCCGCAGTA CCCTTATATC CCCCCCATGA CCGAGTTCTT CTTCGACGGC 
    ACCAGCGACA TAACCATCTT CCCCCCGCCC ATCAGTGTAG AGCCTGTCGA GGTAGACTTC 
    GGTGCCTGCC CAGGGCCTGA GGCCCCCAAC CCTGTACCCC TGTGCCTGAT GAACCACACC 
    AAGGGCAAGA TCATGGTGGT CTGGACGCGA AGGTCTGACT GCCCCTTCTG GGTGACTCCA 
    GAGAGCTGCG ACGTGCCCCC ACTCAAGTCC ATGGCCATGC GCCTGCACTT CCAGCCGCCT 
    CACCCCAACT GCCTTTACAC GGTGGAGCTC GAAGCCTTCG CCATCTATAA GGTCCTGCAG 
    AGCTACAGTA ATATTGAGGA GGACTGCACC ATGTGCCCAT CCTGGTGCCT GACGGTGCGG 
    GCACGAGGCC ACAGCTATTT CGCTGGCTTT GAGCACCACA TCCCCCAGTA TTCCCTAGAT 
    GTCCCCAAGC TATTTCCAGC AGTGTCCTCC GGTGAGCCCA CCTACCGCAG CCTGCTCCTG 
    GTCAACAAAG ACTGCAAGCT GCTGACCTTC AGCCTGGCCC CCCAGAGAGG CTCAGACGTC 
    ATCCTTCGGC CCACTTCGGG CCTTGTGGCA CCCGGGGCCC ACCAGATCAT CCTCATCTGC 
    ACCTACCCTG AGGGCAGCTC CTGGAAGCAG CACACTTTCT ATCTGCAGTG CAATGCTTCC 
    CCCCAGTATC TCAAGGAGGT GAGCATGTAC AGCCGGGAGG AGCCACTGCA GCTGAAGCTG 
    GACACCCACA AAAGCCTCTA CTTCAAGCCC ACCTGGGTGG GCTGCTCCTC CACCAGCCCC 
    TTCACCTTCC GCAACCCCTC GCGTCTGCCC CTGCAGTTCG AGTGGAGGGT CTCTGAGCAG 
    CATCGAAAGC TGCTGGCTGT CCAGCCCTCC AGGGGGCTAA TCCAGCCCAA CGAGAGACTT 
    ACGCTGACGT GGACCTTCAG CCCTTTGGAG GAGACCAAGT ACCTGTTCCA AGTGGGGATG 
    TGGGTCTGGG AAGCCGGCCT GTCCCCAAAT GCCAACCCCG CTGCCACCAC CCACTACATG 
    CTCCGGCTGG TGGGCGTTGG GCTCACCAGC AGCCTCTCTG CAAAGGAAAA GGAGCTGGCC 
    TTTGGGAATG TGCTGGTGAA CAGCAAGCAG TCCAGGTTCC TTGTCCTCCT GAATGACGGC 
    AACTGCACCC TCTATTACCG CCTCTACCTG GAGCAGGGCA GCCCTGAGGC CGTTGACAAC 
    CACCCCCTCG CTCTGCAGCT GGACCGAACA GAGGGGAGCA TGCCACCCCG GTCCCAGGAC 
    ACCATCTGCC TGACTGCCTG TCCCAAGCAG CGGTCCCAGT ACTCCTGGAC CATCACCTAC 
    TCTCTCCTTT CCCACAGAGA TAACAAGGCT GGGGAGAAGC AGGAGCTGTG CTGCGTCTCC 
    CTGGTGGCCG TGTACCCCTT GCTTTCCATC CTGGATGTCA GCTCCATGGG CAGTGCTGAG 
    GGTATCACCC GGAAGCACCT GTGGCGCCTC TTCTCTCTGG ACCTGCTTAA CAGTTACTTG 
    GAGCGTGACC CCACCCCCTG TGAGCTCACC TACAAGGTGC CCACCCGGCA CAGCATGAGC 
    CAGATCCCCC CCGTCCTCAC CCCTTTAAGG CTTGACTTCA ATTTCGGGGC CGCACCATTC 
    AAGGCCCCAC CTTCCGTGGT ATTCCTGGCC CTGAAGAACA GCGGAGTGGT GTCCCTGGAC 
    TGGGCCTTCC TCCTTCCAAG TGACCAGCGG ATTGACGTGG AGCTCTGGGC AGAGCAAGCA 
    GAGTTGAATT CCACTGAGCT CCACCAGATG CGCGTGCAGG ACAATTGCCT CTTCTCCATC 
    AGCCCCAAGG CTGGGAGCCT GAGTCCTGGG CAGGAGCAGA TGGTGGAGTT AAAATACAGC 
    CACCTGTTCA TCGGTACTGA TCACCTCCCA GTGCTCTTCA AGGTGTCCCA TGGCCGGGAG 
    ATCCTGCTAA ATTTCATAGG TGTGACAGTG AAGCCGGAGC AGAAGTATGT GCACTTCACC 
    TCTACTACCC ACCAGTTCAT CCCCATTCCC ATTGGTGACA CGCTACCCCC ACGGCAGATT 
    TATGAGCTGT ATAATGGTGG CTCAGTGCCC GTGACATATG AGGTCCAGAC CGATGTCCTG 
    TCACAGGTTC AGGAAAAAAA TTTTGATCAC CCCATCTTTT GCTGCCTCAA CCCCAAAGGG 
    GAGATCCAGC CAGGCAGCAC TGCCCGGGTC TTGTGGATCT TCTCACCTAT CGAGGCCAAG 
    ACCTACACGG TGGACGTGCC CATACACATC CTGGGATGGA ACTCGGCCCT CATCCACTTC 
    CAGGGAGTGG GCTACAACCC CCATATGATG GGGGACACAG CCCCATTCCA CAACATCTCC 
    TCGTGGGACA ACAGTTCCAT ACACTCTAGG CTGGTGGTGC CTGGACAGAA TGTCTTCCTG 
    TCCCAGTCTC ATATTTCCCT GGGAAACATA CCTGTGCAGA GCAAGTGCAG CCGCCTGCTC 
    TTCCTCAACA ACATCTCCAA GAACGAGGAA ATTGCCTTCT CCTGGCAGCC AAGTCCTCTA 
    GATTTTGGGG AGGTGTCTGT GAGTCCCATG ATAGGGGTGG TGGCTCCTGA AGAGACGGTC 
    CCATTTGTGG TGACCTTGAG GGCCTCTGTG CATGCCAGCT TCTACAGTGC AGACCTGGTA 
    TGCAAGCTGT ACTCGCAGCA GCTCATGAGG CAGTATCACA AGGAGCTGCA GGAGTGGAAG 
    GACGAGAAGG TGCGGCAGGA AGTGGAGTTC ACCATCACCG ACATGAAAGT GAAGAAGAGA 
    ACATGCTGCA CAGCCTGTGA ACCTGCGAGG AAGTACAAGA CACTGCCTCC CATCAAGAAC 
    CAGCAGTCTG TCAGCCGGCC TGCCAGCTGG AAACTGCAGA CCCCAAAGGA GGAGGTGTCC 
    TGGCCCTGCC CCCAGCCACC CTCGCCAGGC ATGCTCTGCC TGGGCCTTAC TGCCCGAGCC 
    CATGCCACCG ACTACTTTCT GGCTAACTTC TTCTCAGAGT TTCCCTGCCA CTTTTTGCAC 
    CGCATGGTGG CTTGCCCAGG CCACTCAGAA TGTCATGGCT GCCACAGGGA GCTGCCAAAG 
    AGGAAGGCCC CCAGGGAAGA GTCAGAGACT TCTGAGGAAA AATCCCCTAA CAAGTGGGGC 
    CCTGTTTCCA AGCAGAAGAA GCAGCTCCTG GTTGACATTC TCACCACAAT AATCAGGGGC 
    CTGCTGGAAG ACAAGAACTT CCATGAGGCT GTGGACCAAA GCCTGGTGGA GCAGGTGCCG 
    TACTTCCGCC AATTCTGGAA TGAGCAGTCA ACTAAGTTCA TGGACCAGAA AAACAGCCTG 
    TACTTAATGC CAATCCTGCC TGTACCCTCC AGCAGCTGGG AGGATGGGAA GGGCAAGCAG 
    CCGAAGGAAG ACAGACCAGA GCACTATCCA GGGTTGGGAA AGAAGGAAGA GGGGGAGGAG 
    GAGAAGGGTG AAGAGGAAGA AGAAGAGTTG GAGGAGGAAG AGGAGGAAGA AGAGGAGACA 
    GAAGAGGAGG AGTTGGGCAA GGAGGAGATA GAGGAGAAGG AGGAGGAGAG GGATGAGAAG 
    GAAGAGAAAG TGAGCTGGGC GGGCATCGGG CCCACACCAC AGCCTGAGTC CCAGGAGTCC 
    ATGCAATGGC AGTGGCAACA GCAGCTGAAT GTCATGGTGA AGGAGGAGCA AGAACAGGAC 
    GAGAAGGAGG CCATCAGAAG GCTCCCGGCC TTCGCCAACC TGCAGGAGGC GCTGCTGGAG 
    AACATGATCC AGAACATCCT GGTGGAGGCG AGCCGCGGGG AGGTGGTACT CACCTCGCGG 
    CCACGCGTCA TCGCCCTGCC GCCGTTCTGC GTGCCCAGGA GTCTGACCCC GGACACGCTG 
    CTGCCGACGC AGCAAGCAGA GGTACTCCAC CCGGTGGTGC CACTTCCTAC CGACCTTCCG 
    TAA

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

    CFAP65 ( XM_011510910.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509212.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu78298
    Clone ID Related Accession (Same CDS sequence) XM_011510910.1
    Accession Version XM_011510910.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5781bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGGGAGC TGCCAAAGAG GAAGGCCCCC AGGGAAGAGT CAGAGACTTC TGAGGAAAAA 
    TCCCCTAACA AGTGGGGCCC TGTTTCCAAG CAGAAGAAGC AGCTCCTGGT TGACATTCTC 
    ACCACAATAA TCAGGGGCCT GCTGGAAGAC AAGAACTTCC ATGAGGCTGT GGACCAAAGC 
    CTGGTGGAGC AGGTGCCGTA CTTCCGCCAA TTCTGGAATG AGCAGTCAAC TAAGTTCATG 
    GACCAGAAAA ACAGCCTGTA CTTAATGCCA ATCCTGCCTG TACCCTCCAG CAGCTGGGAG 
    GATGGGAAGG GCAAGCAGCC GAAGGAAGAC AGACCAGAGC ACTATCCAGG GTTGGGAAAG 
    AAGGAAGAGG GGGAGGAGGA GAAGGGTGAA GAGGAAGAAG AAGAGTTGGA GGAGGAAGAG 
    GAGGAAGAAG AGGAGACAGA AGAGGAGGAG TTGGGCAAGG AGGAGATAGA GGAGAAGGAG 
    GAGGAGAGGG ATGAGAAGGA AGAGAAAGTG AGCTGGGCGG GCATCGGGCC CACACCACAG 
    CCTGAGTCCC AGGAGTCCAT GCAATGGCAG TGGCAACAGC AGCTGAATGT CATGGTGAAG 
    GAGGAGCAAG AACAGGACGA GAAGGAGGCC ATCAGAAGGC TCCCGGCCTT CGCCAACCTG 
    CAGGAGGCGC TGCTGGAGAA CATGATCCAG AACATCCTGG TGGAGGCGAG CCGCGGGGAG 
    GTGGTACTCA CCTCGCGGCC ACGCGTCATC GCCCTGCCGC CGTTCTGCGT GCCCAGGAGT 
    CTGACCCCGG ACACGCTGCT GCCGACGCAG CAAGCAGAGG TACTCCACCC GGTGGTGCCA 
    CTTCCTACCG ACCTTCCGTA A

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

    RefSeq XP_011509212.1
    CDS171..5951
    Translation

    Target ORF information:

    RefSeq Version XM_011510910.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510910.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGAA GGAGTACATG 
    GACCAGCTGT GGTTTGAGAA AGCGGAGGGG ATGTTCTGTG TCGGCCTACG GGCCACCCTG 
    CCCTGCCACA GGCTGATCTG CCGCCCACCA TCCCTGCAGC TGCCCATGTG TGCTGTGGGA 
    GATACGACTG AGGCCTTTTT CTGCCTGGAT AATGTGGGGG ACCTGCCCAC CTTCTTCACC 
    TGGGAGTTCT CCAGCCCATT CCAGATGCTG CCCGCCACGG GGCTCCTGGA GCCAGGCCAG 
    GCCTCTCAGA TCAAGGTGAC CTTTCAGCCC CTTACAGCCG TCATCTACGA GGTGCAGGCC 
    ACGTGCTGGT ACGGGGCGGG CAGCCGGCAG AGGAGCAGCA TCCAGCTGCA GGCTGTGGCC 
    AAGTGCGCCC AGCTGCTGGT GAGCATAAAG CACAAGTGCC CGGAGGACCA GGATGCCGAG 
    GGCTTCCAGA AGCTGTTGTA CTTTGGCTCT GTTGCTGTGG GCTGCACCTC GGAGAGGCAG 
    ATCAGGCTAC ACAACCCGTC GGCGGTAAAT GCCCCCTTCA GGATTGAAAT TTCCCCGGAT 
    GAACTGGCCG AAGACCAGGC CTTCTCATGC CCCACGGCCC ATGGCATCGT GCTTCCGGGA 
    GAGAAGAAAT GTGTGTCGGT GTTCTTCCAC CCCAAGACTC TGGACACCAG AACTGTGGAC 
    TACTGCTCCA TCATGCCTTC TGGCTGTGCC TCCAAGACCC TGCTTAAAGT CGTTGGTTTC 
    TGTAGAGGCC CTGCTGTGTC CCTGCAGCAC TACTGTGTCA ACTTCAGCTG GGTCAACCTT 
    GGGGAGCGCT CCGAGCAGCC CCTGTGGATT GAGAACCAAT CGGACTGCAC GGCCCACTTC 
    CAGTTTGCCA TCGACTGCTT GGAGAGTGTC TTTACCATCA GGCCTGCCTT TGGGACGCTG 
    GTGGGCAAGG CCCGTATGAC CCTGCACTGT GCCTTCCAGC CCACTCACCC CATCATCTGC 
    TTTCGGCGTG TGGCCTGTCT CATCCACCAC CAGGACCCAC TGTTCCTGGA CCTGATGGGG 
    ACCTGCCACT CGGACAGCAC CAAGCCAGCC ATCCTGAAGC CTCAGCACCT CACCTGGTAC 
    CGCACACACC TGGCCCGGGG CCTGACGCTC TACCCCCCTG ACATCCTGGA TGCCATGCTG 
    AAGGAGAAGA AGCTGGCACA GGACCAGAAC GGGGCTCTCA TGATTCCCAT CCAGGATCTG 
    GAGGACATGC CGGCCCCGCA GTACCCTTAT ATCCCCCCCA TGACCGAGTT CTTCTTCGAC 
    GGCACCAGCG ACATAACCAT CTTCCCCCCG CCCATCAGTG TAGAGCCTGT CGAGGTAGAC 
    TTCGGTGCCT GCCCAGGGCC TGAGGCCCCC AACCCTGTAC CCCTGTGCCT GATGAACCAC 
    ACCAAGGGCA AGATCATGGT GGTCTGGACG CGAAGGTCTG ACTGCCCCTT CTGGGTGACT 
    CCAGAGAGCT GCGACGTGCC CCCACTCAAG TCCATGGCCA TGCGCCTGCA CTTCCAGCCG 
    CCTCACCCCA ACTGCCTTTA CACGGTGGAG CTCGAAGCCT TCGCCATCTA TAAGGTCCTG 
    CAGAGCTACA GTAATATTGA GGAGGACTGC ACCATGTGCC CATCCTGGTG CCTGACGGTG 
    CGGGCACGAG GCCACAGCTA TTTCGCTGGC TTTGAGCACC ACATCCCCCA GTATTCCCTA 
    GATGTCCCCA AGCTATTTCC AGCAGTGTCC TCCGGTGAGC CCACCTACCG CAGCCTGCTC 
    CTGGTCAACA AAGACTGCAA GCTGCTGACC TTCAGCCTGG CCCCCCAGAG AGGCTCAGAC 
    GTCATCCTTC GGCCCACTTC GGGCCTTGTG GCACCCGGGG CCCACCAGAT CATCCTCATC 
    TGCACCTACC CTGAGGGCAG CTCCTGGAAG CAGCACACTT TCTATCTGCA GTGCAATGCT 
    TCCCCCCAGT ATCTCAAGGA GGTGAGCATG TACAGCCGGG AGGAGCCACT GCAGCTGAAG 
    CTGGACACCC ACAAAAGCCT CTACTTCAAG CCCACCTGGG TGGGCTGCTC CTCCACCAGC 
    CCCTTCACCT TCCGCAACCC CTCGCGTCTG CCCCTGCAGT TCGAGTGGAG GGTCTCTGAG 
    CAGCATCGAA AGCTGCTGGC TGTCCAGCCC TCCAGGGGGC TAATCCAGCC CAACGAGAGA 
    CTTACGCTGA CGTGGACCTT CAGCCCTTTG GAGGAGACCA AGTACCTGTT CCAAGTGGGG 
    ATGTGGGTCT GGGAAGCCGG CCTGTCCCCA AATGCCAACC CCGCTGCCAC CACCCACTAC 
    ATGCTCCGGC TGGTGGGCGT TGGGCTCACC AGCAGCCTCT CTGCAAAGGA AAAGGAGCTG 
    GCCTTTGGGA ATGTGCTGGT GAACAGCAAG CAGTCCAGGT TCCTTGTCCT CCTGAATGAC 
    GGCAACTGCA CCCTCTATTA CCGCCTCTAC CTGGAGCAGG GCAGCCCTGA GGCCGTTGAC 
    AACCACCCCC TCGCTCTGCA GCTGGACCGA ACAGAGGGGA GCATGCCACC CCGGTCCCAG 
    GACACCATCT GCCTGACTGC CTGTCCCAAG CAGCGGTCCC AGTACTCCTG GACCATCACC 
    TACTCTCTCC TTTCCCACAG AGATAACAAG GCTGGGGAGA AGCAGGAGCT GTGCTGCGTC 
    TCCCTGGTGG CCGTGTACCC CTTGCTTTCC ATCCTGGATG TCAGCTCCAT GGGCAGTGCT 
    GAGGGTATCA CCCGGAAGCA CCTGTGGCGC CTCTTCTCTC TGGACCTGCT TAACAGTTAC 
    TTGGAGCGTG ACCCCACCCC CTGTGAGCTC ACCTACAAGG TGCCCACCCG GCACAGCATG 
    AGCCAGATCC CCCCCGTCCT CACCCCTTTA AGGCTTGACT TCAATTTCGG GGCCGCACCA 
    TTCAAGGCCC CACCTTCCGT GGTATTCCTG GCCCTGAAGA ACAGCGGAGT GGTGTCCCTG 
    GACTGGGCCT TCCTCCTTCC AAGTGACCAG CGGATTGACG TGGAGCTCTG GGCAGAGCAA 
    GCAGAGTTGA ATTCCACTGA GCTCCACCAG ATGCGCGTGC AGGACAATTG CCTCTTCTCC 
    ATCAGCCCCA AGGCTGGGAG CCTGAGTCCT GGGCAGGAGC AGATGGTGGA GTTAAAATAC 
    AGCCACCTGT TCATCGGTAC TGATCACCTC CCAGTGCTCT TCAAGGTGTC CCATGGCCGG 
    GAGATCCTGC TAAATTTCAT AGGTGTGACA GTGAAGCCGG AGCAGAAGTA TGTGCACTTC 
    ACCTCTACTA CCCACCAGTT CATCCCCATT CCCATTGGTG ACACGCTACC CCCACGGCAG 
    ATTTATGAGC TGTATAATGG TGGCTCAGTG CCCGTGACAT ATGAGGTCCA GACCGATGTC 
    CTGTCACAGG TTCAGGAAAA AAATTTTGAT CACCCCATCT TTTGCTGCCT CAACCCCAAA 
    GGGGAGATCC AGCCAGGCAG CACTGCCCGG GTCTTGTGGA TCTTCTCACC TATCGAGGCC 
    AAGACCTACA CGGTGGACGT GCCCATACAC ATCCTGGGAT GGAACTCGGC CCTCATCCAC 
    TTCCAGGGAG TGGGCTACAA CCCCCATATG ATGGGGGACA CAGCCCCATT CCACAACATC 
    TCCTCGTGGG ACAACAGTTC CATACACTCT AGGCTGGTGG TGCCTGGACA GAATGTCTTC 
    CTGTCCCAGT CTCATATTTC CCTGGGAAAC ATACCTGTGC AGAGCAAGTG CAGCCGCCTG 
    CTCTTCCTCA ACAACATCTC CAAGAACGAG GAAATTGCCT TCTCCTGGCA GCCAAGTCCT 
    CTAGATTTTG GGGAGGTGTC TGTGAGTCCC ATGATAGGGG TGGTGGCTCC TGAAGAGACG 
    GTCCCATTTG TGGTGACCTT GAGGGCCTCT GTGCATGCCA GCTTCTACAG TGCAGACCTG 
    GTATGCAAGC TGTACTCGCA GCAGCTCATG AGGCAGTATC ACAAGGAGCT GCAGGAGTGG 
    AAGGACGAGA AGGTGCGGCA GGAAGTGGAG TTCACCATCA CCGACATGAA AGTGAAGAAG 
    AGAACATGCT GCACAGCCTG TGAACCTGCG AGGAAGTACA AGACACTGCC TCCCATCAAG 
    AACCAGCAGT CTGTCAGCCG GCCTGCCAGC TGGAAACTGC AGACCCCAAA GGAGGAGGTG 
    TCCTGGCCCT GCCCCCAGCC ACCCTCGCCA GGCATGCTCT GCCTGGGCCT TACTGCCCGA 
    GCCCATGCCA CCGACTACTT TCTGGCTAAC TTCTTCTCAG AGTTTCCCTG CCACTTTTTG 
    CACCGGGAGC TGCCAAAGAG GAAGGCCCCC AGGGAAGAGT CAGAGACTTC TGAGGAAAAA 
    TCCCCTAACA AGTGGGGCCC TGTTTCCAAG CAGAAGAAGC AGCTCCTGGT TGACATTCTC 
    ACCACAATAA TCAGGGGCCT GCTGGAAGAC AAGAACTTCC ATGAGGCTGT GGACCAAAGC 
    CTGGTGGAGC AGGTGCCGTA CTTCCGCCAA TTCTGGAATG AGCAGTCAAC TAAGTTCATG 
    GACCAGAAAA ACAGCCTGTA CTTAATGCCA ATCCTGCCTG TACCCTCCAG CAGCTGGGAG 
    GATGGGAAGG GCAAGCAGCC GAAGGAAGAC AGACCAGAGC ACTATCCAGG GTTGGGAAAG 
    AAGGAAGAGG GGGAGGAGGA GAAGGGTGAA GAGGAAGAAG AAGAGTTGGA GGAGGAAGAG 
    GAGGAAGAAG AGGAGACAGA AGAGGAGGAG TTGGGCAAGG AGGAGATAGA GGAGAAGGAG 
    GAGGAGAGGG ATGAGAAGGA AGAGAAAGTG AGCTGGGCGG GCATCGGGCC CACACCACAG 
    CCTGAGTCCC AGGAGTCCAT GCAATGGCAG TGGCAACAGC AGCTGAATGT CATGGTGAAG 
    GAGGAGCAAG AACAGGACGA GAAGGAGGCC ATCAGAAGGC TCCCGGCCTT CGCCAACCTG 
    CAGGAGGCGC TGCTGGAGAA CATGATCCAG AACATCCTGG TGGAGGCGAG CCGCGGGGAG 
    GTGGTACTCA CCTCGCGGCC ACGCGTCATC GCCCTGCCGC CGTTCTGCGT GCCCAGGAGT 
    CTGACCCCGG ACACGCTGCT GCCGACGCAG CAAGCAGAGG TACTCCACCC GGTGGTGCCA 
    CTTCCTACCG ACCTTCCGTA A

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

    CFAP65 ( XM_017003754.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859243.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_017003754.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_016859243.1
    CDS214..5841
    Translation

    Target ORF information:

    RefSeq Version XM_017003754.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003754.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510915.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509217.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_011510915.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_011509217.1
    CDS122..5749
    Translation

    Target ORF information:

    RefSeq Version XM_011510915.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510915.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510912.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509214.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_011510912.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_011509214.1
    CDS263..5890
    Translation

    Target ORF information:

    RefSeq Version XM_011510912.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510912.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_017003755.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859244.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_017003755.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_016859244.1
    CDS1798..7425
    Translation

    Target ORF information:

    RefSeq Version XM_017003755.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003755.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510911.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509213.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_011510911.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_011509213.1
    CDS220..5847
    Translation

    Target ORF information:

    RefSeq Version XM_011510911.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510911.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510914.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509216.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu78299
    Clone ID Related Accession (Same CDS sequence) XM_017003754.1 , XM_011510915.1 , XM_011510912.1 , XM_017003755.1 , XM_011510911.1 , XM_011510914.1
    Accession Version XM_011510914.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    RefSeq XP_011509216.1
    CDS160..5787
    Translation

    Target ORF information:

    RefSeq Version XM_011510914.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510914.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGATGCTCA CCCAGGCTCC AAGCTCCGTC GTGAGGTCCA GGAACAGCAG GAACCACACC 
    GTGAACTCTG GTGGATCCTG CCTGAGTGCC AGCACAGTGG CCATCCCTGC CATCAACGAC 
    AGCAGTGCAG CCATGAGTGC CTGCAGCACC ATCAGCGCCC AGCCCGCAAG CTCCATGGAC 
    ACTCAGATGC ACTCCCCAAA GAAGCAGGAG AGAGTGAACA AGAGGGTCAT CTGGGGCATT 
    GAGGTGGCTG AGGAGCTGCA TTGGAAAGGC TGGGAGCTAG GAAAGGAGAC CACAAGGAAT 
    CTGGTTCTGA AAAATCGATC CTTGAAACTC CAGAAGATGA AGTACAGGCC CCCCAAGACC 
    AAGTTCTTCT TCACGGTCAT CCCTCAGCCC ATCTTCCTGA GCCCAGGCAT AACCCTCACG 
    CTCCCCATCG TCTTCCGGCC TCTGGAGGCG AAGGAGTACA TGGACCAGCT GTGGTTTGAG 
    AAAGCGGAGG GGATGTTCTG TGTCGGCCTA CGGGCCACCC TGCCCTGCCA CAGGCTGATC 
    TGCCGCCCAC CATCCCTGCA GCTGCCCATG TGTGCTGTGG GAGATACGAC TGAGGCCTTT 
    TTCTGCCTGG ATAATGTGGG GGACCTGCCC ACCTTCTTCA CCTGGGAGTT CTCCAGCCCA 
    TTCCAGATGC TGCCCGCCAC GGGGCTCCTG GAGCCAGGCC AGGCCTCTCA GATCAAGGTG 
    ACCTTTCAGC CCCTTACAGC CGTCATCTAC GAGGTGCAGG CCACGTGCTG GTACGGGGCG 
    GGCAGCCGGC AGAGGAGCAG CATCCAGCTG CAGGCTGTGG CCAAGTGCGC CCAGCTGCTG 
    GTGAGCATAA AGCACAAGTG CCCGGAGGAC CAGGATGCCG AGGGCTTCCA GAAGCTGTTG 
    TACTTTGGCT CTGTTGCTGT GGGCTGCACC TCGGAGAGGC AGATCAGGCT ACACAACCCG 
    TCGGCGGTAA ATGCCCCCTT CAGGATTGAA ATTTCCCCGG ATGAACTGGC CGAAGACCAG 
    GCCTTCTCAT GCCCCACGGC CCATGGCATC GTGCTTCCGG GAGAGAAGAA ATGTGTGTCG 
    GTGTTCTTCC ACCCCAAGAC TCTGGACACC AGAACTGTGG ACTACTGCTC CATCATGCCT 
    TCTGGCTGTG CCTCCAAGAC CCTGCTTAAA GTCGTTGGTT TCTGTAGAGG CCCTGCTGTG 
    TCCCTGCAGC ACTACTGTGT CAACTTCAGC TGGGTCAACC TTGGGGAGCG CTCCGAGCAG 
    CCCCTGTGGA TTGAGAACCA ATCGGACTGC ACGGCCCACT TCCAGTTTGC CATCGACTGC 
    TTGGAGAGTG TCTTTACCAT CAGGCCTGCC TTTGGGACGC TGGTGGGCAA GGCCCGTATG 
    ACCCTGCACT GTGCCTTCCA GCCCACTCAC CCCATCATCT GCTTTCGGCG TGTGGCCTGT 
    CTCATCCACC ACCAGGACCC ACTGTTCCTG GACCTGATGG GGACCTGCCA CTCGGACAGC 
    ACCAAGCCAG CCATCCTGAA GCCTCAGCAC CTCACCTGGT ACCGCACACA CCTGGCCCGG 
    GGCCTGACGC TCTACCCCCC TGACATCCTG GATGCCATGC TGAAGGAGAA GAAGCTGGCA 
    CAGGACCAGA ACGGGGCTCT CATGATTCCC ATCCAGGATC TGGAGGACAT GCCGGCCCCG 
    CAGTACCCTT ATATCCCCCC CATGACCGAG TTCTTCTTCG ACGGCACCAG CGACATAACC 
    ATCTTCCCCC CGCCCATCAG TGTAGAGCCT GTCGAGGTAG ACTTCGGTGC CTGCCCAGGG 
    CCTGAGGCCC CCAACCCTGT ACCCCTGTGC CTGATGAACC ACACCAAGGG CAAGATCATG 
    GTGGTCTGGA CGCGAAGGTC TGACTGCCCC TTCTGGGTGA CTCCAGAGAG CTGCGACGTG 
    CCCCCACTCA AGTCCATGGC CATGCGCCTG CACTTCCAGC CGCCTCACCC CAACTGCCTT 
    TACACGGTGG AGCTCGAAGC CTTCGCCATC TATAAGGTCC TGCAGAGCTA CAGTAATATT 
    GAGGAGGACT GCACCATGTG CCCATCCTGG TGCCTGACGG TGCGGGCACG AGGCCACAGC 
    TATTTCGCTG GCTTTGAGCA CCACATCCCC CAGTATTCCC TAGATGTCCC CAAGCTATTT 
    CCAGCAGTGT CCTCCGGTGA GCCCACCTAC CGCAGCCTGC TCCTGGTCAA CAAAGACTGC 
    AAGCTGCTGA CCTTCAGCCT GGCCCCCCAG AGAGGCTCAG ACGTCATCCT TCGGCCCACT 
    TCGGGCCTTG TGGCACCCGG GGCCCACCAG ATCATCCTCA TCTGCACCTA CCCTGAGGGC 
    AGCTCCTGGA AGCAGCACAC TTTCTATCTG CAGTGCAATG CTTCCCCCCA GTATCTCAAG 
    GAGGTGAGCA TGTACAGCCG GGAGGAGCCA CTGCAGCTGA AGCTGGACAC CCACAAAAGC 
    CTCTACTTCA AGCCCACCTG GGTGGGCTGC TCCTCCACCA GCCCCTTCAC CTTCCGCAAC 
    CCCTCGCGTC TGCCCCTGCA GTTCGAGTGG AGGGTCTCTG AGCAGCATCG AAAGCTGCTG 
    GCTGTCCAGC CCTCCAGGGG GCTAATCCAG CCCAACGAGA GACTTACGCT GACGTGGACC 
    TTCAGCCCTT TGGAGGAGAC CAAGTACCTG TTCCAAGTGG GGATGTGGGT CTGGGAAGCC 
    GGCCTGTCCC CAAATGCCAA CCCCGCTGCC ACCACCCACT ACATGCTCCG GCTGGTGGGC 
    GTTGGGCTCA CCAGCAGCCT CTCTGCAAAG GAAAAGGAGC TGGCCTTTGG GAATGTGCTG 
    GTGAACAGCA AGCAGTCCAG GTTCCTTGTC CTCCTGAATG ACGGCAACTG CACCCTCTAT 
    TACCGCCTCT ACCTGGAGCA GGGCAGCCCT GAGGCCGTTG ACAACCACCC CCTCGCTCTG 
    CAGCTGGACC GAACAGAGGG GAGCATGCCA CCCCGGTCCC AGGACACCAT CTGCCTGACT 
    GCCTGTCCCA AGCAGCGGTC CCAGTACTCC TGGACCATCA CCTACTCTCT CCTTTCCCAC 
    AGAGATAACA AGGCTGGGGA GAAGCAGGAG CTGTGCTGCG TCTCCCTGGT GGCCGTGTAC 
    CCCTTGCTTT CCATCCTGGA TGTCAGCTCC ATGGGCAGTG CTGAGGGTAT CACCCGGAAG 
    CACCTGTGGC GCCTCTTCTC TCTGGACCTG CTTAACAGTT ACTTGGAGCG TGACCCCACC 
    CCCTGTGAGC TCACCTACAA GGTGCCCACC CGGCACAGCA TGAGCCAGAT CCCCCCCGTC 
    CTCACCCCTT TAAGGCTTGA CTTCAATTTC GGGGCCGCAC CATTCAAGGC CCCACCTTCC 
    GTGGTATTCC TGGCCCTGAA GAACAGCGGA GTGGTGTCCC TGGACTGGGC CTTCCTCCTT 
    CCAAGTGACC AGCGGATTGA CGTGGAGCTC TGGGCAGAGC AAGCAGAGTT GAATTCCACT 
    GAGCTCCACC AGATGCGCGT GCAGGACAAT TGCCTCTTCT CCATCAGCCC CAAGGCTGGG 
    AGCCTGAGTC CTGGGCAGGA GCAGATGGTG GAGTTAAAAT ACAGCCACCT GTTCATCGGT 
    ACTGATCACC TCCCAGTGCT CTTCAAGGTG TCCCATGGCC GGGAGATCCT GCTAAATTTC 
    ATAGGTGTGA CAGTGAAGCC GGAGCAGAAG TATGTGCACT TCACCTCTAC TACCCACCAG 
    TTCATCCCCA TTCCCATTGG TGACACGCTA CCCCCACGGC AGATTTATGA GCTGTATAAT 
    GGTGGCTCAG TGCCCGTGAC ATATGAGGTC CAGACCGATG TCCTGTCACA GGTTCAGGAA 
    AAAAATTTTG ATCACCCCAT CTTTTGCTGC CTCAACCCCA AAGGGGAGAT CCAGCCAGGC 
    AGCACTGCCC GGGTCTTGTG GATCTTCTCA CCTATCGAGG CCAAGACCTA CACGGTGGAC 
    GTGCCCATAC ACATCCTGGG ATGGAACTCG GCCCTCATCC ACTTCCAGGG AGTGGGCTAC 
    AACCCCCATA TGATGGGGGA CACAGCCCCA TTCCACAACA TCTCCTCGTG GGACAACAGT 
    TCCATACACT CTAGGCTGGT GGTGCCTGGA CAGAATGTCT TCCTGTCCCA GTCTCATATT 
    TCCCTGGGAA ACATACCTGT GCAGAGCAAG TGCAGCCGCC TGCTCTTCCT CAACAACATC 
    TCCAAGAACG AGGAAATTGC CTTCTCCTGG CAGCCAAGTC CTCTAGATTT TGGGGAGGTG 
    TCTGTGAGTC CCATGATAGG GGTGGTGGCT CCTGAAGAGA CGGTCCCATT TGTGGTGACC 
    TTGAGGGCCT CTGTGCATGC CAGCTTCTAC AGTGCAGACC TGGTATGCAA GCTGTACTCG 
    CAGCAGCTCA TGAGGCAGTA TCACAAGGAG CTGCAGGAGT GGAAGGACGA GAAGGTGCGG 
    CAGGAAGTGG AGTTCACCAT CACCGACATG AAAGTGAAGA AGAGAACATG CTGCACAGCC 
    TGTGAACCTG CGAGGAAGTA CAAGACACTG CCTCCCATCA AGAACCAGCA GTCTGTCAGC 
    CGGCCTGCCA GCTGGAAACT GCAGACCCCA AAGGAGGAGG TGTCCTGGCC CTGCCCCCAG 
    CCACCCTCGC CAGGCATGCT CTGCCTGGGC CTTACTGCCC GAGCCCATGC CACCGACTAC 
    TTTCTGGCTA ACTTCTTCTC AGAGTTTCCC TGCCACTTTT TGCACCGCAT GGTGGCTTGC 
    CCAGGCCACT CAGAATGTCA TGGCTGCCAC AGGGAGCTGC CAAAGAGGAA GGCCCCCAGG 
    GAAGAGTCAG AGACTTCTGA GGAAAAATCC CCTAACAAGT GGGGCCCTGT TTCCAAGCAG 
    AAGAAGCAGC TCCTGGTTGA CATTCTCACC ACAATAATCA GGGGCCTGCT GGAAGACAAG 
    AACTTCCATG AGGCTGTGGA CCAAAGCCTG GTGGAGCAGG TGCCGTACTT CCGCCAATTC 
    TGGAATGAGC AGTCAACTAA GTTCATGGAC CAGAAAAACA GCCTGTACTT AATGCCAATC 
    CTGCCTGTAC CCTCCAGCAG CTGGGAGGAT GGGAAGGGCA AGCAGCCGAA GGAAGACAGA 
    CCAGAGCACT ATCCAGGGTT GGGAAAGAAG GAAGAGGGGG AGGAGGAGAA GGGTGAAGAG 
    GAAGAAGAAG AGTTGGAGGA GGAAGAGGAG GAAGAAGAGG AGACAGAAGA GGAGGAGTTG 
    GGCAAGGAGG AGATAGAGGA GAAGGAGGAG GAGAGGGATG AGAAGGAAGA GAAAGTGAGC 
    TGGGCGGGCA TCGGGCCCAC ACCACAGCCT GAGTCCCAGG AGTCCATGCA ATGGCAGTGG 
    CAACAGCAGC TGAATGTCAT GGTGAAGGAG GAGCAAGAAC AGGACGAGAA GGAGGCCATC 
    AGAAGGCTCC CGGCCTTCGC CAACCTGCAG GAGGCGCTGC TGGAGAACAT GATCCAGAAC 
    ATCCTGGTGG AGGCGAGCCG CGGGGAGGTG GTACTCACCT CGCGGCCACG CGTCATCGCC 
    CTGCCGCCGT TCTGCGTGCC CAGGAGTCTG ACCCCGGACA CGCTGCTGCC GACGCAGCAA 
    GCAGAGGTAC TCCACCCGGT GGTGCCACTT CCTACCGACC TTCCGTAA

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

    CFAP65 ( XM_011510916.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509218.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu78300
    Clone ID Related Accession (Same CDS sequence) XM_011510916.1
    Accession Version XM_011510916.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5547bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGCC CCTTACAGCC 
    GTCATCTACG AGGTGCAGGC CACGTGCTGG TACGGGGCGG GCAGCCGGCA GAGGAGCAGC 
    ATCCAGCTGC AGGCTGTGGC CAAGTGCGCC CAGCTGCTGG TGAGCATAAA GCACAAGTGC 
    CCGGAGGACC AGGATGCCGA GGGCTTCCAG AAGCTGTTGT ACTTTGGCTC TGTTGCTGTG 
    GGCTGCACCT CGGAGAGGCA GATCAGGCTA CACAACCCGT CGGCGGTAAA TGCCCCCTTC 
    AGGATTGAAA TTTCCCCGGA TGAACTGGCC GAAGACCAGG CCTTCTCATG CCCCACGGCC 
    CATGGCATCG TGCTTCCGGG AGAGAAGAAA TGTGTGTCGG TGTTCTTCCA CCCCAAGACT 
    CTGGACACCA GAACTGTGGA CTACTGCTCC ATCATGCCTT CTGGCTGTGC CTCCAAGACC 
    CTGCTTAAAG TCGTTGGTTT CTGTAGAGGC CCTGCTGTGT CCCTGCAGCA CTACTGTGTC 
    AACTTCAGCT GGGTCAACCT TGGGGAGCGC TCCGAGCAGC CCCTGTGGAT TGAGAACCAA 
    TCGGACTGCA CGGCCCACTT CCAGTTTGCC ATCGACTGCT TGGAGAGTGT CTTTACCATC 
    AGGCCTGCCT TTGGGACGCT GGTGGGCAAG GCCCGTATGA CCCTGCACTG TGCCTTCCAG 
    CCCACTCACC CCATCATCTG CTTTCGGCGT GTGGCCTGTC TCATCCACCA CCAGGACCCA 
    CTGTTCCTGG ACCTGATGGG GACCTGCCAC TCGGACAGCA CCAAGCCAGC CATCCTGAAG 
    CCTCAGCACC TCACCTGGTA CCGCACACAC CTGGCCCGGG GCCTGACGCT CTACCCCCCT 
    GACATCCTGG ATGCCATGCT GAAGGAGAAG AAGCTGGCAC AGGACCAGAA CGGGGCTCTC 
    ATGATTCCCA TCCAGGATCT GGAGGACATG CCGGCCCCGC AGTACCCTTA TATCCCCCCC 
    ATGACCGAGT TCTTCTTCGA CGGCACCAGC GACATAACCA TCTTCCCCCC GCCCATCAGT 
    GTAGAGCCTG TCGAGGTAGA CTTCGGTGCC TGCCCAGGGC CTGAGGCCCC CAACCCTGTA 
    CCCCTGTGCC TGATGAACCA CACCAAGGGC AAGATCATGG TGGTCTGGAC GCGAAGGTCT 
    GACTGCCCCT TCTGGGTGAC TCCAGAGAGC TGCGACGTGC CCCCACTCAA GTCCATGGCC 
    ATGCGCCTGC ACTTCCAGCC GCCTCACCCC AACTGCCTTT ACACGGTGGA GCTCGAAGCC 
    TTCGCCATCT ATAAGGTCCT GCAGAGCTAC AGTAATATTG AGGAGGACTG CACCATGTGC 
    CCATCCTGGT GCCTGACGGT GCGGGCACGA GGCCACAGCT ATTTCGCTGG CTTTGAGCAC 
    CACATCCCCC AGTATTCCCT AGATGTCCCC AAGCTATTTC CAGCAGTGTC CTCCGGTGAG 
    CCCACCTACC GCAGCCTGCT CCTGGTCAAC AAAGACTGCA AGCTGCTGAC CTTCAGCCTG 
    GCCCCCCAGA GAGGCTCAGA CGTCATCCTT CGGCCCACTT CGGGCCTTGT GGCACCCGGG 
    GCCCACCAGA TCATCCTCAT CTGCACCTAC CCTGAGGGCA GCTCCTGGAA GCAGCACACT 
    TTCTATCTGC AGTGCAATGC TTCCCCCCAG TATCTCAAGG AGGTGAGCAT GTACAGCCGG 
    GAGGAGCCAC TGCAGCTGAA GCTGGACACC CACAAAAGCC TCTACTTCAA GCCCACCTGG 
    GTGGGCTGCT CCTCCACCAG CCCCTTCACC TTCCGCAACC CCTCGCGTCT GCCCCTGCAG 
    TTCGAGTGGA GGGTCTCTGA GCAGCATCGA AAGCTGCTGG CTGTCCAGCC CTCCAGGGGG 
    CTAATCCAGC CCAACGAGAG ACTTACGCTG ACGTGGACCT TCAGCCCTTT GGAGGAGACC 
    AAGTACCTGT TCCAAGTGGG GATGTGGGTC TGGGAAGCCG GCCTGTCCCC AAATGCCAAC 
    CCCGCTGCCA CCACCCACTA CATGCTCCGG CTGGTGGGCG TTGGGCTCAC CAGCAGCCTC 
    TCTGCAAAGG AAAAGGAGCT GGCCTTTGGG AATGTGCTGG TGAACAGCAA GCAGTCCAGG 
    TTCCTTGTCC TCCTGAATGA CGGCAACTGC ACCCTCTATT ACCGCCTCTA CCTGGAGCAG 
    GGCAGCCCTG AGGCCGTTGA CAACCACCCC CTCGCTCTGC AGCTGGACCG AACAGAGGGG 
    AGCATGCCAC CCCGGTCCCA GGACACCATC TGCCTGACTG CCTGTCCCAA GCAGCGGTCC 
    CAGTACTCCT GGACCATCAC CTACTCTCTC CTTTCCCACA GAGATAACAA GGCTGGGGAG 
    AAGCAGGAGC TGTGCTGCGT CTCCCTGGTG GCCGTGTACC CCTTGCTTTC CATCCTGGAT 
    GTCAGCTCCA TGGGCAGTGC TGAGGGTATC ACCCGGAAGC ACCTGTGGCG CCTCTTCTCT 
    CTGGACCTGC TTAACAGTTA CTTGGAGCGT GACCCCACCC CCTGTGAGCT CACCTACAAG 
    GTGCCCACCC GGCACAGCAT GAGCCAGATC CCCCCCGTCC TCACCCCTTT AAGGCTTGAC 
    TTCAATTTCG GGGCCGCACC ATTCAAGGCC CCACCTTCCG TGGTATTCCT GGCCCTGAAG 
    AACAGCGGAG TGGTGTCCCT GGACTGGGCC TTCCTCCTTC CAAGTGACCA GCGGATTGAC 
    GTGGAGCTCT GGGCAGAGCA AGCAGAGTTG AATTCCACTG AGCTCCACCA GATGCGCGTG 
    CAGGACAATT GCCTCTTCTC CATCAGCCCC AAGGCTGGGA GCCTGAGTCC TGGGCAGGAG 
    CAGATGGTGG AGTTAAAATA CAGCCACCTG TTCATCGGTA CTGATCACCT CCCAGTGCTC 
    TTCAAGGTGT CCCATGGCCG GGAGATCCTG CTAAATTTCA TAGGTGTGAC AGTGAAGCCG 
    GAGCAGAAGT ATGTGCACTT CACCTCTACT ACCCACCAGT TCATCCCCAT TCCCATTGGT 
    GACACGCTAC CCCCACGGCA GATTTATGAG CTGTATAATG GTGGCTCAGT GCCCGTGACA 
    TATGAGGTCC AGACCGATGT CCTGTCACAG GTTCAGGAAA AAAATTTTGA TCACCCCATC 
    TTTTGCTGCC TCAACCCCAA AGGGGAGATC CAGCCAGGCA GCACTGCCCG GGTCTTGTGG 
    ATCTTCTCAC CTATCGAGGC CAAGACCTAC ACGGTGGACG TGCCCATACA CATCCTGGGA 
    TGGAACTCGG CCCTCATCCA CTTCCAGGGA GTGGGCTACA ACCCCCATAT GATGGGGGAC 
    ACAGCCCCAT TCCACAACAT CTCCTCGTGG GACAACAGTT CCATACACTC TAGGCTGGTG 
    GTGCCTGGAC AGAATGTCTT CCTGTCCCAG TCTCATATTT CCCTGGGAAA CATACCTGTG 
    CAGAGCAAGT GCAGCCGCCT GCTCTTCCTC AACAACATCT CCAAGAACGA GGAAATTGCC 
    TTCTCCTGGC AGCCAAGTCC TCTAGATTTT GGGGAGGTGT CTGTGAGTCC CATGATAGGG 
    GTGGTGGCTC CTGAAGAGAC GGTCCCATTT GTGGTGACCT TGAGGGCCTC TGTGCATGCC 
    AGCTTCTACA GTGCAGACCT GGTATGCAAG CTGTACTCGC AGCAGCTCAT GAGGCAGTAT 
    CACAAGGAGC TGCAGGAGTG GAAGGACGAG AAGGTGCGGC AGGAAGTGGA GTTCACCATC 
    ACCGACATGA AAGTGAAGAA GAGAACATGC TGCACAGCCT GTGAACCTGC GAGGAAGTAC 
    AAGACACTGC CTCCCATCAA GAACCAGCAG TCTGTCAGCC GGCCTGCCAG CTGGAAACTG 
    CAGACCCCAA AGGAGGAGGT GTCCTGGCCC TGCCCCCAGC CACCCTCGCC AGGCATGCTC 
    TGCCTGGGCC TTACTGCCCG AGCCCATGCC ACCGACTACT TTCTGGCTAA CTTCTTCTCA 
    GAGTTTCCCT GCCACTTTTT GCACCGCATG GTGGCTTGCC CAGGCCACTC AGAATGTCAT 
    GGCTGCCACA GGGAGCTGCC AAAGAGGAAG GCCCCCAGGG AAGAGTCAGA GACTTCTGAG 
    GAAAAATCCC CTAACAAGTG GGGCCCTGTT TCCAAGCAGA AGAAGCAGCT CCTGGTTGAC 
    ATTCTCACCA CAATAATCAG GGGCCTGCTG GAAGACAAGA ACTTCCATGA GGCTGTGGAC 
    CAAAGCCTGG TGGAGCAGGT GCCGTACTTC CGCCAATTCT GGAATGAGCA GTCAACTAAG 
    TTCATGGACC AGAAAAACAG CCTGTACTTA ATGCCAATCC TGCCTGTACC CTCCAGCAGC 
    TGGGAGGATG GGAAGGGCAA GCAGCCGAAG GAAGACAGAC CAGAGCACTA TCCAGGGTTG 
    GGAAAGAAGG AAGAGGGGGA GGAGGAGAAG GGTGAAGAGG AAGAAGAAGA GTTGGAGGAG 
    GAAGAGGAGG AAGAAGAGGA GACAGAAGAG GAGGAGTTGG GCAAGGAGGA GATAGAGGAG 
    AAGGAGGAGG AGAGGGATGA GAAGGAAGAG AAAGTGAGCT GGGCGGGCAT CGGGCCCACA 
    CCACAGCCTG AGTCCCAGGA GTCCATGCAA TGGCAGTGGC AACAGCAGCT GAATGTCATG 
    GTGAAGGAGG AGCAAGAACA GGACGAGAAG GAGGCCATCA GAAGGCTCCC GGCCTTCGCC 
    AACCTGCAGG AGGCGCTGCT GGAGAACATG ATCCAGAACA TCCTGGTGGA GGCGAGCCGC 
    GGGGAGGTGG TACTCACCTC GCGGCCACGC GTCATCGCCC TGCCGCCGTT CTGCGTGCCC 
    AGGAGTCTGA CCCCGGACAC GCTGCTGCCG ACGCAGCAAG CAGAGGTACT CCACCCGGTG 
    GTGCCACTTC CTACCGACCT TCCGTAA

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

    RefSeq XP_011509218.1
    CDS171..5717
    Translation

    Target ORF information:

    RefSeq Version XM_011510916.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510916.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGATGTTTA CCTTAACCGG TTGTAGACTG GTGGAGAAAA CCCAGAAGGT GGAGAATCCA 
    TCAGTCTCAT TTGCCTCTTC TTTCCCCCTT ATTCCTCTTC TCCTAAGAGG CAAGAGTGTT 
    CAGAAGAAAC AAGCAGAGAG TAAAAGCCAG ATAAAGCTCC ATACTCAGAG TGCTCCCTTT 
    GGACTGTGTC CCAAGGACAT GATGCTCACC CAGGCTCCAA GCTCCGTCGT GAGGTCCAGG 
    AACAGCAGGA ACCACACCGT GAACTCTGGT GGATCCTGCC TGAGTGCCAG CACAGTGGCC 
    ATCCCTGCCA TCAACGACAG CAGTGCAGCC ATGAGTGCCT GCAGCACCAT CAGCGCCCAG 
    CCCGCAAGCT CCATGGACAC TCAGATGCAC TCCCCAAAGA AGCAGGAGAG AGTGAACAAG 
    AGGGTCATCT GGGGCATTGA GGTGGCTGAG GAGCTGCATT GGAAAGGCTG GGAGCTAGGA 
    AAGGAGACCA CAAGGAATCT GGTTCTGAAA AATCGATCCT TGAAACTCCA GAAGATGAAG 
    TACAGGCCCC CCAAGACCAA GTTCTTCTTC ACGGTCATCC CTCAGCCCAT CTTCCTGAGC 
    CCAGGCATAA CCCTCACGCT CCCCATCGTC TTCCGGCCTC TGGAGGCGCC CCTTACAGCC 
    GTCATCTACG AGGTGCAGGC CACGTGCTGG TACGGGGCGG GCAGCCGGCA GAGGAGCAGC 
    ATCCAGCTGC AGGCTGTGGC CAAGTGCGCC CAGCTGCTGG TGAGCATAAA GCACAAGTGC 
    CCGGAGGACC AGGATGCCGA GGGCTTCCAG AAGCTGTTGT ACTTTGGCTC TGTTGCTGTG 
    GGCTGCACCT CGGAGAGGCA GATCAGGCTA CACAACCCGT CGGCGGTAAA TGCCCCCTTC 
    AGGATTGAAA TTTCCCCGGA TGAACTGGCC GAAGACCAGG CCTTCTCATG CCCCACGGCC 
    CATGGCATCG TGCTTCCGGG AGAGAAGAAA TGTGTGTCGG TGTTCTTCCA CCCCAAGACT 
    CTGGACACCA GAACTGTGGA CTACTGCTCC ATCATGCCTT CTGGCTGTGC CTCCAAGACC 
    CTGCTTAAAG TCGTTGGTTT CTGTAGAGGC CCTGCTGTGT CCCTGCAGCA CTACTGTGTC 
    AACTTCAGCT GGGTCAACCT TGGGGAGCGC TCCGAGCAGC CCCTGTGGAT TGAGAACCAA 
    TCGGACTGCA CGGCCCACTT CCAGTTTGCC ATCGACTGCT TGGAGAGTGT CTTTACCATC 
    AGGCCTGCCT TTGGGACGCT GGTGGGCAAG GCCCGTATGA CCCTGCACTG TGCCTTCCAG 
    CCCACTCACC CCATCATCTG CTTTCGGCGT GTGGCCTGTC TCATCCACCA CCAGGACCCA 
    CTGTTCCTGG ACCTGATGGG GACCTGCCAC TCGGACAGCA CCAAGCCAGC CATCCTGAAG 
    CCTCAGCACC TCACCTGGTA CCGCACACAC CTGGCCCGGG GCCTGACGCT CTACCCCCCT 
    GACATCCTGG ATGCCATGCT GAAGGAGAAG AAGCTGGCAC AGGACCAGAA CGGGGCTCTC 
    ATGATTCCCA TCCAGGATCT GGAGGACATG CCGGCCCCGC AGTACCCTTA TATCCCCCCC 
    ATGACCGAGT TCTTCTTCGA CGGCACCAGC GACATAACCA TCTTCCCCCC GCCCATCAGT 
    GTAGAGCCTG TCGAGGTAGA CTTCGGTGCC TGCCCAGGGC CTGAGGCCCC CAACCCTGTA 
    CCCCTGTGCC TGATGAACCA CACCAAGGGC AAGATCATGG TGGTCTGGAC GCGAAGGTCT 
    GACTGCCCCT TCTGGGTGAC TCCAGAGAGC TGCGACGTGC CCCCACTCAA GTCCATGGCC 
    ATGCGCCTGC ACTTCCAGCC GCCTCACCCC AACTGCCTTT ACACGGTGGA GCTCGAAGCC 
    TTCGCCATCT ATAAGGTCCT GCAGAGCTAC AGTAATATTG AGGAGGACTG CACCATGTGC 
    CCATCCTGGT GCCTGACGGT GCGGGCACGA GGCCACAGCT ATTTCGCTGG CTTTGAGCAC 
    CACATCCCCC AGTATTCCCT AGATGTCCCC AAGCTATTTC CAGCAGTGTC CTCCGGTGAG 
    CCCACCTACC GCAGCCTGCT CCTGGTCAAC AAAGACTGCA AGCTGCTGAC CTTCAGCCTG 
    GCCCCCCAGA GAGGCTCAGA CGTCATCCTT CGGCCCACTT CGGGCCTTGT GGCACCCGGG 
    GCCCACCAGA TCATCCTCAT CTGCACCTAC CCTGAGGGCA GCTCCTGGAA GCAGCACACT 
    TTCTATCTGC AGTGCAATGC TTCCCCCCAG TATCTCAAGG AGGTGAGCAT GTACAGCCGG 
    GAGGAGCCAC TGCAGCTGAA GCTGGACACC CACAAAAGCC TCTACTTCAA GCCCACCTGG 
    GTGGGCTGCT CCTCCACCAG CCCCTTCACC TTCCGCAACC CCTCGCGTCT GCCCCTGCAG 
    TTCGAGTGGA GGGTCTCTGA GCAGCATCGA AAGCTGCTGG CTGTCCAGCC CTCCAGGGGG 
    CTAATCCAGC CCAACGAGAG ACTTACGCTG ACGTGGACCT TCAGCCCTTT GGAGGAGACC 
    AAGTACCTGT TCCAAGTGGG GATGTGGGTC TGGGAAGCCG GCCTGTCCCC AAATGCCAAC 
    CCCGCTGCCA CCACCCACTA CATGCTCCGG CTGGTGGGCG TTGGGCTCAC CAGCAGCCTC 
    TCTGCAAAGG AAAAGGAGCT GGCCTTTGGG AATGTGCTGG TGAACAGCAA GCAGTCCAGG 
    TTCCTTGTCC TCCTGAATGA CGGCAACTGC ACCCTCTATT ACCGCCTCTA CCTGGAGCAG 
    GGCAGCCCTG AGGCCGTTGA CAACCACCCC CTCGCTCTGC AGCTGGACCG AACAGAGGGG 
    AGCATGCCAC CCCGGTCCCA GGACACCATC TGCCTGACTG CCTGTCCCAA GCAGCGGTCC 
    CAGTACTCCT GGACCATCAC CTACTCTCTC CTTTCCCACA GAGATAACAA GGCTGGGGAG 
    AAGCAGGAGC TGTGCTGCGT CTCCCTGGTG GCCGTGTACC CCTTGCTTTC CATCCTGGAT 
    GTCAGCTCCA TGGGCAGTGC TGAGGGTATC ACCCGGAAGC ACCTGTGGCG CCTCTTCTCT 
    CTGGACCTGC TTAACAGTTA CTTGGAGCGT GACCCCACCC CCTGTGAGCT CACCTACAAG 
    GTGCCCACCC GGCACAGCAT GAGCCAGATC CCCCCCGTCC TCACCCCTTT AAGGCTTGAC 
    TTCAATTTCG GGGCCGCACC ATTCAAGGCC CCACCTTCCG TGGTATTCCT GGCCCTGAAG 
    AACAGCGGAG TGGTGTCCCT GGACTGGGCC TTCCTCCTTC CAAGTGACCA GCGGATTGAC 
    GTGGAGCTCT GGGCAGAGCA AGCAGAGTTG AATTCCACTG AGCTCCACCA GATGCGCGTG 
    CAGGACAATT GCCTCTTCTC CATCAGCCCC AAGGCTGGGA GCCTGAGTCC TGGGCAGGAG 
    CAGATGGTGG AGTTAAAATA CAGCCACCTG TTCATCGGTA CTGATCACCT CCCAGTGCTC 
    TTCAAGGTGT CCCATGGCCG GGAGATCCTG CTAAATTTCA TAGGTGTGAC AGTGAAGCCG 
    GAGCAGAAGT ATGTGCACTT CACCTCTACT ACCCACCAGT TCATCCCCAT TCCCATTGGT 
    GACACGCTAC CCCCACGGCA GATTTATGAG CTGTATAATG GTGGCTCAGT GCCCGTGACA 
    TATGAGGTCC AGACCGATGT CCTGTCACAG GTTCAGGAAA AAAATTTTGA TCACCCCATC 
    TTTTGCTGCC TCAACCCCAA AGGGGAGATC CAGCCAGGCA GCACTGCCCG GGTCTTGTGG 
    ATCTTCTCAC CTATCGAGGC CAAGACCTAC ACGGTGGACG TGCCCATACA CATCCTGGGA 
    TGGAACTCGG CCCTCATCCA CTTCCAGGGA GTGGGCTACA ACCCCCATAT GATGGGGGAC 
    ACAGCCCCAT TCCACAACAT CTCCTCGTGG GACAACAGTT CCATACACTC TAGGCTGGTG 
    GTGCCTGGAC AGAATGTCTT CCTGTCCCAG TCTCATATTT CCCTGGGAAA CATACCTGTG 
    CAGAGCAAGT GCAGCCGCCT GCTCTTCCTC AACAACATCT CCAAGAACGA GGAAATTGCC 
    TTCTCCTGGC AGCCAAGTCC TCTAGATTTT GGGGAGGTGT CTGTGAGTCC CATGATAGGG 
    GTGGTGGCTC CTGAAGAGAC GGTCCCATTT GTGGTGACCT TGAGGGCCTC TGTGCATGCC 
    AGCTTCTACA GTGCAGACCT GGTATGCAAG CTGTACTCGC AGCAGCTCAT GAGGCAGTAT 
    CACAAGGAGC TGCAGGAGTG GAAGGACGAG AAGGTGCGGC AGGAAGTGGA GTTCACCATC 
    ACCGACATGA AAGTGAAGAA GAGAACATGC TGCACAGCCT GTGAACCTGC GAGGAAGTAC 
    AAGACACTGC CTCCCATCAA GAACCAGCAG TCTGTCAGCC GGCCTGCCAG CTGGAAACTG 
    CAGACCCCAA AGGAGGAGGT GTCCTGGCCC TGCCCCCAGC CACCCTCGCC AGGCATGCTC 
    TGCCTGGGCC TTACTGCCCG AGCCCATGCC ACCGACTACT TTCTGGCTAA CTTCTTCTCA 
    GAGTTTCCCT GCCACTTTTT GCACCGCATG GTGGCTTGCC CAGGCCACTC AGAATGTCAT 
    GGCTGCCACA GGGAGCTGCC AAAGAGGAAG GCCCCCAGGG AAGAGTCAGA GACTTCTGAG 
    GAAAAATCCC CTAACAAGTG GGGCCCTGTT TCCAAGCAGA AGAAGCAGCT CCTGGTTGAC 
    ATTCTCACCA CAATAATCAG GGGCCTGCTG GAAGACAAGA ACTTCCATGA GGCTGTGGAC 
    CAAAGCCTGG TGGAGCAGGT GCCGTACTTC CGCCAATTCT GGAATGAGCA GTCAACTAAG 
    TTCATGGACC AGAAAAACAG CCTGTACTTA ATGCCAATCC TGCCTGTACC CTCCAGCAGC 
    TGGGAGGATG GGAAGGGCAA GCAGCCGAAG GAAGACAGAC CAGAGCACTA TCCAGGGTTG 
    GGAAAGAAGG AAGAGGGGGA GGAGGAGAAG GGTGAAGAGG AAGAAGAAGA GTTGGAGGAG 
    GAAGAGGAGG AAGAAGAGGA GACAGAAGAG GAGGAGTTGG GCAAGGAGGA GATAGAGGAG 
    AAGGAGGAGG AGAGGGATGA GAAGGAAGAG AAAGTGAGCT GGGCGGGCAT CGGGCCCACA 
    CCACAGCCTG AGTCCCAGGA GTCCATGCAA TGGCAGTGGC AACAGCAGCT GAATGTCATG 
    GTGAAGGAGG AGCAAGAACA GGACGAGAAG GAGGCCATCA GAAGGCTCCC GGCCTTCGCC 
    AACCTGCAGG AGGCGCTGCT GGAGAACATG ATCCAGAACA TCCTGGTGGA GGCGAGCCGC 
    GGGGAGGTGG TACTCACCTC GCGGCCACGC GTCATCGCCC TGCCGCCGTT CTGCGTGCCC 
    AGGAGTCTGA CCCCGGACAC GCTGCTGCCG ACGCAGCAAG CAGAGGTACT CCACCCGGTG 
    GTGCCACTTC CTACCGACCT TCCGTAA

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

    CFAP65 ( XM_011510921.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011509223.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu78303
    Clone ID Related Accession (Same CDS sequence) XM_011510921.1
    Accession Version XM_011510921.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCACAGG ACCCACTGTT CCTGGACCTG ATGGGGACCT GCCACTCGGA CAGCACCAAG 
    CCAGCCATCC TGAAGCCTCA GCACCTCACC TGGTACCGCA CACACCTGGC CCGGGGCCTG 
    ACGCTCTACC CCCCTGACAT CCTGGATGCC ATGCTGAAGG AGAAGAAGCT GGCACAGGAC 
    CAGAACGGGG CTCTCATGAT TCCCATCCAG GATCTGGAGG ACATGCCGGC CCCGCAGTAC 
    CCTTATATCC CCCCCATGAC CGAGTTCTTC TTCGACGGCA CCAGCGACAT AACCATCTTC 
    CCCCCGCCCA TCAGTGTAGA GCCTGTCGAG GTAGACTTCG GTGCCTGCCC AGGGCCTGAG 
    GCCCCCAACC CTGTACCCCT GTGCCTGATG AACCACACCA AGGGCAAGAT CATGGTGGTC 
    TGGACGCGAA GGTCTGACTG CCCCTTCTGG GTGACTCCAG AGAGCTGCGA CGTGCCCCCA 
    CTCAAGTCCA TGGCCATGCG CCTGCACTTC CAGCCGCCTC ACCCCAACTG CCTTTACACG 
    GTGGAGCTCG AAGCCTTCGC CATCTATAAG GTCCTGCAGA GCTACAGTAA TATTGAGGAG 
    GACTGCACCA TGTGCCCATC CTGGTGCCTG ACGGTGCGGG CACGAGGCCA CAGCTATTTC 
    GCTGGCTTTG AGCACCACAT CCCCCAGTAT TCCCTAGATG TCCCCAAGCT ATTTCCAGCA 
    GTGTCCTCCG GTGAGCCCAC CTACCGCAGC CTGCTCCTGG TCAACAAAGA CTGCAAGCTG 
    CTGACCTTCA GCCTGGCCCC CCAGAGAGGC TCAGACGTCA TCCTTCGGCC CACTTCGGGC 
    CTTGTGGCAC CCGGGGCCCA CCAGATCATC CTCATCTGCA CCTACCCTGA GGGCAGCTCC 
    TGGAAGCAGC ACACTTTCTA TCTGCAGTGC AATGCTTCCC CCCAGTATCT CAAGGAGGTG 
    AGCATGTACA GCCGGGAGGA GCCACTGCAG CTGAAGCTGG ACACCCACAA AAGCCTCTAC 
    TTCAAGCCCA CCTGGGTGGG CTGCTCCTCC ACCAGCCCCT TCACCTTCCG CAACCCCTCG 
    CGTCTGCCCC TGCAGTTCGA GTGGAGGGTC TCTGAGCAGC ATCGAAAGCT GCTGGCTGTC 
    CAGCCCTCCA GGGGGCTAAT CCAGCCCAAC GAGAGACTTA CGCTGACGTG GACCTTCAGC 
    CCTTTGGAGG AGACCAAGTA CCTGTTCCAA GTGGGGATGT GGGTCTGGGA AGCCGGCCTG 
    TCCCCAAATG CCAACCCCGC TGCCACCACC CACTACATGC TCCGGCTGGT GGGCGTTGGG 
    CTCACCAGCA GCCTCTCTGC AAAGGAAAAG GAGCTGGCCT TTGGGAATGT GCTGGTGAAC 
    AGCAAGCAGT CCAGGTTCCT TGTCCTCCTG AATGACGGCA ACTGCACCCT CTATTACCGC 
    CTCTACCTGG AGCAGGGCAG CCCTGAGGCC GTTGACAACC ACCCCCTCGC TCTGCAGCTG 
    GACCGAACAG AGGGGAGCAT GCCACCCCGG TCCCAGGACA CCATCTGCCT GACTGCCTGT 
    CCCAAGCAGC GGTCCCAGTA CTCCTGGACC ATCACCTACT CTCTCCTTTC CCACAGAGAT 
    AACAAGGCTG GGGAGAAGCA GGAGCTGTGC TGCGTCTCCC TGGTGGCCGT GTACCCCTTG 
    CTTTCCATCC TGGATGTCAG CTCCATGGGC AGTGCTGAGG GTATCACCCG GAAGCACCTG 
    TGGCGCCTCT TCTCTCTGGA CCTGCTTAAC AGTTACTTGG AGCGTGACCC CACCCCCTGT 
    GAGCTCACCT ACAAGGTGCC CACCCGGCAC AGCATGAGCC AGATCCCCCC CGTCCTCACC 
    CCTTTAAGGC TTGACTTCAA TTTCGGGGCC GCACCATTCA AGGCCCCACC TTCCGTGGTA 
    TTCCTGGCCC TGAAGAACAG CGGAGTGGTG TCCCTGGACT GGGCCTTCCT CCTTCCAAGT 
    GACCAGCGGA TTGACGTGGA GCTCTGGGCA GAGCAAGCAG AGTTGAATTC CACTGAGCTC 
    CACCAGATGC GCGTGCAGGA CAATTGCCTC TTCTCCATCA GCCCCAAGGC TGGGAGCCTG 
    AGTCCTGGGC AGGAGCAGAT GGTGGAGTTA AAATACAGCC ACCTGTTCAT CGGTACTGAT 
    CACCTCCCAG TGCTCTTCAA GGTGTCCCAT GGCCGGGAGA TCCTGCTAAA TTTCATAGGT 
    GTGACAGTGA AGCCGGAGCA GAAGTATGTG CACTTCACCT CTACTACCCA CCAGTTCATC 
    CCCATTCCCA TTGGTGACAC GCTACCCCCA CGGCAGATTT ATGAGCTGTA TAATGGTGGC 
    TCAGTGCCCG TGACATATGA GGTCCAGACC GATGTCCTGT CACAGGTTCA GGAAAAAAAT 
    TTTGATCACC CCATCTTTTG CTGCCTCAAC CCCAAAGGGG AGATCCAGCC AGGCAGCACT 
    GCCCGGGTCT TGTGGATCTT CTCACCTATC GAGGCCAAGA CCTACACGGT GGACGTGCCC 
    ATACACATCC TGGGATGGAA CTCGGCCCTC ATCCACTTCC AGGGAGTGGG CTACAACCCC 
    CATATGATGG GGGACACAGC CCCATTCCAC AACATCTCCT CGTGGGACAA CAGTTCCATA 
    CACTCTAGGC TGGTGGTGCC TGGACAGAAT GTCTTCCTGT CCCAGTCTCA TATTTCCCTG 
    GGAAACATAC CTGTGCAGAG CAAGTGCAGC CGCCTGCTCT TCCTCAACAA CATCTCCAAG 
    AACGAGGAAA TTGCCTTCTC CTGGCAGCCA AGTCCTCTAG ATTTTGGGGA GGTGTCTGTG 
    AGTCCCATGA TAGGGGTGGT GGCTCCTGAA GAGACGGTCC CATTTGTGGT GACCTTGAGG 
    GCCTCTGTGC ATGCCAGCTT CTACAGTGCA GACCTGGTAT GCAAGCTGTA CTCGCAGCAG 
    CTCATGAGGC AGTATCACAA GGAGCTGCAG GAGTGGAAGG ACGAGAAGGT GCGGCAGGAA 
    GTGGAGTTCA CCATCACCGA CATGAAAGTG AAGAAGAGAA CATGCTGCAC AGCCTGTGAA 
    CCTGCGAGGA AGTACAAGAC ACTGCCTCCC ATCAAGAACC AGCAGTCTGT CAGCCGGCCT 
    GCCAGCTGGA AACTGCAGAC CCCAAAGGAG GAGGTGTCCT GGCCCTGCCC CCAGCCACCC 
    TCGCCAGGCA TGCTCTGCCT GGGCCTTACT GCCCGAGCCC ATGCCACCGA CTACTTTCTG 
    GCTAACTTCT TCTCAGAGTT TCCCTGCCAC TTTTTGCACC GCATGGTGGC TTGCCCAGGC 
    CACTCAGAAT GTCATGGCTG CCACAGGGAG CTGCCAAAGA GGAAGGCCCC CAGGGAAGAG 
    TCAGAGACTT CTGAGGAAAA ATCCCCTAAC AAGTGGGGCC CTGTTTCCAA GCAGAAGAAG 
    CAGCTCCTGG TTGACATTCT CACCACAATA ATCAGGGGCC TGCTGGAAGA CAAGAACTTC 
    CATGAGGCTG TGGACCAAAG CCTGGTGGAG CAGGTGCCGT ACTTCCGCCA ATTCTGGAAT 
    GAGCAGTCAA CTAAGTTCAT GGACCAGAAA AACAGCCTGT ACTTAATGCC AATCCTGCCT 
    GTACCCTCCA GCAGCTGGGA GGATGGGAAG GGCAAGCAGC CGAAGGAAGA CAGACCAGAG 
    CACTATCCAG GGTTGGGAAA GAAGGAAGAG GGGGAGGAGG AGAAGGGTGA AGAGGAAGAA 
    GAAGAGTTGG AGGAGGAAGA GGAGGAAGAA GAGGAGACAG AAGAGGAGGA GTTGGGCAAG 
    GAGGAGATAG AGGAGAAGGA GGAGGAGAGG GATGAGAAGG AAGAGAAAGT GAGCTGGGCG 
    GGCATCGGGC CCACACCACA GCCTGAGTCC CAGGAGTCCA TGCAATGGCA GTGGCAACAG 
    CAGCTGAATG TCATGGTGAA GGAGGAGCAA GAACAGGACG AGAAGGAGGC CATCAGAAGG 
    CTCCCGGCCT TCGCCAACCT GCAGGAGGCG CTGCTGGAGA ACATGATCCA GAACATCCTG 
    GTGGAGGCGA GCCGCGGGGA GGTGGTACTC ACCTCGCGGC CACGCGTCAT CGCCCTGCCG 
    CCGTTCTGCG TGCCCAGGAG TCTGACCCCG GACACGCTGC TGCCGACGCA GCAAGCAGAG 
    GTACTCCACC CGGTGGTGCC ACTTCCTACC GACCTTCCGT AA

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

    RefSeq XP_011509223.1
    CDS271..4452
    Translation

    Target ORF information:

    RefSeq Version XM_011510921.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011510921.1

    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
    ATGTCACAGG ACCCACTGTT CCTGGACCTG ATGGGGACCT GCCACTCGGA CAGCACCAAG 
    CCAGCCATCC TGAAGCCTCA GCACCTCACC TGGTACCGCA CACACCTGGC CCGGGGCCTG 
    ACGCTCTACC CCCCTGACAT CCTGGATGCC ATGCTGAAGG AGAAGAAGCT GGCACAGGAC 
    CAGAACGGGG CTCTCATGAT TCCCATCCAG GATCTGGAGG ACATGCCGGC CCCGCAGTAC 
    CCTTATATCC CCCCCATGAC CGAGTTCTTC TTCGACGGCA CCAGCGACAT AACCATCTTC 
    CCCCCGCCCA TCAGTGTAGA GCCTGTCGAG GTAGACTTCG GTGCCTGCCC AGGGCCTGAG 
    GCCCCCAACC CTGTACCCCT GTGCCTGATG AACCACACCA AGGGCAAGAT CATGGTGGTC 
    TGGACGCGAA GGTCTGACTG CCCCTTCTGG GTGACTCCAG AGAGCTGCGA CGTGCCCCCA 
    CTCAAGTCCA TGGCCATGCG CCTGCACTTC CAGCCGCCTC ACCCCAACTG CCTTTACACG 
    GTGGAGCTCG AAGCCTTCGC CATCTATAAG GTCCTGCAGA GCTACAGTAA TATTGAGGAG 
    GACTGCACCA TGTGCCCATC CTGGTGCCTG ACGGTGCGGG CACGAGGCCA CAGCTATTTC 
    GCTGGCTTTG AGCACCACAT CCCCCAGTAT TCCCTAGATG TCCCCAAGCT ATTTCCAGCA 
    GTGTCCTCCG GTGAGCCCAC CTACCGCAGC CTGCTCCTGG TCAACAAAGA CTGCAAGCTG 
    CTGACCTTCA GCCTGGCCCC CCAGAGAGGC TCAGACGTCA TCCTTCGGCC CACTTCGGGC 
    CTTGTGGCAC CCGGGGCCCA CCAGATCATC CTCATCTGCA CCTACCCTGA GGGCAGCTCC 
    TGGAAGCAGC ACACTTTCTA TCTGCAGTGC AATGCTTCCC CCCAGTATCT CAAGGAGGTG 
    AGCATGTACA GCCGGGAGGA GCCACTGCAG CTGAAGCTGG ACACCCACAA AAGCCTCTAC 
    TTCAAGCCCA CCTGGGTGGG CTGCTCCTCC ACCAGCCCCT TCACCTTCCG CAACCCCTCG 
    CGTCTGCCCC TGCAGTTCGA GTGGAGGGTC TCTGAGCAGC ATCGAAAGCT GCTGGCTGTC 
    CAGCCCTCCA GGGGGCTAAT CCAGCCCAAC GAGAGACTTA CGCTGACGTG GACCTTCAGC 
    CCTTTGGAGG AGACCAAGTA CCTGTTCCAA GTGGGGATGT GGGTCTGGGA AGCCGGCCTG 
    TCCCCAAATG CCAACCCCGC TGCCACCACC CACTACATGC TCCGGCTGGT GGGCGTTGGG 
    CTCACCAGCA GCCTCTCTGC AAAGGAAAAG GAGCTGGCCT TTGGGAATGT GCTGGTGAAC 
    AGCAAGCAGT CCAGGTTCCT TGTCCTCCTG AATGACGGCA ACTGCACCCT CTATTACCGC 
    CTCTACCTGG AGCAGGGCAG CCCTGAGGCC GTTGACAACC ACCCCCTCGC TCTGCAGCTG 
    GACCGAACAG AGGGGAGCAT GCCACCCCGG TCCCAGGACA CCATCTGCCT GACTGCCTGT 
    CCCAAGCAGC GGTCCCAGTA CTCCTGGACC ATCACCTACT CTCTCCTTTC CCACAGAGAT 
    AACAAGGCTG GGGAGAAGCA GGAGCTGTGC TGCGTCTCCC TGGTGGCCGT GTACCCCTTG 
    CTTTCCATCC TGGATGTCAG CTCCATGGGC AGTGCTGAGG GTATCACCCG GAAGCACCTG 
    TGGCGCCTCT TCTCTCTGGA CCTGCTTAAC AGTTACTTGG AGCGTGACCC CACCCCCTGT 
    GAGCTCACCT ACAAGGTGCC CACCCGGCAC AGCATGAGCC AGATCCCCCC CGTCCTCACC 
    CCTTTAAGGC TTGACTTCAA TTTCGGGGCC GCACCATTCA AGGCCCCACC TTCCGTGGTA 
    TTCCTGGCCC TGAAGAACAG CGGAGTGGTG TCCCTGGACT GGGCCTTCCT CCTTCCAAGT 
    GACCAGCGGA TTGACGTGGA GCTCTGGGCA GAGCAAGCAG AGTTGAATTC CACTGAGCTC 
    CACCAGATGC GCGTGCAGGA CAATTGCCTC TTCTCCATCA GCCCCAAGGC TGGGAGCCTG 
    AGTCCTGGGC AGGAGCAGAT GGTGGAGTTA AAATACAGCC ACCTGTTCAT CGGTACTGAT 
    CACCTCCCAG TGCTCTTCAA GGTGTCCCAT GGCCGGGAGA TCCTGCTAAA TTTCATAGGT 
    GTGACAGTGA AGCCGGAGCA GAAGTATGTG CACTTCACCT CTACTACCCA CCAGTTCATC 
    CCCATTCCCA TTGGTGACAC GCTACCCCCA CGGCAGATTT ATGAGCTGTA TAATGGTGGC 
    TCAGTGCCCG TGACATATGA GGTCCAGACC GATGTCCTGT CACAGGTTCA GGAAAAAAAT 
    TTTGATCACC CCATCTTTTG CTGCCTCAAC CCCAAAGGGG AGATCCAGCC AGGCAGCACT 
    GCCCGGGTCT TGTGGATCTT CTCACCTATC GAGGCCAAGA CCTACACGGT GGACGTGCCC 
    ATACACATCC TGGGATGGAA CTCGGCCCTC ATCCACTTCC AGGGAGTGGG CTACAACCCC 
    CATATGATGG GGGACACAGC CCCATTCCAC AACATCTCCT CGTGGGACAA CAGTTCCATA 
    CACTCTAGGC TGGTGGTGCC TGGACAGAAT GTCTTCCTGT CCCAGTCTCA TATTTCCCTG 
    GGAAACATAC CTGTGCAGAG CAAGTGCAGC CGCCTGCTCT TCCTCAACAA CATCTCCAAG 
    AACGAGGAAA TTGCCTTCTC CTGGCAGCCA AGTCCTCTAG ATTTTGGGGA GGTGTCTGTG 
    AGTCCCATGA TAGGGGTGGT GGCTCCTGAA GAGACGGTCC CATTTGTGGT GACCTTGAGG 
    GCCTCTGTGC ATGCCAGCTT CTACAGTGCA GACCTGGTAT GCAAGCTGTA CTCGCAGCAG 
    CTCATGAGGC AGTATCACAA GGAGCTGCAG GAGTGGAAGG ACGAGAAGGT GCGGCAGGAA 
    GTGGAGTTCA CCATCACCGA CATGAAAGTG AAGAAGAGAA CATGCTGCAC AGCCTGTGAA 
    CCTGCGAGGA AGTACAAGAC ACTGCCTCCC ATCAAGAACC AGCAGTCTGT CAGCCGGCCT 
    GCCAGCTGGA AACTGCAGAC CCCAAAGGAG GAGGTGTCCT GGCCCTGCCC CCAGCCACCC 
    TCGCCAGGCA TGCTCTGCCT GGGCCTTACT GCCCGAGCCC ATGCCACCGA CTACTTTCTG 
    GCTAACTTCT TCTCAGAGTT TCCCTGCCAC TTTTTGCACC GCATGGTGGC TTGCCCAGGC 
    CACTCAGAAT GTCATGGCTG CCACAGGGAG CTGCCAAAGA GGAAGGCCCC CAGGGAAGAG 
    TCAGAGACTT CTGAGGAAAA ATCCCCTAAC AAGTGGGGCC CTGTTTCCAA GCAGAAGAAG 
    CAGCTCCTGG TTGACATTCT CACCACAATA ATCAGGGGCC TGCTGGAAGA CAAGAACTTC 
    CATGAGGCTG TGGACCAAAG CCTGGTGGAG CAGGTGCCGT ACTTCCGCCA ATTCTGGAAT 
    GAGCAGTCAA CTAAGTTCAT GGACCAGAAA AACAGCCTGT ACTTAATGCC AATCCTGCCT 
    GTACCCTCCA GCAGCTGGGA GGATGGGAAG GGCAAGCAGC CGAAGGAAGA CAGACCAGAG 
    CACTATCCAG GGTTGGGAAA GAAGGAAGAG GGGGAGGAGG AGAAGGGTGA AGAGGAAGAA 
    GAAGAGTTGG AGGAGGAAGA GGAGGAAGAA GAGGAGACAG AAGAGGAGGA GTTGGGCAAG 
    GAGGAGATAG AGGAGAAGGA GGAGGAGAGG GATGAGAAGG AAGAGAAAGT GAGCTGGGCG 
    GGCATCGGGC CCACACCACA GCCTGAGTCC CAGGAGTCCA TGCAATGGCA GTGGCAACAG 
    CAGCTGAATG TCATGGTGAA GGAGGAGCAA GAACAGGACG AGAAGGAGGC CATCAGAAGG 
    CTCCCGGCCT TCGCCAACCT GCAGGAGGCG CTGCTGGAGA ACATGATCCA GAACATCCTG 
    GTGGAGGCGA GCCGCGGGGA GGTGGTACTC ACCTCGCGGC CACGCGTCAT CGCCCTGCCG 
    CCGTTCTGCG TGCCCAGGAG TCTGACCCCG GACACGCTGC TGCCGACGCA GCAAGCAGAG 
    GTACTCCACC CGGTGGTGCC ACTTCCTACC GACCTTCCGT AA

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

    CFAP65 ( XM_017003753.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859242.1 Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu89244
    Clone ID Related Accession (Same CDS sequence) XM_017003753.1
    Accession Version XM_017003753.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5790bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cilia- and flagella-associated protein 65 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGAGACGG CAATATGGAG GCGATCTTAC ATTTCTTTGA TTTCATCTGA ACGTCCAGTT 
    CACAATTGGA GAGGCAAGAG TGTTCAGAAG AAACAAGCAG AGAGTAAAAG CCAGATAAAG 
    CTCCATACTC AGAGTGCTCC CTTTGGACTG TGTCCCAAGG ACATGATGCT CACCCAGGCT 
    CCAAGCTCCG TCGTGAGGTC CAGGAACAGC AGGAACCACA CCGTGAACTC TGGTGGATCC 
    TGCCTGAGTG CCAGCACAGT GGCCATCCCT GCCATCAACG ACAGCAGTGC AGCCATGAGT 
    GCCTGCAGCA CCATCAGCGC CCAGCCCGCA AGCTCCATGG ACACTCAGAT GCACTCCCCA 
    AAGAAGCAGG AGAGAGTGAA CAAGAGGGTC ATCTGGGGCA TTGAGGTGGC TGAGGAGCTG 
    CATTGGAAAG GCTGGGAGCT AGGAAAGGAG ACCACAAGGA ATCTGGTTCT GAAAAATCGA 
    TCCTTGAAAC TCCAGAAGAT GAAGTACAGG CCCCCCAAGA CCAAGTTCTT CTTCACGGTC 
    ATCCCTCAGC CCATCTTCCT GAGCCCAGGC ATAACCCTCA CGCTCCCCAT CGTCTTCCGG 
    CCTCTGGAGG CGAAGGAGTA CATGGACCAG CTGTGGTTTG AGAAAGCGGA GGGGATGTTC 
    TGTGTCGGCC TACGGGCCAC CCTGCCCTGC CACAGGCTGA TCTGCCGCCC ACCATCCCTG 
    CAGCTGCCCA TGTGTGCTGT GGGAGATACG ACTGAGGCCT TTTTCTGCCT GGATAATGTG 
    GGGGACCTGC CCACCTTCTT CACCTGGGAG TTCTCCAGCC CATTCCAGAT GCTGCCCGCC 
    ACGGGGCTCC TGGAGCCAGG CCAGGCCTCT CAGATCAAGG TGACCTTTCA GCCCCTTACA 
    GCCGTCATCT ACGAGGTGCA GGCCACGTGC TGGTACGGGG CGGGCAGCCG GCAGAGGAGC 
    AGCATCCAGC TGCAGGCTGT GGCCAAGTGC GCCCAGCTGC TGGTGAGCAT AAAGCACAAG 
    TGCCCGGAGG ACCAGGATGC CGAGGGCTTC CAGAAGCTGT TGTACTTTGG CTCTGTTGCT 
    GTGGGCTGCA CCTCGGAGAG GCAGATCAGG CTACACAACC CGTCGGCGGT AAATGCCCCC 
    TTCAGGATTG AAATTTCCCC GGATGAACTG GCCGAAGACC AGGCCTTCTC ATGCCCCACG 
    GCCCATGGCA TCGTGCTTCC GGGAGAGAAG AAATGTGTGT CGGTGTTCTT CCACCCCAAG 
    ACTCTGGACA CCAGAACTGT GGACTACTGC TCCATCATGC CTTCTGGCTG TGCCTCCAAG 
    ACCCTGCTTA AAGTCGTTGG TTTCTGTAGA GGCCCTGCTG TGTCCCTGCA GCACTACTGT 
    GTCAACTTCA GCTGGGTCAA CCTTGGGGAG CGCTCCGAGC AGCCCCTGTG GATTGAGAAC 
    CAATCGGACT GCACGGCCCA CTTCCAGTTT GCCATCGACT GCTTGGAGAG TGTCTTTACC 
    ATCAGGCCTG CCTTTGGGAC GCTGGTGGGC AAGGCCCGTA TGACCCTGCA CTGTGCCTTC 
    CAGCCCACTC ACCCCATCAT CTGCTTTCGG CGTGTGGCCT GTCTCATCCA CCACCAGGAC 
    CCACTGTTCC TGGACCTGAT GGGGACCTGC CACTCGGACA GCACCAAGCC AGCCATCCTG 
    AAGCCTCAGC ACCTCACCTG GTACCGCACA CACCTGGCCC GGGGCCTGAC GCTCTACCCC 
    CCTGACATCC TGGATGCCAT GCTGAAGGAG AAGAAGCTGG CACAGGACCA GAACGGGGCT 
    CTCATGATTC CCATCCAGGA TCTGGAGGAC ATGCCGGCCC CGCAGTACCC TTATATCCCC 
    CCCATGACCG AGTTCTTCTT CGACGGCACC AGCGACATAA CCATCTTCCC CCCGCCCATC 
    AGTGTAGAGC CTGTCGAGGT AGACTTCGGT GCCTGCCCAG GGCCTGAGGC CCCCAACCCT 
    GTACCCCTGT GCCTGATGAA CCACACCAAG GGCAAGATCA TGGTGGTCTG GACGCGAAGG 
    TCTGACTGCC CCTTCTGGGT GACTCCAGAG AGCTGCGACG TGCCCCCACT CAAGTCCATG 
    GCCATGCGCC TGCACTTCCA GCCGCCTCAC CCCAACTGCC TTTACACGGT GGAGCTCGAA 
    GCCTTCGCCA TCTATAAGGT CCTGCAGAGC TACAGTAATA TTGAGGAGGA CTGCACCATG 
    TGCCCATCCT GGTGCCTGAC GGTGCGGGCA CGAGGCCACA GCTATTTCGC TGGCTTTGAG 
    CACCACATCC CCCAGTATTC CCTAGATGTC CCCAAGCTAT TTCCAGCAGT GTCCTCCGGT 
    GAGCCCACCT ACCGCAGCCT GCTCCTGGTC AACAAAGACT GCAAGCTGCT GACCTTCAGC 
    CTGGCCCCCC AGAGAGGCTC AGACGTCATC CTTCGGCCCA CTTCGGGCCT TGTGGCACCC 
    GGGGCCCACC AGATCATCCT CATCTGCACC TACCCTGAGG GCAGCTCCTG GAAGCAGCAC 
    ACTTTCTATC TGCAGTGCAA TGCTTCCCCC CAGTATCTCA AGGAGGTGAG CATGTACAGC 
    CGGGAGGAGC CACTGCAGCT GAAGCTGGAC ACCCACAAAA GCCTCTACTT CAAGCCCACC 
    TGGGTGGGCT GCTCCTCCAC CAGCCCCTTC ACCTTCCGCA ACCCCTCGCG TCTGCCCCTG 
    CAGTTCGAGT GGAGGGTCTC TGAGCAGCAT CGAAAGCTGC TGGCTGTCCA GCCCTCCAGG 
    GGGCTAATCC AGCCCAACGA GAGACTTACG CTGACGTGGA CCTTCAGCCC TTTGGAGGAG 
    ACCAAGTACC TGTTCCAAGT GGGGATGTGG GTCTGGGAAG CCGGCCTGTC CCCAAATGCC 
    AACCCCGCTG CCACCACCCA CTACATGCTC CGGCTGGTGG GCGTTGGGCT CACCAGCAGC 
    CTCTCTGCAA AGGAAAAGGA GCTGGCCTTT GGGAATGTGC TGGTGAACAG CAAGCAGTCC 
    AGGTTCCTTG TCCTCCTGAA TGACGGCAAC TGCACCCTCT ATTACCGCCT CTACCTGGAG 
    CAGGGCAGCC CTGAGGCCGT TGACAACCAC CCCCTCGCTC TGCAGCTGGA CCGAACAGAG 
    GGGAGCATGC CACCCCGGTC CCAGGACACC ATCTGCCTGA CTGCCTGTCC CAAGCAGCGG 
    TCCCAGTACT CCTGGACCAT CACCTACTCT CTCCTTTCCC ACAGAGATAA CAAGGCTGGG 
    GAGAAGCAGG AGCTGTGCTG CGTCTCCCTG GTGGCCGTGT ACCCCTTGCT TTCCATCCTG 
    GATGTCAGCT CCATGGGCAG TGCTGAGGGT ATCACCCGGA AGCACCTGTG GCGCCTCTTC 
    TCTCTGGACC TGCTTAACAG TTACTTGGAG CGTGACCCCA CCCCCTGTGA GCTCACCTAC 
    AAGGTGCCCA CCCGGCACAG CATGAGCCAG ATCCCCCCCG TCCTCACCCC TTTAAGGCTT 
    GACTTCAATT TCGGGGCCGC ACCATTCAAG GCCCCACCTT CCGTGGTATT CCTGGCCCTG 
    AAGAACAGCG GAGTGGTGTC CCTGGACTGG GCCTTCCTCC TTCCAAGTGA CCAGCGGATT 
    GACGTGGAGC TCTGGGCAGA GCAAGCAGAG TTGAATTCCA CTGAGCTCCA CCAGATGCGC 
    GTGCAGGACA ATTGCCTCTT CTCCATCAGC CCCAAGGCTG GGAGCCTGAG TCCTGGGCAG 
    GAGCAGATGG TGGAGTTAAA ATACAGCCAC CTGTTCATCG GTACTGATCA CCTCCCAGTG 
    CTCTTCAAGG TGTCCCATGG CCGGGAGATC CTGCTAAATT TCATAGGTGT GACAGTGAAG 
    CCGGAGCAGA AGTATGTGCA CTTCACCTCT ACTACCCACC AGTTCATCCC CATTCCCATT 
    GGTGACACGC TACCCCCACG GCAGATTTAT GAGCTGTATA ATGGTGGCTC AGTGCCCGTG 
    ACATATGAGG TCCAGACCGA TGTCCTGTCA CAGGTTCAGG AAAAAAATTT TGATCACCCC 
    ATCTTTTGCT GCCTCAACCC CAAAGGGGAG ATCCAGCCAG GCAGCACTGC CCGGGTCTTG 
    TGGATCTTCT CACCTATCGA GGCCAAGACC TACACGGTGG ACGTGCCCAT ACACATCCTG 
    GGATGGAACT CGGCCCTCAT CCACTTCCAG GGAGTGGGCT ACAACCCCCA TATGATGGGG 
    GACACAGCCC CATTCCACAA CATCTCCTCG TGGGACAACA GTTCCATACA CTCTAGGCTG 
    GTGGTGCCTG GACAGAATGT CTTCCTGTCC CAGTCTCATA TTTCCCTGGG AAACATACCT 
    GTGCAGAGCA AGTGCAGCCG CCTGCTCTTC CTCAACAACA TCTCCAAGAA CGAGGAAATT 
    GCCTTCTCCT GGCAGCCAAG TCCTCTAGAT TTTGGGGAGG TGTCTGTGAG TCCCATGATA 
    GGGGTGGTGG CTCCTGAAGA GACGGTCCCA TTTGTGGTGA CCTTGAGGGC CTCTGTGCAT 
    GCCAGCTTCT ACAGTGCAGA CCTGGTATGC AAGCTGTACT CGCAGCAGCT CATGAGGCAG 
    TATCACAAGG AGCTGCAGGA GTGGAAGGAC GAGAAGGTGC GGCAGGAAGT GGAGTTCACC 
    ATCACCGACA TGAAAGTGAA GAAGAGAACA TGCTGCACAG CCTGTGAACC TGCGAGGAAG 
    TACAAGACAC TGCCTCCCAT CAAGAACCAG CAGTCTGTCA GCCGGCCTGC CAGCTGGAAA 
    CTGCAGACCC CAAAGGAGGA GGTGTCCTGG CCCTGCCCCC AGCCACCCTC GCCAGGCATG 
    CTCTGCCTGG GCCTTACTGC CCGAGCCCAT GCCACCGACT ACTTTCTGGC TAACTTCTTC 
    TCAGAGTTTC CCTGCCACTT TTTGCACCGC ATGGTGGCTT GCCCAGGCCA CTCAGAATGT 
    CATGGCTGCC ACAGGGAGCT GCCAAAGAGG AAGGCCCCCA GGGAAGAGTC AGAGACTTCT 
    GAGGAAAAAT CCCCTAACAA GTGGGGCCCT GTTTCCAAGC AGAAGAAGCA GCTCCTGGTT 
    GACATTCTCA CCACAATAAT CAGGGGCCTG CTGGAAGACA AGAACTTCCA TGAGGCTGTG 
    GACCAAAGCC TGGTGGAGCA GGTGCCGTAC TTCCGCCAAT TCTGGAATGA GCAGTCAACT 
    AAGTTCATGG ACCAGAAAAA CAGCCTGTAC TTAATGCCAA TCCTGCCTGT ACCCTCCAGC 
    AGCTGGGAGG ATGGGAAGGG CAAGCAGCCG AAGGAAGACA GACCAGAGCA CTATCCAGGG 
    TTGGGAAAGA AGGAAGAGGG GGAGGAGGAG AAGGGTGAAG AGGAAGAAGA AGAGTTGGAG 
    GAGGAAGAGG AGGAAGAAGA GGAGACAGAA GAGGAGGAGT TGGGCAAGGA GGAGATAGAG 
    GAGAAGGAGG AGGAGAGGGA TGAGAAGGAA GAGAAAGTGA GCTGGGCGGG CATCGGGCCC 
    ACACCACAGC CTGAGTCCCA GGAGTCCATG CAATGGCAGT GGCAACAGCA GCTGAATGTC 
    ATGGTGAAGG AGGAGCAAGA ACAGGACGAG AAGGAGGCCA TCAGAAGGCT CCCGGCCTTC 
    GCCAACCTGC AGGAGGCGCT GCTGGAGAAC ATGATCCAGA ACATCCTGGT GGAGGCGAGC 
    CGCGGGGAGG TGGTACTCAC CTCGCGGCCA CGCGTCATCG CCCTGCCGCC GTTCTGCGTG 
    CCCAGGAGTC TGACCCCGGA CACGCTGCTG CCGACGCAGC AAGCAGAGGT ACTCCACCCG 
    GTGGTGCCAC TTCCTACCGA CCTTCCGTAA

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

    RefSeq XP_016859242.1
    CDS1631..7420
    Translation

    Target ORF information:

    RefSeq Version XM_017003753.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cilia and flagella associated protein 65 (CFAP65), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017003753.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGAGACGG CAATATGGAG GCGATCTTAC ATTTCTTTGA TTTCATCTGA ACGTCCAGTT 
    CACAATTGGA GAGGCAAGAG TGTTCAGAAG AAACAAGCAG AGAGTAAAAG CCAGATAAAG 
    CTCCATACTC AGAGTGCTCC CTTTGGACTG TGTCCCAAGG ACATGATGCT CACCCAGGCT 
    CCAAGCTCCG TCGTGAGGTC CAGGAACAGC AGGAACCACA CCGTGAACTC TGGTGGATCC 
    TGCCTGAGTG CCAGCACAGT GGCCATCCCT GCCATCAACG ACAGCAGTGC AGCCATGAGT 
    GCCTGCAGCA CCATCAGCGC CCAGCCCGCA AGCTCCATGG ACACTCAGAT GCACTCCCCA 
    AAGAAGCAGG AGAGAGTGAA CAAGAGGGTC ATCTGGGGCA TTGAGGTGGC TGAGGAGCTG 
    CATTGGAAAG GCTGGGAGCT AGGAAAGGAG ACCACAAGGA ATCTGGTTCT GAAAAATCGA 
    TCCTTGAAAC TCCAGAAGAT GAAGTACAGG CCCCCCAAGA CCAAGTTCTT CTTCACGGTC 
    ATCCCTCAGC CCATCTTCCT GAGCCCAGGC ATAACCCTCA CGCTCCCCAT CGTCTTCCGG 
    CCTCTGGAGG CGAAGGAGTA CATGGACCAG CTGTGGTTTG AGAAAGCGGA GGGGATGTTC 
    TGTGTCGGCC TACGGGCCAC CCTGCCCTGC CACAGGCTGA TCTGCCGCCC ACCATCCCTG 
    CAGCTGCCCA TGTGTGCTGT GGGAGATACG ACTGAGGCCT TTTTCTGCCT GGATAATGTG 
    GGGGACCTGC CCACCTTCTT CACCTGGGAG TTCTCCAGCC CATTCCAGAT GCTGCCCGCC 
    ACGGGGCTCC TGGAGCCAGG CCAGGCCTCT CAGATCAAGG TGACCTTTCA GCCCCTTACA 
    GCCGTCATCT ACGAGGTGCA GGCCACGTGC TGGTACGGGG CGGGCAGCCG GCAGAGGAGC 
    AGCATCCAGC TGCAGGCTGT GGCCAAGTGC GCCCAGCTGC TGGTGAGCAT AAAGCACAAG 
    TGCCCGGAGG ACCAGGATGC CGAGGGCTTC CAGAAGCTGT TGTACTTTGG CTCTGTTGCT 
    GTGGGCTGCA CCTCGGAGAG GCAGATCAGG CTACACAACC CGTCGGCGGT AAATGCCCCC 
    TTCAGGATTG AAATTTCCCC GGATGAACTG GCCGAAGACC AGGCCTTCTC ATGCCCCACG 
    GCCCATGGCA TCGTGCTTCC GGGAGAGAAG AAATGTGTGT CGGTGTTCTT CCACCCCAAG 
    ACTCTGGACA CCAGAACTGT GGACTACTGC TCCATCATGC CTTCTGGCTG TGCCTCCAAG 
    ACCCTGCTTA AAGTCGTTGG TTTCTGTAGA GGCCCTGCTG TGTCCCTGCA GCACTACTGT 
    GTCAACTTCA GCTGGGTCAA CCTTGGGGAG CGCTCCGAGC AGCCCCTGTG GATTGAGAAC 
    CAATCGGACT GCACGGCCCA CTTCCAGTTT GCCATCGACT GCTTGGAGAG TGTCTTTACC 
    ATCAGGCCTG CCTTTGGGAC GCTGGTGGGC AAGGCCCGTA TGACCCTGCA CTGTGCCTTC 
    CAGCCCACTC ACCCCATCAT CTGCTTTCGG CGTGTGGCCT GTCTCATCCA CCACCAGGAC 
    CCACTGTTCC TGGACCTGAT GGGGACCTGC CACTCGGACA GCACCAAGCC AGCCATCCTG 
    AAGCCTCAGC ACCTCACCTG GTACCGCACA CACCTGGCCC GGGGCCTGAC GCTCTACCCC 
    CCTGACATCC TGGATGCCAT GCTGAAGGAG AAGAAGCTGG CACAGGACCA GAACGGGGCT 
    CTCATGATTC CCATCCAGGA TCTGGAGGAC ATGCCGGCCC CGCAGTACCC TTATATCCCC 
    CCCATGACCG AGTTCTTCTT CGACGGCACC AGCGACATAA CCATCTTCCC CCCGCCCATC 
    AGTGTAGAGC CTGTCGAGGT AGACTTCGGT GCCTGCCCAG GGCCTGAGGC CCCCAACCCT 
    GTACCCCTGT GCCTGATGAA CCACACCAAG GGCAAGATCA TGGTGGTCTG GACGCGAAGG 
    TCTGACTGCC CCTTCTGGGT GACTCCAGAG AGCTGCGACG TGCCCCCACT CAAGTCCATG 
    GCCATGCGCC TGCACTTCCA GCCGCCTCAC CCCAACTGCC TTTACACGGT GGAGCTCGAA 
    GCCTTCGCCA TCTATAAGGT CCTGCAGAGC TACAGTAATA TTGAGGAGGA CTGCACCATG 
    TGCCCATCCT GGTGCCTGAC GGTGCGGGCA CGAGGCCACA GCTATTTCGC TGGCTTTGAG 
    CACCACATCC CCCAGTATTC CCTAGATGTC CCCAAGCTAT TTCCAGCAGT GTCCTCCGGT 
    GAGCCCACCT ACCGCAGCCT GCTCCTGGTC AACAAAGACT GCAAGCTGCT GACCTTCAGC 
    CTGGCCCCCC AGAGAGGCTC AGACGTCATC CTTCGGCCCA CTTCGGGCCT TGTGGCACCC 
    GGGGCCCACC AGATCATCCT CATCTGCACC TACCCTGAGG GCAGCTCCTG GAAGCAGCAC 
    ACTTTCTATC TGCAGTGCAA TGCTTCCCCC CAGTATCTCA AGGAGGTGAG CATGTACAGC 
    CGGGAGGAGC CACTGCAGCT GAAGCTGGAC ACCCACAAAA GCCTCTACTT CAAGCCCACC 
    TGGGTGGGCT GCTCCTCCAC CAGCCCCTTC ACCTTCCGCA ACCCCTCGCG TCTGCCCCTG 
    CAGTTCGAGT GGAGGGTCTC TGAGCAGCAT CGAAAGCTGC TGGCTGTCCA GCCCTCCAGG 
    GGGCTAATCC AGCCCAACGA GAGACTTACG CTGACGTGGA CCTTCAGCCC TTTGGAGGAG 
    ACCAAGTACC TGTTCCAAGT GGGGATGTGG GTCTGGGAAG CCGGCCTGTC CCCAAATGCC 
    AACCCCGCTG CCACCACCCA CTACATGCTC CGGCTGGTGG GCGTTGGGCT CACCAGCAGC 
    CTCTCTGCAA AGGAAAAGGA GCTGGCCTTT GGGAATGTGC TGGTGAACAG CAAGCAGTCC 
    AGGTTCCTTG TCCTCCTGAA TGACGGCAAC TGCACCCTCT ATTACCGCCT CTACCTGGAG 
    CAGGGCAGCC CTGAGGCCGT TGACAACCAC CCCCTCGCTC TGCAGCTGGA CCGAACAGAG 
    GGGAGCATGC CACCCCGGTC CCAGGACACC ATCTGCCTGA CTGCCTGTCC CAAGCAGCGG 
    TCCCAGTACT CCTGGACCAT CACCTACTCT CTCCTTTCCC ACAGAGATAA CAAGGCTGGG 
    GAGAAGCAGG AGCTGTGCTG CGTCTCCCTG GTGGCCGTGT ACCCCTTGCT TTCCATCCTG 
    GATGTCAGCT CCATGGGCAG TGCTGAGGGT ATCACCCGGA AGCACCTGTG GCGCCTCTTC 
    TCTCTGGACC TGCTTAACAG TTACTTGGAG CGTGACCCCA CCCCCTGTGA GCTCACCTAC 
    AAGGTGCCCA CCCGGCACAG CATGAGCCAG ATCCCCCCCG TCCTCACCCC TTTAAGGCTT 
    GACTTCAATT TCGGGGCCGC ACCATTCAAG GCCCCACCTT CCGTGGTATT CCTGGCCCTG 
    AAGAACAGCG GAGTGGTGTC CCTGGACTGG GCCTTCCTCC TTCCAAGTGA CCAGCGGATT 
    GACGTGGAGC TCTGGGCAGA GCAAGCAGAG TTGAATTCCA CTGAGCTCCA CCAGATGCGC 
    GTGCAGGACA ATTGCCTCTT CTCCATCAGC CCCAAGGCTG GGAGCCTGAG TCCTGGGCAG 
    GAGCAGATGG TGGAGTTAAA ATACAGCCAC CTGTTCATCG GTACTGATCA CCTCCCAGTG 
    CTCTTCAAGG TGTCCCATGG CCGGGAGATC CTGCTAAATT TCATAGGTGT GACAGTGAAG 
    CCGGAGCAGA AGTATGTGCA CTTCACCTCT ACTACCCACC AGTTCATCCC CATTCCCATT 
    GGTGACACGC TACCCCCACG GCAGATTTAT GAGCTGTATA ATGGTGGCTC AGTGCCCGTG 
    ACATATGAGG TCCAGACCGA TGTCCTGTCA CAGGTTCAGG AAAAAAATTT TGATCACCCC 
    ATCTTTTGCT GCCTCAACCC CAAAGGGGAG ATCCAGCCAG GCAGCACTGC CCGGGTCTTG 
    TGGATCTTCT CACCTATCGA GGCCAAGACC TACACGGTGG ACGTGCCCAT ACACATCCTG 
    GGATGGAACT CGGCCCTCAT CCACTTCCAG GGAGTGGGCT ACAACCCCCA TATGATGGGG 
    GACACAGCCC CATTCCACAA CATCTCCTCG TGGGACAACA GTTCCATACA CTCTAGGCTG 
    GTGGTGCCTG GACAGAATGT CTTCCTGTCC CAGTCTCATA TTTCCCTGGG AAACATACCT 
    GTGCAGAGCA AGTGCAGCCG CCTGCTCTTC CTCAACAACA TCTCCAAGAA CGAGGAAATT 
    GCCTTCTCCT GGCAGCCAAG TCCTCTAGAT TTTGGGGAGG TGTCTGTGAG TCCCATGATA 
    GGGGTGGTGG CTCCTGAAGA GACGGTCCCA TTTGTGGTGA CCTTGAGGGC CTCTGTGCAT 
    GCCAGCTTCT ACAGTGCAGA CCTGGTATGC AAGCTGTACT CGCAGCAGCT CATGAGGCAG 
    TATCACAAGG AGCTGCAGGA GTGGAAGGAC GAGAAGGTGC GGCAGGAAGT GGAGTTCACC 
    ATCACCGACA TGAAAGTGAA GAAGAGAACA TGCTGCACAG CCTGTGAACC TGCGAGGAAG 
    TACAAGACAC TGCCTCCCAT CAAGAACCAG CAGTCTGTCA GCCGGCCTGC CAGCTGGAAA 
    CTGCAGACCC CAAAGGAGGA GGTGTCCTGG CCCTGCCCCC AGCCACCCTC GCCAGGCATG 
    CTCTGCCTGG GCCTTACTGC CCGAGCCCAT GCCACCGACT ACTTTCTGGC TAACTTCTTC 
    TCAGAGTTTC CCTGCCACTT TTTGCACCGC ATGGTGGCTT GCCCAGGCCA CTCAGAATGT 
    CATGGCTGCC ACAGGGAGCT GCCAAAGAGG AAGGCCCCCA GGGAAGAGTC AGAGACTTCT 
    GAGGAAAAAT CCCCTAACAA GTGGGGCCCT GTTTCCAAGC AGAAGAAGCA GCTCCTGGTT 
    GACATTCTCA CCACAATAAT CAGGGGCCTG CTGGAAGACA AGAACTTCCA TGAGGCTGTG 
    GACCAAAGCC TGGTGGAGCA GGTGCCGTAC TTCCGCCAAT TCTGGAATGA GCAGTCAACT 
    AAGTTCATGG ACCAGAAAAA CAGCCTGTAC TTAATGCCAA TCCTGCCTGT ACCCTCCAGC 
    AGCTGGGAGG ATGGGAAGGG CAAGCAGCCG AAGGAAGACA GACCAGAGCA CTATCCAGGG 
    TTGGGAAAGA AGGAAGAGGG GGAGGAGGAG AAGGGTGAAG AGGAAGAAGA AGAGTTGGAG 
    GAGGAAGAGG AGGAAGAAGA GGAGACAGAA GAGGAGGAGT TGGGCAAGGA GGAGATAGAG 
    GAGAAGGAGG AGGAGAGGGA TGAGAAGGAA GAGAAAGTGA GCTGGGCGGG CATCGGGCCC 
    ACACCACAGC CTGAGTCCCA GGAGTCCATG CAATGGCAGT GGCAACAGCA GCTGAATGTC 
    ATGGTGAAGG AGGAGCAAGA ACAGGACGAG AAGGAGGCCA TCAGAAGGCT CCCGGCCTTC 
    GCCAACCTGC AGGAGGCGCT GCTGGAGAAC ATGATCCAGA ACATCCTGGT GGAGGCGAGC 
    CGCGGGGAGG TGGTACTCAC CTCGCGGCCA CGCGTCATCG CCCTGCCGCC GTTCTGCGTG 
    CCCAGGAGTC TGACCCCGGA CACGCTGCTG CCGACGCAGC AAGCAGAGGT ACTCCACCCG 
    GTGGTGCCAC TTCCTACCGA CCTTCCGTAA

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

見積依頼

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