ORF » Species Summary » Phaeodactylum tricornutum CCAP 1055/1 » PHATRDRAFT_45225 cDNA ORF clone

PHATRDRAFT_45225 cDNA ORF clone, Phaeodactylum tricornutum CCAP 1055/1

The following PHATRDRAFT_45225 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PHATRDRAFT_45225 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
OPb03334 XM_002179416.1
Latest version!		 Phaeodactylum tricornutum CCAP 1055/1 predicted protein mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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** 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)
    PHATRDRAFT_45225 ( XM_002179416.1 ) cDNA ORF clone, Phaeodactylum tricornutum CCAP 1055/1 -> XP_002179452.1 Phaeodactylum tricornutum CCAP 1055/1 predicted protein mRNA.
    Price & Availability↑
    CloneID OPb03334
    Clone ID Related Accession (Same CDS sequence) XM_002179416.1
    Accession Version XM_002179416.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3414bp)
    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 1497456000000
    Organism Phaeodactylum tricornutum CCAP 1055/1
    Product predicted protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_011674). 

    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
    ATGTCTTTTA CAGCTACGGC GGATGCTACA TTCATCTACG GAATGGACGG CTCCGGTAAG 
    CTTTTTCTCC CACGTCCTTT GAATTCCCGT TCTTGGGAGG ACGGAGAAAA TGGCCTCAAA 
    CGCTCGAGGG ACAATTCTAC GGAAGATGTG GACGACAGCA CGTTGTTCCA CACATTTTTG 
    GGCACCTCGC CGGACGACGG CGATAATCAT GCCTACTCTT CTCCCCTCCG AAGCCCTACA 
    ACGGTCAGTA GTGATCAAGA CGACCGGGCC GGACCGGAAC GGGACGCCCG GACTCCTCCA 
    AGGGCTCTCA GCAACAATTC GTTATTTGGT GAAGACTTTG TCAATAGCAG TAGACGTTCT 
    GGTCTAAACG GCCGCGGAGC GTTCGATACG GAAGACACAG ATCACATTTT AACCCTTTCC 
    CCGGAGCAAC AACCGAGGCT GCCGTTTTAC GACCTCAGTC CCAGCGAAAC TATGACTCCG 
    CCCTCTGCGT CCCACTCCCA AACGTTGTCT CCCCCACCGC TGATACAACA CTTGGAGAAT 
    GTGTCGTACT CGTCCCGAAC AACATCGCAA ATAAATCATA GCAACAACAA CAACAACAGT 
    CACCGTCCAC CGAGGGCGCC CGGACAAATA GCACGGTTCT CCAGTCACAG TGTAGAGGGC 
    ACAGTCACTT CGGCGTTTGC CGCGCATCTT TCCAAGCCAC CGGTCGTTCT GCCGCGACAT 
    CATAGGCGCG CCTCGAGCGC CGGAGACGCC AGCTTTTTGT CGGCGCTGAC GGATGCGTCT 
    TTTGAAGCAC CCAACGGAAA CGACTTGCTG CTGCCGAGGG GAGATTTCAC TAAACAGCAG 
    CATCAAGAAG ATCGTCGTCT TGGTCATCGC CGCAACGCAT CCTGGGATCC TACCGTGGAG 
    TCGCAACTTC ATGGGGAAGT CCGGGGTATG AACATTGACG TACCAGTCGC ACTACAGCAA 
    CCAATTTTGA GTGATTTTTC TTTGCAGATG GATCAAGCGA GGATTCCTGA CAAGTCTGCA 
    GCCATGAATC CCGTCGTGAA AAAATCTCTC ATGACTTTGG TCAAGCGATC GCCTACCGTA 
    TCGCTCGCTC CGCTAGATCA TTCAAACGCA TCAATCGCAG CCTTAGACAA TTTAACAGCA 
    CAGTCGTCGA CGCCTTCCGA AACTTCAAGT CTGCCGGCGA CAAGAAAGGC TCTAGATTAT 
    GAGGAAGACC ACTTTAGAGC AAAAGAGATT GATGCGAAAG TCGAAAAGCT TATTTTCGAT 
    ACCCACGAAG GCCACATTCA AAGATTGACA ATGTTTGATT CGAATCAAGC CAAAAACCCA 
    AAGGTATTGC GCGAGGACGC TTTGTTGAGG GCTTCCAGTG CTTTTGAAGC GTTTCAGAAG 
    ATAATATCTC CTGATGATGA GGCAGACTGC TTTGAAGTCG AAACGGGTCA TGAACTACGT 
    CTGAACGAAA GCTCAATGGA TATGCTTGTC AGGCATGCTC GGATAATGAA AAGTATTTTG 
    GTATTGGCAT ATCCAACGGG AGGAGCTAGT GCTGCTATCG CTTCTGGTAA GACTAGTCGT 
    TTGCAAAGAG GAAAAGAAGA AGAGAGTAAC GACACCGATC AGGATACTCA AGATCAACAG 
    GAAAGCGACC AAGGGAATAG CAGTGTGGCC CAGGACGAAA CTGGCCATAA AATCAATCAT 
    CTCTCCATCA AAGACTCTGT TGGTCTCAGC AATGAGTTCG TGCGGAACGC GAAGGCAGTG 
    GAAGACCAGT GGGCCATGTT TGAAAGTCTA TGCAATGGTG AAAAGGACTT CTTAAAGCGC 
    ACCACATTGA ATCTTGTCTT TTATGCCATT CTTCCGTCGA CGATGATCGC TTGCTTTCTC 
    TTTTATGGGG CCGGGAATCC ACAAGCAGGA TGGTGGCAGC CGGGTGAGCC TGCTGTGGAC 
    CCAAAAGGGG ACTTGAATGG AACAACCGTG ACATCAGCTA GCTGGTGGTG TCTGTTTTTA 
    GGGGTACGAC AAATTGTGCT GTATGCTTTG GCTAGTTGTT TTGAAGTATG CCTTGTCAAA 
    TATCTTGCTC TAGCCAGCCC AGGCTTCATC CGTAGTTTGG GACCCAACTT GGCGCTTTCG 
    ATATCACAAG GGCACGGCTA TCCGATCAAG CTTGTTTCCT TTGCCACATT GAGCTGTTTG 
    TTGTCGTACG GAAAAAGCGA TTTCAAAAAT CATTGGCTGT TCTGGCAAAC CAAGATCGAA 
    GTTTTATCTC AAGCAAATCC TGCCGGTAAT GTTTCAAGCC ACGCTTTCTA CGGGCGTGTC 
    CTCTATGCAT TTATATTTGT CGGTGTTTCA ACATGGTTAA AGCGTCTTTG GGCCGGCCAG 
    CACTTCGGCA GACGACTGTA TAGTCGATAC AATCATCAAT TGACCAAAAT TCTGAACAAG 
    ATGCTTCTTA TTAGTGAAGT AGCATACCTT TCAAGTAACG CAGAGAGTTT TGCTCGCAGT 
    GATATCAGTG TGAACCCACT CAAAGCGGAT CCTTCTTTTG TCAACCGTTC ATCATCGGAT 
    GAAAGAACAG GCGGACGGAT AAAGGTCGAT CGCAATGTCG ACAAATATTC GCAGAACTTG 
    CAATTACCTA CTCTTTTTGA GAACTTGAAA GAATATGTGG CGCAGTCCAA TGACGAGAAT 
    ATTAACGTCA CCTCGTTAAA AGATATTCTG CTTTTCCACC ATTCGTACCA GATGATACAA 
    TCAGAGTATC CTTTTTCTGC TGTATTTGGA CCCTCGGCAA CTCAGGCTCA ATGCTCAAAT 
    TCAGCCGAAA TTGTATATCG GCGTTTGCTG AAACTCCAGG ATCGGGAAGA GGCCGCTGGT 
    CTTGAGTTTG GAGTGCTTTC TAGAATAGTG CTACGGGAAA AGGGTGACAT TGCTAGTAAC 
    AAAATTCGTT GGCCTTTTGA CATTGGCGAT CACATTACCG TATCAAACGA CGACAGAATG 
    GATGTGCATG GAGCGGAGGG ATGGATTGTT GAAAAAATGG ACTTGTTCAC GACCACGCTT 
    CGCATGATCT CATCTCGAAA AGTCGCAACG TTTTCAAATG CTTCGCTAGC CCGCAGTTGT 
    ATCGTCAATC TGAAGCGCTC CGAAAACGCG CAGATCAACA TATTGCTCAA ATTTGATTCG 
    GAAATATCAC TTTCGAAAGT CAAAGTCTTT ACGAAGGCAG TCAATCGGTT TGTTGAAAAG 
    CACTCTAAGG AGTGGTTGGC CGTCACCTCA TTTCGAAAAA TTAGAGTCGA AGCAGACCTG 
    GGCTTCGTCG AATATCAATT GGGGCTTCTG CACCGGAAAG CTTGGCAAGA CACTCTTGCC 
    ATTGCTGAAA GCAGGGCCAG TGTTTCTGGT TTTTGTGGTG CGCTACAAAA GAAGCTGGGC 
    ATAGCACTCG CCACAACATC CGTACCTAAA GTATATGCAT GCTGTAGACA ATAA

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

    RefSeq XP_002179452.1
    CDS32..3445
    Translation

    Target ORF information:

    RefSeq Version XM_002179416.1
    Organism Phaeodactylum tricornutum CCAP 1055/1
    Definition Phaeodactylum tricornutum CCAP 1055/1 predicted protein mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002179416.1

    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
    ATGTCTTTTA CAGCTACGGC GGATGCTACA TTCATCTACG GAATGGACGG CTCCGGTAAG 
    CTTTTTCTCC CACGTCCTTT GAATTCCCGT TCTTGGGAGG ACGGAGAAAA TGGCCTCAAA 
    CGCTCGAGGG ACAATTCTAC GGAAGATGTG GACGACAGCA CGTTGTTCCA CACATTTTTG 
    GGCACCTCGC CGGACGACGG CGATAATCAT GCCTACTCTT CTCCCCTCCG AAGCCCTACA 
    ACGGTCAGTA GTGATCAAGA CGACCGGGCC GGACCGGAAC GGGACGCCCG GACTCCTCCA 
    AGGGCTCTCA GCAACAATTC GTTATTTGGT GAAGACTTTG TCAATAGCAG TAGACGTTCT 
    GGTCTAAACG GCCGCGGAGC GTTCGATACG GAAGACACAG ATCACATTTT AACCCTTTCC 
    CCGGAGCAAC AACCGAGGCT GCCGTTTTAC GACCTCAGTC CCAGCGAAAC TATGACTCCG 
    CCCTCTGCGT CCCACTCCCA AACGTTGTCT CCCCCACCGC TGATACAACA CTTGGAGAAT 
    GTGTCGTACT CGTCCCGAAC AACATCGCAA ATAAATCATA GCAACAACAA CAACAACAGT 
    CACCGTCCAC CGAGGGCGCC CGGACAAATA GCACGGTTCT CCAGTCACAG TGTAGAGGGC 
    ACAGTCACTT CGGCGTTTGC CGCGCATCTT TCCAAGCCAC CGGTCGTTCT GCCGCGACAT 
    CATAGGCGCG CCTCGAGCGC CGGAGACGCC AGCTTTTTGT CGGCGCTGAC GGATGCGTCT 
    TTTGAAGCAC CCAACGGAAA CGACTTGCTG CTGCCGAGGG GAGATTTCAC TAAACAGCAG 
    CATCAAGAAG ATCGTCGTCT TGGTCATCGC CGCAACGCAT CCTGGGATCC TACCGTGGAG 
    TCGCAACTTC ATGGGGAAGT CCGGGGTATG AACATTGACG TACCAGTCGC ACTACAGCAA 
    CCAATTTTGA GTGATTTTTC TTTGCAGATG GATCAAGCGA GGATTCCTGA CAAGTCTGCA 
    GCCATGAATC CCGTCGTGAA AAAATCTCTC ATGACTTTGG TCAAGCGATC GCCTACCGTA 
    TCGCTCGCTC CGCTAGATCA TTCAAACGCA TCAATCGCAG CCTTAGACAA TTTAACAGCA 
    CAGTCGTCGA CGCCTTCCGA AACTTCAAGT CTGCCGGCGA CAAGAAAGGC TCTAGATTAT 
    GAGGAAGACC ACTTTAGAGC AAAAGAGATT GATGCGAAAG TCGAAAAGCT TATTTTCGAT 
    ACCCACGAAG GCCACATTCA AAGATTGACA ATGTTTGATT CGAATCAAGC CAAAAACCCA 
    AAGGTATTGC GCGAGGACGC TTTGTTGAGG GCTTCCAGTG CTTTTGAAGC GTTTCAGAAG 
    ATAATATCTC CTGATGATGA GGCAGACTGC TTTGAAGTCG AAACGGGTCA TGAACTACGT 
    CTGAACGAAA GCTCAATGGA TATGCTTGTC AGGCATGCTC GGATAATGAA AAGTATTTTG 
    GTATTGGCAT ATCCAACGGG AGGAGCTAGT GCTGCTATCG CTTCTGGTAA GACTAGTCGT 
    TTGCAAAGAG GAAAAGAAGA AGAGAGTAAC GACACCGATC AGGATACTCA AGATCAACAG 
    GAAAGCGACC AAGGGAATAG CAGTGTGGCC CAGGACGAAA CTGGCCATAA AATCAATCAT 
    CTCTCCATCA AAGACTCTGT TGGTCTCAGC AATGAGTTCG TGCGGAACGC GAAGGCAGTG 
    GAAGACCAGT GGGCCATGTT TGAAAGTCTA TGCAATGGTG AAAAGGACTT CTTAAAGCGC 
    ACCACATTGA ATCTTGTCTT TTATGCCATT CTTCCGTCGA CGATGATCGC TTGCTTTCTC 
    TTTTATGGGG CCGGGAATCC ACAAGCAGGA TGGTGGCAGC CGGGTGAGCC TGCTGTGGAC 
    CCAAAAGGGG ACTTGAATGG AACAACCGTG ACATCAGCTA GCTGGTGGTG TCTGTTTTTA 
    GGGGTACGAC AAATTGTGCT GTATGCTTTG GCTAGTTGTT TTGAAGTATG CCTTGTCAAA 
    TATCTTGCTC TAGCCAGCCC AGGCTTCATC CGTAGTTTGG GACCCAACTT GGCGCTTTCG 
    ATATCACAAG GGCACGGCTA TCCGATCAAG CTTGTTTCCT TTGCCACATT GAGCTGTTTG 
    TTGTCGTACG GAAAAAGCGA TTTCAAAAAT CATTGGCTGT TCTGGCAAAC CAAGATCGAA 
    GTTTTATCTC AAGCAAATCC TGCCGGTAAT GTTTCAAGCC ACGCTTTCTA CGGGCGTGTC 
    CTCTATGCAT TTATATTTGT CGGTGTTTCA ACATGGTTAA AGCGTCTTTG GGCCGGCCAG 
    CACTTCGGCA GACGACTGTA TAGTCGATAC AATCATCAAT TGACCAAAAT TCTGAACAAG 
    ATGCTTCTTA TTAGTGAAGT AGCATACCTT TCAAGTAACG CAGAGAGTTT TGCTCGCAGT 
    GATATCAGTG TGAACCCACT CAAAGCGGAT CCTTCTTTTG TCAACCGTTC ATCATCGGAT 
    GAAAGAACAG GCGGACGGAT AAAGGTCGAT CGCAATGTCG ACAAATATTC GCAGAACTTG 
    CAATTACCTA CTCTTTTTGA GAACTTGAAA GAATATGTGG CGCAGTCCAA TGACGAGAAT 
    ATTAACGTCA CCTCGTTAAA AGATATTCTG CTTTTCCACC ATTCGTACCA GATGATACAA 
    TCAGAGTATC CTTTTTCTGC TGTATTTGGA CCCTCGGCAA CTCAGGCTCA ATGCTCAAAT 
    TCAGCCGAAA TTGTATATCG GCGTTTGCTG AAACTCCAGG ATCGGGAAGA GGCCGCTGGT 
    CTTGAGTTTG GAGTGCTTTC TAGAATAGTG CTACGGGAAA AGGGTGACAT TGCTAGTAAC 
    AAAATTCGTT GGCCTTTTGA CATTGGCGAT CACATTACCG TATCAAACGA CGACAGAATG 
    GATGTGCATG GAGCGGAGGG ATGGATTGTT GAAAAAATGG ACTTGTTCAC GACCACGCTT 
    CGCATGATCT CATCTCGAAA AGTCGCAACG TTTTCAAATG CTTCGCTAGC CCGCAGTTGT 
    ATCGTCAATC TGAAGCGCTC CGAAAACGCG CAGATCAACA TATTGCTCAA ATTTGATTCG 
    GAAATATCAC TTTCGAAAGT CAAAGTCTTT ACGAAGGCAG TCAATCGGTT TGTTGAAAAG 
    CACTCTAAGG AGTGGTTGGC CGTCACCTCA TTTCGAAAAA TTAGAGTCGA AGCAGACCTG 
    GGCTTCGTCG AATATCAATT GGGGCTTCTG CACCGGAAAG CTTGGCAAGA CACTCTTGCC 
    ATTGCTGAAA GCAGGGCCAG TGTTTCTGGT TTTTGTGGTG CGCTACAAAA GAAGCTGGGC 
    ATAGCACTCG CCACAACATC CGTACCTAAA GTATATGCAT GCTGTAGACA ATAA

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

  • PubMed

    The Phaeodactylum genome reveals the evolutionary history of diatom genomes.
    Nature456(7219)239-44(2008 Nov)
    Bowler C,Allen AE,Badger JH,Grimwood J,Jabbari K,Kuo A,Maheswari U,Martens C,Maumus F,Otillar RP,Rayko E,Salamov A,Vandepoele K,Beszteri B,Gruber A,Heijde M,Katinka M,Mock T,Valentin K,Verret F,Berges JA,Brownlee C,Cadoret JP,Chiovitti A,Choi CJ,Coesel S,De Martino A,Detter JC,Durkin C,Falciatore A,Fournet J,Haruta M,Huysman MJ,Jenkins BD,Jiroutova K,Jorgensen RE,Joubert Y,Kaplan A,Kröger N,Kroth PG,La Roche J,Lindquist E,Lommer M,Martin-Jézéquel V,Lopez PJ,Lucas S,Mangogna M,McGinnis K,Medlin LK,Montsant A,Oudot-Le Secq MP,Napoli C,Obornik M,Parker MS,Petit JL,Porcel BM,Poulsen N,Robison M,Rychlewski L,Rynearson TA,Schmutz J,Shapiro H,Siaut M,Stanley M,Sussman MR,Taylor AR,Vardi A,von Dassow P,Vyverman W,Willis A,Wyrwicz LS,Rokhsar DS,Weissenbach J,Armbrust EV,Green BR,Van de Peer Y,Grigoriev IV


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