ORF » Species Summary » Theileria parva strain Muguga » TP01_0575 cDNA ORF clone

TP01_0575 cDNA ORF clone, Theileria parva strain Muguga

The following TP01_0575 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TP01_0575 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
OTl04005 XM_761001.1
Latest version!		 Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0575) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    TP01_0575 ( XM_761001.1 ) cDNA ORF clone, Theileria parva strain Muguga -> XP_766094.1 Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0575) partial mRNA.
    Price & Availability↑
    CloneID OTl04005
    Clone ID Related Accession (Same CDS sequence) XM_761001.1
    Accession Version XM_761001.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5172bp)
    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 1225296000000
    Organism Theileria parva strain Muguga
    Product hypothetical 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_007344). COMPLETENESS: incomplete on both ends. 

    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
    ATGATTTCAG CCAAAATTTA TATATTCGGA GTGACATTTC TTATTTTGTC ACTATTTACA 
    TTTAATTTTT TCATTCCAGG TGTCGGAGCT TGGAATGCTA AAGATGTGCT TCCACTAGGC 
    CTGAATAGAT ATGGTGAGGA CCTTCACTTT TTCCATAAAG GGGGTGATTT GGACTCGTTC 
    ATCTCCTTGG AAAAGGTGCC CGAATCCTCA GAGCTACGTT CCTCTTTGGC CCAGACAGCA 
    GCTGATACCA CTGCTCAGAG GACTGTAATC GCTGCTGGAA CCAGCTCAGA AACCTGTACA 
    AGCTGGGAAG ACGTCTCAGT TTGCTCCACT AAATCCACCA TCAAATGCTT AGATAATGGG 
    AAGCAACACT TGGAAATGTC TTGTTTCCTC ATGAACACAG TAACCTGGTC TGACTGGTCC 
    CCCTGTGAAA ACAATGTCCA GTACAGATTT GCACTTGATT TCTCTAGCGG GAACACCCAG 
    TATAGATACT GCGGTGATGG AGCAGCTGCG CTGATGAATC GCATGAAGGG TCACACTCCC 
    AAAAAGACGG AACAGGAGAT CTTGAAGGAG CGTCTAGAGA AATACGTTAA CCTAAACCGC 
    GAACTTCATA AAAAGAATGA AGAAGCGGAG AATCTTTACA ATGCGTATAT GCAAAAATAT 
    GCGAAGTTCT ACGATCGGAA TAAAGACCTA AATCGAAAAA TTAAGGAATT TAATCAGAAA 
    AATGATGAAT TTGAAAAGCA AAAGCAGGCT CTAGACGACC AAAAATCCAA GTATGATTCT 
    CTAAATTCTA ATCTAGAGGT ACGAACCAGA GATTTAGAGC GTGAAAAGGA CAATTATAAG 
    CGAAAAACTG ATAAATTGGC CGAAATGGAA CTTGAATTAC AGGAAGATAT TAAGTTTTAT 
    CACAAGAAAC AGGATGAACT TAACGCTGAA CGCTTGGCTT TACAAGACAA GGAAAAAGAT 
    TACGCTAAAC GTTCCGAAGA CTTGGAAAGT GAAAGGACCA AAATTCTGGA CAAAGATCGA 
    AAATTAGAAG AGGAATTGGC CAGAATTAAA GAAAAGGAGG CAACTTTAAC TCAACAACAC 
    CAGAAAAAGG ATGAAAACCT CACTCAAAGA GAGGAAGCCC TTAAAGTTGA ATTGGAGACC 
    AATAAAGGAT TACTAGCCAG CATCGAATCA CAAAGAACGT CTTTAGCCTC TGAGCAAAGG 
    GAACTGGAAT CTAAAAAGCA GGAACAAAAA TTATTGGAGG CCAATATCAA CACCGAAACT 
    CAGAGGTTGG AGAAACTTAA ACAAGAAAAC GAAGCCGCAA AGGAACATAT GGTCAATTAT 
    GGCAAGTTCC TCAGCGAAGA AACTACCAAA TTAAACAAAA TTAAGAAAGA TAATGAAGCT 
    GCTAAAGCCG TTTTAGATGA ACGCGAGCAA AAATTGGATG AGGAATCTCA AAAGATTGAT 
    CAACTTAAGG TTGAAAATTC CAAAGAGGCT AAGAGGCTAC AGGACCTTCA AGCAGACATA 
    GATAAAGAAA AATTGGCAAA TACCAAACTT TCTGAACAAT TAAATAGGGA AAGAGATGAG 
    CTCGCCACCA AGACTCAGGA ACAAGAAAGA CTTAAATCTG AGTATGAGAG TAAGAATACC 
    CAGATCCTCG AAACAGAAAA GAATTTACAG AAACAAATCT CTGAAAATGA AACCTTGGCA 
    GCAACTTTGA AGAAGCAAGA GAAGGATATT GAGGCTGAAA ATGAAAAAAT TAAAAAGGAA 
    ATTGAAAGAT TAAATCAGGA AGAAAGGAAT CAGGCCTATA TACTTAAGTA TACCGCTAAG 
    CAGCAGTCTC GCAAATCCAG TGCTTTACTA AATAAACAAA AAAATCTTGA AGATCAAATA 
    AGATTAAACA CAGAGAAAGC AGCCTCACTC CAATCCCAAC AACAGAATTT AACTGAGCAA 
    ACCCAGAGAG TACAAGCTGA ACTTTCAGAT TTGGAACGCC AGCGTGGTGA GGTTCAACAA 
    AAAGAAGAGA AATTAAAGCT TGACACCGCT TCTGTTGAAG AAGCCAAGAA AAAAAATCAA 
    CAGAGAGCTT TAGACCTTAA GAAGCAAGAA AACACTGTTC AAGAAAGAGA AAATAAGCTT 
    TTAATTGCTC AGGCCCAAAA TATCTCCAAG GCTAAACAGT TGAAAAAAGA TCAAGATGTT 
    TTGAATACTA AGTTGGCAGA GCATACTGAA GATGTTAGGC GTAAGACTTT GGAGTTTGAA 
    CAAAGGGATA AAACATTGAA AGAGAAGGAA TTGGAATATC AGTTGAAGCT TGCCGAGGTT 
    GCAGAGGACC ACAAAACTCT ATTCAGGGAG CAAAGTTTAC TAAATGATGC CAGAGAGCAG 
    CTGAGAAGGG ACGAATTGGC TCATATGGAG AAGGAAAAGG AGGCTGAAAA GGCTAGGCAG 
    GCTAAAGAGA CAGAACTCTT GGCTACTATT AAGCAACAGG AAACTGAGAG CCTGGCCAGA 
    ATCGCTGAAG AAAAGCAAAA ACGGGAGGCT GAAATTTTAG CTCAGGAGCA ACAATTGCAG 
    CAACGTAGAC AAGCACATGA CGACCAAATT AGGAGGAGTC AGGAAGAACT TGATAGAAAA 
    ATTGCCGACG ATAAACAAAA AAGTGCCGAG GCTGAGGAGA GAATTAATAA TAGACAAAAA 
    GAAGTTGACG CCCTTAAAAG TGATTTGGAG GCTAAAAACG CAGAAGCTGA GCGTTTGCTT 
    TCTGGTCATT TACATACTAA AGGTGAACTA GAAAAGCTCA AAGCTCAGCT TCAACAACAG 
    AATCTAGCAG CTCAGAAATT AACTAAAACT TTGGAGGAGC AAAATGAGGC TGTAAAACAA 
    GAAAATGCGA GGGCAACTGC TGCTAATCAG GAGGCAAATA GGCTACTAGA ATCTAATAGG 
    GCTCAGGCTG CTAGTCTCTC AAGACGGGAA AGCGAATTAG AGGCGAATAT GGATGCTTAC 
    ACCATTAAGT TGAAGTCGGT TCAGGACGAG GATGCTAGAC TTACCGCACT TAACAAGACT 
    CTTTTACTCA AAGAAGAATC ACTGGGTACT AGAGATCAGA ACGTAAAGGA TAAGGAACGC 
    CGTGTCTCAG AACGTGAGGC TGAAGTCCTC AAAAAGCAAA AACAACAAGA GAAAACAGAG 
    TCTGAACAGA ACCAAAGGCA ATCACTTCTC CAATCTCGAG AGAATACTCT GAACCAGAAG 
    GAAAGTCAAC AGAGGACGAA GGACCAAGAA CAATCTGAGC TATCCCAAAA ATTGGCAGAT 
    AAACAAGCTG AACTCACTGC TTTGCAGTCG AAATTAGACC AATTGCAAAA AGATTTGGAT 
    GCTAGACAAC TCCAATTGAC TGAAGCTGAG AATGCCGTTA GGCTTAGGGA AACAAAGGCA 
    GACGAGACTG AAAAGGCCCA GAAAAATAAG GCGAATGAGT TACTTTTGGA GGATGAAAAG 
    GTAAAGAGAC TTGGTAGGGA AGTTGAGGCT AAGCGCCAAT TGGCTATAAT TCAAGAAAAC 
    AAAAACACCC AAAGGTCTTC AGAATTGGAT GAAAAACAGG CAAAAGTTGA AAAACTCGCC 
    ACTGACAAGT TAAGAGAACT TGAAACCATA AGAACACAGC AGGCTGAAGA AATTAAGAAT 
    GTCAGCACAC AATTGAAAAA TAAGGAAACT GAGCTTGAGC AGACAATTGC TAAACTGAAC 
    GCTAAATATG AAGAGTTGAA ACTTGATAAT AAATCAGTAC TTTCAGCCAA TAGAGTTATG 
    CTTTCATCAG CAGAATCTAA TTTGATTATC ACCAAGTCTG AGTTAAGCCG TACCAAGTCA 
    GATCTTAACA CTGTTAAACT AGAATTATCG ACTCGTACAT CTGAACTTGA GGCTGAGAAG 
    CAGAAAAATT CAACTTTGGA GGCTAAAAAT AATGAATTGG AGACTCAACT TTCAACTGCA 
    AAATCCCAAT TAACTGAGAA GGGAAATGAG TTATCCCAAT GTGTTGTTCG TGAGACAACT 
    CTCAAGAGTG AAAAATCAGA TTTAGAATCC CAATTAAAGG TGAAATCAGA CCGTTACGAT 
    GAAAAGGAGA AGGAGTACGA CACTTTGAAA AATTTGCACA AAGAAGCCCA ATCTAAGCTT 
    CGTGAGAAGG AATCTGCTGT ATCCCAGTGC GAAGTTAAAT TATCAGAAAA GAACACACAA 
    TTAGAATCCG TAACTGAGCA ATTGGGTGGA AAGCAAAAGT CTTTGGAGCA AAAGACTTCA 
    GAACTTGAGG GTAAGGTTTT GGAACTTGCT GACAAGAATC TTGAGCTTGA ACGCAAGCAA 
    AAGGAAGTCC TAGACCGTGA CGCTCGTTTA CTAATTAAGG AAACCCAGGA ACTTAAATTA 
    CGCAAAACTA ACAGTAATTT ACTCACTGTT CTTTCCAAAT TTGGCGCCGG TGAATCTCTA 
    GCAAATATTA TCAATGACGC CTCACTTTGG TCTGAAGATA CCAATGAAAC TTTAGAACAT 
    CTTAAAAAAT ATTTTAATAA ATCCAAACCC GTTCAAACAG CTGAGTTAAA TAAACTAAAG 
    AGTGAAAATC CACCAATTCC ACCAGAACCT AAACCTACCG AATCTTCAAA TACACAAACT 
    GAACTTAATA AACAAACTGA ACTTAATAAT ACACAAAATG AACTTAATAA AGAATTGGGT 
    AAGGAGGTGA GAGGAGAGAC TTTGAGTATT GGAGTGACTG ACAGGCCGAT AATTCAGAGT 
    GAGGTGGAGA CTGAGGTGGA TTCAACTCAT AGAATTCCAG ACTTAGATTT AAGGAATGGA 
    ATGGTGGATT TGGAAGCAAT TGTGCCAAAT CCTGAGCAAC CAACTCTACA AACACCTACT 
    GACCAGGAGA TGGAATCCAT CAAAAACACT CCAATCGACA CTTTACTACG CAATAACCCA 
    AGTGTCAATT CAAACAACAC TAGTGAGAGT AGTGTCAACG AAGTTGGTGC AGCATCAGTT 
    TTAAGATCAA CTGGTGGCTC AGGAGGTTCA GGAGGCTCAG GGGGTTCTGT TGGGTCTAGA 
    GGTAAATCAA GAGAAAAACA AGAACCTAAT AACAACGGTG ACAGTGAAAA AGAGAAGACT 
    GGAAAGCAAG AAAGTACATT TACGGGTGGA TTTAAACAGA CTAGAATTGG TCAGAGTGTC 
    AAAGGTGCCT CTGCTGCACT TGGAGTTATA CTCGTTATCG CAGGTGCCGC ATTAGGCGCC 
    AAGAAATTGT AA

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

    RefSeq XP_766094.1
    CDS1..5172
    Translation

    Target ORF information:

    RefSeq Version XM_761001.1
    Organism Theileria parva strain Muguga
    Definition Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0575) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_761001.1

    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
    ATGATTTCAG CCAAAATTTA TATATTCGGA GTGACATTTC TTATTTTGTC ACTATTTACA 
    TTTAATTTTT TCATTCCAGG TGTCGGAGCT TGGAATGCTA AAGATGTGCT TCCACTAGGC 
    CTGAATAGAT ATGGTGAGGA CCTTCACTTT TTCCATAAAG GGGGTGATTT GGACTCGTTC 
    ATCTCCTTGG AAAAGGTGCC CGAATCCTCA GAGCTACGTT CCTCTTTGGC CCAGACAGCA 
    GCTGATACCA CTGCTCAGAG GACTGTAATC GCTGCTGGAA CCAGCTCAGA AACCTGTACA 
    AGCTGGGAAG ACGTCTCAGT TTGCTCCACT AAATCCACCA TCAAATGCTT AGATAATGGG 
    AAGCAACACT TGGAAATGTC TTGTTTCCTC ATGAACACAG TAACCTGGTC TGACTGGTCC 
    CCCTGTGAAA ACAATGTCCA GTACAGATTT GCACTTGATT TCTCTAGCGG GAACACCCAG 
    TATAGATACT GCGGTGATGG AGCAGCTGCG CTGATGAATC GCATGAAGGG TCACACTCCC 
    AAAAAGACGG AACAGGAGAT CTTGAAGGAG CGTCTAGAGA AATACGTTAA CCTAAACCGC 
    GAACTTCATA AAAAGAATGA AGAAGCGGAG AATCTTTACA ATGCGTATAT GCAAAAATAT 
    GCGAAGTTCT ACGATCGGAA TAAAGACCTA AATCGAAAAA TTAAGGAATT TAATCAGAAA 
    AATGATGAAT TTGAAAAGCA AAAGCAGGCT CTAGACGACC AAAAATCCAA GTATGATTCT 
    CTAAATTCTA ATCTAGAGGT ACGAACCAGA GATTTAGAGC GTGAAAAGGA CAATTATAAG 
    CGAAAAACTG ATAAATTGGC CGAAATGGAA CTTGAATTAC AGGAAGATAT TAAGTTTTAT 
    CACAAGAAAC AGGATGAACT TAACGCTGAA CGCTTGGCTT TACAAGACAA GGAAAAAGAT 
    TACGCTAAAC GTTCCGAAGA CTTGGAAAGT GAAAGGACCA AAATTCTGGA CAAAGATCGA 
    AAATTAGAAG AGGAATTGGC CAGAATTAAA GAAAAGGAGG CAACTTTAAC TCAACAACAC 
    CAGAAAAAGG ATGAAAACCT CACTCAAAGA GAGGAAGCCC TTAAAGTTGA ATTGGAGACC 
    AATAAAGGAT TACTAGCCAG CATCGAATCA CAAAGAACGT CTTTAGCCTC TGAGCAAAGG 
    GAACTGGAAT CTAAAAAGCA GGAACAAAAA TTATTGGAGG CCAATATCAA CACCGAAACT 
    CAGAGGTTGG AGAAACTTAA ACAAGAAAAC GAAGCCGCAA AGGAACATAT GGTCAATTAT 
    GGCAAGTTCC TCAGCGAAGA AACTACCAAA TTAAACAAAA TTAAGAAAGA TAATGAAGCT 
    GCTAAAGCCG TTTTAGATGA ACGCGAGCAA AAATTGGATG AGGAATCTCA AAAGATTGAT 
    CAACTTAAGG TTGAAAATTC CAAAGAGGCT AAGAGGCTAC AGGACCTTCA AGCAGACATA 
    GATAAAGAAA AATTGGCAAA TACCAAACTT TCTGAACAAT TAAATAGGGA AAGAGATGAG 
    CTCGCCACCA AGACTCAGGA ACAAGAAAGA CTTAAATCTG AGTATGAGAG TAAGAATACC 
    CAGATCCTCG AAACAGAAAA GAATTTACAG AAACAAATCT CTGAAAATGA AACCTTGGCA 
    GCAACTTTGA AGAAGCAAGA GAAGGATATT GAGGCTGAAA ATGAAAAAAT TAAAAAGGAA 
    ATTGAAAGAT TAAATCAGGA AGAAAGGAAT CAGGCCTATA TACTTAAGTA TACCGCTAAG 
    CAGCAGTCTC GCAAATCCAG TGCTTTACTA AATAAACAAA AAAATCTTGA AGATCAAATA 
    AGATTAAACA CAGAGAAAGC AGCCTCACTC CAATCCCAAC AACAGAATTT AACTGAGCAA 
    ACCCAGAGAG TACAAGCTGA ACTTTCAGAT TTGGAACGCC AGCGTGGTGA GGTTCAACAA 
    AAAGAAGAGA AATTAAAGCT TGACACCGCT TCTGTTGAAG AAGCCAAGAA AAAAAATCAA 
    CAGAGAGCTT TAGACCTTAA GAAGCAAGAA AACACTGTTC AAGAAAGAGA AAATAAGCTT 
    TTAATTGCTC AGGCCCAAAA TATCTCCAAG GCTAAACAGT TGAAAAAAGA TCAAGATGTT 
    TTGAATACTA AGTTGGCAGA GCATACTGAA GATGTTAGGC GTAAGACTTT GGAGTTTGAA 
    CAAAGGGATA AAACATTGAA AGAGAAGGAA TTGGAATATC AGTTGAAGCT TGCCGAGGTT 
    GCAGAGGACC ACAAAACTCT ATTCAGGGAG CAAAGTTTAC TAAATGATGC CAGAGAGCAG 
    CTGAGAAGGG ACGAATTGGC TCATATGGAG AAGGAAAAGG AGGCTGAAAA GGCTAGGCAG 
    GCTAAAGAGA CAGAACTCTT GGCTACTATT AAGCAACAGG AAACTGAGAG CCTGGCCAGA 
    ATCGCTGAAG AAAAGCAAAA ACGGGAGGCT GAAATTTTAG CTCAGGAGCA ACAATTGCAG 
    CAACGTAGAC AAGCACATGA CGACCAAATT AGGAGGAGTC AGGAAGAACT TGATAGAAAA 
    ATTGCCGACG ATAAACAAAA AAGTGCCGAG GCTGAGGAGA GAATTAATAA TAGACAAAAA 
    GAAGTTGACG CCCTTAAAAG TGATTTGGAG GCTAAAAACG CAGAAGCTGA GCGTTTGCTT 
    TCTGGTCATT TACATACTAA AGGTGAACTA GAAAAGCTCA AAGCTCAGCT TCAACAACAG 
    AATCTAGCAG CTCAGAAATT AACTAAAACT TTGGAGGAGC AAAATGAGGC TGTAAAACAA 
    GAAAATGCGA GGGCAACTGC TGCTAATCAG GAGGCAAATA GGCTACTAGA ATCTAATAGG 
    GCTCAGGCTG CTAGTCTCTC AAGACGGGAA AGCGAATTAG AGGCGAATAT GGATGCTTAC 
    ACCATTAAGT TGAAGTCGGT TCAGGACGAG GATGCTAGAC TTACCGCACT TAACAAGACT 
    CTTTTACTCA AAGAAGAATC ACTGGGTACT AGAGATCAGA ACGTAAAGGA TAAGGAACGC 
    CGTGTCTCAG AACGTGAGGC TGAAGTCCTC AAAAAGCAAA AACAACAAGA GAAAACAGAG 
    TCTGAACAGA ACCAAAGGCA ATCACTTCTC CAATCTCGAG AGAATACTCT GAACCAGAAG 
    GAAAGTCAAC AGAGGACGAA GGACCAAGAA CAATCTGAGC TATCCCAAAA ATTGGCAGAT 
    AAACAAGCTG AACTCACTGC TTTGCAGTCG AAATTAGACC AATTGCAAAA AGATTTGGAT 
    GCTAGACAAC TCCAATTGAC TGAAGCTGAG AATGCCGTTA GGCTTAGGGA AACAAAGGCA 
    GACGAGACTG AAAAGGCCCA GAAAAATAAG GCGAATGAGT TACTTTTGGA GGATGAAAAG 
    GTAAAGAGAC TTGGTAGGGA AGTTGAGGCT AAGCGCCAAT TGGCTATAAT TCAAGAAAAC 
    AAAAACACCC AAAGGTCTTC AGAATTGGAT GAAAAACAGG CAAAAGTTGA AAAACTCGCC 
    ACTGACAAGT TAAGAGAACT TGAAACCATA AGAACACAGC AGGCTGAAGA AATTAAGAAT 
    GTCAGCACAC AATTGAAAAA TAAGGAAACT GAGCTTGAGC AGACAATTGC TAAACTGAAC 
    GCTAAATATG AAGAGTTGAA ACTTGATAAT AAATCAGTAC TTTCAGCCAA TAGAGTTATG 
    CTTTCATCAG CAGAATCTAA TTTGATTATC ACCAAGTCTG AGTTAAGCCG TACCAAGTCA 
    GATCTTAACA CTGTTAAACT AGAATTATCG ACTCGTACAT CTGAACTTGA GGCTGAGAAG 
    CAGAAAAATT CAACTTTGGA GGCTAAAAAT AATGAATTGG AGACTCAACT TTCAACTGCA 
    AAATCCCAAT TAACTGAGAA GGGAAATGAG TTATCCCAAT GTGTTGTTCG TGAGACAACT 
    CTCAAGAGTG AAAAATCAGA TTTAGAATCC CAATTAAAGG TGAAATCAGA CCGTTACGAT 
    GAAAAGGAGA AGGAGTACGA CACTTTGAAA AATTTGCACA AAGAAGCCCA ATCTAAGCTT 
    CGTGAGAAGG AATCTGCTGT ATCCCAGTGC GAAGTTAAAT TATCAGAAAA GAACACACAA 
    TTAGAATCCG TAACTGAGCA ATTGGGTGGA AAGCAAAAGT CTTTGGAGCA AAAGACTTCA 
    GAACTTGAGG GTAAGGTTTT GGAACTTGCT GACAAGAATC TTGAGCTTGA ACGCAAGCAA 
    AAGGAAGTCC TAGACCGTGA CGCTCGTTTA CTAATTAAGG AAACCCAGGA ACTTAAATTA 
    CGCAAAACTA ACAGTAATTT ACTCACTGTT CTTTCCAAAT TTGGCGCCGG TGAATCTCTA 
    GCAAATATTA TCAATGACGC CTCACTTTGG TCTGAAGATA CCAATGAAAC TTTAGAACAT 
    CTTAAAAAAT ATTTTAATAA ATCCAAACCC GTTCAAACAG CTGAGTTAAA TAAACTAAAG 
    AGTGAAAATC CACCAATTCC ACCAGAACCT AAACCTACCG AATCTTCAAA TACACAAACT 
    GAACTTAATA AACAAACTGA ACTTAATAAT ACACAAAATG AACTTAATAA AGAATTGGGT 
    AAGGAGGTGA GAGGAGAGAC TTTGAGTATT GGAGTGACTG ACAGGCCGAT AATTCAGAGT 
    GAGGTGGAGA CTGAGGTGGA TTCAACTCAT AGAATTCCAG ACTTAGATTT AAGGAATGGA 
    ATGGTGGATT TGGAAGCAAT TGTGCCAAAT CCTGAGCAAC CAACTCTACA AACACCTACT 
    GACCAGGAGA TGGAATCCAT CAAAAACACT CCAATCGACA CTTTACTACG CAATAACCCA 
    AGTGTCAATT CAAACAACAC TAGTGAGAGT AGTGTCAACG AAGTTGGTGC AGCATCAGTT 
    TTAAGATCAA CTGGTGGCTC AGGAGGTTCA GGAGGCTCAG GGGGTTCTGT TGGGTCTAGA 
    GGTAAATCAA GAGAAAAACA AGAACCTAAT AACAACGGTG ACAGTGAAAA AGAGAAGACT 
    GGAAAGCAAG AAAGTACATT TACGGGTGGA TTTAAACAGA CTAGAATTGG TCAGAGTGTC 
    AAAGGTGCCT CTGCTGCACT TGGAGTTATA CTCGTTATCG CAGGTGCCGC ATTAGGCGCC 
    AAGAAATTGT AA

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

  • PubMed

    Genome sequence of Theileria parva, a bovine pathogen that transforms lymphocytes.
    Science (New York, N.Y.)309(5731)134-7(2005 Jul)
    Gardner MJ,Bishop R,Shah T,de Villiers EP,Carlton JM,Hall N,Ren Q,Paulsen IT,Pain A,Berriman M,Wilson RJ,Sato S,Ralph SA,Mann DJ,Xiong Z,Shallom SJ,Weidman J,Jiang L,Lynn J,Weaver B,Shoaibi A,Domingo AR,Wasawo D,Crabtree J,Wortman JR,Haas B,Angiuoli SV,Creasy TH,Lu C,Suh B,Silva JC,Utterback TR,Feldblyum TV,Pertea M,Allen J,Nierman WC,Taracha EL,Salzberg SL,White OR,Fitzhugh HA,Morzaria S,Venter JC,Fraser CM,Nene V


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