ORF » Species Summary » Theileria parva strain Muguga » TP01_0327 cDNA ORF clone

TP01_0327 cDNA ORF clone, Theileria parva strain Muguga

The following TP01_0327 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TP01_0327 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
OTl03227 XM_760761.1
Latest version!		 Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0327) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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

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

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

  • Reference Sequences (Refseq)
    TP01_0327 ( XM_760761.1 ) cDNA ORF clone, Theileria parva strain Muguga -> XP_765854.1 Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0327) partial mRNA.
    Price & Availability↑
    CloneID OTl03227
    Clone ID Related Accession (Same CDS sequence) XM_760761.1
    Accession Version XM_760761.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6399bp)
    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
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGAGATATA ATTTACACAA GTTAGATTTT TTATCCAATT CACAACATTT TAATGTAATA 
    GCTCTATTGT ATACTTTTTT TAAAATTTAT TCACCCTTTG TACTAATAAT TCTCGCTTTA 
    ATCTACCATG TTTTTTCCTG TTTCCCAAAA CTGCCGCAGC ATTTTTTAGA TAGAATGCCA 
    AAAAGTGATT CTGACTACGA GCCGCTAGCA GATAAAGAAG AAATGAACGA ACCTGATAAT 
    AAAGTTCCGG TGACCGCTCC GCTTCCCTTC TTCAGCCTCT CAAACTTACC TAAATTTAAT 
    AATGGAGAAC AAGACTTCAG CTATGACCCA GATGAGGCCA AGAAAAAGGT GAATCTTCGT 
    CCATCAGCGC CTATTAGTCT GTTCGGCTCC CAAGGTGGAG TGATGAACGG GTTTTTTTCA 
    GCGCCTCAGG GGATACATAT GCATACGCCT GGCGCTTTTC AACAAAATAA GATAAAAAAT 
    TCGGCGGGTG TTGGCAAGGG CAAAGTGTGT GACGGTGGAT CTAATAATGT GTCGGATGTC 
    GGCAGTGCGA TAGAAGATGG TACAATGGAG ATGTTCAGAT ACGACCCGCA GCCGATCCAC 
    GGAAGTAAGA AAGAATCTTT GACTGATTCT AAGCTGATTC AGCCCCATCG GATACTCCCG 
    ATGTTCCCCT TTGTCCCATC TATATCGGAA GAGGGTTTAG GTAAGGATTT TTCAAGGGGG 
    AAGGAACACA GTCGAGACTT TACCAAACGC GATTTGAAGC ACATAAAACA CTCTTTGAGC 
    CGCAAAACTT CCGAGGTTCA TGAGTCTTTC AAGGGTGTTA CTGCCTCAGC AGAAATCCGC 
    GAAATCTGCC AAGTCAAACT CTGGAAGAAG ATGATTGAAA AAAACAAATC CCTTTTCAAA 
    TTCCCTGGCA ACCTCAAACA TCGAACTTCT CTACAAATTC CACAACAACC TAAAACTGAC 
    CCTGCCCACC TAGAAGAACT AGCTGATGCA CAGCGAACCG ATGGTAAATT AGAGTCTGAA 
    AAATTAGAAG CCGATAAAAA GGTGAATAAG ACCATTAAAG ATATGGAAAT GGCATGGGCG 
    ATTAACCGAT TTTACACACT CGCAGACGAG GTAGTTGTTG ATTTGGATTT GTTTGACGCA 
    GATGACGAGC TTGACACTGA GTTGAAAGCC CTGAGAAAAT CACTACGTAA ACTCTCAAAC 
    CAAAAGATTA CAGTTTACCC TTACCAACTC ATGAACTATC CCTCAAAAAT CTCAAACAAT 
    ACAAATAAAA ACCTCTTCTG GCTAATCGAT GACGACTCCT CCGATGAACA AGATCAACCA 
    GATGATAACC AAGCCGATCA ATCAGAACCT GCAGCACATC AAGAAGAACA ATCTAAATTA 
    AACACACAAG AATTGAATAC ACAGGAATTG AATCCACAGG AATTGAATGC ACAAGAATTA 
    AACACACAGG AATCGGATGT AAAAGATGAT TTGGATGTAA AAGATTCGGA TTTACAGGAT 
    CAACTGGATG TAAATGATTC CGATTTAAAT GATGAGTTGG ATGTAAAAGA TTTGGATTTA 
    CAGGATGAAT TAAATTTATC AGAAGAGTTT GATGTAGGAG ATGATTTGAA TGGAGAGCCA 
    GAAGAATTAG GAGCTGAACA ACTGGAACCT GTACGGGTGG ACCAGAAAGA ATCATCGGAG 
    AAGGTGGATA TAATAGATGA ATTAGAGTTA GAGTTGGAGT TGGAAAATGA GTTGGATGAT 
    ATAGAGAATG AATTAGAGCG AGAACTGACG AAGGAGACGT TGTCAGTGAC CGAGACAGCT 
    GAGCCCATTA TGGAGAGGAG AGACGAAGTA TCTGAACTAT TTGGTGAGTT GAAAGAGTTT 
    AACATGCCAA GACAAAGCCT TAATCTCTAC GACTACAACT ACAGGTGGAC CAAGTACAGA 
    AATGAACTTA AACATAAACT CACACTCTCA GATTTCTTAG AATTTGAAAA TTGCATGAAG 
    AATTCCTATG GTTACACAGG TGTAACAGCT GATTCAGATG CTCAATCATC CAAATCCGAC 
    AAGAAATCTG AAGACGATCC TAACATAGGA CTGCTGTTAA AGTTGTATAA AGTAAGTAAA 
    ACAAACTTAA AGTTGTTATT ACATTACAAA AATCCAGAAG TTATAGCGAT GGTTAACAGC 
    GTAATCTATG ACTTAAACTC TTCAAATATT GTGTATACGA GCGTTTCAGA AGATGCCGAT 
    AGTAAGGTGG ATTTGTTACT AAATGTGCCA TATAAAGACG AACATAGTGA TTCCCTTGTA 
    GACAGACTCA ATGACAAGGG AGATAAGGAC GACTCGGTGT TATTAACTGG AAAGGAAAGT 
    GACGTCAGGA GACAGTGGAG AAAGAGATTA CAGACAATGA GTAAGGAAAC ACGCTTAGCA 
    TTGGTTAACA TGGGAAAGAG TTTAAAGTAT ATTGAGAACG CTTTCATGAA TATCGAGTCT 
    TCCAGGACAT ACGATTCCAT GGTTGAGTAC TGTGAAGTTA ACACATTTTT CAAGAACTGT 
    GACTACTTGG ATATTTTAAA TCACTCGTTT GACGCACATT ATTTGTCCCA GGGCCCACAT 
    GAAATTGGAA AAGACGATGA AATCCTTAAC AAACGCGAAT TAATACACAC GAGAGTTGCT 
    AGAAATCTGG TCAACATCCT GCCGTTAGTG GGAAATAAGG CTAAAATACA CTTTGCAAGG 
    TTTCATAAAC TGGATTTCAG AACCGCCTTG CTCAGTTTAA TCAGCGGTAA CAGGAAGAAA 
    AGCCACGAGG ACCAGAAGTG GCATCTGAAG TGGCAAGCGC ATCCACCAGT GAAATCAATA 
    ATAAATATGA ATTACAAGGA TGATGACATG GTCGACGGCC TTCAAAACCA CTGCAGCAAC 
    TACTTTGTAA ACTCAACGGA CCTGAGCCTG ACAGATGACA CCAGGGTTGT GCTCCTGGAA 
    TACGTTGAAC AGTATCCGCT GCTACTAAAT AACATCGGAA TGACCTCAAG AATTGATACG 
    TATATTAATA CCAGCAGTAA TAAGGATAAC AGTGACCAAA ACCAGAAGGA GAACGTTCTA 
    GGAAATGTAG TTTACACTAA CGAATATGAG TTATTCGGAG TTAATCACAC CCTAAAAACT 
    AATGAAATGC AGTCAATTGT GGATAACACA CTCTTCAAAG CCCCCATCTT CTACACTATC 
    AACGAAGTGG AGAGGAAAAA GAATTTGAAT GCTGAGAATA AAGGCGATTC TGAGGAGTCG 
    CAAGTGGAGC AGGAAAATAA CCAACCGCCG CCTGTTAACA ACAAGGTATT GTATAATAAT 
    AACGATATAA CGGGATTGGG AATGCCAATG TTTGACTTTA TAATAACGAG ATCCACAAAT 
    AACCCGGCAA ACCAGTCAGC AGGTGAACAA ACTTCTAACG AAGAGTTGTT ATATATTAGA 
    GAACTGGACA ATAGTGTGTT ATGCACAGTG GGCCAGTGTG AGCCTAAGAT AACAATAAAT 
    AACCCAAAGA GTAAGAATTA TTTGGAGGAT AACAAGTTAC TATTAAAGGC CTGGGTACTG 
    AAGACAGCAA TGATTAACCC TATGACAGAT ATGAAACGGC TACGCAAAGT AGCCAGGAAG 
    AAGTTTTACC CAGTGATTCC AGAGAAAGAG ATTACGGGAG TGCTTAAACA AGTTGAAAGC 
    ACTTCAATTT TCAGTATGCG TCCTCAAGCA CTGGAGAAGA TGATCCAGGC GACAATTAAG 
    CCAGAAGTCG TATGCTCTCT GGAGAGTACC AGGGCCCAGA AATTCAGGAT TAAATCCAGA 
    GGAATTAGAC GTCTAATGAG CCATGAAGGG ATTTCAGTGG TTTGCTCAAT CCTGCAACAA 
    CAGGAGAATC ACTTCAACAG CTCCATGTCC CAGGCATTTG AAAAGCTCAA AAGCCTCAAG 
    AAAAAATACT ACACCAGGCT ATCCACACTC AACATTGACC AAAATATCGT CACAAGTAAA 
    CTGCAACAAT TCAATATCCC ACTCAACCAA TACACCCTCT ACGGACTCTC ATCCCCAACC 
    AGTGACACAA TTGACAAGGC TAATATTAAA GTTATCGATA ATACTAACAA TGCTGACAAG 
    GTTAATAATC TTAATAATAT TGACAAGGTT AATCCTAATA GTGTGAATAA TCCTAATAGT 
    GTGAATAATG TTAATAATAA TATGAATAAT GTTAACAATA GTATGAATAA TGGTTTGAGT 
    GGTATAAGTG TGAGGGTGTC GTATATAGAG AAGATATTGA AGTTGAGTAG TTGGAACATA 
    GCGAATGACG TGAGGATGGT ACTGAAGGGG AACGGCCAGT TTTCACTGTA CGGTTTAGGA 
    GACCCGTCCA ACTGCGGTTT AGCAATAAAC TTGCTAAAGC GTCAGATTTA CACTAACATT 
    AACACGAACA TGGGCAGTAA CATTTATAAC ATTAGCATAA TCGGGAATAA CTACGAGGAT 
    CTCAGAAAAC TCTCAATGGA CGAGCTTTCA AAGCGCCTGC TAATGTACGG AGTAAGTGAA 
    GCGGTGATTA AAACGCTCCC ACGCTGGGAT CAAGTGGCAC TGGTGAGACA GTACCGGGAC 
    GGTTTCGGAG TTGTTAAGAA CTTTGATGAT TCTAACAAGT TTAGAATTCC ACCCAACGAG 
    TATCAGTCGC AGCTAAGGCA AATAATACTT AAGCAGAAGT CAGCACTGGT ACACGCAAAT 
    GCAGACTACG CAAATGTAGA CTACGCAAAT GTGGACTACG CAAATGTAGA CTACGCAGAT 
    GATTACACTG AGGAAAAAGT GGATAGAATT GACTCTAGCG ATTTGATGAA CGTGAACAAG 
    TCTGGAATGG ACTCTGGTGG TAACGACTCT GTAGAAAAGG TGGACGACAT AGAGAAGGAA 
    AAGGAAGAGT TGAGATTACT GAAGGAGTCA ATTAATATGA AGAAGAATCT GGATTTAGTG 
    ATTGAAGACA GTAATCTGAT ACCGGTTTTG GGCTTAATGT GGTTACGTCA GAGCAGGAAA 
    ACACCGTCAG AACCGTTTGG AAGTGAACGT GCAGTGTTCA TCTACGGCCA AGAAAATGTG 
    ACAAAAGTCC TAAGGTGGAG AAAGAAGTGC GCAGAGAAGA AGACGCATAT CCCAAATGAA 
    ACTATTTTCG TGAGTAACGT GAACAATAAC TTCGGAAAAC GTATTTGCCG TAACTGCGGA 
    CAGTCCGGCC ATATCGCATC AAATCCTAAA TGCCCACTGT ACTCTGGAGA CAAGCTTAAG 
    CATGACCCGC TTTCAAGACA AACGCGCAAG GAGCCTGAAG TTGACACTTC TGACGATGAT 
    TTGTTAACTA AGCCAATAGC GCTGATGAGG GATACCGAGT CTCTGTTTCA CACTGTTAAC 
    ACCTCCTTCG ATTCTGACGT AGAATTCCCG CTGGAACCTT CAGAAACTAA ACGAAAACGT 
    ACAGCAGACA CTTTTGACCA CATTCACAGG CTCAAATATT CCACTGACCC TAACATTCTC 
    AGCGGAGTGG CCGGTGTTAA CGGAGACGAT AGTGGAGTAT TGAGTACGTC AGACATAAGG 
    ATAATCAATA AGATAATAAT AAGTATAGAG AAGGAGAATA GGTATAAGCC GTTTATGAAT 
    AGGATTTCAG AGACTATTGC GCCAAATTAT TATAAAGTTA TCCAGAAACC CGTTTGGCTC 
    TCACTTATCA AGCTAAGGGT TAAAAATAAA TACTATACCA CAGTATCCAG TCTCATGACT 
    GATATACTGT TGCTGGAGAT TAACTGCAAG TTGTATAACT CTGAACACTC ACAAAACGCA 
    TGGCTCAGAC ACATGTCGCA GATTCTGGTG GATGATCTTA CCGCGAGAAT TTCCTCTCAC 
    ATTCAAAATA AACAACAGTC CAAACTCATC CAACAAATAC ACACTAAACA CATCAACTCT 
    TACCGCAACT CACTCAATAC TCAAAATATC AACAATGTAA ACGTTAACGG AGTGAATATG 
    CCTAATAATG TAAATGTCAA CGGAGTGAAT ATGGTCAATA ATGTAAATGT CAACGGAGTG 
    AATATGGTCA ATAATGTAAA TGTCAACGGA GTGAATATGG TCAATAATGT AAATGTTAAC 
    GGAGTGAGTA TTAATACTGA GGGGAGTAGT TTTAATACTC AGAACACTAA TTTCAACACC 
    GGGGATAGTT TTAACACTCA GCAAACTAGC TTTAACACCC AAGAGGTGAG TTTAGACACT 
    CAACAAACTG ACTTAAATAC ACAACAAACA GATTTAAACA CTCAGGACAC TAATTTCAAC 
    ACTCAAGAAG TGAATTTAGA TACACAAAAT ACAGATTTAA ACACCCAAGA TGTTAATTTG 
    AACACTGAAG AAATGAGTTT GAACACTCAG CAAACAGATT TAAACACTGA AGAAACGAGT 
    TTGAATACTC GGGAGATGAA TAAAATTTCG GGAAATTGA

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

    RefSeq XP_765854.1
    CDS1..6399
    Translation

    Target ORF information:

    RefSeq Version XM_760761.1
    Organism Theileria parva strain Muguga
    Definition Theileria parva strain Muguga chromosome 1 hypothetical protein (TP01_0327) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_760761.1

    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
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGAGATATA ATTTACACAA GTTAGATTTT TTATCCAATT CACAACATTT TAATGTAATA 
    GCTCTATTGT ATACTTTTTT TAAAATTTAT TCACCCTTTG TACTAATAAT TCTCGCTTTA 
    ATCTACCATG TTTTTTCCTG TTTCCCAAAA CTGCCGCAGC ATTTTTTAGA TAGAATGCCA 
    AAAAGTGATT CTGACTACGA GCCGCTAGCA GATAAAGAAG AAATGAACGA ACCTGATAAT 
    AAAGTTCCGG TGACCGCTCC GCTTCCCTTC TTCAGCCTCT CAAACTTACC TAAATTTAAT 
    AATGGAGAAC AAGACTTCAG CTATGACCCA GATGAGGCCA AGAAAAAGGT GAATCTTCGT 
    CCATCAGCGC CTATTAGTCT GTTCGGCTCC CAAGGTGGAG TGATGAACGG GTTTTTTTCA 
    GCGCCTCAGG GGATACATAT GCATACGCCT GGCGCTTTTC AACAAAATAA GATAAAAAAT 
    TCGGCGGGTG TTGGCAAGGG CAAAGTGTGT GACGGTGGAT CTAATAATGT GTCGGATGTC 
    GGCAGTGCGA TAGAAGATGG TACAATGGAG ATGTTCAGAT ACGACCCGCA GCCGATCCAC 
    GGAAGTAAGA AAGAATCTTT GACTGATTCT AAGCTGATTC AGCCCCATCG GATACTCCCG 
    ATGTTCCCCT TTGTCCCATC TATATCGGAA GAGGGTTTAG GTAAGGATTT TTCAAGGGGG 
    AAGGAACACA GTCGAGACTT TACCAAACGC GATTTGAAGC ACATAAAACA CTCTTTGAGC 
    CGCAAAACTT CCGAGGTTCA TGAGTCTTTC AAGGGTGTTA CTGCCTCAGC AGAAATCCGC 
    GAAATCTGCC AAGTCAAACT CTGGAAGAAG ATGATTGAAA AAAACAAATC CCTTTTCAAA 
    TTCCCTGGCA ACCTCAAACA TCGAACTTCT CTACAAATTC CACAACAACC TAAAACTGAC 
    CCTGCCCACC TAGAAGAACT AGCTGATGCA CAGCGAACCG ATGGTAAATT AGAGTCTGAA 
    AAATTAGAAG CCGATAAAAA GGTGAATAAG ACCATTAAAG ATATGGAAAT GGCATGGGCG 
    ATTAACCGAT TTTACACACT CGCAGACGAG GTAGTTGTTG ATTTGGATTT GTTTGACGCA 
    GATGACGAGC TTGACACTGA GTTGAAAGCC CTGAGAAAAT CACTACGTAA ACTCTCAAAC 
    CAAAAGATTA CAGTTTACCC TTACCAACTC ATGAACTATC CCTCAAAAAT CTCAAACAAT 
    ACAAATAAAA ACCTCTTCTG GCTAATCGAT GACGACTCCT CCGATGAACA AGATCAACCA 
    GATGATAACC AAGCCGATCA ATCAGAACCT GCAGCACATC AAGAAGAACA ATCTAAATTA 
    AACACACAAG AATTGAATAC ACAGGAATTG AATCCACAGG AATTGAATGC ACAAGAATTA 
    AACACACAGG AATCGGATGT AAAAGATGAT TTGGATGTAA AAGATTCGGA TTTACAGGAT 
    CAACTGGATG TAAATGATTC CGATTTAAAT GATGAGTTGG ATGTAAAAGA TTTGGATTTA 
    CAGGATGAAT TAAATTTATC AGAAGAGTTT GATGTAGGAG ATGATTTGAA TGGAGAGCCA 
    GAAGAATTAG GAGCTGAACA ACTGGAACCT GTACGGGTGG ACCAGAAAGA ATCATCGGAG 
    AAGGTGGATA TAATAGATGA ATTAGAGTTA GAGTTGGAGT TGGAAAATGA GTTGGATGAT 
    ATAGAGAATG AATTAGAGCG AGAACTGACG AAGGAGACGT TGTCAGTGAC CGAGACAGCT 
    GAGCCCATTA TGGAGAGGAG AGACGAAGTA TCTGAACTAT TTGGTGAGTT GAAAGAGTTT 
    AACATGCCAA GACAAAGCCT TAATCTCTAC GACTACAACT ACAGGTGGAC CAAGTACAGA 
    AATGAACTTA AACATAAACT CACACTCTCA GATTTCTTAG AATTTGAAAA TTGCATGAAG 
    AATTCCTATG GTTACACAGG TGTAACAGCT GATTCAGATG CTCAATCATC CAAATCCGAC 
    AAGAAATCTG AAGACGATCC TAACATAGGA CTGCTGTTAA AGTTGTATAA AGTAAGTAAA 
    ACAAACTTAA AGTTGTTATT ACATTACAAA AATCCAGAAG TTATAGCGAT GGTTAACAGC 
    GTAATCTATG ACTTAAACTC TTCAAATATT GTGTATACGA GCGTTTCAGA AGATGCCGAT 
    AGTAAGGTGG ATTTGTTACT AAATGTGCCA TATAAAGACG AACATAGTGA TTCCCTTGTA 
    GACAGACTCA ATGACAAGGG AGATAAGGAC GACTCGGTGT TATTAACTGG AAAGGAAAGT 
    GACGTCAGGA GACAGTGGAG AAAGAGATTA CAGACAATGA GTAAGGAAAC ACGCTTAGCA 
    TTGGTTAACA TGGGAAAGAG TTTAAAGTAT ATTGAGAACG CTTTCATGAA TATCGAGTCT 
    TCCAGGACAT ACGATTCCAT GGTTGAGTAC TGTGAAGTTA ACACATTTTT CAAGAACTGT 
    GACTACTTGG ATATTTTAAA TCACTCGTTT GACGCACATT ATTTGTCCCA GGGCCCACAT 
    GAAATTGGAA AAGACGATGA AATCCTTAAC AAACGCGAAT TAATACACAC GAGAGTTGCT 
    AGAAATCTGG TCAACATCCT GCCGTTAGTG GGAAATAAGG CTAAAATACA CTTTGCAAGG 
    TTTCATAAAC TGGATTTCAG AACCGCCTTG CTCAGTTTAA TCAGCGGTAA CAGGAAGAAA 
    AGCCACGAGG ACCAGAAGTG GCATCTGAAG TGGCAAGCGC ATCCACCAGT GAAATCAATA 
    ATAAATATGA ATTACAAGGA TGATGACATG GTCGACGGCC TTCAAAACCA CTGCAGCAAC 
    TACTTTGTAA ACTCAACGGA CCTGAGCCTG ACAGATGACA CCAGGGTTGT GCTCCTGGAA 
    TACGTTGAAC AGTATCCGCT GCTACTAAAT AACATCGGAA TGACCTCAAG AATTGATACG 
    TATATTAATA CCAGCAGTAA TAAGGATAAC AGTGACCAAA ACCAGAAGGA GAACGTTCTA 
    GGAAATGTAG TTTACACTAA CGAATATGAG TTATTCGGAG TTAATCACAC CCTAAAAACT 
    AATGAAATGC AGTCAATTGT GGATAACACA CTCTTCAAAG CCCCCATCTT CTACACTATC 
    AACGAAGTGG AGAGGAAAAA GAATTTGAAT GCTGAGAATA AAGGCGATTC TGAGGAGTCG 
    CAAGTGGAGC AGGAAAATAA CCAACCGCCG CCTGTTAACA ACAAGGTATT GTATAATAAT 
    AACGATATAA CGGGATTGGG AATGCCAATG TTTGACTTTA TAATAACGAG ATCCACAAAT 
    AACCCGGCAA ACCAGTCAGC AGGTGAACAA ACTTCTAACG AAGAGTTGTT ATATATTAGA 
    GAACTGGACA ATAGTGTGTT ATGCACAGTG GGCCAGTGTG AGCCTAAGAT AACAATAAAT 
    AACCCAAAGA GTAAGAATTA TTTGGAGGAT AACAAGTTAC TATTAAAGGC CTGGGTACTG 
    AAGACAGCAA TGATTAACCC TATGACAGAT ATGAAACGGC TACGCAAAGT AGCCAGGAAG 
    AAGTTTTACC CAGTGATTCC AGAGAAAGAG ATTACGGGAG TGCTTAAACA AGTTGAAAGC 
    ACTTCAATTT TCAGTATGCG TCCTCAAGCA CTGGAGAAGA TGATCCAGGC GACAATTAAG 
    CCAGAAGTCG TATGCTCTCT GGAGAGTACC AGGGCCCAGA AATTCAGGAT TAAATCCAGA 
    GGAATTAGAC GTCTAATGAG CCATGAAGGG ATTTCAGTGG TTTGCTCAAT CCTGCAACAA 
    CAGGAGAATC ACTTCAACAG CTCCATGTCC CAGGCATTTG AAAAGCTCAA AAGCCTCAAG 
    AAAAAATACT ACACCAGGCT ATCCACACTC AACATTGACC AAAATATCGT CACAAGTAAA 
    CTGCAACAAT TCAATATCCC ACTCAACCAA TACACCCTCT ACGGACTCTC ATCCCCAACC 
    AGTGACACAA TTGACAAGGC TAATATTAAA GTTATCGATA ATACTAACAA TGCTGACAAG 
    GTTAATAATC TTAATAATAT TGACAAGGTT AATCCTAATA GTGTGAATAA TCCTAATAGT 
    GTGAATAATG TTAATAATAA TATGAATAAT GTTAACAATA GTATGAATAA TGGTTTGAGT 
    GGTATAAGTG TGAGGGTGTC GTATATAGAG AAGATATTGA AGTTGAGTAG TTGGAACATA 
    GCGAATGACG TGAGGATGGT ACTGAAGGGG AACGGCCAGT TTTCACTGTA CGGTTTAGGA 
    GACCCGTCCA ACTGCGGTTT AGCAATAAAC TTGCTAAAGC GTCAGATTTA CACTAACATT 
    AACACGAACA TGGGCAGTAA CATTTATAAC ATTAGCATAA TCGGGAATAA CTACGAGGAT 
    CTCAGAAAAC TCTCAATGGA CGAGCTTTCA AAGCGCCTGC TAATGTACGG AGTAAGTGAA 
    GCGGTGATTA AAACGCTCCC ACGCTGGGAT CAAGTGGCAC TGGTGAGACA GTACCGGGAC 
    GGTTTCGGAG TTGTTAAGAA CTTTGATGAT TCTAACAAGT TTAGAATTCC ACCCAACGAG 
    TATCAGTCGC AGCTAAGGCA AATAATACTT AAGCAGAAGT CAGCACTGGT ACACGCAAAT 
    GCAGACTACG CAAATGTAGA CTACGCAAAT GTGGACTACG CAAATGTAGA CTACGCAGAT 
    GATTACACTG AGGAAAAAGT GGATAGAATT GACTCTAGCG ATTTGATGAA CGTGAACAAG 
    TCTGGAATGG ACTCTGGTGG TAACGACTCT GTAGAAAAGG TGGACGACAT AGAGAAGGAA 
    AAGGAAGAGT TGAGATTACT GAAGGAGTCA ATTAATATGA AGAAGAATCT GGATTTAGTG 
    ATTGAAGACA GTAATCTGAT ACCGGTTTTG GGCTTAATGT GGTTACGTCA GAGCAGGAAA 
    ACACCGTCAG AACCGTTTGG AAGTGAACGT GCAGTGTTCA TCTACGGCCA AGAAAATGTG 
    ACAAAAGTCC TAAGGTGGAG AAAGAAGTGC GCAGAGAAGA AGACGCATAT CCCAAATGAA 
    ACTATTTTCG TGAGTAACGT GAACAATAAC TTCGGAAAAC GTATTTGCCG TAACTGCGGA 
    CAGTCCGGCC ATATCGCATC AAATCCTAAA TGCCCACTGT ACTCTGGAGA CAAGCTTAAG 
    CATGACCCGC TTTCAAGACA AACGCGCAAG GAGCCTGAAG TTGACACTTC TGACGATGAT 
    TTGTTAACTA AGCCAATAGC GCTGATGAGG GATACCGAGT CTCTGTTTCA CACTGTTAAC 
    ACCTCCTTCG ATTCTGACGT AGAATTCCCG CTGGAACCTT CAGAAACTAA ACGAAAACGT 
    ACAGCAGACA CTTTTGACCA CATTCACAGG CTCAAATATT CCACTGACCC TAACATTCTC 
    AGCGGAGTGG CCGGTGTTAA CGGAGACGAT AGTGGAGTAT TGAGTACGTC AGACATAAGG 
    ATAATCAATA AGATAATAAT AAGTATAGAG AAGGAGAATA GGTATAAGCC GTTTATGAAT 
    AGGATTTCAG AGACTATTGC GCCAAATTAT TATAAAGTTA TCCAGAAACC CGTTTGGCTC 
    TCACTTATCA AGCTAAGGGT TAAAAATAAA TACTATACCA CAGTATCCAG TCTCATGACT 
    GATATACTGT TGCTGGAGAT TAACTGCAAG TTGTATAACT CTGAACACTC ACAAAACGCA 
    TGGCTCAGAC ACATGTCGCA GATTCTGGTG GATGATCTTA CCGCGAGAAT TTCCTCTCAC 
    ATTCAAAATA AACAACAGTC CAAACTCATC CAACAAATAC ACACTAAACA CATCAACTCT 
    TACCGCAACT CACTCAATAC TCAAAATATC AACAATGTAA ACGTTAACGG AGTGAATATG 
    CCTAATAATG TAAATGTCAA CGGAGTGAAT ATGGTCAATA ATGTAAATGT CAACGGAGTG 
    AATATGGTCA ATAATGTAAA TGTCAACGGA GTGAATATGG TCAATAATGT AAATGTTAAC 
    GGAGTGAGTA TTAATACTGA GGGGAGTAGT TTTAATACTC AGAACACTAA TTTCAACACC 
    GGGGATAGTT TTAACACTCA GCAAACTAGC TTTAACACCC AAGAGGTGAG TTTAGACACT 
    CAACAAACTG ACTTAAATAC ACAACAAACA GATTTAAACA CTCAGGACAC TAATTTCAAC 
    ACTCAAGAAG TGAATTTAGA TACACAAAAT ACAGATTTAA ACACCCAAGA TGTTAATTTG 
    AACACTGAAG AAATGAGTTT GAACACTCAG CAAACAGATT TAAACACTGA AGAAACGAGT 
    TTGAATACTC GGGAGATGAA TAAAATTTCG GGAAATTGA

    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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