ORF » Species Summary » Trypanosoma brucei brucei TREU927 » Tb927.5.3250 cDNA ORF clone

Tb927.5.3250 cDNA ORF clone, Trypanosoma brucei brucei TREU927

The following Tb927.5.3250 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tb927.5.3250 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
OTr132972 XM_839904.1
Latest version!		 Trypanosoma brucei brucei TREU927 hypothetical protein, conserved (Tb927.5.3250), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    Tb927.5.3250 ( XM_839904.1 ) cDNA ORF clone, Trypanosoma brucei brucei TREU927 -> XP_844997.1 Trypanosoma brucei brucei TREU927 hypothetical protein, conserved (Tb927.5.3250), partial mRNA.
    Price & Availability↑
    CloneID OTr132972
    Clone ID Related Accession (Same CDS sequence) XM_839904.1
    Accession Version XM_839904.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4674bp)
    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 2018-04-09
    Organism Trypanosoma brucei brucei TREU927
    Product hypothetical protein, conserved
    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_007278). 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
    ATGTACACAT TTAAACGACC ACAACAACAG CAACCGCAGC TTCAGGGGGC CAACATGGGC 
    GTCACCGATG CGGTGGACCC TCCCGCAACG GGTGCCCCTT TTGTGGATGG AGATAACACG 
    GCGTACCCCG CGGTGGCCGC TCAGGCTTCG CAAGAAGGTG TGGGAGAGGA GGCACAACAG 
    CAGCAACATC AGCAACCCGC AGGATATCTA TCGGAAGAGG CTACTGCTGA AGAGGCTCTT 
    CAATATTGCC AGCAGATGGT GTTGCGTAAC CCTGTCTCAC CCCCACCAAC GTGGAGCGGT 
    GCACGTCAGG TGTTGCCGGC TACGGTTCCA GAGTTGCATC TCATACCCTC TGCGCCTGTA 
    CAAGCGCAGC AGCCACCGCA TATAACACCA TCGGCGTCTG TAGTGCTGCA ACTTGACGGT 
    GTTGTGCCGG AGGGAATGAC ACCAAAGGAA TACGGCAGAA GTCTTGTGAA GTATATCGTT 
    GAGCTCCTTG CCTATCAGCG GGCGACAACT GCAATAACGT CGCTGCGTTT TGTAAAGATG 
    GGAACAGAGT TGATGCAGCT TGTTGTCACC TTTGGGCGTG ATGTGAGGTT GGCAATGCGC 
    GTCATGGAGG AGTTTACCAA TGTTGGCCTT TGTGCGGGTT TTGTGTTGGA AGACGATGGG 
    GACCTGAATA GTGGCGGCAG TTTTGGTGGC AACAAACGGG TAGTGCCACC GTGCGCTACG 
    TTTCAAGTTA CGGACTATCA ATTTCTGCTT AATGGAGGAC GTGGCATAAC AAGCGAGGAC 
    ATTGGTTCTC TCTTTCAACC GGAAACTGGA AACGGGGAAA ATGATATGAA TGTTATTTCC 
    GGTTTTGAGC CTGGTGTCTT TTACGTGGCG GTAAAGAAAC CGGGGACGGT GTATGAGTGG 
    TTGTGGAACC CTTTCTGCTC GTTTCTCGTG CAATATACGC TGTTTCAGCG TTGCGGGGTG 
    CTCATCACAA TGGCAGACTG TATGGATGAG TTCTCGCAAT CCAAGGGAGG CCCGCGGGTA 
    GCGGTGGGGC GCCAAAAAGG GTCGGACGTC GGGGAGAATT CGAGGCTGCG GCGCGATGTG 
    AAGGATGACA CTGGTGAGAC TAATGATTAT AGCAATAATG GGGCTAAATA CGAGGATGAT 
    GAGGCTGCTG ACGACGACGA TTACCTTGGC AAGAGCAGCG ACATCGAGGA GAAGAGGGGA 
    GGGAGGTGGG TAAGGTCTGG TAGTCCAATG TGGTCTCGCA ACGCTAAGGA AGAAGTTGAT 
    ATATTTGGGG GTTTGGGCAC CGGGGTGAAA CCACAAAAAC TAAGTGAAGA GGACTTCGTC 
    GACAATGACA TCACTGAACT TCTTCAAGAG GTGAAGGCGG ATGGCCAAAA AGACGTGCGC 
    ACAGCAGAGC AACAGCAGAA GCCAAGCGCA CGGCACCGCA GTGGCCAGTC AGCACCGCGT 
    GCTGAGGCGC ATGCACCACC TGCCGCTGAA GTAAGCGTGC CTCATGTTGC TGCCGCTCCA 
    CCCCGTGCAA CGCCAGCACC GATACCACAT AGTGGGTCGC AATCATGTCC TCCTTACGGT 
    TCATATTATG GCTATGCTGC TCCAACTGCC GCTTGGCAGC AACCGCCACC ACCCCCACCA 
    CCGCGTACGG ACACGCCGCC TCCCTATCAA GCAGCTGTCA TGAGTAACAT AAATGAAATG 
    AAAGCACCGA AAACTGATTA TCCTGAGTTA GTTGAAGAAG AAATCTCTAA TGAGGATGCT 
    GAGGAGGGAA ATACCGGTGA CAATAACACA ACTCAACAAC CACCACCTCA GATGATGTAT 
    TGGGGGTCAG GGGGAGGTCC GCCCGGGGGT GCGGCTGGCT ATTATCCGCC ATCGACGTAC 
    GCGCAATACG CAGCCCCACC ATACGGCTAC CCGATTCCTC AACATCACCA TAGTCACGCC 
    GTGCCATCCT CTATGCCTTC TATTTTGGGG CAATCAACAT TTGGCAGTTT CGTTCCAACA 
    GTTCGAGTAG AGGAGCGGGT GGCCGTGCAG GTGCAACCAA TCACGATAAA TGGCGCACCG 
    TGTGTGTCTT CTATAACGGT GGATGATGTG AATAGTTTGG CTGCGAAAAT TGTGGAAAGG 
    GTGCAGTTGG CGTTCCCATT GGGGGCCTTG CAAAATGGAA ACACAAACCT TTTAAATAGC 
    GGCGAAACCA CAACGCGCGT CGATGGTGAA TATGAAGGTC CAATTGAGAC AGCACAGGCA 
    ATGCCGTCAA ACAACGAAGG TGAAGACCGC CTGCGTGATA AAGAATTGAT GTTTCCTAGC 
    ATTCCTTGCG ATTTCTCTGT GCCACCCTTG AGCCCTGAGG TAGAAGACAT CGTTTCATTT 
    CTGCAGCAGC ACTCTGCCGA CATCCGAATT ATTTTAACTA GTACCAGCGA GGAATTCAAT 
    GATGGTCGGT CGCGTATTGT GGAAGCACTA CTGGTGGAAA ATAGCGGTAG CTGCAATGAT 
    GAACAGGCGG CTTGGGACCA ACAATATGCC CGACCAAAAG ATGGAGAAAC AATAGCTTCT 
    GTTGAGGCAA CGACCACGGC GGGTAAGCCA GCAACGGAAA CTGAAGGGAC TCAGCCGAAG 
    AAGATTAAAC AACTTCCAAC GCTTCTACCC TACCTGCTGG CTAGCAAAGG AGCGATATCA 
    ATCCTGACAG CACTCGCCAA CTGCCATGCA GCGAAGTTAC TTCCCCTTCT GTGTCGCTGT 
    ATTCTTCCGT TTTTGTTAGA CACAACAGTG GTGCAGTCTG TTGGTGTCGT GGCCCTCCGA 
    AGCGACCCCA CGGCAGCAAA CCCCCTTGTG CTTCGCCTCT TGCGCCACTG GGCCTCTTTA 
    GCCATGTGGT TGCACGAACA CATCCAGAGC CTGGCTGGTG AGTCAGCACA AACATCACAA 
    GCAGCAGCAA TGGGTCGACT GACGTCCCAA GTAGGGAGTG CGATTGACGC GCTCCTGACA 
    GCCATGTCGA GTGAGCAGCG AGAGAGTGTT GCAGAGTTCT TGGCAGAAAC GAAGGCATTG 
    GAAACGTTTT TTCAGTCAAT GCCGGAGTGT CCTCAAAGTG GTAAGAAGGA AGAAAATTTG 
    AAAGGAGAGG TATCGAGACA GTCCAGTTTC ATGCTTTGGG ATATCGAAGG TGCTGTGTAC 
    CGGTCACTAC TGCGGTTGTA CCTAAATGCG GACTTCTTCA ACGGCGAGGA ATTCGCAAAC 
    ATACTGTACG CTTCAAAAAC TAGCCTGACA CGTGACCACT TCTATTTCAT TCGTGTCGCC 
    CTTTCGAAGA GTAATGTGAG TCCCACACTG AGCGTCGAAA CCGCTCGTCT TTGCGGCGCT 
    TTCTTGCGCC TCATGGAGTT GATGCCCCGG GATATTGGTA AGAACAAAGA GGTTGACAAA 
    AACTCTGGTG TGCGGTGCGT ATTCACTGAT CACGACGCCT TGAATCTTCT TGAAGCAGCG 
    TTGCGCGTTC AACCTTCTGA GGAGGCATAT CAATCTCTTC GAAGTGCGTA CTTTGCGAAA 
    CCTGCCTCCG AGGAGCGCTA TGAGCAAATC GAGAAGAAGT TGTCGTCCAC GGTGCTTCCT 
    CCACCGTATC CTCAACAGCC GGCCAACATC ACAACAGCCA TATTGGGCAC ATCATCCAGT 
    TACAATCCGC AACCGAGTTC TGATGCACAA CAGCACGTTA CAACAAGGCG ATGGCTGCCG 
    GAGTGGACGG CTGCAATGCG TCACTACCCG CGAACTGGTG AGCCCTTCAC TCCGCTTCCG 
    ACAGGTTGGA CGTCTGCAAT GAGCCGTTCG TATGGGTACT ACTACTTTAG GGACGGCAAA 
    AGCCCTGCCA CTTATAAACA CCCGACAGAT GCAACAGAGT TTATGGTAGC TCCGCAAGCT 
    TTTCTGCTGG AAGCCAGGAC AGCGGTGACG TTAGACGAAG TTCTTGAGTA CGCGAATCGG 
    ATGTCACAGG AGTGTAGAAC TGATGATGCC TCCCGAGAAC AACCTCCCAT CATAACCAAG 
    GAGGTTGCAG AGGAGTGGAT TAACGACCAG CGCATTCGCC TGGAAGCCCT GGACCTGGCG 
    GCTCTGGATC TCATGAAGGT GTCGTATCAT ACAGTTGGAA GCGGCGGGAG GAGGTATGGC 
    GAGCGAAATG AACACACTGA TGGGGACGGT GGCAGACGCG ATCGTCGCCG CAGACATCAT 
    AGCCACCGTA GACACGGCCG GAGCAGGAGG AAACGGAGCA GAAGCAGGAG CAGGAGCAGA 
    AGCACACGAG GCAGTAGAGA ACGGCGGCAT TCGGATAGGT CTCTGTCGAA GACCCTGAAG 
    TTTAGTTCGT ACCCCCCTCG TGGCCACCCT TTCCCGCACC TTCCCTATCG CTGGACTTGT 
    AATTTGAGTG CTTCGAAGGG TCTGTATTAC TTTCGTGCAC CTACTGGTTC CTTAGTGTTT 
    ACTCATCCAG ATACCAGGCG TGAGTATCGT GTCACACCAC AAGCTTTTGC TCTTCATCAT 
    AACATTCAAG TAGCCGCCAT TGCTACGACT TCTAGACGCC CCGTTGAGGA AGTTGAGCGC 
    TGGTTGTCGG ACCAGCGGAA CCGTGATGAA GACATCGATA CGGCAGTAGT TCGTATGATA 
    CCGATTACAT ATGTGTGGAG TTCATGTGAC GATGAGGAGG GAGATGATGA AGGGAAAAGG 
    TTCCACAGGG AGGAAGGTTC GTCGCGATTG CACAGAAAAG ATTCAAGAAG GTGA

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

    RefSeq XP_844997.1
    CDS1..4674
    Translation

    Target ORF information:

    RefSeq Version XM_839904.1
    Organism Trypanosoma brucei brucei TREU927
    Definition Trypanosoma brucei brucei TREU927 hypothetical protein, conserved (Tb927.5.3250), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_839904.1

    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
    ATGTACACAT TTAAACGACC ACAACAACAG CAACCGCAGC TTCAGGGGGC CAACATGGGC 
    GTCACCGATG CGGTGGACCC TCCCGCAACG GGTGCCCCTT TTGTGGATGG AGATAACACG 
    GCGTACCCCG CGGTGGCCGC TCAGGCTTCG CAAGAAGGTG TGGGAGAGGA GGCACAACAG 
    CAGCAACATC AGCAACCCGC AGGATATCTA TCGGAAGAGG CTACTGCTGA AGAGGCTCTT 
    CAATATTGCC AGCAGATGGT GTTGCGTAAC CCTGTCTCAC CCCCACCAAC GTGGAGCGGT 
    GCACGTCAGG TGTTGCCGGC TACGGTTCCA GAGTTGCATC TCATACCCTC TGCGCCTGTA 
    CAAGCGCAGC AGCCACCGCA TATAACACCA TCGGCGTCTG TAGTGCTGCA ACTTGACGGT 
    GTTGTGCCGG AGGGAATGAC ACCAAAGGAA TACGGCAGAA GTCTTGTGAA GTATATCGTT 
    GAGCTCCTTG CCTATCAGCG GGCGACAACT GCAATAACGT CGCTGCGTTT TGTAAAGATG 
    GGAACAGAGT TGATGCAGCT TGTTGTCACC TTTGGGCGTG ATGTGAGGTT GGCAATGCGC 
    GTCATGGAGG AGTTTACCAA TGTTGGCCTT TGTGCGGGTT TTGTGTTGGA AGACGATGGG 
    GACCTGAATA GTGGCGGCAG TTTTGGTGGC AACAAACGGG TAGTGCCACC GTGCGCTACG 
    TTTCAAGTTA CGGACTATCA ATTTCTGCTT AATGGAGGAC GTGGCATAAC AAGCGAGGAC 
    ATTGGTTCTC TCTTTCAACC GGAAACTGGA AACGGGGAAA ATGATATGAA TGTTATTTCC 
    GGTTTTGAGC CTGGTGTCTT TTACGTGGCG GTAAAGAAAC CGGGGACGGT GTATGAGTGG 
    TTGTGGAACC CTTTCTGCTC GTTTCTCGTG CAATATACGC TGTTTCAGCG TTGCGGGGTG 
    CTCATCACAA TGGCAGACTG TATGGATGAG TTCTCGCAAT CCAAGGGAGG CCCGCGGGTA 
    GCGGTGGGGC GCCAAAAAGG GTCGGACGTC GGGGAGAATT CGAGGCTGCG GCGCGATGTG 
    AAGGATGACA CTGGTGAGAC TAATGATTAT AGCAATAATG GGGCTAAATA CGAGGATGAT 
    GAGGCTGCTG ACGACGACGA TTACCTTGGC AAGAGCAGCG ACATCGAGGA GAAGAGGGGA 
    GGGAGGTGGG TAAGGTCTGG TAGTCCAATG TGGTCTCGCA ACGCTAAGGA AGAAGTTGAT 
    ATATTTGGGG GTTTGGGCAC CGGGGTGAAA CCACAAAAAC TAAGTGAAGA GGACTTCGTC 
    GACAATGACA TCACTGAACT TCTTCAAGAG GTGAAGGCGG ATGGCCAAAA AGACGTGCGC 
    ACAGCAGAGC AACAGCAGAA GCCAAGCGCA CGGCACCGCA GTGGCCAGTC AGCACCGCGT 
    GCTGAGGCGC ATGCACCACC TGCCGCTGAA GTAAGCGTGC CTCATGTTGC TGCCGCTCCA 
    CCCCGTGCAA CGCCAGCACC GATACCACAT AGTGGGTCGC AATCATGTCC TCCTTACGGT 
    TCATATTATG GCTATGCTGC TCCAACTGCC GCTTGGCAGC AACCGCCACC ACCCCCACCA 
    CCGCGTACGG ACACGCCGCC TCCCTATCAA GCAGCTGTCA TGAGTAACAT AAATGAAATG 
    AAAGCACCGA AAACTGATTA TCCTGAGTTA GTTGAAGAAG AAATCTCTAA TGAGGATGCT 
    GAGGAGGGAA ATACCGGTGA CAATAACACA ACTCAACAAC CACCACCTCA GATGATGTAT 
    TGGGGGTCAG GGGGAGGTCC GCCCGGGGGT GCGGCTGGCT ATTATCCGCC ATCGACGTAC 
    GCGCAATACG CAGCCCCACC ATACGGCTAC CCGATTCCTC AACATCACCA TAGTCACGCC 
    GTGCCATCCT CTATGCCTTC TATTTTGGGG CAATCAACAT TTGGCAGTTT CGTTCCAACA 
    GTTCGAGTAG AGGAGCGGGT GGCCGTGCAG GTGCAACCAA TCACGATAAA TGGCGCACCG 
    TGTGTGTCTT CTATAACGGT GGATGATGTG AATAGTTTGG CTGCGAAAAT TGTGGAAAGG 
    GTGCAGTTGG CGTTCCCATT GGGGGCCTTG CAAAATGGAA ACACAAACCT TTTAAATAGC 
    GGCGAAACCA CAACGCGCGT CGATGGTGAA TATGAAGGTC CAATTGAGAC AGCACAGGCA 
    ATGCCGTCAA ACAACGAAGG TGAAGACCGC CTGCGTGATA AAGAATTGAT GTTTCCTAGC 
    ATTCCTTGCG ATTTCTCTGT GCCACCCTTG AGCCCTGAGG TAGAAGACAT CGTTTCATTT 
    CTGCAGCAGC ACTCTGCCGA CATCCGAATT ATTTTAACTA GTACCAGCGA GGAATTCAAT 
    GATGGTCGGT CGCGTATTGT GGAAGCACTA CTGGTGGAAA ATAGCGGTAG CTGCAATGAT 
    GAACAGGCGG CTTGGGACCA ACAATATGCC CGACCAAAAG ATGGAGAAAC AATAGCTTCT 
    GTTGAGGCAA CGACCACGGC GGGTAAGCCA GCAACGGAAA CTGAAGGGAC TCAGCCGAAG 
    AAGATTAAAC AACTTCCAAC GCTTCTACCC TACCTGCTGG CTAGCAAAGG AGCGATATCA 
    ATCCTGACAG CACTCGCCAA CTGCCATGCA GCGAAGTTAC TTCCCCTTCT GTGTCGCTGT 
    ATTCTTCCGT TTTTGTTAGA CACAACAGTG GTGCAGTCTG TTGGTGTCGT GGCCCTCCGA 
    AGCGACCCCA CGGCAGCAAA CCCCCTTGTG CTTCGCCTCT TGCGCCACTG GGCCTCTTTA 
    GCCATGTGGT TGCACGAACA CATCCAGAGC CTGGCTGGTG AGTCAGCACA AACATCACAA 
    GCAGCAGCAA TGGGTCGACT GACGTCCCAA GTAGGGAGTG CGATTGACGC GCTCCTGACA 
    GCCATGTCGA GTGAGCAGCG AGAGAGTGTT GCAGAGTTCT TGGCAGAAAC GAAGGCATTG 
    GAAACGTTTT TTCAGTCAAT GCCGGAGTGT CCTCAAAGTG GTAAGAAGGA AGAAAATTTG 
    AAAGGAGAGG TATCGAGACA GTCCAGTTTC ATGCTTTGGG ATATCGAAGG TGCTGTGTAC 
    CGGTCACTAC TGCGGTTGTA CCTAAATGCG GACTTCTTCA ACGGCGAGGA ATTCGCAAAC 
    ATACTGTACG CTTCAAAAAC TAGCCTGACA CGTGACCACT TCTATTTCAT TCGTGTCGCC 
    CTTTCGAAGA GTAATGTGAG TCCCACACTG AGCGTCGAAA CCGCTCGTCT TTGCGGCGCT 
    TTCTTGCGCC TCATGGAGTT GATGCCCCGG GATATTGGTA AGAACAAAGA GGTTGACAAA 
    AACTCTGGTG TGCGGTGCGT ATTCACTGAT CACGACGCCT TGAATCTTCT TGAAGCAGCG 
    TTGCGCGTTC AACCTTCTGA GGAGGCATAT CAATCTCTTC GAAGTGCGTA CTTTGCGAAA 
    CCTGCCTCCG AGGAGCGCTA TGAGCAAATC GAGAAGAAGT TGTCGTCCAC GGTGCTTCCT 
    CCACCGTATC CTCAACAGCC GGCCAACATC ACAACAGCCA TATTGGGCAC ATCATCCAGT 
    TACAATCCGC AACCGAGTTC TGATGCACAA CAGCACGTTA CAACAAGGCG ATGGCTGCCG 
    GAGTGGACGG CTGCAATGCG TCACTACCCG CGAACTGGTG AGCCCTTCAC TCCGCTTCCG 
    ACAGGTTGGA CGTCTGCAAT GAGCCGTTCG TATGGGTACT ACTACTTTAG GGACGGCAAA 
    AGCCCTGCCA CTTATAAACA CCCGACAGAT GCAACAGAGT TTATGGTAGC TCCGCAAGCT 
    TTTCTGCTGG AAGCCAGGAC AGCGGTGACG TTAGACGAAG TTCTTGAGTA CGCGAATCGG 
    ATGTCACAGG AGTGTAGAAC TGATGATGCC TCCCGAGAAC AACCTCCCAT CATAACCAAG 
    GAGGTTGCAG AGGAGTGGAT TAACGACCAG CGCATTCGCC TGGAAGCCCT GGACCTGGCG 
    GCTCTGGATC TCATGAAGGT GTCGTATCAT ACAGTTGGAA GCGGCGGGAG GAGGTATGGC 
    GAGCGAAATG AACACACTGA TGGGGACGGT GGCAGACGCG ATCGTCGCCG CAGACATCAT 
    AGCCACCGTA GACACGGCCG GAGCAGGAGG AAACGGAGCA GAAGCAGGAG CAGGAGCAGA 
    AGCACACGAG GCAGTAGAGA ACGGCGGCAT TCGGATAGGT CTCTGTCGAA GACCCTGAAG 
    TTTAGTTCGT ACCCCCCTCG TGGCCACCCT TTCCCGCACC TTCCCTATCG CTGGACTTGT 
    AATTTGAGTG CTTCGAAGGG TCTGTATTAC TTTCGTGCAC CTACTGGTTC CTTAGTGTTT 
    ACTCATCCAG ATACCAGGCG TGAGTATCGT GTCACACCAC AAGCTTTTGC TCTTCATCAT 
    AACATTCAAG TAGCCGCCAT TGCTACGACT TCTAGACGCC CCGTTGAGGA AGTTGAGCGC 
    TGGTTGTCGG ACCAGCGGAA CCGTGATGAA GACATCGATA CGGCAGTAGT TCGTATGATA 
    CCGATTACAT ATGTGTGGAG TTCATGTGAC GATGAGGAGG GAGATGATGA AGGGAAAAGG 
    TTCCACAGGG AGGAAGGTTC GTCGCGATTG CACAGAAAAG ATTCAAGAAG GTGA

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

  • PubMed

    Comparative genomics of trypanosomatid parasitic protozoa.
    Science (New York, N.Y.)309(5733)404-9(2005 Jul)
    El-Sayed NM,Myler PJ,Blandin G,Berriman M,Crabtree J,Aggarwal G,Caler E,Renauld H,Worthey EA,Hertz-Fowler C,Ghedin E,Peacock C,Bartholomeu DC,Haas BJ,Tran AN,Wortman JR,Alsmark UC,Angiuoli S,Anupama A,Badger J,Bringaud F,Cadag E,Carlton JM,Cerqueira GC,Creasy T,Delcher AL,Djikeng A,Embley TM,Hauser C,Ivens AC,Kummerfeld SK,Pereira-Leal JB,Nilsson D,Peterson J,Salzberg SL,Shallom J,Silva JC,Sundaram J,Westenberger S,White O,Melville SE,Donelson JE,Andersson B,Stuart KD,Hall N


    The genome of the African trypanosome Trypanosoma brucei.
    Science (New York, N.Y.)309(5733)416-22(2005 Jul)
    Berriman M,Ghedin E,Hertz-Fowler C,Blandin G,Renauld H,Bartholomeu DC,Lennard NJ,Caler E,Hamlin NE,Haas B,B?hme U,Hannick L,Aslett MA,Shallom J,Marcello L,Hou L,Wickstead B,Alsmark UC,Arrowsmith C,Atkin RJ,Barron AJ,Bringaud F,Brooks K,Carrington M,Cherevach I,Chillingworth TJ,Churcher C,Clark LN,Corton CH,Cronin A,Davies RM,Doggett J,Djikeng A,Feldblyum T,Field MC,Fraser A,Goodhead I,Hance Z,Harper D,Harris BR,Hauser H,Hostetler J,Ivens A,Jagels K,Johnson D,Johnson J,Jones K,Kerhornou AX,Koo H,Larke N,Landfear S,Larkin C,Leech V,Line A,Lord A,Macleod A,Mooney PJ,Moule S,Martin DM,Morgan GW,Mungall K,Norbertczak H,Ormond D,Pai G,Peacock CS,Peterson J,Quail MA,Rabbinowitsch E,Rajandream MA,Reitter C,Salzberg SL,Sanders M,Schobel S,Sharp S,Simmonds M,Simpson AJ,Tallon L,Turner CM,Tait A,Tivey AR,Van Aken S,Walker D,Wanless D,Wang S,White B,White O,Whitehead S,Woodward J,Wortman J,Adams MD,Embley TM,Gull K,Ullu E,Barry JD,Fairlamb AH,Opperdoes F,Barrell BG,Donelson JE,Hall N,Fraser CM,Melville SE,El-Sayed NM


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