ORF » Species Summary » [Nectria] haematococca mpVI 77-13-4 » CHR2115 cDNA ORF clone

CHR2115 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

The following CHR2115 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHR2115 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
ONb04064 XM_003050777.1
Latest version!		 Nectria haematococca mpVI 77-13-4 hypothetical protein (CHR2115), 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)
    CHR2115 ( XM_003050777.1 ) cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4 -> XP_003050823.1 Nectria haematococca mpVI 77-13-4 hypothetical protein (CHR2115), mRNA.
    Price & Availability↑
    CloneID ONb04064
    Clone ID Related Accession (Same CDS sequence) XM_003050777.1
    Accession Version XM_003050777.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4545bp)
    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 1281628800000
    Organism [Nectria] haematococca mpVI 77-13-4
    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 (NW_003315878). 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
    ATGGACACCG ATGATGTCTT CTACGAGCCC CTTGAGGGCT TCAGCACTGG AGGCGATCAG 
    GATAACGAGA TCGAGAGATC ATTACAACGT CTCCTAGCAG ATCTCAACGA CGATGAAGAC 
    CCAAACCCGA ACCCCGAGAC GGATGATGAT GCGGTTGCTC CCGACCCAGA GCCGGCCATA 
    GACCTAGAGC CCATGGTTGA ACAGGAGGAG CACGAACAAG AAACTCATGA CGCGACTAGC 
    GAGTCACAAG TCTCGATTCC GAAAATGGGT TACACGATTC AGGTTGCGAT CCCTGAGATG 
    CCACTGGAGA AGCGCATGGA ATACTCGGTG GTCCAGAGCG AGATTGTCGA GTTTGTTTTC 
    GGAGAGCTTC CACTCAAGCG CGTCCAGGCC AGCTATAAGG TCGAGTTTAC AGATGGGAGG 
    CAAGATTCGC TCGTCGCCCT GGAGAACGGA AGAGCTGCCT TTGCTCGCTT TAACCAAGGA 
    CCTGGGCCTC TCAAGACCGA ATCCATGGCT GGAATACGGA AGCGAAAGCG CGAGCTCGAG 
    GATGAGTGGG GTTCTGACTC CGAGTCAGCT GCCTCTGATC CCATGGATAT CGACGACGAC 
    GAAGAGGAAG AAGACGAAGA CCAAGCCCAA GAGCCCATTC GTCACAGACG TGCACCCAGT 
    CATCCAGTTC GACGTCTTCG CTCCCGGGAA ACGACAAAGC AGATCTCTCG AAGCCCCTCC 
    GTTCAGGTCA CTAAGGATGA TCTGGATGAC CTCCGAGATG AACCTCCTGT CCCTACCAGA 
    TCGCTTCGAA CGCGACAACC GAGACAGATG ACACTGACTA GCATGACCTT TAAGAACGGC 
    GATGGTAGTC TGGACCAGGA TGAGTTACTT CAAGACCTAC CCCCAGAGGA GGAGGAGGAG 
    GAGGGCGATG ATGATTTCAT GCCCATCATT GTCTCAGACG TCTTACCCAA GAAAGGACGC 
    CCCAACAAGG CACGCCTACG ATTCAAACGC CTCGTGAACG CACGACACAA AGCATCACGC 
    CTTACGACAC GCCAGAAGTC CCATGACTCT GACATCGAAT TCGAGGCCCC TCGACGTTCT 
    TCAAGAGCCA CCCGAACCAC CGTCAACATG CAAGACGATG AAGGCATGGA CGAGGATTCA 
    TTCTACATTG TCGATGAGAA GACACCAGGC CCAGCCAAGG TTATCTCAGT AAAGGAGGTC 
    TTCCAACAGC TACCTTCGGA CTCAGCATTC GTTACAATGC ACATGGATAA GTGCCATACA 
    TGCGGTGGCT CGCGGAACAG GGGCCAGATG GTTTACTGTC AAGGCTGCAC CTTGTCATAC 
    CACAAGAACT GTCTCTCGTT CCGCAGCGGA CGCGAACACC AGGTCACCAA AGTTGGGGTC 
    GATGACTTTG TGTTGCAGTG CAGGTACTGC ATTGGCATCC CGATCAAGAA GGATGAAAAT 
    GCTCCCAAAC ACAGCATGTG TCAGGGCTGC AAGCGCGACG GTCTCGCCTG CGCAGCCTTT 
    TCTGAGAAGA AGACGTCTCG CCAGGAAGAG AAAATGCGGG AGCAAAACTA CGGTATTGAC 
    CCCATCTTCA AAGTTGCCCC TAACCTCCTG AACAACGACG AGATTGTGCT TTTCCGATGC 
    CTTGGGGAGG ACTCGATTGG TACAGATCTC AAATCGGAGC GACTCAAGGA TCACTCGATC 
    GACTGGCGAT GCCACGAGTG CGGGACAGCC AAGCACAAGA TTCACCGTCT GGTGGCATGG 
    CGACCTGTGG AAAGGGATCT CGCCAAGCAG GCTCCTCGAC CGACATGGCA TGATGTCAAG 
    GAAGACGACA AGGAGTATCT CATCAAGTGC GACACACGAT CCTATAATCA CTGTACATGG 
    AAGTCAGGTG CCTGGGTACA TGGTGTGGCT GCTTCTACGA TGCGCGCTGC CTTTGGGAAA 
    CGAGATGCCG AGCGAGATCT TCTCAAACTC GACGAAAACG ATGCAGTTCC AGACGAGTTT 
    ATCATGCCCG ACATCATCCT CAACGTCAAG ATGCACTCTT CGATTCCCAG ACCCAAGACG 
    CGAGAAGATG AGCTTGCCAA CATGAACAAC GTGAGCAAGA TCTTTGTCAA GTTCCAAGGC 
    CTTGGCTATG ACGACGTCGT CTGGGATGCA CCACCAACAG AGGACATGGG CGATATCTAC 
    GCCGCCTTTG TGGAGGCATA CTACGAATAC GTCGAGGGCA AGTACTTCAA GTACGAGTCG 
    CAGTACAAGA TCAAAGAACG TGTCAAGGCG TACAAGTCTG AACCTTTCGA GGAGATCAAT 
    GAGCAGCCTG CTGGTCTTAA GCGAGGCAAG CTCATGGGTT ACCAGCTTGA GGGAGTGAAT 
    TGGCTGTTGG GCAACTATCA CAATGGACGC AGTGTTGTTT TGGCTGATGA AATGGGTCTT 
    GGCAAGACTG TCCAGGTCGT TGGCTTGGTC ACTTCACTGA TCCAGGACAG TCCAAGGTGC 
    TGGCCCTTCC TCATCGTCGT TCCCAATGCC ACATGTCCCA ACTGGCGCCG AGAGTTCAAG 
    CAATGGGCCC CGGAGCTGCG AGTTGTGGCG TATCACGGCG GAAAAGAGCC ACAGTCTCTT 
    GCTCACAAGT ATGAGCTGTT TCCCAACGGG TCTACAGACA TGAAGGCCCA CGTTGTCATC 
    ATGTCTTACG ACTCAGCTCA AGACCCGGCA ACTAAATCCA TCTTCAAGTC GGTCAACTGG 
    GCAGGACTCG TCGTTGACGA GGGTCAGCGA CTGAAGAATG ACCAGAACAT CCTCTACGGT 
    GCTCTTCGTT CTATGAAGAT CCCCTTTCGA CTTCTCCTTA CAGGCACTCC TCTCCAAAAC 
    AACAAGAGGG AGCTGTTCAA CCTACTTCAG TTCATTGATG AAAAGAAGAA TGCTGAAGAG 
    TTGGATGCGG AATATGCAGT CCTCGACAAG GAAACGCTGC CGCAGTTGCA CAACGAAATC 
    CGCCCCTACT TCCTCCGCCG CACCAAGGCA GGGGTACTCA AATTCTTGCC GCCCATGTCC 
    CAAATCATTT TACCCGTCAC GATGACTGTG ATCCAGGAGA AACTCTCGAA GAGTATCATG 
    GCCAAAAACC CAGAGCTCAT CAAGGCCATG TTTTCCAACA GCAAGATGAA CAAGAAGGAA 
    CGTGGAAGTC TCAACAATAT CTTGATGCAG CTACGAAAGT GTCTTTGTCA TCCCTTCATG 
    TACTCTGAAG CTATCGAGGA GAGAGATCAC GACCCTACGG TGCTTCAGCG CAACTTGGTT 
    GAAGCCTCAG CCAAGCTACT GTTGCTGCAG GTCATGCTCC CAAAGCTGCA GGAGAAGGGT 
    CACCGCGTGC TCATCTTCAG TCAGTTCCTA AATCAGCTGG ACATTATTGA GGATTTCCTC 
    GGTGGTCTCG GATACGACTA TCGGCGTCTC GATGGTAGCA TTGGCAGTTT GGAGAAGCAG 
    CGACGTATCG ATGCGTTCAA CGCCCCTGGC TCGCCCATCT TTGCATTCCT GCTCTCGACA 
    AGAGCTGGTG GTGTGGGAAT TAACCTTGCA ACCGCAGACA CAGTCATCAT CCTGGACCCC 
    GACTTCAACC CCCACCAAGA TATCCAGGCT CTATCTCGTG CCCATCGAAT TGGACAGAAG 
    AAGAAGGTGC TCTGCTTCCA GCTAATGACG GTAGACTCTG TGGAAGAGCG AATCATGCAG 
    ATCGGCAAGA AGAAGATGGC TCTTGATCAC GCCCTGATCG AAAGCATGGA CGATGACGAG 
    CTTGCTGGAG ATGATTTAGA ATCGATCCTC AAGCATGGTG CACAGGCGCT GTTCAGCGAC 
    AACTACGAGA AGAAGTCTAT CCATTATGAT TCCGCTGCGG TTGACGAGCT GCTGAACCGA 
    ACGCACATGG ACGAGGTCGA CGAGGAGGAA GATGCTGCCT TTTCCTACGC GAAGGTATGG 
    TCTAACGAAA AGTCTGGATT CGAAGCAGGT CTCGCAACCG AGGAGACGAA CGAGCCAGAA 
    GCCCTCAACT CGAGCGTGTG GGATCGTATT CTGGCTCAGC GAGAGGCCGA AGCAAAACAG 
    CAAGCAGCTG CGAATCGCGA GGTCCTTGGA CGAGGCGGCA GACGTCGACA GGCTATCAAC 
    TACAAGACGA ATGCAATAGA CACAGTACCC ATTCTCGGTG ATCTCGAACC CGAATCGTCA 
    GACTCGTCTG ATGACTTTGC CGGCGGAGAC TCTGGAGAAG AGTCTGATGA GGAGGATGGC 
    ACATCGGCCA AAGGTAAACG CCAAAAGAAC TCTCCCAGTC AACTAGCAAC CCCAGCCACG 
    ACACCTGTCA AGAAGACATT TCCTAGCAAC AGCATTAACA AGAAGAACGT GCAGACGCCG 
    AAGAAGACGG GCCGATCAAC CTCCAAACCA CCAACCCCCG TAACTCAAAA GCGCAGCAAG 
    CCCTCGCCGA CATCCACCAA GCTCAACGGC AGCAAGTCGG CCGGAAGTCC CGTCAAGAAA 
    CGCCAAACTC CGTCAAGCAA CAAGTCTCAA AAGCCGGGTT GCCGAACGTC GGCGGCAAGC 
    AGCAACAAAA CGGCGGGCAA AAAGGCACGC CCGGCGGCCA AATAG

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

    RefSeq XP_003050823.1
    CDS1..4545
    Translation

    Target ORF information:

    RefSeq Version XM_003050777.1
    Organism [Nectria] haematococca mpVI 77-13-4
    Definition Nectria haematococca mpVI 77-13-4 hypothetical protein (CHR2115), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003050777.1

    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
    ATGGACACCG ATGATGTCTT CTACGAGCCC CTTGAGGGCT TCAGCACTGG AGGCGATCAG 
    GATAACGAGA TCGAGAGATC ATTACAACGT CTCCTAGCAG ATCTCAACGA CGATGAAGAC 
    CCAAACCCGA ACCCCGAGAC GGATGATGAT GCGGTTGCTC CCGACCCAGA GCCGGCCATA 
    GACCTAGAGC CCATGGTTGA ACAGGAGGAG CACGAACAAG AAACTCATGA CGCGACTAGC 
    GAGTCACAAG TCTCGATTCC GAAAATGGGT TACACGATTC AGGTTGCGAT CCCTGAGATG 
    CCACTGGAGA AGCGCATGGA ATACTCGGTG GTCCAGAGCG AGATTGTCGA GTTTGTTTTC 
    GGAGAGCTTC CACTCAAGCG CGTCCAGGCC AGCTATAAGG TCGAGTTTAC AGATGGGAGG 
    CAAGATTCGC TCGTCGCCCT GGAGAACGGA AGAGCTGCCT TTGCTCGCTT TAACCAAGGA 
    CCTGGGCCTC TCAAGACCGA ATCCATGGCT GGAATACGGA AGCGAAAGCG CGAGCTCGAG 
    GATGAGTGGG GTTCTGACTC CGAGTCAGCT GCCTCTGATC CCATGGATAT CGACGACGAC 
    GAAGAGGAAG AAGACGAAGA CCAAGCCCAA GAGCCCATTC GTCACAGACG TGCACCCAGT 
    CATCCAGTTC GACGTCTTCG CTCCCGGGAA ACGACAAAGC AGATCTCTCG AAGCCCCTCC 
    GTTCAGGTCA CTAAGGATGA TCTGGATGAC CTCCGAGATG AACCTCCTGT CCCTACCAGA 
    TCGCTTCGAA CGCGACAACC GAGACAGATG ACACTGACTA GCATGACCTT TAAGAACGGC 
    GATGGTAGTC TGGACCAGGA TGAGTTACTT CAAGACCTAC CCCCAGAGGA GGAGGAGGAG 
    GAGGGCGATG ATGATTTCAT GCCCATCATT GTCTCAGACG TCTTACCCAA GAAAGGACGC 
    CCCAACAAGG CACGCCTACG ATTCAAACGC CTCGTGAACG CACGACACAA AGCATCACGC 
    CTTACGACAC GCCAGAAGTC CCATGACTCT GACATCGAAT TCGAGGCCCC TCGACGTTCT 
    TCAAGAGCCA CCCGAACCAC CGTCAACATG CAAGACGATG AAGGCATGGA CGAGGATTCA 
    TTCTACATTG TCGATGAGAA GACACCAGGC CCAGCCAAGG TTATCTCAGT AAAGGAGGTC 
    TTCCAACAGC TACCTTCGGA CTCAGCATTC GTTACAATGC ACATGGATAA GTGCCATACA 
    TGCGGTGGCT CGCGGAACAG GGGCCAGATG GTTTACTGTC AAGGCTGCAC CTTGTCATAC 
    CACAAGAACT GTCTCTCGTT CCGCAGCGGA CGCGAACACC AGGTCACCAA AGTTGGGGTC 
    GATGACTTTG TGTTGCAGTG CAGGTACTGC ATTGGCATCC CGATCAAGAA GGATGAAAAT 
    GCTCCCAAAC ACAGCATGTG TCAGGGCTGC AAGCGCGACG GTCTCGCCTG CGCAGCCTTT 
    TCTGAGAAGA AGACGTCTCG CCAGGAAGAG AAAATGCGGG AGCAAAACTA CGGTATTGAC 
    CCCATCTTCA AAGTTGCCCC TAACCTCCTG AACAACGACG AGATTGTGCT TTTCCGATGC 
    CTTGGGGAGG ACTCGATTGG TACAGATCTC AAATCGGAGC GACTCAAGGA TCACTCGATC 
    GACTGGCGAT GCCACGAGTG CGGGACAGCC AAGCACAAGA TTCACCGTCT GGTGGCATGG 
    CGACCTGTGG AAAGGGATCT CGCCAAGCAG GCTCCTCGAC CGACATGGCA TGATGTCAAG 
    GAAGACGACA AGGAGTATCT CATCAAGTGC GACACACGAT CCTATAATCA CTGTACATGG 
    AAGTCAGGTG CCTGGGTACA TGGTGTGGCT GCTTCTACGA TGCGCGCTGC CTTTGGGAAA 
    CGAGATGCCG AGCGAGATCT TCTCAAACTC GACGAAAACG ATGCAGTTCC AGACGAGTTT 
    ATCATGCCCG ACATCATCCT CAACGTCAAG ATGCACTCTT CGATTCCCAG ACCCAAGACG 
    CGAGAAGATG AGCTTGCCAA CATGAACAAC GTGAGCAAGA TCTTTGTCAA GTTCCAAGGC 
    CTTGGCTATG ACGACGTCGT CTGGGATGCA CCACCAACAG AGGACATGGG CGATATCTAC 
    GCCGCCTTTG TGGAGGCATA CTACGAATAC GTCGAGGGCA AGTACTTCAA GTACGAGTCG 
    CAGTACAAGA TCAAAGAACG TGTCAAGGCG TACAAGTCTG AACCTTTCGA GGAGATCAAT 
    GAGCAGCCTG CTGGTCTTAA GCGAGGCAAG CTCATGGGTT ACCAGCTTGA GGGAGTGAAT 
    TGGCTGTTGG GCAACTATCA CAATGGACGC AGTGTTGTTT TGGCTGATGA AATGGGTCTT 
    GGCAAGACTG TCCAGGTCGT TGGCTTGGTC ACTTCACTGA TCCAGGACAG TCCAAGGTGC 
    TGGCCCTTCC TCATCGTCGT TCCCAATGCC ACATGTCCCA ACTGGCGCCG AGAGTTCAAG 
    CAATGGGCCC CGGAGCTGCG AGTTGTGGCG TATCACGGCG GAAAAGAGCC ACAGTCTCTT 
    GCTCACAAGT ATGAGCTGTT TCCCAACGGG TCTACAGACA TGAAGGCCCA CGTTGTCATC 
    ATGTCTTACG ACTCAGCTCA AGACCCGGCA ACTAAATCCA TCTTCAAGTC GGTCAACTGG 
    GCAGGACTCG TCGTTGACGA GGGTCAGCGA CTGAAGAATG ACCAGAACAT CCTCTACGGT 
    GCTCTTCGTT CTATGAAGAT CCCCTTTCGA CTTCTCCTTA CAGGCACTCC TCTCCAAAAC 
    AACAAGAGGG AGCTGTTCAA CCTACTTCAG TTCATTGATG AAAAGAAGAA TGCTGAAGAG 
    TTGGATGCGG AATATGCAGT CCTCGACAAG GAAACGCTGC CGCAGTTGCA CAACGAAATC 
    CGCCCCTACT TCCTCCGCCG CACCAAGGCA GGGGTACTCA AATTCTTGCC GCCCATGTCC 
    CAAATCATTT TACCCGTCAC GATGACTGTG ATCCAGGAGA AACTCTCGAA GAGTATCATG 
    GCCAAAAACC CAGAGCTCAT CAAGGCCATG TTTTCCAACA GCAAGATGAA CAAGAAGGAA 
    CGTGGAAGTC TCAACAATAT CTTGATGCAG CTACGAAAGT GTCTTTGTCA TCCCTTCATG 
    TACTCTGAAG CTATCGAGGA GAGAGATCAC GACCCTACGG TGCTTCAGCG CAACTTGGTT 
    GAAGCCTCAG CCAAGCTACT GTTGCTGCAG GTCATGCTCC CAAAGCTGCA GGAGAAGGGT 
    CACCGCGTGC TCATCTTCAG TCAGTTCCTA AATCAGCTGG ACATTATTGA GGATTTCCTC 
    GGTGGTCTCG GATACGACTA TCGGCGTCTC GATGGTAGCA TTGGCAGTTT GGAGAAGCAG 
    CGACGTATCG ATGCGTTCAA CGCCCCTGGC TCGCCCATCT TTGCATTCCT GCTCTCGACA 
    AGAGCTGGTG GTGTGGGAAT TAACCTTGCA ACCGCAGACA CAGTCATCAT CCTGGACCCC 
    GACTTCAACC CCCACCAAGA TATCCAGGCT CTATCTCGTG CCCATCGAAT TGGACAGAAG 
    AAGAAGGTGC TCTGCTTCCA GCTAATGACG GTAGACTCTG TGGAAGAGCG AATCATGCAG 
    ATCGGCAAGA AGAAGATGGC TCTTGATCAC GCCCTGATCG AAAGCATGGA CGATGACGAG 
    CTTGCTGGAG ATGATTTAGA ATCGATCCTC AAGCATGGTG CACAGGCGCT GTTCAGCGAC 
    AACTACGAGA AGAAGTCTAT CCATTATGAT TCCGCTGCGG TTGACGAGCT GCTGAACCGA 
    ACGCACATGG ACGAGGTCGA CGAGGAGGAA GATGCTGCCT TTTCCTACGC GAAGGTATGG 
    TCTAACGAAA AGTCTGGATT CGAAGCAGGT CTCGCAACCG AGGAGACGAA CGAGCCAGAA 
    GCCCTCAACT CGAGCGTGTG GGATCGTATT CTGGCTCAGC GAGAGGCCGA AGCAAAACAG 
    CAAGCAGCTG CGAATCGCGA GGTCCTTGGA CGAGGCGGCA GACGTCGACA GGCTATCAAC 
    TACAAGACGA ATGCAATAGA CACAGTACCC ATTCTCGGTG ATCTCGAACC CGAATCGTCA 
    GACTCGTCTG ATGACTTTGC CGGCGGAGAC TCTGGAGAAG AGTCTGATGA GGAGGATGGC 
    ACATCGGCCA AAGGTAAACG CCAAAAGAAC TCTCCCAGTC AACTAGCAAC CCCAGCCACG 
    ACACCTGTCA AGAAGACATT TCCTAGCAAC AGCATTAACA AGAAGAACGT GCAGACGCCG 
    AAGAAGACGG GCCGATCAAC CTCCAAACCA CCAACCCCCG TAACTCAAAA GCGCAGCAAG 
    CCCTCGCCGA CATCCACCAA GCTCAACGGC AGCAAGTCGG CCGGAAGTCC CGTCAAGAAA 
    CGCCAAACTC CGTCAAGCAA CAAGTCTCAA AAGCCGGGTT GCCGAACGTC GGCGGCAAGC 
    AGCAACAAAA CGGCGGGCAA AAAGGCACGC CCGGCGGCCA AATAG

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

  • PubMed

    The genome of Nectria haematococca: contribution of supernumerary chromosomes to gene expansion.
    PLoS genetics5(8)e1000618(2009 Aug)
    Coleman JJ,Rounsley SD,Rodriguez-Carres M,Kuo A,Wasmann CC,Grimwood J,Schmutz J,Taga M,White GJ,Zhou S,Schwartz DC,Freitag M,Ma LJ,Danchin EG,Henrissat B,Coutinho PM,Nelson DR,Straney D,Napoli CA,Barker BM,Gribskov M,Rep M,Kroken S,Molnár I,Rensing C,Kennell JC,Zamora J,Farman ML,Selker EU,Salamov A,Shapiro H,Pangilinan J,Lindquist E,Lamers C,Grigoriev IV,Geiser DM,Covert SF,Temporini E,Vanetten HD


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