ORF » Species Summary » Podospora anserina S mat+ » PODANS_2_2500 cDNA ORF clone

PODANS_2_2500 cDNA ORF clone, Podospora anserina S mat+

The following PODANS_2_2500 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PODANS_2_2500 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
OPl08229 XM_001910960.1
Latest version!		 Podospora anserina S mat+ uncharacterized protein (PODANS_2_2500), 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)
    PODANS_2_2500 ( XM_001910960.1 ) cDNA ORF clone, Podospora anserina S mat+ -> XP_001910995.1 Podospora anserina S mat+ uncharacterized protein (PODANS_2_2500), partial mRNA.
    Price & Availability↑
    CloneID OPl08229
    Clone ID Related Accession (Same CDS sequence) XM_001910960.1
    Accession Version XM_001910960.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4908bp)
    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 1523289600000
    Organism Podospora anserina S mat+
    Product uncharacterized 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_001914858). 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
    ATGTTACCTC TTGTCCAAAT GCACCCGATG GTGCAACCAC AGCTCGACTT ACTCGGGCCC 
    CATCAACCGC ACGTAAAACA TGACCTGGAG TACGTGTCGC ATCACCAAAG ACCACAGTTC 
    GCGCGACCCT CCCCCTCGCT CCACAACACA GACTCAACGC CCCGGGCGTT CGCCATCCGC 
    AGCGCCCAGC CAGCCCCGGC GTTGCACCGC ATCACCACCT CGTTCATCCG ATCACATGCC 
    CACGACCACA GTTCGGAACA CTCACTTAGA CGCAAGACAC CAAGCGGCAC CATCGACAAT 
    GGGTACGATG GTTCGGTTGC CCACCTGGCC TCCGGACCCC CACCATTGAA GCACATGATC 
    TTACCTGCCT CGTCAAGAAT ATTTCCGACT GCTGTGTCTC GGAGAACATC AGGGCTAACT 
    GGGGTTAGCT ACCATAGGTC AACACTCTCT GGATCATCAT GGCCATATCA GGCACCGAAT 
    CCGACTGGGA GGCTCGATGG TGGGATGGAA CCATTAAGTA GCCCACCTGT GACGCCTGGA 
    GGATGGGGTA TGGGAAGTAC GAATATGATA ACGAATCCGG CCGCGCCAGA GCAGACAAAC 
    TTTCTGCAAC CAATACCCCA ACAAAGCTAC AACTCTGTGT CCAGCTTGCA GCCATTGTTA 
    GGGCCAGGAT ACCACCAGCC GTTGAGTCAA ACAGTCTACA GCCCGGGTGG CTACCAACAA 
    CCACAGCAAC CACAGCAGTC GATGGTGTGG AGGAATGGTG GACTAGGGGA TTATCGAACA 
    CCAATACCCC TAGCCAATGG CTACACACCA CAAAATGCTG TCGTTGATAG TGCGTTTATG 
    CCCTCGCAGT CGACCATACA TGGCATGCCA AACGCACCAG GACTGGGCCA ACCACACCCA 
    TTCCGCTTGC CATTGTCAAG CTACCCTCTT GATGATGGGT ACGCTCGTCA TGCTCAGGCA 
    CACATGGCGC ACCATGGGGC TGCTCATCAG GGTCATGAGT CTCTGGCACA ACTAGCTGGA 
    CATATTGCCC AAGGGGGCAG TGGCGGAGAT GTTGCCTCGA GAGCAAGGTT CAAAGAGCTG 
    GCCCTGCAGC AAGCACATAA AACATACAAT GATCTGCTAC TTTATCTAGG CAATGCGAAG 
    AAAGCACACC ACAGCCGGAC CGGATCTTTA TCAAGAACGT CATCGAAGAT GGTGGTATAC 
    CCGAAACCCT CAATAGCACC GTTGGCGAGC GGAACCAAAG TACGACCTTC GCCAGCCCTC 
    TCCGAACCAA CAGTCAGCTA TGCACAGCAC ATGGCACAGA AGCAGGCGGC AGCTAGGAGT 
    ATGGCAATGG GAGTGCAAGG AATGAATGTT GGAGGCTTCA ACCAAGCGAG GAATCTATAT 
    TCAACGGGGC TTCAACAACG GCCATACTTT GAGACCGGAT CACCACTTCA CAATGCGAAA 
    AATTCACTCG AGATGCTCAC CAACCTATGT GAGCAAAGTG GATGGAAATG GGTGGATGGT 
    ATGCTGTTGG GAGGATGTCT CCACTATGGC CTTGAGCATT ATGAAGATGC TCTGGAGTGG 
    TTCAAGCGCA TCGTGAGCAT GGATGCTAGG TGCGTATTCC CGGTCTGGTC GACCGCGTTA 
    GTTTTACGGG GTGATGCTAA CAAACAGGAC AGCCACGTCG AGGCTATTTC AAATATTGCT 
    GCGACATTGT ACTGCATGAA CAGACAGGAT GAGGCTGAAC GGGAATGGTC TAAAGCGATC 
    AAGCTAAGGC CAAGTTACCT GGAAGCAGTG GAACATTTGG TTGGCTTGCT GTGCTCGAAT 
    CATAGGAGTC AGGAGGCAGT CAACATTATC GAGTACATTC AGAAATCGTT GAGGATGTCT 
    GGAACAAACG GAACCGTACA TGAAGTTAAC GAGACGGCGA GCGAGGCCGA CACGGCGTCG 
    ACTGCCACGA TGCGAGAATT GAGCCCCGAC AACTTTGTGC TAGACGACCT CAACAACGAC 
    AGCCCGACCC AGCATTTTGC CCGAACTGCA GACAATAGCC ACGTTCCAGG TTTTGGGTCA 
    AGCGGATATG CGATAGCTGG GACCGAGAAT GGGCGGATGA TCCTGCTGAT ACACGCCAAA 
    GGAAACATGC TGTACTCGTT GAAAAATATC GAACAAGCCT CGGATGCTTT TGAGGAGGCG 
    GTGCTCATCA GCGCTGGAAG ACAGGTTCGA GGGGTGCGAT CGCTTATCAG AAGGATCCAA 
    ACCGTCCTAG CACCGAGGGA TATGCATTCA GGGCAGCTTA GGGGTGCTGT TCAGGCGAAC 
    CTGTCCGCGC CGTTGCTTCT GTCGCCAGAC AGGGCCAAGC TTACCGCACA GCGGGTATTT 
    ACTTCGCACG GAGGACTCTT GCCGGGACTA CAATATGTTC CCGAAGGTAC TCACAAGAAA 
    TCCGTGGTTG CCACAACGAG CAATTCATTG TTGTCGCTAG CCAAGATCTT CCAGGACACC 
    ATGTCGAATG GTGGGCCAAA CACCGGTATG GTCAGACAGC CTGCTGGAGT GGGCGATATT 
    CTGGCGCTCT ATTACCTGTC CTTGTCATTG CAGGAAAGTC CGTCAACAGC AAACAACGTC 
    GGCATCTTGC TCGCTAGTGT TCAGCAGACG TCTACCCAAG TTCACTCTGG GCCGCCTATG 
    GACTTGGGGA ATCTTCCCGC TATCCCTGGG ATCGTACCAG GCAGCGGCTT ATCGCTCGCC 
    CTGGCTTACT ATTATTATGG CCTTACCCTG GATCCAAAGC ATGTGCACCT GCATACCAAT 
    CTGGGCAGCT TGCTCAAAGA TATCGGACAG CTGGATCTTG CTATTCAGAT GTATGAGCAG 
    GCTGTGCAGT GCGATGGAAG CTTCGATATT GCATTGACCA ACTTGGCCAA TGCTGTCAAG 
    GATAGAGGCA GAATCAGTGA TGCCATCGGG TATTACAAGC GAGCTGTATC GGCGAATCCC 
    GATTTTGCTG AGGCTGTTTG CGGGCTGTCC ACTGCGCTCA ACTCGGTTTG CGACTGGAAG 
    GGTCGTGGTG GTGTTCTGCT GGCAGGTGGC AAGTTTGACC GCTGGCATGT TGACGAGCAA 
    GGGATGCTTC AGGATGTGAA GTCACAAGGC CAAGGCAGTG GGCTGATGAA ACGTGTGGTT 
    GACATTGTCG GGCGGCAGCT GAAGGAGTCC AGCACTTGGG GTGTTGGCGC CTTGCAAGAT 
    CAGACGATTG TGCAGCTGGT GGCGCAGTTA AGGGATGCCG GAGCTGGGAT CACCGACCGA 
    GGTCTGGATG TTGAAACCGA ACTTCGAAAA TGGGCTGGTC GATCGTGGGA GGGCTCAAGA 
    ATCCTGAGGT TGATTGAGCG GTCGACGAGA GCTGCGATGC GGTGCTGGTA TGTCGACAAA 
    CATGTCAAGG GCATCAAGTC ATCAGCTGGA TACAGGCGGC CGCGGCCTCC TGCCAGCCTT 
    TCGATTCCAT CTGCGCCGAC GGTGTTGCCG TTCCACACCT TTACTTGCCC GTTGACAGCC 
    AAGGACATCC GGATGATTTC GCAGAGGAAT GCGCTAAGAA TATCGTGTTC GACGCTTCGC 
    TCACCTTGGG TCCCAGCTAC TGTATATGAA CCACCGGAGC CACCAGCCCC TTATTTCAAG 
    GTTGGCTATG TCTCGTCTGA TTTCAACAAC CACCCCCTGG CACATTTGAT GCAATCTGTC 
    TTTGGCTTTC ACAATCCCAA CAAGGTCAAG GCGTATTGCT ATGCAACCAC AGCCAGTGAC 
    AAGTCGATCC ATCGCCAGCA GATTGAGCGT GAAGCGCCCG TCTTCCGTGA TGTCAGCACG 
    TGGCCATCAG ACAGACTGGT CGAGCAGATT GTGGCTGATG GCATTCATAT TCTGGTCAAT 
    CTCAATGGGT ACACCCGCGG AGCGCGCAAT GAGATCTTTG CCGCGCGGCC TGCGCCGATC 
    CAGATGTCGT TCATGGGCTT TGCTGGGACG TTGGGAGCCG AGTGGTGCGA TTACCTCCTA 
    GCTGATACGA CGGCCATCCC TCCCTCGACA CTTCGACCAC ACCGCAACAA TTTAAACCTG 
    GGAGATGTCT TCCGGGATGA GGCCTACACG GAAAGCGAGG ACTGGATTTA CTCGGAGAAC 
    ATCATCTTTG CTCGGGACAC GTTTTTCTGT TGCGATCACG CGCAATCAGC AGATGGCCAC 
    AATGAGAGGC ATATGTCCTG GGAGGATGAC CAGAAGAGAA GGTGGAGGAT GCGGAAGGAG 
    TTGTTCCCCA AGTTACCCGA CGATGCTATC ATCCTGGGTA ACTTCAACCA GTTGTACAAG 
    ATCGACCCAA CAACCTTCCG TACATGGCTC CGCATCCTGG CTTCCTGCCC CAAAGCCCAC 
    CTCTGGCTGC TACGATTCCC CGAGCTGGGC GAAACCCACC TCCGCCGCAC AGCTAAAGAC 
    TGGGCTGGGG AAGCCGTCGC CTCTCGCATT CACTTCACAG ACGTGGCACC AAAGCAACAG 
    CATATTTCTC GCGCCCGAGT TTGCGATCTC TTTCTCGACA CGCCCGAGTG CAACGCCCAC 
    ACCACCGCGG CGGACATCCT TTGGTCTAGC ACGCCATTGC TCACCCTCCC ACGATACGAA 
    TACAAGATGT GCTCCCGTAT GGCGGCTTCC ATCCTCAAGG GTGCGCTTCC AAAGAGCGAG 
    GAAGGGGAGA GAGCAGCGAA GGAACTCATT GCGGAGGATG AGAAGCAATA CGAAGAGTTT 
    GCAGTGGGGT TGGTGAATAG GATGGGCTAC CAGCTGGTCA GGGGACAGGA TGGGGAAGTC 
    TACGGGAGGG GAGAGGGAAG ACTGGCGGAG ATGAGGAGGT TGCTTTGGGA GAGCAAGTGG 
    GGGTGCGCGC TGTTTGATAC CAGGAGATGG GTGAGGGACT TGGAGGAGGC ATATGGGCGG 
    GCTTGGAGCG ATTGGGTTAA CGGAAGGGGA GGGGACATCT ATCTTTGA

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

    RefSeq XP_001910995.1
    CDS1..4908
    Translation

    Target ORF information:

    RefSeq Version XM_001910960.1
    Organism Podospora anserina S mat+
    Definition Podospora anserina S mat+ uncharacterized protein (PODANS_2_2500), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001910960.1

    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
    ATGTTACCTC TTGTCCAAAT GCACCCGATG GTGCAACCAC AGCTCGACTT ACTCGGGCCC 
    CATCAACCGC ACGTAAAACA TGACCTGGAG TACGTGTCGC ATCACCAAAG ACCACAGTTC 
    GCGCGACCCT CCCCCTCGCT CCACAACACA GACTCAACGC CCCGGGCGTT CGCCATCCGC 
    AGCGCCCAGC CAGCCCCGGC GTTGCACCGC ATCACCACCT CGTTCATCCG ATCACATGCC 
    CACGACCACA GTTCGGAACA CTCACTTAGA CGCAAGACAC CAAGCGGCAC CATCGACAAT 
    GGGTACGATG GTTCGGTTGC CCACCTGGCC TCCGGACCCC CACCATTGAA GCACATGATC 
    TTACCTGCCT CGTCAAGAAT ATTTCCGACT GCTGTGTCTC GGAGAACATC AGGGCTAACT 
    GGGGTTAGCT ACCATAGGTC AACACTCTCT GGATCATCAT GGCCATATCA GGCACCGAAT 
    CCGACTGGGA GGCTCGATGG TGGGATGGAA CCATTAAGTA GCCCACCTGT GACGCCTGGA 
    GGATGGGGTA TGGGAAGTAC GAATATGATA ACGAATCCGG CCGCGCCAGA GCAGACAAAC 
    TTTCTGCAAC CAATACCCCA ACAAAGCTAC AACTCTGTGT CCAGCTTGCA GCCATTGTTA 
    GGGCCAGGAT ACCACCAGCC GTTGAGTCAA ACAGTCTACA GCCCGGGTGG CTACCAACAA 
    CCACAGCAAC CACAGCAGTC GATGGTGTGG AGGAATGGTG GACTAGGGGA TTATCGAACA 
    CCAATACCCC TAGCCAATGG CTACACACCA CAAAATGCTG TCGTTGATAG TGCGTTTATG 
    CCCTCGCAGT CGACCATACA TGGCATGCCA AACGCACCAG GACTGGGCCA ACCACACCCA 
    TTCCGCTTGC CATTGTCAAG CTACCCTCTT GATGATGGGT ACGCTCGTCA TGCTCAGGCA 
    CACATGGCGC ACCATGGGGC TGCTCATCAG GGTCATGAGT CTCTGGCACA ACTAGCTGGA 
    CATATTGCCC AAGGGGGCAG TGGCGGAGAT GTTGCCTCGA GAGCAAGGTT CAAAGAGCTG 
    GCCCTGCAGC AAGCACATAA AACATACAAT GATCTGCTAC TTTATCTAGG CAATGCGAAG 
    AAAGCACACC ACAGCCGGAC CGGATCTTTA TCAAGAACGT CATCGAAGAT GGTGGTATAC 
    CCGAAACCCT CAATAGCACC GTTGGCGAGC GGAACCAAAG TACGACCTTC GCCAGCCCTC 
    TCCGAACCAA CAGTCAGCTA TGCACAGCAC ATGGCACAGA AGCAGGCGGC AGCTAGGAGT 
    ATGGCAATGG GAGTGCAAGG AATGAATGTT GGAGGCTTCA ACCAAGCGAG GAATCTATAT 
    TCAACGGGGC TTCAACAACG GCCATACTTT GAGACCGGAT CACCACTTCA CAATGCGAAA 
    AATTCACTCG AGATGCTCAC CAACCTATGT GAGCAAAGTG GATGGAAATG GGTGGATGGT 
    ATGCTGTTGG GAGGATGTCT CCACTATGGC CTTGAGCATT ATGAAGATGC TCTGGAGTGG 
    TTCAAGCGCA TCGTGAGCAT GGATGCTAGG TGCGTATTCC CGGTCTGGTC GACCGCGTTA 
    GTTTTACGGG GTGATGCTAA CAAACAGGAC AGCCACGTCG AGGCTATTTC AAATATTGCT 
    GCGACATTGT ACTGCATGAA CAGACAGGAT GAGGCTGAAC GGGAATGGTC TAAAGCGATC 
    AAGCTAAGGC CAAGTTACCT GGAAGCAGTG GAACATTTGG TTGGCTTGCT GTGCTCGAAT 
    CATAGGAGTC AGGAGGCAGT CAACATTATC GAGTACATTC AGAAATCGTT GAGGATGTCT 
    GGAACAAACG GAACCGTACA TGAAGTTAAC GAGACGGCGA GCGAGGCCGA CACGGCGTCG 
    ACTGCCACGA TGCGAGAATT GAGCCCCGAC AACTTTGTGC TAGACGACCT CAACAACGAC 
    AGCCCGACCC AGCATTTTGC CCGAACTGCA GACAATAGCC ACGTTCCAGG TTTTGGGTCA 
    AGCGGATATG CGATAGCTGG GACCGAGAAT GGGCGGATGA TCCTGCTGAT ACACGCCAAA 
    GGAAACATGC TGTACTCGTT GAAAAATATC GAACAAGCCT CGGATGCTTT TGAGGAGGCG 
    GTGCTCATCA GCGCTGGAAG ACAGGTTCGA GGGGTGCGAT CGCTTATCAG AAGGATCCAA 
    ACCGTCCTAG CACCGAGGGA TATGCATTCA GGGCAGCTTA GGGGTGCTGT TCAGGCGAAC 
    CTGTCCGCGC CGTTGCTTCT GTCGCCAGAC AGGGCCAAGC TTACCGCACA GCGGGTATTT 
    ACTTCGCACG GAGGACTCTT GCCGGGACTA CAATATGTTC CCGAAGGTAC TCACAAGAAA 
    TCCGTGGTTG CCACAACGAG CAATTCATTG TTGTCGCTAG CCAAGATCTT CCAGGACACC 
    ATGTCGAATG GTGGGCCAAA CACCGGTATG GTCAGACAGC CTGCTGGAGT GGGCGATATT 
    CTGGCGCTCT ATTACCTGTC CTTGTCATTG CAGGAAAGTC CGTCAACAGC AAACAACGTC 
    GGCATCTTGC TCGCTAGTGT TCAGCAGACG TCTACCCAAG TTCACTCTGG GCCGCCTATG 
    GACTTGGGGA ATCTTCCCGC TATCCCTGGG ATCGTACCAG GCAGCGGCTT ATCGCTCGCC 
    CTGGCTTACT ATTATTATGG CCTTACCCTG GATCCAAAGC ATGTGCACCT GCATACCAAT 
    CTGGGCAGCT TGCTCAAAGA TATCGGACAG CTGGATCTTG CTATTCAGAT GTATGAGCAG 
    GCTGTGCAGT GCGATGGAAG CTTCGATATT GCATTGACCA ACTTGGCCAA TGCTGTCAAG 
    GATAGAGGCA GAATCAGTGA TGCCATCGGG TATTACAAGC GAGCTGTATC GGCGAATCCC 
    GATTTTGCTG AGGCTGTTTG CGGGCTGTCC ACTGCGCTCA ACTCGGTTTG CGACTGGAAG 
    GGTCGTGGTG GTGTTCTGCT GGCAGGTGGC AAGTTTGACC GCTGGCATGT TGACGAGCAA 
    GGGATGCTTC AGGATGTGAA GTCACAAGGC CAAGGCAGTG GGCTGATGAA ACGTGTGGTT 
    GACATTGTCG GGCGGCAGCT GAAGGAGTCC AGCACTTGGG GTGTTGGCGC CTTGCAAGAT 
    CAGACGATTG TGCAGCTGGT GGCGCAGTTA AGGGATGCCG GAGCTGGGAT CACCGACCGA 
    GGTCTGGATG TTGAAACCGA ACTTCGAAAA TGGGCTGGTC GATCGTGGGA GGGCTCAAGA 
    ATCCTGAGGT TGATTGAGCG GTCGACGAGA GCTGCGATGC GGTGCTGGTA TGTCGACAAA 
    CATGTCAAGG GCATCAAGTC ATCAGCTGGA TACAGGCGGC CGCGGCCTCC TGCCAGCCTT 
    TCGATTCCAT CTGCGCCGAC GGTGTTGCCG TTCCACACCT TTACTTGCCC GTTGACAGCC 
    AAGGACATCC GGATGATTTC GCAGAGGAAT GCGCTAAGAA TATCGTGTTC GACGCTTCGC 
    TCACCTTGGG TCCCAGCTAC TGTATATGAA CCACCGGAGC CACCAGCCCC TTATTTCAAG 
    GTTGGCTATG TCTCGTCTGA TTTCAACAAC CACCCCCTGG CACATTTGAT GCAATCTGTC 
    TTTGGCTTTC ACAATCCCAA CAAGGTCAAG GCGTATTGCT ATGCAACCAC AGCCAGTGAC 
    AAGTCGATCC ATCGCCAGCA GATTGAGCGT GAAGCGCCCG TCTTCCGTGA TGTCAGCACG 
    TGGCCATCAG ACAGACTGGT CGAGCAGATT GTGGCTGATG GCATTCATAT TCTGGTCAAT 
    CTCAATGGGT ACACCCGCGG AGCGCGCAAT GAGATCTTTG CCGCGCGGCC TGCGCCGATC 
    CAGATGTCGT TCATGGGCTT TGCTGGGACG TTGGGAGCCG AGTGGTGCGA TTACCTCCTA 
    GCTGATACGA CGGCCATCCC TCCCTCGACA CTTCGACCAC ACCGCAACAA TTTAAACCTG 
    GGAGATGTCT TCCGGGATGA GGCCTACACG GAAAGCGAGG ACTGGATTTA CTCGGAGAAC 
    ATCATCTTTG CTCGGGACAC GTTTTTCTGT TGCGATCACG CGCAATCAGC AGATGGCCAC 
    AATGAGAGGC ATATGTCCTG GGAGGATGAC CAGAAGAGAA GGTGGAGGAT GCGGAAGGAG 
    TTGTTCCCCA AGTTACCCGA CGATGCTATC ATCCTGGGTA ACTTCAACCA GTTGTACAAG 
    ATCGACCCAA CAACCTTCCG TACATGGCTC CGCATCCTGG CTTCCTGCCC CAAAGCCCAC 
    CTCTGGCTGC TACGATTCCC CGAGCTGGGC GAAACCCACC TCCGCCGCAC AGCTAAAGAC 
    TGGGCTGGGG AAGCCGTCGC CTCTCGCATT CACTTCACAG ACGTGGCACC AAAGCAACAG 
    CATATTTCTC GCGCCCGAGT TTGCGATCTC TTTCTCGACA CGCCCGAGTG CAACGCCCAC 
    ACCACCGCGG CGGACATCCT TTGGTCTAGC ACGCCATTGC TCACCCTCCC ACGATACGAA 
    TACAAGATGT GCTCCCGTAT GGCGGCTTCC ATCCTCAAGG GTGCGCTTCC AAAGAGCGAG 
    GAAGGGGAGA GAGCAGCGAA GGAACTCATT GCGGAGGATG AGAAGCAATA CGAAGAGTTT 
    GCAGTGGGGT TGGTGAATAG GATGGGCTAC CAGCTGGTCA GGGGACAGGA TGGGGAAGTC 
    TACGGGAGGG GAGAGGGAAG ACTGGCGGAG ATGAGGAGGT TGCTTTGGGA GAGCAAGTGG 
    GGGTGCGCGC TGTTTGATAC CAGGAGATGG GTGAGGGACT TGGAGGAGGC ATATGGGCGG 
    GCTTGGAGCG ATTGGGTTAA CGGAAGGGGA GGGGACATCT ATCTTTGA

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

  • PubMed

    The genome sequence of the model ascomycete fungus Podospora anserina.
    Genome biology9(5)R77(2008)
    Espagne E,Lespinet O,Malagnac F,Da Silva C,Jaillon O,Porcel BM,Couloux A,Aury JM,Ségurens B,Poulain J,Anthouard V,Grossetete S,Khalili H,Coppin E,Déquard-Chablat M,Picard M,Contamine V,Arnaise S,Bourdais A,Berteaux-Lecellier V,Gautheret D,de Vries RP,Battaglia E,Coutinho PM,Danchin EG,Henrissat B,Khoury RE,Sainsard-Chanet A,Boivin A,Pinan-Lucarré B,Sellem CH,Debuchy R,Wincker P,Weissenbach J,Silar P


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