| Gene Symbol | PODANS_6_10880 |
| Entrez Gene ID | 11176262 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Podospora anserina S mat+ |
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PODANS_6_10880 cDNA ORF clone, Podospora anserina S mat+
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Gene
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Clones
gRNAs
The following PODANS_6_10880 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PODANS_6_10880 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.
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Reference Sequences (Refseq)
CloneID OPl09381 Clone ID Related Accession (Same CDS sequence) XM_003437464.1 Accession Version XM_003437464.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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_003613579). 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
3301ATGACTGTCG TTCCCATCAA TGGCGCTGCC CCCCCGGTGG CAGACGTCGC AGCCATCCTC
GAGACCATCT TCAACGCCTC TTCGTCCAAT CAATCGATCG AAGCCTGCTA CGCTCTCTGC
GACATCCTGA TCAACACAAC GGGTTTCCGT GGCCTCCACC ACTACAACAT CATCTCCGAG
ATCAAGAAGG CTTCCATCGA CAAGAAGAGC GGTTTCCGCC GCGAGGGTGC CCAAAACCTC
CTTGGTGCCC TGTTTGAGCG GCTGCCCCCA GCTGCGCCCA TTACCGAGGT TGTTTTCCTC
ATCCAGGATG GTGGTCTTCT CAAGATTGCT CTCGATGCCC TTGCCGACAA GGGCGCCATT
GTCCGCGAGG CTGCCCAGTA CGGCATCGAT GCCTTGTTCG CCAACCTGAG CCCCGAGGCC
ATGGTCGCTG CCCTCCTGCC CGCCATCGTC GAGTACATCA AGAAGGCCGG TGGAAAGTGG
CAAGGTGTTG TCGGCGCCTT CAAGATCATG GAGAAGATGG CCAACAAGGC TCAGATCACC
ATTGGCAGCA CCAAGGAGCA GGCCGCCGAG CAGGATATCA TGCGCGAGGC CATGGGCTCC
AAGCTTGCCA CTCTGATTCC CATCACCGAG AATGGCATGT TGGATATGAA GACCGAGGTC
GAGAAGCAGG CTCTCAAGAC CATGACGGCC ATCACGACCC TTCTCTCCAA CGACGATGTC
GCATCTCGCA TTCCTCTCCT GATCGAGACC ATGCATCACC CATCTGTCGA GGCGGTGCAC
AAGGCCATCC ACGCCCTCTC CCAGACAACC TTTGTCGCCA TCGTCACCTC TCCCGTTCTC
GCCCTCTTGA CTCCTTTCCT GGAGCGCTCT CTCAACAACC CCTCGACTCC CCAAGAAGTT
CTCCGCCAGA CCGTTGTCAT TACCGAGAAC TTGACCAAGC TCGTTCACGA CCCCATCGAG
GCCCGTACTT TCCTCCCCAA GCTTCAGCCT GGTGTGAAGA GCGTCGTCAA CCGCGCCTCG
CTCCCCGAGG TTCGTGAGAT CGCCACCCGT GCGTTGGCCG TCATGGACAA GGCTATGGGT
AACGACAACT CGGCATCCTT GACAATTATC GAGCGCACTT CTGCTGAGGA TGTTGCCAAG
GTGTTGGACC AAGAAATCAA GAAGAACGGC GGTCTGAATG GCGACGAAGC CCTCTACAAG
CTGGGCGCTC CATTTATTTC CTCAATGGTT TGCGAAGACG TCAACCACCG CCACCTTGAT
CGCATCCCTA GCAAGATTGC GCCCTACCTC AAGGACCTGT TGCGAAAGCC CGAAGCCAGC
GATGCCGTCG CCGAGGCCGT TCACAAGTTC TATGTGGAAG AGGATGCGCG TAAGTACGGT
GTTCCAGAAA AGGAAGACGA CGGTGAGATT GAGATTGTCA ACGCCGACTT CTCTCTGGCT
TATGGTGGTA TGCTTTTGTT GTCGCATACG AACCTTAGGC TCCTGAAGGG TCATCGTTAC
GGCTTGTGTG GTCGCAATGG TGCTGGAAAG TCGACTCTGA TGAAGAGTAT CGCCAATGGA
AAGCTCGAGG GCTTCCCGTC TCAAGATGTT TTGCGCACTT GCTACGTCGA ACACAACCAG
GGTGAGGATG CCGATATCAG CATTCTCGAG TTTGTTTCCA AGGATCCCAC CATCGCCAAG
GAAGGAAAGG AGCGCATTGT TGCCGTCTTG GAGGAGTTCG GTTTCACATC GGGCCCCGAG
GGCAGGCAAT CGCAAAAGGT TGGGTCTCTC TCTGGTGGTT GGAAGATGAA GCTGGCTCTT
GCCCGTGCCA TGCTTCAAAG AGCCGATGTT TTGTTGCTCG ACGAACCTAC CAATCACTTG
GACGTCGCCA ACATCAAGTG GCTTGAAAAC TACCTCAAGA CACACCCCGA CATCACCAGT
TTGATCGTGT CCCACGACTC GGGCTTCCTG GACGAGGTCA CCACCGATAT CTACCACTAC
GAGCCCAACA AGAAGCTTGG TCACTACAAG GGCAACCTTG CTGCCTTTGT CAAGCGCCGC
CCCGAGGCCA AGAGCTACTA CACTCTGTCT GCTTCGCTCG TCCAGTTCAA GTTTCCTCCC
CCCGGCATTC TGAGCGGTGT CAAGTCCAAC ACACGCGCCA TCATCCGCAT GACCAACGTC
TCGTACACAT ACCCCAAGGC GCCCAAGCCA TCCTTGTCAG ATGCTTCTTG CCAGCTGACT
CTGTCGTCGC GTGTTGCCAT CATTGGCCCC AACGGTGCTG GCAAGTCTAC CCTCATCAAG
CTGTTGACCG GTGAAGTTAT TCCCACCACT GGAAAGGTGG AGAAGCACCC CAACCTTCGT
ATCGGTTACA TCAAGCAGCA CGCCCTCGAG CACGTTGAAA TGCATCTCGA GAAGACGCCC
AACCAGTATC TTCAATGGCG TTATGCCCAC GGTGACGATC GTGAGGTGCA CATGAAGCAG
ACCCGTGCGC TGTCCGACCA GGATCGCGAG CAGATGGACA AGTTTGTCGA GGTTGGTGGC
GGTAAGGCTC CTCGCCAGAT CGAGGCCCTT GTCGGTCGCC AAAAGTACAA GAAGACATTC
CAATACGAGA TCAAATGGCG TGGCTTCCTG CCCAAGCACA ACTCTCACTT TTCTCGCGAG
ACTTTGCTCG AGCTCGGCTT CGACAAGCTG GTGCAGGAGT TTGACGACCA CGAGGCTTCG
CGTGAAGGTC TCGGTTACCG TGAGCTCCAG CCTTCCGTCA TCAGCAAGCA CTTTGAGGAT
CTCGGTCTTG ATCCCGAGAT TGCGAACCAC AATGAGATTG GCTCGCTCTC CGGAGGTCAA
AAGGTCAAGG TTGTCATTGC CGGTGCCATG TGGAACAACC CCCATTTGCT CGTGCTTGAC
GAGCCTACTA ACTTCTTGGA CCGTGACTCC CTCGGTGGCC TGGCTGTTGC CATTCGCGAG
TTCAAGGGCG GCGTGGTGAT GATTTCCCAC AACGAAGAGT TTGTGGGAGC CCTGGCTTCC
GAGACTTGGC ACGTTGACAA CGGGCGGGTC ACGCATCGCA GCAACAATGC CATTGCGCTG
GATCGGTTCG AAGACAGTGC CAACACCAGC GCGGTCCCCA GTGCTGTTCC CAGCGGGCTT
AACACACCCG CCCTGAGCAG CGCCGCCCCC AGCGCCGTCA ACAGCGGTGT CGAGGACAAT
GCCGGCGAGG CCTTGAAGTT CCGGGCGAGA AAGAAGAAGA AGATGACCAA GAAAGAGCTC
AAGGAACGTG AGGCCAGGCG CCGGTTGAGG CACATCGATT GGCTCAACAG TCCCAAGGGC
ACCCCCAAGC CCCTTGATAC GGATGATGAG GCGGACGACT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_003437512.1 CDS 1..3342 Translation 
Target ORF information:
RefSeq Version XM_003437464.1 Organism Podospora anserina S mat+ Definition Podospora anserina S mat+ uncharacterized protein (PODANS_6_10880), partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_003437464.1
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
3301ATGACTGTCG TTCCCATCAA TGGCGCTGCC CCCCCGGTGG CAGACGTCGC AGCCATCCTC
GAGACCATCT TCAACGCCTC TTCGTCCAAT CAATCGATCG AAGCCTGCTA CGCTCTCTGC
GACATCCTGA TCAACACAAC GGGTTTCCGT GGCCTCCACC ACTACAACAT CATCTCCGAG
ATCAAGAAGG CTTCCATCGA CAAGAAGAGC GGTTTCCGCC GCGAGGGTGC CCAAAACCTC
CTTGGTGCCC TGTTTGAGCG GCTGCCCCCA GCTGCGCCCA TTACCGAGGT TGTTTTCCTC
ATCCAGGATG GTGGTCTTCT CAAGATTGCT CTCGATGCCC TTGCCGACAA GGGCGCCATT
GTCCGCGAGG CTGCCCAGTA CGGCATCGAT GCCTTGTTCG CCAACCTGAG CCCCGAGGCC
ATGGTCGCTG CCCTCCTGCC CGCCATCGTC GAGTACATCA AGAAGGCCGG TGGAAAGTGG
CAAGGTGTTG TCGGCGCCTT CAAGATCATG GAGAAGATGG CCAACAAGGC TCAGATCACC
ATTGGCAGCA CCAAGGAGCA GGCCGCCGAG CAGGATATCA TGCGCGAGGC CATGGGCTCC
AAGCTTGCCA CTCTGATTCC CATCACCGAG AATGGCATGT TGGATATGAA GACCGAGGTC
GAGAAGCAGG CTCTCAAGAC CATGACGGCC ATCACGACCC TTCTCTCCAA CGACGATGTC
GCATCTCGCA TTCCTCTCCT GATCGAGACC ATGCATCACC CATCTGTCGA GGCGGTGCAC
AAGGCCATCC ACGCCCTCTC CCAGACAACC TTTGTCGCCA TCGTCACCTC TCCCGTTCTC
GCCCTCTTGA CTCCTTTCCT GGAGCGCTCT CTCAACAACC CCTCGACTCC CCAAGAAGTT
CTCCGCCAGA CCGTTGTCAT TACCGAGAAC TTGACCAAGC TCGTTCACGA CCCCATCGAG
GCCCGTACTT TCCTCCCCAA GCTTCAGCCT GGTGTGAAGA GCGTCGTCAA CCGCGCCTCG
CTCCCCGAGG TTCGTGAGAT CGCCACCCGT GCGTTGGCCG TCATGGACAA GGCTATGGGT
AACGACAACT CGGCATCCTT GACAATTATC GAGCGCACTT CTGCTGAGGA TGTTGCCAAG
GTGTTGGACC AAGAAATCAA GAAGAACGGC GGTCTGAATG GCGACGAAGC CCTCTACAAG
CTGGGCGCTC CATTTATTTC CTCAATGGTT TGCGAAGACG TCAACCACCG CCACCTTGAT
CGCATCCCTA GCAAGATTGC GCCCTACCTC AAGGACCTGT TGCGAAAGCC CGAAGCCAGC
GATGCCGTCG CCGAGGCCGT TCACAAGTTC TATGTGGAAG AGGATGCGCG TAAGTACGGT
GTTCCAGAAA AGGAAGACGA CGGTGAGATT GAGATTGTCA ACGCCGACTT CTCTCTGGCT
TATGGTGGTA TGCTTTTGTT GTCGCATACG AACCTTAGGC TCCTGAAGGG TCATCGTTAC
GGCTTGTGTG GTCGCAATGG TGCTGGAAAG TCGACTCTGA TGAAGAGTAT CGCCAATGGA
AAGCTCGAGG GCTTCCCGTC TCAAGATGTT TTGCGCACTT GCTACGTCGA ACACAACCAG
GGTGAGGATG CCGATATCAG CATTCTCGAG TTTGTTTCCA AGGATCCCAC CATCGCCAAG
GAAGGAAAGG AGCGCATTGT TGCCGTCTTG GAGGAGTTCG GTTTCACATC GGGCCCCGAG
GGCAGGCAAT CGCAAAAGGT TGGGTCTCTC TCTGGTGGTT GGAAGATGAA GCTGGCTCTT
GCCCGTGCCA TGCTTCAAAG AGCCGATGTT TTGTTGCTCG ACGAACCTAC CAATCACTTG
GACGTCGCCA ACATCAAGTG GCTTGAAAAC TACCTCAAGA CACACCCCGA CATCACCAGT
TTGATCGTGT CCCACGACTC GGGCTTCCTG GACGAGGTCA CCACCGATAT CTACCACTAC
GAGCCCAACA AGAAGCTTGG TCACTACAAG GGCAACCTTG CTGCCTTTGT CAAGCGCCGC
CCCGAGGCCA AGAGCTACTA CACTCTGTCT GCTTCGCTCG TCCAGTTCAA GTTTCCTCCC
CCCGGCATTC TGAGCGGTGT CAAGTCCAAC ACACGCGCCA TCATCCGCAT GACCAACGTC
TCGTACACAT ACCCCAAGGC GCCCAAGCCA TCCTTGTCAG ATGCTTCTTG CCAGCTGACT
CTGTCGTCGC GTGTTGCCAT CATTGGCCCC AACGGTGCTG GCAAGTCTAC CCTCATCAAG
CTGTTGACCG GTGAAGTTAT TCCCACCACT GGAAAGGTGG AGAAGCACCC CAACCTTCGT
ATCGGTTACA TCAAGCAGCA CGCCCTCGAG CACGTTGAAA TGCATCTCGA GAAGACGCCC
AACCAGTATC TTCAATGGCG TTATGCCCAC GGTGACGATC GTGAGGTGCA CATGAAGCAG
ACCCGTGCGC TGTCCGACCA GGATCGCGAG CAGATGGACA AGTTTGTCGA GGTTGGTGGC
GGTAAGGCTC CTCGCCAGAT CGAGGCCCTT GTCGGTCGCC AAAAGTACAA GAAGACATTC
CAATACGAGA TCAAATGGCG TGGCTTCCTG CCCAAGCACA ACTCTCACTT TTCTCGCGAG
ACTTTGCTCG AGCTCGGCTT CGACAAGCTG GTGCAGGAGT TTGACGACCA CGAGGCTTCG
CGTGAAGGTC TCGGTTACCG TGAGCTCCAG CCTTCCGTCA TCAGCAAGCA CTTTGAGGAT
CTCGGTCTTG ATCCCGAGAT TGCGAACCAC AATGAGATTG GCTCGCTCTC CGGAGGTCAA
AAGGTCAAGG TTGTCATTGC CGGTGCCATG TGGAACAACC CCCATTTGCT CGTGCTTGAC
GAGCCTACTA ACTTCTTGGA CCGTGACTCC CTCGGTGGCC TGGCTGTTGC CATTCGCGAG
TTCAAGGGCG GCGTGGTGAT GATTTCCCAC AACGAAGAGT TTGTGGGAGC CCTGGCTTCC
GAGACTTGGC ACGTTGACAA CGGGCGGGTC ACGCATCGCA GCAACAATGC CATTGCGCTG
GATCGGTTCG AAGACAGTGC CAACACCAGC GCGGTCCCCA GTGCTGTTCC CAGCGGGCTT
AACACACCCG CCCTGAGCAG CGCCGCCCCC AGCGCCGTCA ACAGCGGTGT CGAGGACAAT
GCCGGCGAGG CCTTGAAGTT CCGGGCGAGA AAGAAGAAGA AGATGACCAA GAAAGAGCTC
AAGGAACGTG AGGCCAGGCG CCGGTTGAGG CACATCGATT GGCTCAACAG TCCCAAGGGC
ACCCCCAAGC CCCTTGATAC GGATGATGAG GCGGACGACT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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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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