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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:3387570..3389927+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_139169-T1 ID=ASPNIDRAFT_139169-T1|Name=ASPNIDRAFT_139169-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2358bp|location=Sequence derived from alignment at ACJE01000010.1:3387570..3389927+ (Aspergillus niger ATCC 1015)
ATGCCTATCGAAGAGGGTGCAAGCAGTCCCAAGCATCTCAATAGCTCTGA
GTTGCTCAAGAAGATTGACAAGCTGCGAGAGAAAAACATTGGAAAACATG
TGCCTCTTCCGCAGGTAAGACTCTGCCACCTCCAGAAACCGTTTACAAGT
GATACTAATCTCATCAAGTTGGTTGTCGTTGGAGACCAGAGTTCAGGGAA
ATCATCTCTTCTGGCAAGCCTGACCAAGATTCCATTCCCTCGTGATATAG
AACTTTGTACGCGATATGCCACGCAGATAACCTCCCGTCGTGAGAACGAT
CGCTCGGTTGAGATTTCGATAATCCTTGCTGTGGATGCATCCGCGGAGCA
CAGGGCAAAAGTACAGGGCTATAAGAGGACCCTCAGAGGTACCGAGGACT
TTCGCTTAGAATTCCCAACAATTCTTCAGGAGGTCCGGCTAGCCCAAAAT
TATATGTGTCTTTGACAAAGGCTAACATACCGAATAGGTCGACGTGTGTA
TGGGAATCCGTTCAGACCTTTCATCTAAGGAGGGATCAGTCTTCAGCAAA
GACGTGCTCCGGATTGAGCTATGCGGGCCAGAAGAGGGCTACCTGACCGT
CATAGATGTACCGGGGATCTTCAGAGACCCGACTGAGGACATCACTACTG
ACAGTGATATTGAGCTAGTTCGAGAGATATGGTCAAGAGCTATATCGCAG
ATGCCCGCACTGTGATCTTGGCTGTGCTCCCGAGCAATGTCGATCTTGCA
ACCCAGGAGATCCTCAAGCTGGCTAAAGATTATGACGAAAATGGAGAACG
TACCCTTGGTGTGCTGACCAAACCCGATTTGGTGATTGAGCAAAGCGCTA
AGGCAGCTTTGTGCTCACTGGTCCTGGGGCACAAGAGACCGCTGACACTG
GGATACTACTTGGTGAGAAACCAGGGCGCCGATAAAAACACTTCTTTCGA
TGGCGAGGAAGGAGAGAGAATGTTTGACAGCCAGCCTTGGAGTTCCTTGC
CGAGAGACCGTATTGGCATCCAGGCCCTACGAGAACGGCTAGGAGAACTA
CTGAGCGAAGTTACGGAGCGCGAATTCCCTGAATTGCGTAAAGACATCAA
AAATCAGATTGATACATGCCATCAAGATCTGGACCGCCTGGGACCTGCAC
GCCAGACTGAACAGGAACAGCGTGCATTTCTGAGTGGTATAGCTCGCCAG
TTTCAGATCCTCGCACGAGCTGCACGTGATGCTCATTATACAGAAAATGA
AGCATTTGCAGAGAGCGACCTCAGGCTTCTCACGCACATTGTCAATTTTT
CTGATAGCTCAACTTTCCGGGCCAAAGCCCATCTTTACTCATTCGACTGC
CCTACCTCAGATGCAGCCGACAATGACCAAGCAGACAACGGCACGAACAA
CAAACCGCACGGGAAGAGTCAAAGCGATAAATGGGGCCCAAGGTGGAAAG
CCAACATGCACGCCCAGCCGACAGCCGAAGATCGCTTTTGTCTGGCTCAA
AATTCAAGCGAAACCTGGAAAAGCCTGGACCCTAGCAACTTCCCGGAGTT
AGAGCCGATTGTCAGCCGCCTGGAGGGCCCCGAAGATCCTAAAGGGGATA
TCAAAGCTTGGATTGAAGTGTTATATTCTAATTCACGTGGTCTTGATCTT
GGGACCTTTGGCAACAACATTTTCTGCAACGCTTTCAAGGAGCATGCCGG
CAAATGGGAAGCCATGACCCGCGAACACGTGAGTAATGTTATTATGGTGG
TTCACCGTTTCCTGAGTACGGCATTGGGAAAGATTTGCGGAAGCAAACAG
CTCTATAACAAGATTTGGTCCAGCATTCTCGATGAACTTCTGAAAAGATA
CGAGATGGCCATGTCACAGGCGCTGTTCCTTTTGTCGGTTGAAAGAAATC
GCCGACCATATACACTGAACAATTATTTTAATCAGACCCTCCAGAAACTG
CGCAGCGCCCGTGTAGCTCAGGCATTAGAGGACAATGCTATGGTTGACAG
CGACACTTGGACTACCGGATCAGCGAAGATAGTCGATCTGAATGCTGTCA
AGAAGACTGTCAGCGACCAGGCGAATGTGGAACATATCACTGGGGAAATC
CATGACATCCTGTGGTCCTACTACCAAGTCGCACGCGAAAGATTTGTGGA
TAATGTCCACATGCAAGCAATCGAGCATTGTCTTCTGACCGGTCCTGAGA
GCCCCCTTGAAGTTTTTAGCCAGGAATGGGTGATCAATCTGGAGCCGGAA
GAGCTGGCAGCAATCGCGGGTGAATCGCAGGCGACCAAAGCACGGCGTAC
CGGCCTGAAGCAAAAGATGGAGGATTTGAAGTCTGCTCTACAAACCTTGA
AATTCTGA back to topCoding sequence (CDS) from alignment at ACJE01000010.1:3387570..3389927+ >ASPNIDRAFT_139169-T1 ID=ASPNIDRAFT_139169-T1|Name=ASPNIDRAFT_139169-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8904bp|location=Sequence derived from alignment at ACJE01000010.1:3387570..3389927+ (Aspergillus niger ATCC 1015)
ATGCCTATCGAAGAGGGTGCAAGCAGTCCCAAGCATCTCAATAGCTCTGA
GTTGCTCAAGAAGATTGACAAGCTGCGAGAGAAAAACATTGGAAAACATG
TGCCTCTTCCGCAGTTGGTTGTCGTTGGAGACCAGAGTTCAGGGAAATCA
TCTCTTCTGGCAAGCCTGACCAAGATTCCATTCCCTCGTGATATAGAACT
TTGTACGCGATATGCCACGCAGATAACCTCCCGTCGTGAGAACGATCGCT
CGGTTGAGATTTCGATAATCCTTGCTGTGGATGCATCCGCGGAGCACAGG
GCAAAAGTACAGGGCTATAAGAGGACCCTCAGAGGTACCGAGGACTTTCG
CTTAGAATTCCCAACAATTCTTCAGGAGGTCGACGTGTGTATGGGAATCC
GTTCAGACCTTTCATCTAAGGAGGGATCAGTCTTCAGCAAAGACGTGCTC
CGGATTGAGCTATGCGGGCCAGAAGAGGGCTACCTGACCGTCATAGATGT
ACCGGGGATCTTCAGAGACCCGACTGAGGACATCACTACTGACAATATGG
TCAAGAGCTATATCGCAGATGCCCGCACTGTGATCTTGGCTGTGCTCCCG
AGCAATGTCGATCTTGCAACCCAGGAGATCCTCAAGCTGGCTAAAGATTA
TGACGAAAATGGAGAACGTACCCTTGGTGTGCTGACCAAACCCGATTTGG
TGATTGAGCAAAGCGCTAAGGCAGCTTTGTGCTCACTGGTCCTGGGGCAC
AAGAGACCGCTGACACTGGGATACTACTTGGTGAGAAACCAGGGCGCCGA
TAAAAACACTTCTTTCGATGGCGAGGAAGGAGAGAGAATGTTTGACAGCC
AGCCTTGGAGTTCCTTGCCGAGAGACCGTATTGGCATCCAGGCCCTACGA
GAACGGCTAGGAGAACTACTGAGCGAAGTTACGGAGCGCGAATTCCCTGA
ATTGCGTAAAGACATCAAAAATCAGATTGATACATGCCATCAAGATCTGG
ACCGCCTGGGACCTGCACGCCAGACTGAACAGGAACAGCGTGCATTTCTG
AGTGGTATAGCTCGCCAGTTTCAGATCCTCGCACGAGCTGCACGTGATGC
TCATTATACAGAAAATGAAGCATTTGCAGAGAGCGACCTCAGGCTTCTCA
CGCACATTGTCAATTTTTCTGATAGCTCAACTTTCCGGGCCAAAGCCCAT
CTTTACTCATTCGACTGCCCTACCTCAGATGCAGCCGACAATGACCAAGC
AGACAACGGCACGAACAACAAACCGCACGGGAAGAGTCAAAGCGATAAAT
GGGGCCCAAGGTGGAAAGCCAACATGCACGCCCAGCCGACAGCCGAAGAT
CGCTTTTGTCTGGCTCAAAATTCAAGCGAAACCTGGAAAAGCCTGGACCC
TAGCAACTTCCCGGAGTTAGAGCCGATTGTCAGCCGCCTGGAGGGCCCCG
AAGATCCTAAAGGGGATATCAAAGCTTGGATTGAAGTGTTATATTCTAAT
TCACGTGGTCTTGATCTTGGGACCTTTGGCAACAACATTTTCTGCAACGC
TTTCAAGGAGCATGCCGGCAAATGGGAAGCCATGACCCGCGAACACGTGA
GTAATGTTATTATGGTGGTTCACCGTTTCCTGAGTACGGCATTGGGAAAG
ATTTGCGGAAGCAAACAGCTCTATAACAAGATTTGGTCCAGCATTCTCGA
TGAACTTCTGAAAAGATACGAGATGGCCATGTCACAGGCGCTGTTCCTTT
TGTCGGTTGAAAGAAATCGCCGACCATATACACTGAACAATTATTTTAAT
CAGACCCTCCAGAAACTGCGCAGCGCCCGTGTAGCTCAGGCATTAGAGGA
CAATGCTATGGTTGACAGCGACACTTGGACTACCGGATCAGCGAAGATAG
TCGATCTGAATGCTGTCAAGAAGACTGTCAGCGACCAGGCGAATGTGGAA
CATATCACTGGGGAAATCCATGACATCCTGTGGTCCTACTACCAAGTCGC
ACGCGAAAGATTTGTGGATAATGTCCACATGCAAGCAATCGAGCATTGTC
TTCTGACCGGTCCTGAGAGCCCCCTTGAAGTTTTTAGCCAGGAATGGGTG
ATCAATCTGGAGCCGGAAGAGCTGGCAGCAATCGCGGGTGAATCGCAGGC
GACCAAAGCACGGCGTACCGGCCTGAAGCAAAAGATGGAGGATTTGAAGT
CTGCTCTACAAACCTTGAAATTCTGAATGCCTATCGAAGAGGGTGCAAGC
AGTCCCAAGCATCTCAATAGCTCTGAGTTGCTCAAGAAGATTGACAAGCT
GCGAGAGAAAAACATTGGAAAACATGTGCCTCTTCCGCAGTTGGTTGTCG
TTGGAGACCAGAGTTCAGGGAAATCATCTCTTCTGGCAAGCCTGACCAAG
ATTCCATTCCCTCGTGATATAGAACTTTGTACGCGATATGCCACGCAGAT
AACCTCCCGTCGTGAGAACGATCGCTCGGTTGAGATTTCGATAATCCTTG
CTGTGGATGCATCCGCGGAGCACAGGGCAAAAGTACAGGGCTATAAGAGG
ACCCTCAGAGGTACCGAGGACTTTCGCTTAGAATTCCCAACAATTCTTCA
GGAGGTCGACGTGTGTATGGGAATCCGTTCAGACCTTTCATCTAAGGAGG
GATCAGTCTTCAGCAAAGACGTGCTCCGGATTGAGCTATGCGGGCCAGAA
GAGGGCTACCTGACCGTCATAGATGTACCGGGGATCTTCAGAGACCCGAC
TGAGGACATCACTACTGACAATATGGTCAAGAGCTATATCGCAGATGCCC
GCACTGTGATCTTGGCTGTGCTCCCGAGCAATGTCGATCTTGCAACCCAG
GAGATCCTCAAGCTGGCTAAAGATTATGACGAAAATGGAGAACGTACCCT
TGGTGTGCTGACCAAACCCGATTTGGTGATTGAGCAAAGCGCTAAGGCAG
CTTTGTGCTCACTGGTCCTGGGGCACAAGAGACCGCTGACACTGGGATAC
TACTTGGTGAGAAACCAGGGCGCCGATAAAAACACTTCTTTCGATGGCGA
GGAAGGAGAGAGAATGTTTGACAGCCAGCCTTGGAGTTCCTTGCCGAGAG
ACCGTATTGGCATCCAGGCCCTACGAGAACGGCTAGGAGAACTACTGAGC
GAAGTTACGGAGCGCGAATTCCCTGAATTGCGTAAAGACATCAAAAATCA
GATTGATACATGCCATCAAGATCTGGACCGCCTGGGACCTGCACGCCAGA
CTGAACAGGAACAGCGTGCATTTCTGAGTGGTATAGCTCGCCAGTTTCAG
ATCCTCGCACGAGCTGCACGTGATGCTCATTATACAGAAAATGAAGCATT
TGCAGAGAGCGACCTCAGGCTTCTCACGCACATTGTCAATTTTTCTGATA
GCTCAACTTTCCGGGCCAAAGCCCATCTTTACTCATTCGACTGCCCTACC
TCAGATGCAGCCGACAATGACCAAGCAGACAACGGCACGAACAACAAACC
GCACGGGAAGAGTCAAAGCGATAAATGGGGCCCAAGGTGGAAAGCCAACA
TGCACGCCCAGCCGACAGCCGAAGATCGCTTTTGTCTGGCTCAAAATTCA
AGCGAAACCTGGAAAAGCCTGGACCCTAGCAACTTCCCGGAGTTAGAGCC
GATTGTCAGCCGCCTGGAGGGCCCCGAAGATCCTAAAGGGGATATCAAAG
CTTGGATTGAAGTGTTATATTCTAATTCACGTGGTCTTGATCTTGGGACC
TTTGGCAACAACATTTTCTGCAACGCTTTCAAGGAGCATGCCGGCAAATG
GGAAGCCATGACCCGCGAACACGTGAGTAATGTTATTATGGTGGTTCACC
GTTTCCTGAGTACGGCATTGGGAAAGATTTGCGGAAGCAAACAGCTCTAT
AACAAGATTTGGTCCAGCATTCTCGATGAACTTCTGAAAAGATACGAGAT
GGCCATGTCACAGGCGCTGTTCCTTTTGTCGGTTGAAAGAAATCGCCGAC
CATATACACTGAACAATTATTTTAATCAGACCCTCCAGAAACTGCGCAGC
GCCCGTGTAGCTCAGGCATTAGAGGACAATGCTATGGTTGACAGCGACAC
TTGGACTACCGGATCAGCGAAGATAGTCGATCTGAATGCTGTCAAGAAGA
CTGTCAGCGACCAGGCGAATGTGGAACATATCACTGGGGAAATCCATGAC
ATCCTGTGGTCCTACTACCAAGTCGCACGCGAAAGATTTGTGGATAATGT
CCACATGCAAGCAATCGAGCATTGTCTTCTGACCGGTCCTGAGAGCCCCC
TTGAAGTTTTTAGCCAGGAATGGGTGATCAATCTGGAGCCGGAAGAGCTG
GCAGCAATCGCGGGTGAATCGCAGGCGACCAAAGCACGGCGTACCGGCCT
GAAGCAAAAGATGGAGGATTTGAAGTCTGCTCTACAAACCTTGAAATTCT
GAATGCCTATCGAAGAGGGTGCAAGCAGTCCCAAGCATCTCAATAGCTCT
GAGTTGCTCAAGAAGATTGACAAGCTGCGAGAGAAAAACATTGGAAAACA
TGTGCCTCTTCCGCAGTTGGTTGTCGTTGGAGACCAGAGTTCAGGGAAAT
CATCTCTTCTGGCAAGCCTGACCAAGATTCCATTCCCTCGTGATATAGAA
CTTTGTACGCGATATGCCACGCAGATAACCTCCCGTCGTGAGAACGATCG
CTCGGTTGAGATTTCGATAATCCTTGCTGTGGATGCATCCGCGGAGCACA
GGGCAAAAGTACAGGGCTATAAGAGGACCCTCAGAGGTACCGAGGACTTT
CGCTTAGAATTCCCAACAATTCTTCAGGAGGTCGACGTGTGTATGGGAAT
CCGTTCAGACCTTTCATCTAAGGAGGGATCAGTCTTCAGCAAAGACGTGC
TCCGGATTGAGCTATGCGGGCCAGAAGAGGGCTACCTGACCGTCATAGAT
GTACCGGGGATCTTCAGAGACCCGACTGAGGACATCACTACTGACAATAT
GGTCAAGAGCTATATCGCAGATGCCCGCACTGTGATCTTGGCTGTGCTCC
CGAGCAATGTCGATCTTGCAACCCAGGAGATCCTCAAGCTGGCTAAAGAT
TATGACGAAAATGGAGAACGTACCCTTGGTGTGCTGACCAAACCCGATTT
GGTGATTGAGCAAAGCGCTAAGGCAGCTTTGTGCTCACTGGTCCTGGGGC
ACAAGAGACCGCTGACACTGGGATACTACTTGGTGAGAAACCAGGGCGCC
GATAAAAACACTTCTTTCGATGGCGAGGAAGGAGAGAGAATGTTTGACAG
CCAGCCTTGGAGTTCCTTGCCGAGAGACCGTATTGGCATCCAGGCCCTAC
GAGAACGGCTAGGAGAACTACTGAGCGAAGTTACGGAGCGCGAATTCCCT
GAATTGCGTAAAGACATCAAAAATCAGATTGATACATGCCATCAAGATCT
GGACCGCCTGGGACCTGCACGCCAGACTGAACAGGAACAGCGTGCATTTC
TGAGTGGTATAGCTCGCCAGTTTCAGATCCTCGCACGAGCTGCACGTGAT
GCTCATTATACAGAAAATGAAGCATTTGCAGAGAGCGACCTCAGGCTTCT
CACGCACATTGTCAATTTTTCTGATAGCTCAACTTTCCGGGCCAAAGCCC
ATCTTTACTCATTCGACTGCCCTACCTCAGATGCAGCCGACAATGACCAA
GCAGACAACGGCACGAACAACAAACCGCACGGGAAGAGTCAAAGCGATAA
ATGGGGCCCAAGGTGGAAAGCCAACATGCACGCCCAGCCGACAGCCGAAG
ATCGCTTTTGTCTGGCTCAAAATTCAAGCGAAACCTGGAAAAGCCTGGAC
CCTAGCAACTTCCCGGAGTTAGAGCCGATTGTCAGCCGCCTGGAGGGCCC
CGAAGATCCTAAAGGGGATATCAAAGCTTGGATTGAAGTGTTATATTCTA
ATTCACGTGGTCTTGATCTTGGGACCTTTGGCAACAACATTTTCTGCAAC
GCTTTCAAGGAGCATGCCGGCAAATGGGAAGCCATGACCCGCGAACACGT
GAGTAATGTTATTATGGTGGTTCACCGTTTCCTGAGTACGGCATTGGGAA
AGATTTGCGGAAGCAAACAGCTCTATAACAAGATTTGGTCCAGCATTCTC
GATGAACTTCTGAAAAGATACGAGATGGCCATGTCACAGGCGCTGTTCCT
TTTGTCGGTTGAAAGAAATCGCCGACCATATACACTGAACAATTATTTTA
ATCAGACCCTCCAGAAACTGCGCAGCGCCCGTGTAGCTCAGGCATTAGAG
GACAATGCTATGGTTGACAGCGACACTTGGACTACCGGATCAGCGAAGAT
AGTCGATCTGAATGCTGTCAAGAAGACTGTCAGCGACCAGGCGAATGTGG
AACATATCACTGGGGAAATCCATGACATCCTGTGGTCCTACTACCAAGTC
GCACGCGAAAGATTTGTGGATAATGTCCACATGCAAGCAATCGAGCATTG
TCTTCTGACCGGTCCTGAGAGCCCCCTTGAAGTTTTTAGCCAGGAATGGG
TGATCAATCTGGAGCCGGAAGAGCTGGCAGCAATCGCGGGTGAATCGCAG
GCGACCAAAGCACGGCGTACCGGCCTGAAGCAAAAGATGGAGGATTTGAA
GTCTGCTCTACAAACCTTGAAATTCTGAATGCCTATCGAAGAGGGTGCAA
GCAGTCCCAAGCATCTCAATAGCTCTGAGTTGCTCAAGAAGATTGACAAG
CTGCGAGAGAAAAACATTGGAAAACATGTGCCTCTTCCGCAGTTGGTTGT
CGTTGGAGACCAGAGTTCAGGGAAATCATCTCTTCTGGCAAGCCTGACCA
AGATTCCATTCCCTCGTGATATAGAACTTTGTACGCGATATGCCACGCAG
ATAACCTCCCGTCGTGAGAACGATCGCTCGGTTGAGATTTCGATAATCCT
TGCTGTGGATGCATCCGCGGAGCACAGGGCAAAAGTACAGGGCTATAAGA
GGACCCTCAGAGGTACCGAGGACTTTCGCTTAGAATTCCCAACAATTCTT
CAGGAGGTCGACGTGTGTATGGGAATCCGTTCAGACCTTTCATCTAAGGA
GGGATCAGTCTTCAGCAAAGACGTGCTCCGGATTGAGCTATGCGGGCCAG
AAGAGGGCTACCTGACCGTCATAGATGTACCGGGGATCTTCAGAGACCCG
ACTGAGGACATCACTACTGACAATATGGTCAAGAGCTATATCGCAGATGC
CCGCACTGTGATCTTGGCTGTGCTCCCGAGCAATGTCGATCTTGCAACCC
AGGAGATCCTCAAGCTGGCTAAAGATTATGACGAAAATGGAGAACGTACC
CTTGGTGTGCTGACCAAACCCGATTTGGTGATTGAGCAAAGCGCTAAGGC
AGCTTTGTGCTCACTGGTCCTGGGGCACAAGAGACCGCTGACACTGGGAT
ACTACTTGGTGAGAAACCAGGGCGCCGATAAAAACACTTCTTTCGATGGC
GAGGAAGGAGAGAGAATGTTTGACAGCCAGCCTTGGAGTTCCTTGCCGAG
AGACCGTATTGGCATCCAGGCCCTACGAGAACGGCTAGGAGAACTACTGA
GCGAAGTTACGGAGCGCGAATTCCCTGAATTGCGTAAAGACATCAAAAAT
CAGATTGATACATGCCATCAAGATCTGGACCGCCTGGGACCTGCACGCCA
GACTGAACAGGAACAGCGTGCATTTCTGAGTGGTATAGCTCGCCAGTTTC
AGATCCTCGCACGAGCTGCACGTGATGCTCATTATACAGAAAATGAAGCA
TTTGCAGAGAGCGACCTCAGGCTTCTCACGCACATTGTCAATTTTTCTGA
TAGCTCAACTTTCCGGGCCAAAGCCCATCTTTACTCATTCGACTGCCCTA
CCTCAGATGCAGCCGACAATGACCAAGCAGACAACGGCACGAACAACAAA
CCGCACGGGAAGAGTCAAAGCGATAAATGGGGCCCAAGGTGGAAAGCCAA
CATGCACGCCCAGCCGACAGCCGAAGATCGCTTTTGTCTGGCTCAAAATT
CAAGCGAAACCTGGAAAAGCCTGGACCCTAGCAACTTCCCGGAGTTAGAG
CCGATTGTCAGCCGCCTGGAGGGCCCCGAAGATCCTAAAGGGGATATCAA
AGCTTGGATTGAAGTGTTATATTCTAATTCACGTGGTCTTGATCTTGGGA
CCTTTGGCAACAACATTTTCTGCAACGCTTTCAAGGAGCATGCCGGCAAA
TGGGAAGCCATGACCCGCGAACACGTGAGTAATGTTATTATGGTGGTTCA
CCGTTTCCTGAGTACGGCATTGGGAAAGATTTGCGGAAGCAAACAGCTCT
ATAACAAGATTTGGTCCAGCATTCTCGATGAACTTCTGAAAAGATACGAG
ATGGCCATGTCACAGGCGCTGTTCCTTTTGTCGGTTGAAAGAAATCGCCG
ACCATATACACTGAACAATTATTTTAATCAGACCCTCCAGAAACTGCGCA
GCGCCCGTGTAGCTCAGGCATTAGAGGACAATGCTATGGTTGACAGCGAC
ACTTGGACTACCGGATCAGCGAAGATAGTCGATCTGAATGCTGTCAAGAA
GACTGTCAGCGACCAGGCGAATGTGGAACATATCACTGGGGAAATCCATG
ACATCCTGTGGTCCTACTACCAAGTCGCACGCGAAAGATTTGTGGATAAT
GTCCACATGCAAGCAATCGAGCATTGTCTTCTGACCGGTCCTGAGAGCCC
CCTTGAAGTTTTTAGCCAGGAATGGGTGATCAATCTGGAGCCGGAAGAGC
TGGCAGCAATCGCGGGTGAATCGCAGGCGACCAAAGCACGGCGTACCGGC
CTGAAGCAAAAGATGGAGGATTTGAAGTCTGCTCTACAAACCTTGAAATT
CTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005525 | GTP binding |
| GO:0003924 | GTPase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR030381 |
| DBxref | InterPro:IPR020850 |
| DBxref | InterPro:IPR003130 |
| DBxref | InterPro:IPR000375 |
| DBxref | InterPro:IPR001401 |
| DBxref | InterPro:IPR022812 |
| DBxref | PFAM:PF01926 |
| DBxref | PFAM:PF02212 |
| DBxref | PFAM:PF00350 |
| DBxref | PFAM:PF01031 |
| Product | hypothetical protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| ACJE01000010.1 | supercontig | ACJE01000010.1:3387570..3389927 + |
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