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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:1025016..1027894- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_52714-T1 ID=ASPNIDRAFT_52714-T1|Name=ASPNIDRAFT_52714-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2879bp|location=Sequence derived from alignment at ACJE01000021.1:1025016..1027894- (Aspergillus niger ATCC 1015)
ATGAGCGGGAGAATTCTCTCCCATCGTCTTGTTCCGCTGTTGCGGACCGG
TCTTCTGGCCCGCCATGTTCATAATGCTGCGGCCAGGACCGGCGGTCTTC
TTCGCTCCGATGGCAGCGCCGCACTACGTGGACGGGCCTGGCCGGTAGGT
GCAAACGCGATTCACAATAATGTGCCTGCTGTGCGGGCAATCTCCTTTCA
CCGGATACTCCCTAAACTGGCTATCAAGCTGATACGGCTGCCGGCTATGC
TTGGGGGTGCTACGGTAGCGGGGCTAGCTTATTTCCAGTACCAAGCCACA
CGTACGTATTCGATTCGCGACCCGTCTTTGCTGATAGCTGATTAACGAAT
GGTTGCGTCGTTCAGAGGCAGGAAATTACGCTATCGATCTTTTTAAACGT
GCGGGGGAAACGGCGGGAGATGCAGCCTCGAGCTTGTTCACGGAAATTCA
GGGCATTGCCGAACAGACACAACGCGGATGGCAAAGAACCACGGATGCCG
TGGAACTTCCGGAATGGTTGCAGAATTTTATAAACCCAAACGAAGAGTCG
CAGTCCGACAATGGTGGCCCTGGAGGTAAACGCCCGAAGGAGAGCCGTCT
CGGTGCCGCGGCAGCTGGAGCTACTACTGCCGGAGCTTTCGGTTACGATG
AGTCTAATGAGGAGGACACCCGTTCAGAAAGGAAGATTGCGGAAGATGAC
CAGATGATGCTTCTTACACGGAAGATGATCGAGATCAGAAACATACTGCA
GACCGTCGGCCAGTCTAATACCCTGACGCTCCCGTCAATTGTGGTTATTG
GGTCTCAGTCTTCGGGCAAGAGCTCAGTTTTGGAAGCTATTGTCGGACAT
GAATTCCTTCCGAAGGGCACTAACATGGTCACCCGGCGACCGATCGAGCT
GACTCTGGTCAACACACCAAATGCGCAAGCTGAATATGGAGAGTTTCCGG
CTCTCGGGTTAGGGAAAATCACCGACTTCTCTCAGATTCAGCGGACTCTG
ACGGATTTGAATTTGGCCGTTCCAGAGAGGGACTGTGTTTCCGATGACCC
TATCCAGCTTTCCATCTACTCTCCTCACGTTCCTGACCTCTCTCTCATCG
ACCTTCCAGGCTACATCCAAGTTGCTGGACATGACCAACCCCCAGAGTTG
AAACAGAAGATCTCCGATCTCTGCGACAAGTACATCCAAGCACCGAATGT
AATCCTCGCCATTTCCGCGGCAGACGTTGACCTGGCCAACTCCACTGCTC
TCAGAGCCAGCCGCAGGGTAGACCCTAGAGGAGAACGGACAATCGGTGTT
ATAACGAAGATGGACCTTGTTGACCCCGAGCGTGGTTACAACGTTCTCTC
CGATAAAAAGTACCCTCTCCGCCTGGGCTACGTCGGTGTCGTTAGCCGGA
TTCCTCAAACAACAGCGCTTTTCTCCAGGGGCAGCGGAAATATCACTGGA
GCCATCATGAAGAACGAACACGCCTATTTCTCTGCTCACCCGTCGGAGTT
TGGATCACAATCGGACGTTTCTGTCGGTGTTTCTACTTTGCGCACGAAGC
TCATGCATGTTCTCGAGCAGACGATGGCATCAAGCCTAGCGGGTACTAGG
GATGCAATCAGTCAAGAACTTGAGGAGGCAACCTATGAGTTCAAGGTTCA
GTACAACGATCGTCCTCTGAGTGCAGAGTCTTATCTTGCAGAGAGCTTGG
ACAGCTTCAAGCACTCTTTCAAGGCGTTTGCCGAAAGCTTCGGTCGCCCT
CAGGTCCGTGAAATGCTGAAGAACGAGCTTGATCAGCGGGTAATGGACAT
CCTGGCGCAAAGATATTGGAATAAGCCGATAGAAGATCTATCCGCTCCGC
TACCAGAATTGGATCCGCTCAGTGACCTTGCCAAAGCTGACCCGGAGTCA
CTGTACTGGCACCGCAAACTCGATGCTTCAACATCTTCCCTGACGAAGCT
GGGAATTGGTCGACTTGCCACCACAGTTGTCGCCAACGCGATCCAATCCC
ACGTCGATCGCCTAATCGCCAACTCCACATTTGCCACGCATCCATACGCT
CAAAAGCAGATCGTTGATGCATGCAATAGTATCTTGAACGACCGATTCTT
CAGCACCAGTGATCAAGTTGAAAATTGCATCAAGCCGTTCAAGTTCGAGA
TTGAAGTCGAGGACCCGGAATGGGCCAAGGGAAGGGAAAATGTCAGCAAA
GTCCTCAAGGAGGAACTCAGAGCGTGCGAGACGGCCTTCAAGCGCCTTGA
AGACTCCATCGGACGGCGCAAGCTGAAGGACGTCATGTCATTCATCGACA
AGGTGCGGAAGGGCGAGGTATTCCTGGAAGGCGACGGCGCTGGCGGTGCG
GGTGGATTTAGCTCCGCCTTGCTGGCCCGAGGTATGTCGTTTCTATCCTA
CTTGTCAACACGGTATCGAGTCTAACAAAAAGACAGGCCGCGAGAGCGTC
TTCCTCCGTGACCGAGCTGACCTAATTAAAATGCGGCTCCTCGCTGTTCG
CTCTAAGCAATGCTCCTCCAAAAAGAACAAATACTACTGCCCGGAGGTCT
TCCTCGACGTTGTCGCCGACAAGCTCACCTCAACGGCCGTCCTCTTCCTC
AACGTTGAGCTCCTCTCCGAATTCTACTACAACTTCCCCCGCGAGCTCGA
CATGCGTCTAGGCCGCCACCTATCCGACGCAGAAGTCGAGCGATTCGCCC
GCGAAGACCCGCGCATCCGGAACCACCTGGACGTGATCAGGAAGAAGGAA
CTTCTTGAATTAGCCCTCCAGAAGATCGAAAGTATCCGTCAACTCGACGG
ACGCGAAAGGAAAAACAGGAACTCAGATCGTCCTGTAGGTAACCGGGAAC
AGAGGAACCGTGGCTGGAATCTGTTCTGA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:1025016..1027894- >ASPNIDRAFT_52714-T1 ID=ASPNIDRAFT_52714-T1|Name=ASPNIDRAFT_52714-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8280bp|location=Sequence derived from alignment at ACJE01000021.1:1025016..1027894- (Aspergillus niger ATCC 1015)
GCCGCGAGAGCGTCTTCCTCCGTGACCGAGCTGACCTAATTAAAATGCGG
CTCCTCGCTGTTCGCTCTAAGCAATGCTCCTCCAAAAAGAACAAATACTA
CTGCCCGGAGGTCTTCCTCGACGTTGTCGCCGACAAGCTCACCTCAACGG
CCGTCCTCTTCCTCAACGTTGAGCTCCTCTCCGAATTCTACTACAACTTC
CCCCGCGAGCTCGACATGCGTCTAGGCCGCCACCTATCCGACGCAGAAGT
CGAGCGATTCGCCCGCGAAGACCCGCGCATCCGGAACCACCTGGACGTGA
TCAGGAAGAAGGAACTTCTTGAATTAGCCCTCCAGAAGATCGAAAGTATC
CGTCAACTCGACGGACGCGAAAGGAAAAACAGGAACTCAGATCGTCCTGT
AGGTAACCGGGAACAGAGGAACCGTGGCTGGAATCTGTTCTGAAGGCAGG
AAATTACGCTATCGATCTTTTTAAACGTGCGGGGGAAACGGCGGGAGATG
CAGCCTCGAGCTTGTTCACGGAAATTCAGGGCATTGCCGAACAGACACAA
CGCGGATGGCAAAGAACCACGGATGCCGTGGAACTTCCGGAATGGTTGCA
GAATTTTATAAACCCAAACGAAGAGTCGCAGTCCGACAATGGTGGCCCTG
GAGGTAAACGCCCGAAGGAGAGCCGTCTCGGTGCCGCGGCAGCTGGAGCT
ACTACTGCCGGAGCTTTCGGTTACGATGAGTCTAATGAGGAGGACACCCG
TTCAGAAAGGAAGATTGCGGAAGATGACCAGATGATGCTTCTTACACGGA
AGATGATCGAGATCAGAAACATACTGCAGACCGTCGGCCAGTCTAATACC
CTGACGCTCCCGTCAATTGTGGTTATTGGGTCTCAGTCTTCGGGCAAGAG
CTCAGTTTTGGAAGCTATTGTCGGACATGAATTCCTTCCGAAGGGCACTA
ACATGGTCACCCGGCGACCGATCGAGCTGACTCTGGTCAACACACCAAAT
GCGCAAGCTGAATATGGAGAGTTTCCGGCTCTCGGGTTAGGGAAAATCAC
CGACTTCTCTCAGATTCAGCGGACTCTGACGGATTTGAATTTGGCCGTTC
CAGAGAGGGACTGTGTTTCCGATGACCCTATCCAGCTTTCCATCTACTCT
CCTCACGTTCCTGACCTCTCTCTCATCGACCTTCCAGGCTACATCCAAGT
TGCTGGACATGACCAACCCCCAGAGTTGAAACAGAAGATCTCCGATCTCT
GCGACAAGTACATCCAAGCACCGAATGTAATCCTCGCCATTTCCGCGGCA
GACGTTGACCTGGCCAACTCCACTGCTCTCAGAGCCAGCCGCAGGGTAGA
CCCTAGAGGAGAACGGACAATCGGTGTTATAACGAAGATGGACCTTGTTG
ACCCCGAGCGTGGTTACAACGTTCTCTCCGATAAAAAGTACCCTCTCCGC
CTGGGCTACGTCGGTGTCGTTAGCCGGATTCCTCAAACAACAGCGCTTTT
CTCCAGGGGCAGCGGAAATATCACTGGAGCCATCATGAAGAACGAACACG
CCTATTTCTCTGCTCACCCGTCGGAGTTTGGATCACAATCGGACGTTTCT
GTCGGTGTTTCTACTTTGCGCACGAAGCTCATGCATGTTCTCGAGCAGAC
GATGGCATCAAGCCTAGCGGGTACTAGGGATGCAATCAGTCAAGAACTTG
AGGAGGCAACCTATGAGTTCAAGGTTCAGTACAACGATCGTCCTCTGAGT
GCAGAGTCTTATCTTGCAGAGAGCTTGGACAGCTTCAAGCACTCTTTCAA
GGCGTTTGCCGAAAGCTTCGGTCGCCCTCAGGTCCGTGAAATGCTGAAGA
ACGAGCTTGATCAGCGGGTAATGGACATCCTGGCGCAAAGATATTGGAAT
AAGCCGATAGAAGATCTATCCGCTCCGCTACCAGAATTGGATCCGCTCAG
TGACCTTGCCAAAGCTGACCCGGAGTCACTGTACTGGCACCGCAAACTCG
ATGCTTCAACATCTTCCCTGACGAAGCTGGGAATTGGTCGACTTGCCACC
ACAGTTGTCGCCAACGCGATCCAATCCCACGTCGATCGCCTAATCGCCAA
CTCCACATTTGCCACGCATCCATACGCTCAAAAGCAGATCGTTGATGCAT
GCAATAGTATCTTGAACGACCGATTCTTCAGCACCAGTGATCAAGTTGAA
AATTGCATCAAGCCGTTCAAGTTCGAGATTGAAGTCGAGGACCCGGAATG
GGCCAAGGGAAGGGAAAATGTCAGCAAAGTCCTCAAGGAGGAACTCAGAG
CGTGCGAGACGGCCTTCAAGCGCCTTGAAGACTCCATCGGACGGCGCAAG
CTGAAGGACGTCATGTCATTCATCGACAAGGTGCGGAAGGGCGAGGTATT
CCTGGAAGGCGACGGCGCTGGCGGTGCGGGTGGATTTAGCTCCGCCTTGC
TGGCCCGAGATGAGCGGGAGAATTCTCTCCCATCGTCTTGTTCCGCTGTT
GCGGACCGGTCTTCTGGCCCGCCATGTTCATAATGCTGCGGCCAGGACCG
GCGGTCTTCTTCGCTCCGATGGCAGCGCCGCACTACGTGGACGGGCCTGG
CCGGTAGGTGCAAACGCGATTCACAATAATGTGCCTGCTGTGCGGGCAAT
CTCCTTTCACCGGATACTCCCTAAACTGGCTATCAAGCTGATACGGCTGC
CGGCTATGCTTGGGGGTGCTACGGTAGCGGGGCTAGCTTATTTCCAGTAC
CAAGCCACACGCCGCGAGAGCGTCTTCCTCCGTGACCGAGCTGACCTAAT
TAAAATGCGGCTCCTCGCTGTTCGCTCTAAGCAATGCTCCTCCAAAAAGA
ACAAATACTACTGCCCGGAGGTCTTCCTCGACGTTGTCGCCGACAAGCTC
ACCTCAACGGCCGTCCTCTTCCTCAACGTTGAGCTCCTCTCCGAATTCTA
CTACAACTTCCCCCGCGAGCTCGACATGCGTCTAGGCCGCCACCTATCCG
ACGCAGAAGTCGAGCGATTCGCCCGCGAAGACCCGCGCATCCGGAACCAC
CTGGACGTGATCAGGAAGAAGGAACTTCTTGAATTAGCCCTCCAGAAGAT
CGAAAGTATCCGTCAACTCGACGGACGCGAAAGGAAAAACAGGAACTCAG
ATCGTCCTGTAGGTAACCGGGAACAGAGGAACCGTGGCTGGAATCTGTTC
TGAAGGCAGGAAATTACGCTATCGATCTTTTTAAACGTGCGGGGGAAACG
GCGGGAGATGCAGCCTCGAGCTTGTTCACGGAAATTCAGGGCATTGCCGA
ACAGACACAACGCGGATGGCAAAGAACCACGGATGCCGTGGAACTTCCGG
AATGGTTGCAGAATTTTATAAACCCAAACGAAGAGTCGCAGTCCGACAAT
GGTGGCCCTGGAGGTAAACGCCCGAAGGAGAGCCGTCTCGGTGCCGCGGC
AGCTGGAGCTACTACTGCCGGAGCTTTCGGTTACGATGAGTCTAATGAGG
AGGACACCCGTTCAGAAAGGAAGATTGCGGAAGATGACCAGATGATGCTT
CTTACACGGAAGATGATCGAGATCAGAAACATACTGCAGACCGTCGGCCA
GTCTAATACCCTGACGCTCCCGTCAATTGTGGTTATTGGGTCTCAGTCTT
CGGGCAAGAGCTCAGTTTTGGAAGCTATTGTCGGACATGAATTCCTTCCG
AAGGGCACTAACATGGTCACCCGGCGACCGATCGAGCTGACTCTGGTCAA
CACACCAAATGCGCAAGCTGAATATGGAGAGTTTCCGGCTCTCGGGTTAG
GGAAAATCACCGACTTCTCTCAGATTCAGCGGACTCTGACGGATTTGAAT
TTGGCCGTTCCAGAGAGGGACTGTGTTTCCGATGACCCTATCCAGCTTTC
CATCTACTCTCCTCACGTTCCTGACCTCTCTCTCATCGACCTTCCAGGCT
ACATCCAAGTTGCTGGACATGACCAACCCCCAGAGTTGAAACAGAAGATC
TCCGATCTCTGCGACAAGTACATCCAAGCACCGAATGTAATCCTCGCCAT
TTCCGCGGCAGACGTTGACCTGGCCAACTCCACTGCTCTCAGAGCCAGCC
GCAGGGTAGACCCTAGAGGAGAACGGACAATCGGTGTTATAACGAAGATG
GACCTTGTTGACCCCGAGCGTGGTTACAACGTTCTCTCCGATAAAAAGTA
CCCTCTCCGCCTGGGCTACGTCGGTGTCGTTAGCCGGATTCCTCAAACAA
CAGCGCTTTTCTCCAGGGGCAGCGGAAATATCACTGGAGCCATCATGAAG
AACGAACACGCCTATTTCTCTGCTCACCCGTCGGAGTTTGGATCACAATC
GGACGTTTCTGTCGGTGTTTCTACTTTGCGCACGAAGCTCATGCATGTTC
TCGAGCAGACGATGGCATCAAGCCTAGCGGGTACTAGGGATGCAATCAGT
CAAGAACTTGAGGAGGCAACCTATGAGTTCAAGGTTCAGTACAACGATCG
TCCTCTGAGTGCAGAGTCTTATCTTGCAGAGAGCTTGGACAGCTTCAAGC
ACTCTTTCAAGGCGTTTGCCGAAAGCTTCGGTCGCCCTCAGGTCCGTGAA
ATGCTGAAGAACGAGCTTGATCAGCGGGTAATGGACATCCTGGCGCAAAG
ATATTGGAATAAGCCGATAGAAGATCTATCCGCTCCGCTACCAGAATTGG
ATCCGCTCAGTGACCTTGCCAAAGCTGACCCGGAGTCACTGTACTGGCAC
CGCAAACTCGATGCTTCAACATCTTCCCTGACGAAGCTGGGAATTGGTCG
ACTTGCCACCACAGTTGTCGCCAACGCGATCCAATCCCACGTCGATCGCC
TAATCGCCAACTCCACATTTGCCACGCATCCATACGCTCAAAAGCAGATC
GTTGATGCATGCAATAGTATCTTGAACGACCGATTCTTCAGCACCAGTGA
TCAAGTTGAAAATTGCATCAAGCCGTTCAAGTTCGAGATTGAAGTCGAGG
ACCCGGAATGGGCCAAGGGAAGGGAAAATGTCAGCAAAGTCCTCAAGGAG
GAACTCAGAGCGTGCGAGACGGCCTTCAAGCGCCTTGAAGACTCCATCGG
ACGGCGCAAGCTGAAGGACGTCATGTCATTCATCGACAAGGTGCGGAAGG
GCGAGGTATTCCTGGAAGGCGACGGCGCTGGCGGTGCGGGTGGATTTAGC
TCCGCCTTGCTGGCCCGAGATGAGCGGGAGAATTCTCTCCCATCGTCTTG
TTCCGCTGTTGCGGACCGGTCTTCTGGCCCGCCATGTTCATAATGCTGCG
GCCAGGACCGGCGGTCTTCTTCGCTCCGATGGCAGCGCCGCACTACGTGG
ACGGGCCTGGCCGGTAGGTGCAAACGCGATTCACAATAATGTGCCTGCTG
TGCGGGCAATCTCCTTTCACCGGATACTCCCTAAACTGGCTATCAAGCTG
ATACGGCTGCCGGCTATGCTTGGGGGTGCTACGGTAGCGGGGCTAGCTTA
TTTCCAGTACCAAGCCACACGCCGCGAGAGCGTCTTCCTCCGTGACCGAG
CTGACCTAATTAAAATGCGGCTCCTCGCTGTTCGCTCTAAGCAATGCTCC
TCCAAAAAGAACAAATACTACTGCCCGGAGGTCTTCCTCGACGTTGTCGC
CGACAAGCTCACCTCAACGGCCGTCCTCTTCCTCAACGTTGAGCTCCTCT
CCGAATTCTACTACAACTTCCCCCGCGAGCTCGACATGCGTCTAGGCCGC
CACCTATCCGACGCAGAAGTCGAGCGATTCGCCCGCGAAGACCCGCGCAT
CCGGAACCACCTGGACGTGATCAGGAAGAAGGAACTTCTTGAATTAGCCC
TCCAGAAGATCGAAAGTATCCGTCAACTCGACGGACGCGAAAGGAAAAAC
AGGAACTCAGATCGTCCTGTAGGTAACCGGGAACAGAGGAACCGTGGCTG
GAATCTGTTCTGAAGGCAGGAAATTACGCTATCGATCTTTTTAAACGTGC
GGGGGAAACGGCGGGAGATGCAGCCTCGAGCTTGTTCACGGAAATTCAGG
GCATTGCCGAACAGACACAACGCGGATGGCAAAGAACCACGGATGCCGTG
GAACTTCCGGAATGGTTGCAGAATTTTATAAACCCAAACGAAGAGTCGCA
GTCCGACAATGGTGGCCCTGGAGGTAAACGCCCGAAGGAGAGCCGTCTCG
GTGCCGCGGCAGCTGGAGCTACTACTGCCGGAGCTTTCGGTTACGATGAG
TCTAATGAGGAGGACACCCGTTCAGAAAGGAAGATTGCGGAAGATGACCA
GATGATGCTTCTTACACGGAAGATGATCGAGATCAGAAACATACTGCAGA
CCGTCGGCCAGTCTAATACCCTGACGCTCCCGTCAATTGTGGTTATTGGG
TCTCAGTCTTCGGGCAAGAGCTCAGTTTTGGAAGCTATTGTCGGACATGA
ATTCCTTCCGAAGGGCACTAACATGGTCACCCGGCGACCGATCGAGCTGA
CTCTGGTCAACACACCAAATGCGCAAGCTGAATATGGAGAGTTTCCGGCT
CTCGGGTTAGGGAAAATCACCGACTTCTCTCAGATTCAGCGGACTCTGAC
GGATTTGAATTTGGCCGTTCCAGAGAGGGACTGTGTTTCCGATGACCCTA
TCCAGCTTTCCATCTACTCTCCTCACGTTCCTGACCTCTCTCTCATCGAC
CTTCCAGGCTACATCCAAGTTGCTGGACATGACCAACCCCCAGAGTTGAA
ACAGAAGATCTCCGATCTCTGCGACAAGTACATCCAAGCACCGAATGTAA
TCCTCGCCATTTCCGCGGCAGACGTTGACCTGGCCAACTCCACTGCTCTC
AGAGCCAGCCGCAGGGTAGACCCTAGAGGAGAACGGACAATCGGTGTTAT
AACGAAGATGGACCTTGTTGACCCCGAGCGTGGTTACAACGTTCTCTCCG
ATAAAAAGTACCCTCTCCGCCTGGGCTACGTCGGTGTCGTTAGCCGGATT
CCTCAAACAACAGCGCTTTTCTCCAGGGGCAGCGGAAATATCACTGGAGC
CATCATGAAGAACGAACACGCCTATTTCTCTGCTCACCCGTCGGAGTTTG
GATCACAATCGGACGTTTCTGTCGGTGTTTCTACTTTGCGCACGAAGCTC
ATGCATGTTCTCGAGCAGACGATGGCATCAAGCCTAGCGGGTACTAGGGA
TGCAATCAGTCAAGAACTTGAGGAGGCAACCTATGAGTTCAAGGTTCAGT
ACAACGATCGTCCTCTGAGTGCAGAGTCTTATCTTGCAGAGAGCTTGGAC
AGCTTCAAGCACTCTTTCAAGGCGTTTGCCGAAAGCTTCGGTCGCCCTCA
GGTCCGTGAAATGCTGAAGAACGAGCTTGATCAGCGGGTAATGGACATCC
TGGCGCAAAGATATTGGAATAAGCCGATAGAAGATCTATCCGCTCCGCTA
CCAGAATTGGATCCGCTCAGTGACCTTGCCAAAGCTGACCCGGAGTCACT
GTACTGGCACCGCAAACTCGATGCTTCAACATCTTCCCTGACGAAGCTGG
GAATTGGTCGACTTGCCACCACAGTTGTCGCCAACGCGATCCAATCCCAC
GTCGATCGCCTAATCGCCAACTCCACATTTGCCACGCATCCATACGCTCA
AAAGCAGATCGTTGATGCATGCAATAGTATCTTGAACGACCGATTCTTCA
GCACCAGTGATCAAGTTGAAAATTGCATCAAGCCGTTCAAGTTCGAGATT
GAAGTCGAGGACCCGGAATGGGCCAAGGGAAGGGAAAATGTCAGCAAAGT
CCTCAAGGAGGAACTCAGAGCGTGCGAGACGGCCTTCAAGCGCCTTGAAG
ACTCCATCGGACGGCGCAAGCTGAAGGACGTCATGTCATTCATCGACAAG
GTGCGGAAGGGCGAGGTATTCCTGGAAGGCGACGGCGCTGGCGGTGCGGG
TGGATTTAGCTCCGCCTTGCTGGCCCGAGATGAGCGGGAGAATTCTCTCC
CATCGTCTTGTTCCGCTGTTGCGGACCGGTCTTCTGGCCCGCCATGTTCA
TAATGCTGCGGCCAGGACCGGCGGTCTTCTTCGCTCCGATGGCAGCGCCG
CACTACGTGGACGGGCCTGGCCGGTAGGTGCAAACGCGATTCACAATAAT
GTGCCTGCTGTGCGGGCAATCTCCTTTCACCGGATACTCCCTAAACTGGC
TATCAAGCTGATACGGCTGCCGGCTATGCTTGGGGGTGCTACGGTAGCGG
GGCTAGCTTATTTCCAGTACCAAGCCACAC 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 polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260KUC |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR030381 |
| DBxref | InterPro:IPR020850 |
| DBxref | InterPro:IPR019762 |
| DBxref | InterPro:IPR000375 |
| DBxref | InterPro:IPR001401 |
| DBxref | InterPro:IPR022812 |
| DBxref | PFAM:PF01926 |
| 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 |
|---|
| ACJE01000021.1 | supercontig | ACJE01000021.1:1025016..1027894 - |
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