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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000012.1:39871..41762- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_193092-T1 ID=ASPNIDRAFT_193092-T1|Name=ASPNIDRAFT_193092-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1892bp|location=Sequence derived from alignment at ACJE01000012.1:39871..41762- (Aspergillus niger ATCC 1015)
ATGGCATTATTCTCTGTGTTGTCCAACGCATTGTCGGAACTGCCTGTCAG
CATCTGGCTCGCTGCGGCAGCGACCTTTGCTGTCTACCACGCGATCCGTG
CGGTGTATCTGATCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCA
TGGGCTGCTTTGGGTGAATAGTGAGTGTCACATCATTCCAAGGCTCGAAT
ATACTTGCTGACAATACCGTAACGCAGCTGGGAGGCATACTGGAACATCG
GCGTACGGCCGGGCCACAAGGGCCAGACTCTATTCAAGCTCGAACAGATG
CACAAGCGTCTGGGGCCTGCCTTACGCATGGGACCGAATGAAGTGCACAT
CTATGATCCAGCCTTCTATCATGAGTTGTACCGGCCAGGGAGCCGGTATT
ACAAAGACCCGTCTATGCACAAGGTGCTAGGGGCGCCAACAAGCACCCTG
GCGGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGCCATTGGAGCC
CTTGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAACATGCTGATGGAGC
ATGTTGACCACTGCTGTCAACGGTTTGATGAGCTTTACAGCCAGGGGAAG
CCTGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCGATGGGTTTGTACAC
CTTGCCTAGCTTTCCGACCGCATGTTTCTGGTTCAAGGTCACTAACAGTG
TCAACCAGATATGGTTTCCCAATTTGCCTTTGGACAGTCTCTAAATGCTA
TTGCGGATCCAGAGTTCAAGTCCCTCCCCGTGCGCGTGTTCCAGCAATAT
CTACCGAGCCTGCACGTTATTAAGGCCTTTCCGTTTGTGCGGCTTCTCAG
CTCACTGCCACTATGGATCGCGAGGCGAATTTCGCATTCTGTTGAAATGG
GGCACGAGTTGGAACAGGTATGCTCTGCGCATGGAAGCACGTCCTTTCAA
CGACCATGATGCTTGTTCAGCTGCTCTGACTGATAGTACTTACTAATTAT
ATGTAGTTTGCGGCCCGCCGGATAGACGAATATATCGAAGCCGCAGCACA
AGGGAAAACTCCTAATTTCCCCACTGTCATGGAGCGGCTGCTTATTCCCA
TCCCCGAAAAGGGTTACGAAGTGCCCGACAAACAAGGGTTGCGCGATGAG
ATCCTGACGCTCATATCTGCTGGAGATGACACCACCGGCATTGCCAATAC
TGTCACCCTGTTCAACATCATCCACAACCGGACGATCCACGACCGTCTCC
TGGCGGAGTTGAAGACTGTCATGCCAACGCCGACCTCTCATGCCCAATAC
ATCCAGCTCGAGCAGCTGCCGTATCTGGTCTGTTCTGCTATCATAATCAA
TTGTCGCCGTCTACAACAGAGTCAGGCTAACCGAGATGTCATACACAACA
GACAGCAGTCATCAAGGAAGGATTGCGATACTCATCCCCCGCCGCCTCCC
GTACTCCGCGCCTTGTGCCCCCCGGTGGCGTTCGTCTCCCTGATGGTCGA
TTTATCCCTGCTGGCACACGAGTGGGCATGGCCATCTACCACATCCACTA
TAATGAGGGCCTCTTTGAGAACCCGCATGAGTTTGATCCAGAGCGATGGT
TGCAGGGACCGGAGATCACGGCAAAGAGAGCCAAGTTTCTGGTACCCTTC
TCGCGGGGCAGTCGTTCATGTTTAGGAATCAAGTATGTATAATCCTTGCC
CCTACTGATAGTGACTGACATTTTTGGTATAGTCTGGCGTACATGGAAAT
GTATATGGCAATTGCGTACATTGTGCGACGATTTGACTTGGAGTTGGTGG
GCACGACACCGGAGGACATGAAGTGGGATGACATGGTCGTGCCACAGTTC
CATGGAGAGTTCCGGGCACTCACGAAAAGACGCGTGGACTAA back to topCoding sequence (CDS) from alignment at ACJE01000012.1:39871..41762- >ASPNIDRAFT_193092-T1 ID=ASPNIDRAFT_193092-T1|Name=ASPNIDRAFT_193092-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9324bp|location=Sequence derived from alignment at ACJE01000012.1:39871..41762- (Aspergillus niger ATCC 1015)
TCTGGCGTACATGGAAATGTATATGGCAATTGCGTACATTGTGCGACGAT
TTGACTTGGAGTTGGTGGGCACGACACCGGAGGACATGAAGTGGGATGAC
ATGGTCGTGCCACAGTTCCATGGAGAGTTCCGGGCACTCACGAAAAGACG
CGTGGACTAAACAGCAGTCATCAAGGAAGGATTGCGATACTCATCCCCCG
CCGCCTCCCGTACTCCGCGCCTTGTGCCCCCCGGTGGCGTTCGTCTCCCT
GATGGTCGATTTATCCCTGCTGGCACACGAGTGGGCATGGCCATCTACCA
CATCCACTATAATGAGGGCCTCTTTGAGAACCCGCATGAGTTTGATCCAG
AGCGATGGTTGCAGGGACCGGAGATCACGGCAAAGAGAGCCAAGTTTCTG
GTACCCTTCTCGCGGGGCAGTCGTTCATGTTTAGGAATCAATTTGCGGCC
CGCCGGATAGACGAATATATCGAAGCCGCAGCACAAGGGAAAACTCCTAA
TTTCCCCACTGTCATGGAGCGGCTGCTTATTCCCATCCCCGAAAAGGGTT
ACGAAGTGCCCGACAAACAAGGGTTGCGCGATGAGATCCTGACGCTCATA
TCTGCTGGAGATGACACCACCGGCATTGCCAATACTGTCACCCTGTTCAA
CATCATCCACAACCGGACGATCCACGACCGTCTCCTGGCGGAGTTGAAGA
CTGTCATGCCAACGCCGACCTCTCATGCCCAATACATCCAGCTCGAGCAG
CTGCCGTATCTGATATGGTTTCCCAATTTGCCTTTGGACAGTCTCTAAAT
GCTATTGCGGATCCAGAGTTCAAGTCCCTCCCCGTGCGCGTGTTCCAGCA
ATATCTACCGAGCCTGCACGTTATTAAGGCCTTTCCGTTTGTGCGGCTTC
TCAGCTCACTGCCACTATGGATCGCGAGGCGAATTTCGCATTCTGTTGAA
ATGGGGCACGAGTTGGAACAGCTGGGAGGCATACTGGAACATCGGCGTAC
GGCCGGGCCACAAGGGCCAGACTCTATTCAAGCTCGAACAGATGCACAAG
CGTCTGGGGCCTGCCTTACGCATGGGACCGAATGAAGTGCACATCTATGA
TCCAGCCTTCTATCATGAGTTGTACCGGCCAGGGAGCCGGTATTACAAAG
ACCCGTCTATGCACAAGGTGCTAGGGGCGCCAACAAGCACCCTGGCGGAG
AGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGCCATTGGAGCCCTTGTT
CTCGAAGAAGAACATTCTCAGCTTGGAAAACATGCTGATGGAGCATGTTG
ACCACTGCTGTCAACGGTTTGATGAGCTTTACAGCCAGGGGAAGCCTGTC
TCCATGGAGTGGGCCCTGAAATCTCTTGCGATGGATGGCATTATTCTCTG
TGTTGTCCAACGCATTGTCGGAACTGCCTGTCAGCATCTGGCTCGCTGCG
GCAGCGACCTTTGCTGTCTACCACGCGATCCGTGCGGTGTATCTGATCTT
CTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCATGGGCTGCTTTGGGTG
AATATCTGGCGTACATGGAAATGTATATGGCAATTGCGTACATTGTGCGA
CGATTTGACTTGGAGTTGGTGGGCACGACACCGGAGGACATGAAGTGGGA
TGACATGGTCGTGCCACAGTTCCATGGAGAGTTCCGGGCACTCACGAAAA
GACGCGTGGACTAAACAGCAGTCATCAAGGAAGGATTGCGATACTCATCC
CCCGCCGCCTCCCGTACTCCGCGCCTTGTGCCCCCCGGTGGCGTTCGTCT
CCCTGATGGTCGATTTATCCCTGCTGGCACACGAGTGGGCATGGCCATCT
ACCACATCCACTATAATGAGGGCCTCTTTGAGAACCCGCATGAGTTTGAT
CCAGAGCGATGGTTGCAGGGACCGGAGATCACGGCAAAGAGAGCCAAGTT
TCTGGTACCCTTCTCGCGGGGCAGTCGTTCATGTTTAGGAATCAATTTGC
GGCCCGCCGGATAGACGAATATATCGAAGCCGCAGCACAAGGGAAAACTC
CTAATTTCCCCACTGTCATGGAGCGGCTGCTTATTCCCATCCCCGAAAAG
GGTTACGAAGTGCCCGACAAACAAGGGTTGCGCGATGAGATCCTGACGCT
CATATCTGCTGGAGATGACACCACCGGCATTGCCAATACTGTCACCCTGT
TCAACATCATCCACAACCGGACGATCCACGACCGTCTCCTGGCGGAGTTG
AAGACTGTCATGCCAACGCCGACCTCTCATGCCCAATACATCCAGCTCGA
GCAGCTGCCGTATCTGATATGGTTTCCCAATTTGCCTTTGGACAGTCTCT
AAATGCTATTGCGGATCCAGAGTTCAAGTCCCTCCCCGTGCGCGTGTTCC
AGCAATATCTACCGAGCCTGCACGTTATTAAGGCCTTTCCGTTTGTGCGG
CTTCTCAGCTCACTGCCACTATGGATCGCGAGGCGAATTTCGCATTCTGT
TGAAATGGGGCACGAGTTGGAACAGCTGGGAGGCATACTGGAACATCGGC
GTACGGCCGGGCCACAAGGGCCAGACTCTATTCAAGCTCGAACAGATGCA
CAAGCGTCTGGGGCCTGCCTTACGCATGGGACCGAATGAAGTGCACATCT
ATGATCCAGCCTTCTATCATGAGTTGTACCGGCCAGGGAGCCGGTATTAC
AAAGACCCGTCTATGCACAAGGTGCTAGGGGCGCCAACAAGCACCCTGGC
GGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGCCATTGGAGCCCT
TGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAACATGCTGATGGAGCAT
GTTGACCACTGCTGTCAACGGTTTGATGAGCTTTACAGCCAGGGGAAGCC
TGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCGATGGATGGCATTATTC
TCTGTGTTGTCCAACGCATTGTCGGAACTGCCTGTCAGCATCTGGCTCGC
TGCGGCAGCGACCTTTGCTGTCTACCACGCGATCCGTGCGGTGTATCTGA
TCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCATGGGCTGCTTTG
GGTGAATATCTGGCGTACATGGAAATGTATATGGCAATTGCGTACATTGT
GCGACGATTTGACTTGGAGTTGGTGGGCACGACACCGGAGGACATGAAGT
GGGATGACATGGTCGTGCCACAGTTCCATGGAGAGTTCCGGGCACTCACG
AAAAGACGCGTGGACTAAACAGCAGTCATCAAGGAAGGATTGCGATACTC
ATCCCCCGCCGCCTCCCGTACTCCGCGCCTTGTGCCCCCCGGTGGCGTTC
GTCTCCCTGATGGTCGATTTATCCCTGCTGGCACACGAGTGGGCATGGCC
ATCTACCACATCCACTATAATGAGGGCCTCTTTGAGAACCCGCATGAGTT
TGATCCAGAGCGATGGTTGCAGGGACCGGAGATCACGGCAAAGAGAGCCA
AGTTTCTGGTACCCTTCTCGCGGGGCAGTCGTTCATGTTTAGGAATCAAT
TTGCGGCCCGCCGGATAGACGAATATATCGAAGCCGCAGCACAAGGGAAA
ACTCCTAATTTCCCCACTGTCATGGAGCGGCTGCTTATTCCCATCCCCGA
AAAGGGTTACGAAGTGCCCGACAAACAAGGGTTGCGCGATGAGATCCTGA
CGCTCATATCTGCTGGAGATGACACCACCGGCATTGCCAATACTGTCACC
CTGTTCAACATCATCCACAACCGGACGATCCACGACCGTCTCCTGGCGGA
GTTGAAGACTGTCATGCCAACGCCGACCTCTCATGCCCAATACATCCAGC
TCGAGCAGCTGCCGTATCTGATATGGTTTCCCAATTTGCCTTTGGACAGT
CTCTAAATGCTATTGCGGATCCAGAGTTCAAGTCCCTCCCCGTGCGCGTG
TTCCAGCAATATCTACCGAGCCTGCACGTTATTAAGGCCTTTCCGTTTGT
GCGGCTTCTCAGCTCACTGCCACTATGGATCGCGAGGCGAATTTCGCATT
CTGTTGAAATGGGGCACGAGTTGGAACAGCTGGGAGGCATACTGGAACAT
CGGCGTACGGCCGGGCCACAAGGGCCAGACTCTATTCAAGCTCGAACAGA
TGCACAAGCGTCTGGGGCCTGCCTTACGCATGGGACCGAATGAAGTGCAC
ATCTATGATCCAGCCTTCTATCATGAGTTGTACCGGCCAGGGAGCCGGTA
TTACAAAGACCCGTCTATGCACAAGGTGCTAGGGGCGCCAACAAGCACCC
TGGCGGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGCCATTGGAG
CCCTTGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAACATGCTGATGGA
GCATGTTGACCACTGCTGTCAACGGTTTGATGAGCTTTACAGCCAGGGGA
AGCCTGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCGATGGATGGCATT
ATTCTCTGTGTTGTCCAACGCATTGTCGGAACTGCCTGTCAGCATCTGGC
TCGCTGCGGCAGCGACCTTTGCTGTCTACCACGCGATCCGTGCGGTGTAT
CTGATCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCATGGGCTGC
TTTGGGTGAATATCTGGCGTACATGGAAATGTATATGGCAATTGCGTACA
TTGTGCGACGATTTGACTTGGAGTTGGTGGGCACGACACCGGAGGACATG
AAGTGGGATGACATGGTCGTGCCACAGTTCCATGGAGAGTTCCGGGCACT
CACGAAAAGACGCGTGGACTAAACAGCAGTCATCAAGGAAGGATTGCGAT
ACTCATCCCCCGCCGCCTCCCGTACTCCGCGCCTTGTGCCCCCCGGTGGC
GTTCGTCTCCCTGATGGTCGATTTATCCCTGCTGGCACACGAGTGGGCAT
GGCCATCTACCACATCCACTATAATGAGGGCCTCTTTGAGAACCCGCATG
AGTTTGATCCAGAGCGATGGTTGCAGGGACCGGAGATCACGGCAAAGAGA
GCCAAGTTTCTGGTACCCTTCTCGCGGGGCAGTCGTTCATGTTTAGGAAT
CAATTTGCGGCCCGCCGGATAGACGAATATATCGAAGCCGCAGCACAAGG
GAAAACTCCTAATTTCCCCACTGTCATGGAGCGGCTGCTTATTCCCATCC
CCGAAAAGGGTTACGAAGTGCCCGACAAACAAGGGTTGCGCGATGAGATC
CTGACGCTCATATCTGCTGGAGATGACACCACCGGCATTGCCAATACTGT
CACCCTGTTCAACATCATCCACAACCGGACGATCCACGACCGTCTCCTGG
CGGAGTTGAAGACTGTCATGCCAACGCCGACCTCTCATGCCCAATACATC
CAGCTCGAGCAGCTGCCGTATCTGATATGGTTTCCCAATTTGCCTTTGGA
CAGTCTCTAAATGCTATTGCGGATCCAGAGTTCAAGTCCCTCCCCGTGCG
CGTGTTCCAGCAATATCTACCGAGCCTGCACGTTATTAAGGCCTTTCCGT
TTGTGCGGCTTCTCAGCTCACTGCCACTATGGATCGCGAGGCGAATTTCG
CATTCTGTTGAAATGGGGCACGAGTTGGAACAGCTGGGAGGCATACTGGA
ACATCGGCGTACGGCCGGGCCACAAGGGCCAGACTCTATTCAAGCTCGAA
CAGATGCACAAGCGTCTGGGGCCTGCCTTACGCATGGGACCGAATGAAGT
GCACATCTATGATCCAGCCTTCTATCATGAGTTGTACCGGCCAGGGAGCC
GGTATTACAAAGACCCGTCTATGCACAAGGTGCTAGGGGCGCCAACAAGC
ACCCTGGCGGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGCCATT
GGAGCCCTTGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAACATGCTGA
TGGAGCATGTTGACCACTGCTGTCAACGGTTTGATGAGCTTTACAGCCAG
GGGAAGCCTGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCGATGGATGG
CATTATTCTCTGTGTTGTCCAACGCATTGTCGGAACTGCCTGTCAGCATC
TGGCTCGCTGCGGCAGCGACCTTTGCTGTCTACCACGCGATCCGTGCGGT
GTATCTGATCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCATGGG
CTGCTTTGGGTGAATATCTGGCGTACATGGAAATGTATATGGCAATTGCG
TACATTGTGCGACGATTTGACTTGGAGTTGGTGGGCACGACACCGGAGGA
CATGAAGTGGGATGACATGGTCGTGCCACAGTTCCATGGAGAGTTCCGGG
CACTCACGAAAAGACGCGTGGACTAAACAGCAGTCATCAAGGAAGGATTG
CGATACTCATCCCCCGCCGCCTCCCGTACTCCGCGCCTTGTGCCCCCCGG
TGGCGTTCGTCTCCCTGATGGTCGATTTATCCCTGCTGGCACACGAGTGG
GCATGGCCATCTACCACATCCACTATAATGAGGGCCTCTTTGAGAACCCG
CATGAGTTTGATCCAGAGCGATGGTTGCAGGGACCGGAGATCACGGCAAA
GAGAGCCAAGTTTCTGGTACCCTTCTCGCGGGGCAGTCGTTCATGTTTAG
GAATCAATTTGCGGCCCGCCGGATAGACGAATATATCGAAGCCGCAGCAC
AAGGGAAAACTCCTAATTTCCCCACTGTCATGGAGCGGCTGCTTATTCCC
ATCCCCGAAAAGGGTTACGAAGTGCCCGACAAACAAGGGTTGCGCGATGA
GATCCTGACGCTCATATCTGCTGGAGATGACACCACCGGCATTGCCAATA
CTGTCACCCTGTTCAACATCATCCACAACCGGACGATCCACGACCGTCTC
CTGGCGGAGTTGAAGACTGTCATGCCAACGCCGACCTCTCATGCCCAATA
CATCCAGCTCGAGCAGCTGCCGTATCTGATATGGTTTCCCAATTTGCCTT
TGGACAGTCTCTAAATGCTATTGCGGATCCAGAGTTCAAGTCCCTCCCCG
TGCGCGTGTTCCAGCAATATCTACCGAGCCTGCACGTTATTAAGGCCTTT
CCGTTTGTGCGGCTTCTCAGCTCACTGCCACTATGGATCGCGAGGCGAAT
TTCGCATTCTGTTGAAATGGGGCACGAGTTGGAACAGCTGGGAGGCATAC
TGGAACATCGGCGTACGGCCGGGCCACAAGGGCCAGACTCTATTCAAGCT
CGAACAGATGCACAAGCGTCTGGGGCCTGCCTTACGCATGGGACCGAATG
AAGTGCACATCTATGATCCAGCCTTCTATCATGAGTTGTACCGGCCAGGG
AGCCGGTATTACAAAGACCCGTCTATGCACAAGGTGCTAGGGGCGCCAAC
AAGCACCCTGGCGGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAAGCGC
CATTGGAGCCCTTGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAACATG
CTGATGGAGCATGTTGACCACTGCTGTCAACGGTTTGATGAGCTTTACAG
CCAGGGGAAGCCTGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCGATGG
ATGGCATTATTCTCTGTGTTGTCCAACGCATTGTCGGAACTGCCTGTCAG
CATCTGGCTCGCTGCGGCAGCGACCTTTGCTGTCTACCACGCGATCCGTG
CGGTGTATCTGATCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTCACCA
TGGGCTGCTTTGGGTGAATATCTGGCGTACATGGAAATGTATATGGCAAT
TGCGTACATTGTGCGACGATTTGACTTGGAGTTGGTGGGCACGACACCGG
AGGACATGAAGTGGGATGACATGGTCGTGCCACAGTTCCATGGAGAGTTC
CGGGCACTCACGAAAAGACGCGTGGACTAAACAGCAGTCATCAAGGAAGG
ATTGCGATACTCATCCCCCGCCGCCTCCCGTACTCCGCGCCTTGTGCCCC
CCGGTGGCGTTCGTCTCCCTGATGGTCGATTTATCCCTGCTGGCACACGA
GTGGGCATGGCCATCTACCACATCCACTATAATGAGGGCCTCTTTGAGAA
CCCGCATGAGTTTGATCCAGAGCGATGGTTGCAGGGACCGGAGATCACGG
CAAAGAGAGCCAAGTTTCTGGTACCCTTCTCGCGGGGCAGTCGTTCATGT
TTAGGAATCAATTTGCGGCCCGCCGGATAGACGAATATATCGAAGCCGCA
GCACAAGGGAAAACTCCTAATTTCCCCACTGTCATGGAGCGGCTGCTTAT
TCCCATCCCCGAAAAGGGTTACGAAGTGCCCGACAAACAAGGGTTGCGCG
ATGAGATCCTGACGCTCATATCTGCTGGAGATGACACCACCGGCATTGCC
AATACTGTCACCCTGTTCAACATCATCCACAACCGGACGATCCACGACCG
TCTCCTGGCGGAGTTGAAGACTGTCATGCCAACGCCGACCTCTCATGCCC
AATACATCCAGCTCGAGCAGCTGCCGTATCTGATATGGTTTCCCAATTTG
CCTTTGGACAGTCTCTAAATGCTATTGCGGATCCAGAGTTCAAGTCCCTC
CCCGTGCGCGTGTTCCAGCAATATCTACCGAGCCTGCACGTTATTAAGGC
CTTTCCGTTTGTGCGGCTTCTCAGCTCACTGCCACTATGGATCGCGAGGC
GAATTTCGCATTCTGTTGAAATGGGGCACGAGTTGGAACAGCTGGGAGGC
ATACTGGAACATCGGCGTACGGCCGGGCCACAAGGGCCAGACTCTATTCA
AGCTCGAACAGATGCACAAGCGTCTGGGGCCTGCCTTACGCATGGGACCG
AATGAAGTGCACATCTATGATCCAGCCTTCTATCATGAGTTGTACCGGCC
AGGGAGCCGGTATTACAAAGACCCGTCTATGCACAAGGTGCTAGGGGCGC
CAACAAGCACCCTGGCGGAGAGTGACCCCGTCCGTCACAAGCAGCGCAAA
GCGCCATTGGAGCCCTTGTTCTCGAAGAAGAACATTCTCAGCTTGGAAAA
CATGCTGATGGAGCATGTTGACCACTGCTGTCAACGGTTTGATGAGCTTT
ACAGCCAGGGGAAGCCTGTCTCCATGGAGTGGGCCCTGAAATCTCTTGCG
ATGGATGGCATTATTCTCTGTGTTGTCCAACGCATTGTCGGAACTGCCTG
TCAGCATCTGGCTCGCTGCGGCAGCGACCTTTGCTGTCTACCACGCGATC
CGTGCGGTGTATCTGATCTTCTTCAGTCCGCTGGCTATCTTCCCGGGGTC
ACCATGGGCTGCTTTGGGTGAATA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055114 | oxidation-reduction process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005506 | iron ion binding |
| GO:0020037 | heme binding |
| GO:0016705 | oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen |
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 | antiSMASH:Cluster_10000121.1 |
| Note | EggNog:ENOG41 |
| Note | SMCOG1034:cytochrome P450 |
| DBxref | InterPro:IPR017972 |
| DBxref | InterPro:IPR036396 |
| DBxref | InterPro:IPR001128 |
| DBxref | InterPro:IPR002401 |
| DBxref | PFAM:PF00067 |
| 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 |
|---|
| ACJE01000012.1 | supercontig | ACJE01000012.1:39871..41762 - |
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