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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:1707489..1709481+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_24465-T1 ID=CAN33_24465-T1|Name=CAN33_24465-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1993bp|location=Sequence derived from alignment at NKJJ01000002.1:1707489..1709481+ (Aspergillus niger FDAARGOS_311)
ATGACGGTCCTCTCTCTCCTTACCTTACTTTTCGTTGTCGCGCTCTCTTC
GTTCACATCGGCGACTTCGGACTACCACGAGAGCCTCTACCTCCAGCCAC
TCCCGCAGTCATCCCTGTTAGCATCCTTCAACTTTCGAGGCAATGAGTCC
CAAGAGTCCTTCGATGAACGGCATTTCCGCTATTTTCCGAGAGCCTTAGG
CCAGATTTTACAGCACGCCAATACGAAGGAGCTCCATCTGCGGTTCACTA
CTGGACGATGGGATGCTGAGAGCTGGGGTCCTCGTCCTTGGAATGGGACC
AAAGAGGGCGGTACTGGTGTTGAGCTATGGGCCTGGATCGATGCACCTGA
TGACGAAGCGTACGTGTGAACGGAAAGGAAGACGCGAGTTTGTATGTGCA
ACGATACTGATGGGCATTAGGGCCTTCGCGAAATGGATTACCCTGACTCA
GTCTCTGTCGGGATTGTTTTGCGCCTCGCTGAACTTCATCGACTCAACCC
GAACTACTCGCCCAGTCACGTCGTTTGAACTCATGGGCGACCATCCGGCT
TCAAGTAATCTGCATCTGCTGCACGGGACACTTCCCGGCGAGGTGGTCTG
CACTGAAAATCTGACACCATTCCTGAAGCTCCTACCATGCAAGGGCAAGG
CAGGCGTTTCTAGCCTTCTAGACGGGCATAAACTGTTTGACGCGTCTTGG
CAGAGCATGTCTGTGGACGTCAGTCCTGTCTGTCCTCACCCTGGAGAGTG
CTCCGTGCATGTCGATCAGTCTGTGGACATTGTTCTGGATATCGACCGGT
CAAAACGACCACGCGGTTAGTTGAATGGTGCCTGACGCCTTGATTAATAT
GCTAATGGCTACTCAGGCAATCCCATTCCGCGACCTGTACCTTCTGATCA
GCTTGCATGTGACACATCCAAGCCTTACCATTCCGATGATACCTGCTATC
CTTTGGAAAGCACATCGGAAAAGGGCTGGAGCTTGACGGAAATCTTCGGG
CGCACCCTCAGTGGCGCTTGTCCCCTCACCGATAATACTTCTCAAGAGCC
GGTCTGCCTACGGGTGCCGCATGAGCGCGAGGTGCTTGTCACTCCAGGTG
CAGTGGAGACCAAGAAGACGGATGGCTTCACCCGCTGTTTCACCCTGGAG
CCTTCTACTCCGTTCGACCTCACCATCCCTGAACAGGAAGTTACCACCCA
TGTGCCACTTGATGAACCTGTCCTAAGCGCAGAGAGAACGATTGTTGGTC
ACGGCCAAGAGCGCGGTGGCATGCGGATCATCTTCGACAACCCAAGTAAC
ACCAACTCTGTTGACTTCATCTACTTCGAAACTCTACCATGGTTTCTACG
ACCTTATGTCCACACACTGCAAGCTTCAATCACAGGCCGCGATGGACTTC
GCCAGCAAGTACCCGCCTCACACTTCATCCGGGAATCATTCTACCGACCA
GCAATCGACCGCGAACGAGGAACACAGCTAGAGCTGGCATTGACGATACC
GCCCGCATCGACGGTGACTCTCACATACGACTTTGAGAAAGCGATTCTGC
GATACACTGAGTATCCTCCAGACGCAAACCGCGGCTTCAACGTCGCTCCC
GCCGTGATCAAGCTCGACGCAGCAAACGGCCAAAACCACCCGATCTATAT
CCGCACCACCAGCCTTCTTCTACCGCTTCCCACCCCCGATTTCAGCATGC
CTTACAACGTGATCATCCTGACCAGCACCGTAGTAGCGCTCGCCTTTGGC
AGTATCTTCAACCTCCTCGTCCGTCGATTTGTCACGGCCGAAGAAGCGTC
CGCGCTGACGGCGCAAACCCTCAAGGGACGCCTGGGGGGCAAGTTAGTTG
CCCTACGGGACCGAATCAAGGGCAAGACAGCCAAGACAGAATAGACAAGA
CAAAGCAGCATCTTAAATGTGACATACATCCATGCTATACCAATACAGTC
AACTACCCCGCATCATGTATCCCATCAAACATATTTTATATAG back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:1707489..1709481+ >CAN33_24465-T1 ID=CAN33_24465-T1|Name=CAN33_24465-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7260bp|location=Sequence derived from alignment at NKJJ01000002.1:1707489..1709481+ (Aspergillus niger FDAARGOS_311)
ATGACGGTCCTCTCTCTCCTTACCTTACTTTTCGTTGTCGCGCTCTCTTC
GTTCACATCGGCGACTTCGGACTACCACGAGAGCCTCTACCTCCAGCCAC
TCCCGCAGTCATCCCTGTTAGCATCCTTCAACTTTCGAGGCAATGAGTCC
CAAGAGTCCTTCGATGAACGGCATTTCCGCTATTTTCCGAGAGCCTTAGG
CCAGATTTTACAGCACGCCAATACGAAGGAGCTCCATCTGCGGTTCACTA
CTGGACGATGGGATGCTGAGAGCTGGGGTCCTCGTCCTTGGAATGGGACC
AAAGAGGGCGGTACTGGTGTTGAGCTATGGGCCTGGATCGATGCACCTGA
TGACGAAGCGGCCTTCGCGAAATGGATTACCCTGACTCAGTCTCTGTCGG
GATTGTTTTGCGCCTCGCTGAACTTCATCGACTCAACCCGAACTACTCGC
CCAGTCACGTCGTTTGAACTCATGGGCGACCATCCGGCTTCAAGTAATCT
GCATCTGCTGCACGGGACACTTCCCGGCGAGGTGGTCTGCACTGAAAATC
TGACACCATTCCTGAAGCTCCTACCATGCAAGGGCAAGGCAGGCGTTTCT
AGCCTTCTAGACGGGCATAAACTGTTTGACGCGTCTTGGCAGAGCATGTC
TGTGGACGTCAGTCCTGTCTGTCCTCACCCTGGAGAGTGCTCCGTGCATG
TCGATCAGTCTGTGGACATTGTTCTGGATATCGACCGGTCAAAACGACCA
CGCGGCAATCCCATTCCGCGACCTGTACCTTCTGATCAGCTTGCATGTGA
CACATCCAAGCCTTACCATTCCGATGATACCTGCTATCCTTTGGAAAGCA
CATCGGAAAAGGGCTGGAGCTTGACGGAAATCTTCGGGCGCACCCTCAGT
GGCGCTTGTCCCCTCACCGATAATACTTCTCAAGAGCCGGTCTGCCTACG
GGTGCCGCATGAGCGCGAGGTGCTTGTCACTCCAGGTGCAGTGGAGACCA
AGAAGACGGATGGCTTCACCCGCTGTTTCACCCTGGAGCCTTCTACTCCG
TTCGACCTCACCATCCCTGAACAGGAAGTTACCACCCATGTGCCACTTGA
TGAACCTGTCCTAAGCGCAGAGAGAACGATTGTTGGTCACGGCCAAGAGC
GCGGTGGCATGCGGATCATCTTCGACAACCCAAGTAACACCAACTCTGTT
GACTTCATCTACTTCGAAACTCTACCATGGTTTCTACGACCTTATGTCCA
CACACTGCAAGCTTCAATCACAGGCCGCGATGGACTTCGCCAGCAAGTAC
CCGCCTCACACTTCATCCGGGAATCATTCTACCGACCAGCAATCGACCGC
GAACGAGGAACACAGCTAGAGCTGGCATTGACGATACCGCCCGCATCGAC
GGTGACTCTCACATACGACTTTGAGAAAGCGATTCTGCGATACACTGAGT
ATCCTCCAGACGCAAACCGCGGCTTCAACGTCGCTCCCGCCGTGATCAAG
CTCGACGCAGCAAACGGCCAAAACCACCCGATCTATATCCGCACCACCAG
CCTTCTTCTACCGCTTCCCACCCCCGATTTCAGCATGCCTTACAACGTGA
TCATCCTGACCAGCACCGTAGTAGCGCTCGCCTTTGGCAGTATCTTCAAC
CTCCTCGTCCGTCGATTTGTCACGGCCGAAGAAGCGTCCGCGCTGACGGC
GCAAACCCTCAAGGGACGCCTGGGGGGCAACATCTTAAATGTGACATACA
TCCATGCTATACCAATACAGTCAACTACCCCGCATCATGTATCCCATCAA
ACATATTTTATATAGATGACGGTCCTCTCTCTCCTTACCTTACTTTTCGT
TGTCGCGCTCTCTTCGTTCACATCGGCGACTTCGGACTACCACGAGAGCC
TCTACCTCCAGCCACTCCCGCAGTCATCCCTGTTAGCATCCTTCAACTTT
CGAGGCAATGAGTCCCAAGAGTCCTTCGATGAACGGCATTTCCGCTATTT
TCCGAGAGCCTTAGGCCAGATTTTACAGCACGCCAATACGAAGGAGCTCC
ATCTGCGGTTCACTACTGGACGATGGGATGCTGAGAGCTGGGGTCCTCGT
CCTTGGAATGGGACCAAAGAGGGCGGTACTGGTGTTGAGCTATGGGCCTG
GATCGATGCACCTGATGACGAAGCGGCCTTCGCGAAATGGATTACCCTGA
CTCAGTCTCTGTCGGGATTGTTTTGCGCCTCGCTGAACTTCATCGACTCA
ACCCGAACTACTCGCCCAGTCACGTCGTTTGAACTCATGGGCGACCATCC
GGCTTCAAGTAATCTGCATCTGCTGCACGGGACACTTCCCGGCGAGGTGG
TCTGCACTGAAAATCTGACACCATTCCTGAAGCTCCTACCATGCAAGGGC
AAGGCAGGCGTTTCTAGCCTTCTAGACGGGCATAAACTGTTTGACGCGTC
TTGGCAGAGCATGTCTGTGGACGTCAGTCCTGTCTGTCCTCACCCTGGAG
AGTGCTCCGTGCATGTCGATCAGTCTGTGGACATTGTTCTGGATATCGAC
CGGTCAAAACGACCACGCGGCAATCCCATTCCGCGACCTGTACCTTCTGA
TCAGCTTGCATGTGACACATCCAAGCCTTACCATTCCGATGATACCTGCT
ATCCTTTGGAAAGCACATCGGAAAAGGGCTGGAGCTTGACGGAAATCTTC
GGGCGCACCCTCAGTGGCGCTTGTCCCCTCACCGATAATACTTCTCAAGA
GCCGGTCTGCCTACGGGTGCCGCATGAGCGCGAGGTGCTTGTCACTCCAG
GTGCAGTGGAGACCAAGAAGACGGATGGCTTCACCCGCTGTTTCACCCTG
GAGCCTTCTACTCCGTTCGACCTCACCATCCCTGAACAGGAAGTTACCAC
CCATGTGCCACTTGATGAACCTGTCCTAAGCGCAGAGAGAACGATTGTTG
GTCACGGCCAAGAGCGCGGTGGCATGCGGATCATCTTCGACAACCCAAGT
AACACCAACTCTGTTGACTTCATCTACTTCGAAACTCTACCATGGTTTCT
ACGACCTTATGTCCACACACTGCAAGCTTCAATCACAGGCCGCGATGGAC
TTCGCCAGCAAGTACCCGCCTCACACTTCATCCGGGAATCATTCTACCGA
CCAGCAATCGACCGCGAACGAGGAACACAGCTAGAGCTGGCATTGACGAT
ACCGCCCGCATCGACGGTGACTCTCACATACGACTTTGAGAAAGCGATTC
TGCGATACACTGAGTATCCTCCAGACGCAAACCGCGGCTTCAACGTCGCT
CCCGCCGTGATCAAGCTCGACGCAGCAAACGGCCAAAACCACCCGATCTA
TATCCGCACCACCAGCCTTCTTCTACCGCTTCCCACCCCCGATTTCAGCA
TGCCTTACAACGTGATCATCCTGACCAGCACCGTAGTAGCGCTCGCCTTT
GGCAGTATCTTCAACCTCCTCGTCCGTCGATTTGTCACGGCCGAAGAAGC
GTCCGCGCTGACGGCGCAAACCCTCAAGGGACGCCTGGGGGGCAACATCT
TAAATGTGACATACATCCATGCTATACCAATACAGTCAACTACCCCGCAT
CATGTATCCCATCAAACATATTTTATATAGATGACGGTCCTCTCTCTCCT
TACCTTACTTTTCGTTGTCGCGCTCTCTTCGTTCACATCGGCGACTTCGG
ACTACCACGAGAGCCTCTACCTCCAGCCACTCCCGCAGTCATCCCTGTTA
GCATCCTTCAACTTTCGAGGCAATGAGTCCCAAGAGTCCTTCGATGAACG
GCATTTCCGCTATTTTCCGAGAGCCTTAGGCCAGATTTTACAGCACGCCA
ATACGAAGGAGCTCCATCTGCGGTTCACTACTGGACGATGGGATGCTGAG
AGCTGGGGTCCTCGTCCTTGGAATGGGACCAAAGAGGGCGGTACTGGTGT
TGAGCTATGGGCCTGGATCGATGCACCTGATGACGAAGCGGCCTTCGCGA
AATGGATTACCCTGACTCAGTCTCTGTCGGGATTGTTTTGCGCCTCGCTG
AACTTCATCGACTCAACCCGAACTACTCGCCCAGTCACGTCGTTTGAACT
CATGGGCGACCATCCGGCTTCAAGTAATCTGCATCTGCTGCACGGGACAC
TTCCCGGCGAGGTGGTCTGCACTGAAAATCTGACACCATTCCTGAAGCTC
CTACCATGCAAGGGCAAGGCAGGCGTTTCTAGCCTTCTAGACGGGCATAA
ACTGTTTGACGCGTCTTGGCAGAGCATGTCTGTGGACGTCAGTCCTGTCT
GTCCTCACCCTGGAGAGTGCTCCGTGCATGTCGATCAGTCTGTGGACATT
GTTCTGGATATCGACCGGTCAAAACGACCACGCGGCAATCCCATTCCGCG
ACCTGTACCTTCTGATCAGCTTGCATGTGACACATCCAAGCCTTACCATT
CCGATGATACCTGCTATCCTTTGGAAAGCACATCGGAAAAGGGCTGGAGC
TTGACGGAAATCTTCGGGCGCACCCTCAGTGGCGCTTGTCCCCTCACCGA
TAATACTTCTCAAGAGCCGGTCTGCCTACGGGTGCCGCATGAGCGCGAGG
TGCTTGTCACTCCAGGTGCAGTGGAGACCAAGAAGACGGATGGCTTCACC
CGCTGTTTCACCCTGGAGCCTTCTACTCCGTTCGACCTCACCATCCCTGA
ACAGGAAGTTACCACCCATGTGCCACTTGATGAACCTGTCCTAAGCGCAG
AGAGAACGATTGTTGGTCACGGCCAAGAGCGCGGTGGCATGCGGATCATC
TTCGACAACCCAAGTAACACCAACTCTGTTGACTTCATCTACTTCGAAAC
TCTACCATGGTTTCTACGACCTTATGTCCACACACTGCAAGCTTCAATCA
CAGGCCGCGATGGACTTCGCCAGCAAGTACCCGCCTCACACTTCATCCGG
GAATCATTCTACCGACCAGCAATCGACCGCGAACGAGGAACACAGCTAGA
GCTGGCATTGACGATACCGCCCGCATCGACGGTGACTCTCACATACGACT
TTGAGAAAGCGATTCTGCGATACACTGAGTATCCTCCAGACGCAAACCGC
GGCTTCAACGTCGCTCCCGCCGTGATCAAGCTCGACGCAGCAAACGGCCA
AAACCACCCGATCTATATCCGCACCACCAGCCTTCTTCTACCGCTTCCCA
CCCCCGATTTCAGCATGCCTTACAACGTGATCATCCTGACCAGCACCGTA
GTAGCGCTCGCCTTTGGCAGTATCTTCAACCTCCTCGTCCGTCGATTTGT
CACGGCCGAAGAAGCGTCCGCGCTGACGGCGCAAACCCTCAAGGGACGCC
TGGGGGGCAACATCTTAAATGTGACATACATCCATGCTATACCAATACAG
TCAACTACCCCGCATCATGTATCCCATCAAACATATTTTATATAGATGAC
GGTCCTCTCTCTCCTTACCTTACTTTTCGTTGTCGCGCTCTCTTCGTTCA
CATCGGCGACTTCGGACTACCACGAGAGCCTCTACCTCCAGCCACTCCCG
CAGTCATCCCTGTTAGCATCCTTCAACTTTCGAGGCAATGAGTCCCAAGA
GTCCTTCGATGAACGGCATTTCCGCTATTTTCCGAGAGCCTTAGGCCAGA
TTTTACAGCACGCCAATACGAAGGAGCTCCATCTGCGGTTCACTACTGGA
CGATGGGATGCTGAGAGCTGGGGTCCTCGTCCTTGGAATGGGACCAAAGA
GGGCGGTACTGGTGTTGAGCTATGGGCCTGGATCGATGCACCTGATGACG
AAGCGGCCTTCGCGAAATGGATTACCCTGACTCAGTCTCTGTCGGGATTG
TTTTGCGCCTCGCTGAACTTCATCGACTCAACCCGAACTACTCGCCCAGT
CACGTCGTTTGAACTCATGGGCGACCATCCGGCTTCAAGTAATCTGCATC
TGCTGCACGGGACACTTCCCGGCGAGGTGGTCTGCACTGAAAATCTGACA
CCATTCCTGAAGCTCCTACCATGCAAGGGCAAGGCAGGCGTTTCTAGCCT
TCTAGACGGGCATAAACTGTTTGACGCGTCTTGGCAGAGCATGTCTGTGG
ACGTCAGTCCTGTCTGTCCTCACCCTGGAGAGTGCTCCGTGCATGTCGAT
CAGTCTGTGGACATTGTTCTGGATATCGACCGGTCAAAACGACCACGCGG
CAATCCCATTCCGCGACCTGTACCTTCTGATCAGCTTGCATGTGACACAT
CCAAGCCTTACCATTCCGATGATACCTGCTATCCTTTGGAAAGCACATCG
GAAAAGGGCTGGAGCTTGACGGAAATCTTCGGGCGCACCCTCAGTGGCGC
TTGTCCCCTCACCGATAATACTTCTCAAGAGCCGGTCTGCCTACGGGTGC
CGCATGAGCGCGAGGTGCTTGTCACTCCAGGTGCAGTGGAGACCAAGAAG
ACGGATGGCTTCACCCGCTGTTTCACCCTGGAGCCTTCTACTCCGTTCGA
CCTCACCATCCCTGAACAGGAAGTTACCACCCATGTGCCACTTGATGAAC
CTGTCCTAAGCGCAGAGAGAACGATTGTTGGTCACGGCCAAGAGCGCGGT
GGCATGCGGATCATCTTCGACAACCCAAGTAACACCAACTCTGTTGACTT
CATCTACTTCGAAACTCTACCATGGTTTCTACGACCTTATGTCCACACAC
TGCAAGCTTCAATCACAGGCCGCGATGGACTTCGCCAGCAAGTACCCGCC
TCACACTTCATCCGGGAATCATTCTACCGACCAGCAATCGACCGCGAACG
AGGAACACAGCTAGAGCTGGCATTGACGATACCGCCCGCATCGACGGTGA
CTCTCACATACGACTTTGAGAAAGCGATTCTGCGATACACTGAGTATCCT
CCAGACGCAAACCGCGGCTTCAACGTCGCTCCCGCCGTGATCAAGCTCGA
CGCAGCAAACGGCCAAAACCACCCGATCTATATCCGCACCACCAGCCTTC
TTCTACCGCTTCCCACCCCCGATTTCAGCATGCCTTACAACGTGATCATC
CTGACCAGCACCGTAGTAGCGCTCGCCTTTGGCAGTATCTTCAACCTCCT
CGTCCGTCGATTTGTCACGGCCGAAGAAGCGTCCGCGCTGACGGCGCAAA
CCCTCAAGGGACGCCTGGGGGGCAACATCTTAAATGTGACATACATCCAT
GCTATACCAATACAGTCAACTACCCCGCATCATGTATCCCATCAAACATA
TTTTATATAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0042765 | GPI-anchor transamidase complex |
Vocabulary: Biological Process
| Term | Definition |
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| GO:0016255 | attachment of GPI anchor to protein |
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 | SECRETED:SignalP(1-21) |
| Note | BUSCO:EOG09261LEU |
| DBxref | InterPro:IPR007245 |
| DBxref | PFAM:PF04113 |
| Product | Gpi16 subunit GPI transamidase component family 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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:1707489..1709481 + |
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