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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000020.1:436006..438243- Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_211845-T1 ID=ASPNIDRAFT_211845-T1|Name=ASPNIDRAFT_211845-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2238bp|location=Sequence derived from alignment at ACJE01000020.1:436006..438243- (Aspergillus niger ATCC 1015)
TTCCATCCAGCCTCAGCCTGCCCCCCCCCCCCCCCCCTCTCATCGTGATT
AATGACCTCGTCGACCACAATCGTGTATTCGGCCTCATTGCTCCGGACAC
CAGTCCTTTGCGTTGCTGTCGACTTTCCCCCCGCCCACCTCTGCCTGGCC
GACTGAGAGGGAAAAGTTGGCGAGAAAGGAGGCTTTCCTCCGGCCGCTCT
TTATTTCGACTCTTCGCTTCGCCTTAACCGGGATCCTCCATCTCTTCTCG
ATTATAATTCTCTTTAATCGCCTTTCTGTGTCCTCGTCTTGCTCGGCTTT
GGGAAGTGACATAGAAGCCAGAGTCTCGCCTCGGCGCTCGCGTGCGGACG
TACATCTCTTGTCATCGAGATTCCCTCTGGGATAATATCCGACAAGAGAT
ATCTCGGTCTGAGAAGCTCCTTTGACTTGACTGCTGATACCTGATAACTA
TTGTGTGCCATCGCTGTTCAATCAGCCGTGTGGCCCATCTTCTGCACCCA
TGGGCCTCGTTCAACGGGTTACGAAATGGCTGCCCTCCACGCCGAGTCTG
CCCCTAGATGACTCTTCGCGCGAGAAAGGCCGTAATCTGTCCAGATTCGC
TTTCTTCAAACGGAGGATACGGTTAAAGGGCAACTCCTCGATCTCGATAC
CCCTGGGATTTGTTTTACTATTTCCATGCCTTGTAATAGTCCTTATCCTA
CTACTTTTTGTTCGACATCCTTCTTCCCCTGGGGGTATCCTCATCCCTGC
CGGTACTCCGCCTTCTATCAGGTTCGTTTCGCTCGCCAGGCACGAGAATC
AGAGTTTTCGATAGCTAACCACGCGCCGACTCGACAGGAAAATAAGCGAA
AAGTACGACAAAGTCTTCGCTACTGGCTGTCTTCCCGTCGAGAAAACCGA
CGCCCCGCGCGCAAACGCCGCTTTCGTCGTCCTTGCCAGAAACAAGGAAT
TAGACGGAGTTATTCAGTCACTCAAGTCAATTGAAAGACACTTCAACCGC
TGGTTCCACTACCCTTACGTCTTCCTGAACGATGGTGATTTCGATGACGC
CTTTAAGGCGACGGTCAAGAACTACACCAGCGCCCCCGTTGAGTTTGGCA
AGATCGACGAGTCTATGTGGGGTTACCCCGACTGGGTTGACCATGAAGTC
GCCAAAGAAGGCGTCCGGAAACAGGGTGACGCCGCCATCATGTACGGAGG
CATGGAGAGTTACCACCATATGTGCCGATTCTATTCCGGGTAAGTTTCCT
AAACAAATTCACTCTGTCACTAATTCTGACCCTTAAACAGCCATTTCTAC
AAGCACCCTCTGCTCATGAAATACGAGTGGTACTGGCGTCTCGAGCCTGA
GATCAAGTACTTCTGTGATATTACATAGTACGACTCTCCCATGGATCCTT
GCGTATCGGTAATATACTGACATCCTAATCAGTGATCCATTCATCAAGAT
GGCGGAAGCAAACAAGACCTACGGCTTCACGATCGCTGTCAAGGAGCTTC
GAGAGACCGTTCCCAACATCTTCCGTTACGCATCTGCCTACAAGCGGAAA
CACAACTTGGAATCGAAGGGATTGTGGGAAATGTTCCTGGAGAAACCCGA
GGAAGAGCCTAAGCCCGAGGAGGAAAAGCAAGAGAAACTTCCTGAAGAGA
TCCTTCAAAACGAGCCTGGTGAAAATACTGTTCCCGATGTTGACCCGGAG
GCCATGGAAGGCGAGAAGTACAACATGTGCCACTTCTGGAGTAACTTTGA
GATCGCGCGGTTGGACTTCTTCCGCAGCAAGGAATATGAGGAGTTCTTCG
ACATGATGGATAAGAGTGGGGGTTTCTGGATGGAGAGAGTATGTCCTTGT
GTACCTGACTTCGCCTTCGATATAACTAACTAACTGTCTGATCTAGTGGG
GTGATGCGCCTATCCATTCTCTGGCCGCCGGTATTCTCTTGTCCCCCAGC
GACATCCACTACTTCCGTGACTTCGGCTATCGGCACACTACTATCCAGCA
TTGTCCTGCCAACGCTCCTGCACGGCAATTGCCCCGGATCCCCTGGCTGG
AGACGACAACCGAGGACGAAAAGGAGCGCATCGAAGAGGACGAGTATTGG
GCGAACCCTGATCCCGTCAAGGAGAACGGTGTCGGCTGCAGGTGCAGGTG
TGACACCGACATCGTGGATGTTGAAGGCAAGCAGGGCAGTTGTCTCGCCG
AATGGGTCGAAGTTGCTGGAGGATGGGCATCCCCATAG back to topCoding sequence (CDS) from alignment at ACJE01000020.1:436006..438243- >ASPNIDRAFT_211845-T1 ID=ASPNIDRAFT_211845-T1|Name=ASPNIDRAFT_211845-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7545bp|location=Sequence derived from alignment at ACJE01000020.1:436006..438243- (Aspergillus niger ATCC 1015)
TGGGGTGATGCGCCTATCCATTCTCTGGCCGCCGGTATTCTCTTGTCCCC
CAGCGACATCCACTACTTCCGTGACTTCGGCTATCGGCACACTACTATCC
AGCATTGTCCTGCCAACGCTCCTGCACGGCAATTGCCCCGGATCCCCTGG
CTGGAGACGACAACCGAGGACGAAAAGGAGCGCATCGAAGAGGACGAGTA
TTGGGCGAACCCTGATCCCGTCAAGGAGAACGGTGTCGGCTGCAGGTGCA
GGTGTGACACCGACATCGTGGATGTTGAAGGCAAGCAGGGCAGTTGTCTC
GCCGAATGGGTCGAAGTTGCTGGAGGATGGGCATCCCCATAGTGATCCAT
TCATCAAGATGGCGGAAGCAAACAAGACCTACGGCTTCACGATCGCTGTC
AAGGAGCTTCGAGAGACCGTTCCCAACATCTTCCGTTACGCATCTGCCTA
CAAGCGGAAACACAACTTGGAATCGAAGGGATTGTGGGAAATGTTCCTGG
AGAAACCCGAGGAAGAGCCTAAGCCCGAGGAGGAAAAGCAAGAGAAACTT
CCTGAAGAGATCCTTCAAAACGAGCCTGGTGAAAATACTGTTCCCGATGT
TGACCCGGAGGCCATGGAAGGCGAGAAGTACAACATGTGCCACTTCTGGA
GTAACTTTGAGATCGCGCGGTTGGACTTCTTCCGCAGCAAGGAATATGAG
GAGTTCTTCGACATGATGGATAAGAGTGGGGGTTTCTGGATGGAGAGACC
ATTTCTACAAGCACCCTCTGCTCATGAAATACGAGTGGTACTGGCGTCTC
GAGCCTGAGATCAAGTACTTCTGTGATATTACATAGAAAATAAGCGAAAA
GTACGACAAAGTCTTCGCTACTGGCTGTCTTCCCGTCGAGAAAACCGACG
CCCCGCGCGCAAACGCCGCTTTCGTCGTCCTTGCCAGAAACAAGGAATTA
GACGGAGTTATTCAGTCACTCAAGTCAATTGAAAGACACTTCAACCGCTG
GTTCCACTACCCTTACGTCTTCCTGAACGATGGTGATTTCGATGACGCCT
TTAAGGCGACGGTCAAGAACTACACCAGCGCCCCCGTTGAGTTTGGCAAG
ATCGACGAGTCTATGTGGGGTTACCCCGACTGGGTTGACCATGAAGTCGC
CAAAGAAGGCGTCCGGAAACAGGGTGACGCCGCCATCATGTACGGAGGCA
TGGAGAGTTACCACCATATGTGCCGATTCTATTCCGGATGGGCCTCGTTC
AACGGGTTACGAAATGGCTGCCCTCCACGCCGAGTCTGCCCCTAGATGAC
TCTTCGCGCGAGAAAGGCCGTAATCTGTCCAGATTCGCTTTCTTCAAACG
GAGGATACGGTTAAAGGGCAACTCCTCGATCTCGATACCCCTGGGATTTG
TTTTACTATTTCCATGCCTTGTAATAGTCCTTATCCTACTACTTTTTGTT
CGACATCCTTCTTCCCCTGGGGGTATCCTCATCCCTGCCGGTACTCCGCC
TTCTATCAGTGGGGTGATGCGCCTATCCATTCTCTGGCCGCCGGTATTCT
CTTGTCCCCCAGCGACATCCACTACTTCCGTGACTTCGGCTATCGGCACA
CTACTATCCAGCATTGTCCTGCCAACGCTCCTGCACGGCAATTGCCCCGG
ATCCCCTGGCTGGAGACGACAACCGAGGACGAAAAGGAGCGCATCGAAGA
GGACGAGTATTGGGCGAACCCTGATCCCGTCAAGGAGAACGGTGTCGGCT
GCAGGTGCAGGTGTGACACCGACATCGTGGATGTTGAAGGCAAGCAGGGC
AGTTGTCTCGCCGAATGGGTCGAAGTTGCTGGAGGATGGGCATCCCCATA
GTGATCCATTCATCAAGATGGCGGAAGCAAACAAGACCTACGGCTTCACG
ATCGCTGTCAAGGAGCTTCGAGAGACCGTTCCCAACATCTTCCGTTACGC
ATCTGCCTACAAGCGGAAACACAACTTGGAATCGAAGGGATTGTGGGAAA
TGTTCCTGGAGAAACCCGAGGAAGAGCCTAAGCCCGAGGAGGAAAAGCAA
GAGAAACTTCCTGAAGAGATCCTTCAAAACGAGCCTGGTGAAAATACTGT
TCCCGATGTTGACCCGGAGGCCATGGAAGGCGAGAAGTACAACATGTGCC
ACTTCTGGAGTAACTTTGAGATCGCGCGGTTGGACTTCTTCCGCAGCAAG
GAATATGAGGAGTTCTTCGACATGATGGATAAGAGTGGGGGTTTCTGGAT
GGAGAGACCATTTCTACAAGCACCCTCTGCTCATGAAATACGAGTGGTAC
TGGCGTCTCGAGCCTGAGATCAAGTACTTCTGTGATATTACATAGAAAAT
AAGCGAAAAGTACGACAAAGTCTTCGCTACTGGCTGTCTTCCCGTCGAGA
AAACCGACGCCCCGCGCGCAAACGCCGCTTTCGTCGTCCTTGCCAGAAAC
AAGGAATTAGACGGAGTTATTCAGTCACTCAAGTCAATTGAAAGACACTT
CAACCGCTGGTTCCACTACCCTTACGTCTTCCTGAACGATGGTGATTTCG
ATGACGCCTTTAAGGCGACGGTCAAGAACTACACCAGCGCCCCCGTTGAG
TTTGGCAAGATCGACGAGTCTATGTGGGGTTACCCCGACTGGGTTGACCA
TGAAGTCGCCAAAGAAGGCGTCCGGAAACAGGGTGACGCCGCCATCATGT
ACGGAGGCATGGAGAGTTACCACCATATGTGCCGATTCTATTCCGGATGG
GCCTCGTTCAACGGGTTACGAAATGGCTGCCCTCCACGCCGAGTCTGCCC
CTAGATGACTCTTCGCGCGAGAAAGGCCGTAATCTGTCCAGATTCGCTTT
CTTCAAACGGAGGATACGGTTAAAGGGCAACTCCTCGATCTCGATACCCC
TGGGATTTGTTTTACTATTTCCATGCCTTGTAATAGTCCTTATCCTACTA
CTTTTTGTTCGACATCCTTCTTCCCCTGGGGGTATCCTCATCCCTGCCGG
TACTCCGCCTTCTATCAGTGGGGTGATGCGCCTATCCATTCTCTGGCCGC
CGGTATTCTCTTGTCCCCCAGCGACATCCACTACTTCCGTGACTTCGGCT
ATCGGCACACTACTATCCAGCATTGTCCTGCCAACGCTCCTGCACGGCAA
TTGCCCCGGATCCCCTGGCTGGAGACGACAACCGAGGACGAAAAGGAGCG
CATCGAAGAGGACGAGTATTGGGCGAACCCTGATCCCGTCAAGGAGAACG
GTGTCGGCTGCAGGTGCAGGTGTGACACCGACATCGTGGATGTTGAAGGC
AAGCAGGGCAGTTGTCTCGCCGAATGGGTCGAAGTTGCTGGAGGATGGGC
ATCCCCATAGTGATCCATTCATCAAGATGGCGGAAGCAAACAAGACCTAC
GGCTTCACGATCGCTGTCAAGGAGCTTCGAGAGACCGTTCCCAACATCTT
CCGTTACGCATCTGCCTACAAGCGGAAACACAACTTGGAATCGAAGGGAT
TGTGGGAAATGTTCCTGGAGAAACCCGAGGAAGAGCCTAAGCCCGAGGAG
GAAAAGCAAGAGAAACTTCCTGAAGAGATCCTTCAAAACGAGCCTGGTGA
AAATACTGTTCCCGATGTTGACCCGGAGGCCATGGAAGGCGAGAAGTACA
ACATGTGCCACTTCTGGAGTAACTTTGAGATCGCGCGGTTGGACTTCTTC
CGCAGCAAGGAATATGAGGAGTTCTTCGACATGATGGATAAGAGTGGGGG
TTTCTGGATGGAGAGACCATTTCTACAAGCACCCTCTGCTCATGAAATAC
GAGTGGTACTGGCGTCTCGAGCCTGAGATCAAGTACTTCTGTGATATTAC
ATAGAAAATAAGCGAAAAGTACGACAAAGTCTTCGCTACTGGCTGTCTTC
CCGTCGAGAAAACCGACGCCCCGCGCGCAAACGCCGCTTTCGTCGTCCTT
GCCAGAAACAAGGAATTAGACGGAGTTATTCAGTCACTCAAGTCAATTGA
AAGACACTTCAACCGCTGGTTCCACTACCCTTACGTCTTCCTGAACGATG
GTGATTTCGATGACGCCTTTAAGGCGACGGTCAAGAACTACACCAGCGCC
CCCGTTGAGTTTGGCAAGATCGACGAGTCTATGTGGGGTTACCCCGACTG
GGTTGACCATGAAGTCGCCAAAGAAGGCGTCCGGAAACAGGGTGACGCCG
CCATCATGTACGGAGGCATGGAGAGTTACCACCATATGTGCCGATTCTAT
TCCGGATGGGCCTCGTTCAACGGGTTACGAAATGGCTGCCCTCCACGCCG
AGTCTGCCCCTAGATGACTCTTCGCGCGAGAAAGGCCGTAATCTGTCCAG
ATTCGCTTTCTTCAAACGGAGGATACGGTTAAAGGGCAACTCCTCGATCT
CGATACCCCTGGGATTTGTTTTACTATTTCCATGCCTTGTAATAGTCCTT
ATCCTACTACTTTTTGTTCGACATCCTTCTTCCCCTGGGGGTATCCTCAT
CCCTGCCGGTACTCCGCCTTCTATCAGTGGGGTGATGCGCCTATCCATTC
TCTGGCCGCCGGTATTCTCTTGTCCCCCAGCGACATCCACTACTTCCGTG
ACTTCGGCTATCGGCACACTACTATCCAGCATTGTCCTGCCAACGCTCCT
GCACGGCAATTGCCCCGGATCCCCTGGCTGGAGACGACAACCGAGGACGA
AAAGGAGCGCATCGAAGAGGACGAGTATTGGGCGAACCCTGATCCCGTCA
AGGAGAACGGTGTCGGCTGCAGGTGCAGGTGTGACACCGACATCGTGGAT
GTTGAAGGCAAGCAGGGCAGTTGTCTCGCCGAATGGGTCGAAGTTGCTGG
AGGATGGGCATCCCCATAGTGATCCATTCATCAAGATGGCGGAAGCAAAC
AAGACCTACGGCTTCACGATCGCTGTCAAGGAGCTTCGAGAGACCGTTCC
CAACATCTTCCGTTACGCATCTGCCTACAAGCGGAAACACAACTTGGAAT
CGAAGGGATTGTGGGAAATGTTCCTGGAGAAACCCGAGGAAGAGCCTAAG
CCCGAGGAGGAAAAGCAAGAGAAACTTCCTGAAGAGATCCTTCAAAACGA
GCCTGGTGAAAATACTGTTCCCGATGTTGACCCGGAGGCCATGGAAGGCG
AGAAGTACAACATGTGCCACTTCTGGAGTAACTTTGAGATCGCGCGGTTG
GACTTCTTCCGCAGCAAGGAATATGAGGAGTTCTTCGACATGATGGATAA
GAGTGGGGGTTTCTGGATGGAGAGACCATTTCTACAAGCACCCTCTGCTC
ATGAAATACGAGTGGTACTGGCGTCTCGAGCCTGAGATCAAGTACTTCTG
TGATATTACATAGAAAATAAGCGAAAAGTACGACAAAGTCTTCGCTACTG
GCTGTCTTCCCGTCGAGAAAACCGACGCCCCGCGCGCAAACGCCGCTTTC
GTCGTCCTTGCCAGAAACAAGGAATTAGACGGAGTTATTCAGTCACTCAA
GTCAATTGAAAGACACTTCAACCGCTGGTTCCACTACCCTTACGTCTTCC
TGAACGATGGTGATTTCGATGACGCCTTTAAGGCGACGGTCAAGAACTAC
ACCAGCGCCCCCGTTGAGTTTGGCAAGATCGACGAGTCTATGTGGGGTTA
CCCCGACTGGGTTGACCATGAAGTCGCCAAAGAAGGCGTCCGGAAACAGG
GTGACGCCGCCATCATGTACGGAGGCATGGAGAGTTACCACCATATGTGC
CGATTCTATTCCGGATGGGCCTCGTTCAACGGGTTACGAAATGGCTGCCC
TCCACGCCGAGTCTGCCCCTAGATGACTCTTCGCGCGAGAAAGGCCGTAA
TCTGTCCAGATTCGCTTTCTTCAAACGGAGGATACGGTTAAAGGGCAACT
CCTCGATCTCGATACCCCTGGGATTTGTTTTACTATTTCCATGCCTTGTA
ATAGTCCTTATCCTACTACTTTTTGTTCGACATCCTTCTTCCCCTGGGGG
TATCCTCATCCCTGCCGGTACTCCGCCTTCTATCAGTGGGGTGATGCGCC
TATCCATTCTCTGGCCGCCGGTATTCTCTTGTCCCCCAGCGACATCCACT
ACTTCCGTGACTTCGGCTATCGGCACACTACTATCCAGCATTGTCCTGCC
AACGCTCCTGCACGGCAATTGCCCCGGATCCCCTGGCTGGAGACGACAAC
CGAGGACGAAAAGGAGCGCATCGAAGAGGACGAGTATTGGGCGAACCCTG
ATCCCGTCAAGGAGAACGGTGTCGGCTGCAGGTGCAGGTGTGACACCGAC
ATCGTGGATGTTGAAGGCAAGCAGGGCAGTTGTCTCGCCGAATGGGTCGA
AGTTGCTGGAGGATGGGCATCCCCATAGTGATCCATTCATCAAGATGGCG
GAAGCAAACAAGACCTACGGCTTCACGATCGCTGTCAAGGAGCTTCGAGA
GACCGTTCCCAACATCTTCCGTTACGCATCTGCCTACAAGCGGAAACACA
ACTTGGAATCGAAGGGATTGTGGGAAATGTTCCTGGAGAAACCCGAGGAA
GAGCCTAAGCCCGAGGAGGAAAAGCAAGAGAAACTTCCTGAAGAGATCCT
TCAAAACGAGCCTGGTGAAAATACTGTTCCCGATGTTGACCCGGAGGCCA
TGGAAGGCGAGAAGTACAACATGTGCCACTTCTGGAGTAACTTTGAGATC
GCGCGGTTGGACTTCTTCCGCAGCAAGGAATATGAGGAGTTCTTCGACAT
GATGGATAAGAGTGGGGGTTTCTGGATGGAGAGACCATTTCTACAAGCAC
CCTCTGCTCATGAAATACGAGTGGTACTGGCGTCTCGAGCCTGAGATCAA
GTACTTCTGTGATATTACATAGAAAATAAGCGAAAAGTACGACAAAGTCT
TCGCTACTGGCTGTCTTCCCGTCGAGAAAACCGACGCCCCGCGCGCAAAC
GCCGCTTTCGTCGTCCTTGCCAGAAACAAGGAATTAGACGGAGTTATTCA
GTCACTCAAGTCAATTGAAAGACACTTCAACCGCTGGTTCCACTACCCTT
ACGTCTTCCTGAACGATGGTGATTTCGATGACGCCTTTAAGGCGACGGTC
AAGAACTACACCAGCGCCCCCGTTGAGTTTGGCAAGATCGACGAGTCTAT
GTGGGGTTACCCCGACTGGGTTGACCATGAAGTCGCCAAAGAAGGCGTCC
GGAAACAGGGTGACGCCGCCATCATGTACGGAGGCATGGAGAGTTACCAC
CATATGTGCCGATTCTATTCCGGATGGGCCTCGTTCAACGGGTTACGAAA
TGGCTGCCCTCCACGCCGAGTCTGCCCCTAGATGACTCTTCGCGCGAGAA
AGGCCGTAATCTGTCCAGATTCGCTTTCTTCAAACGGAGGATACGGTTAA
AGGGCAACTCCTCGATCTCGATACCCCTGGGATTTGTTTTACTATTTCCA
TGCCTTGTAATAGTCCTTATCCTACTACTTTTTGTTCGACATCCTTCTTC
CCCTGGGGGTATCCTCATCCCTGCCGGTACTCCGCCTTCTATCAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016020 | membrane |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000030 | mannosyltransferase activity |
Vocabulary: Biological Process
| Term | Definition |
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| GO:0006486 | protein glycosylation |
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:
The following five_prime_UTR feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | CAZy:GT15 |
| DBxref | InterPro:IPR029044 |
| DBxref | InterPro:IPR002685 |
| DBxref | PFAM:PF01793 |
| 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 |
|---|
| ACJE01000020.1 | supercontig | ACJE01000020.1:436006..438243 - |
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