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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:2868999..2870852+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_207264-T1 ID=ASPNIDRAFT_207264-T1|Name=ASPNIDRAFT_207264-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1854bp|location=Sequence derived from alignment at ACJE01000010.1:2868999..2870852+ (Aspergillus niger ATCC 1015)
ATCCATTGAAAGCACTTGAGAAAAGATGCGGTGGCTTCTCACCTCGTCCG
CACTGTTAGTGCCGGCCGCAGCCCTGGTTCGACCCGATGGCGTGGTATGT
TGCCTGCATTCCTCCAAATTCAATCTCTCGACTAACAAGAAGATCGTTGA
TTGTAGGGCCTCACTCCTGCCCTTGGCTGGAACTCTTGGAACGCATACAG
CTGCGACATTGATGCCGACAAAATCGTGACTGCCGCCAACGAGGTGGTCA
ATCTGGGGTTGAAGGACCTGGGATATGAGTATATCAACAGTATGCCTTCT
CTCTTTCACAACAATCAAACCACATTGCTAATTGGAATAGTCGACGACTG
CTGGTCCGTCAAATCCGGCCGCAACACCACCACCAAACGCATCATCCCCG
ACCCAGACAAATTCCCCAATGGCATCTCCGGCGTCGCAGACCAGGTGCAC
GCTTTGGGATTGAAGCTGGGAATCTACAGCAGTCAGTACCTACCCCAACA
TCCCCCACCCCTAAGCAATCAGCACACTAACCAAAGTAATATGAAGGCGC
CGGCCTCACCACCTGCGCCGGCTACCCCGCCAGTCTAGGCTACGAAGAAA
TCGACGCGCAATCCTTTGCCGAATGGGGGATTGACTGTATGCCTCCCACA
AGTCCCCAATACCCTCTAACCCAAGCGTGCTAACGAAAGTATAGACCTAA
AATACGACAACTGCGGCGTCCCCACCAACCTCACAGACCAATACACCTAC
TGCGTCCCCGACAGCACCGACGGCTCCAACTACCCCAACGGCACCTGCGT
GAACCTCACGGACGCCGCACCCCAGGGGTACGACTGGGCCACCTCCACCA
CGGCGAAGCGGTACCAGCGCATGCGCGATGCCCTGCTCAGTGTGAACAGG
ACGATCCTGTACTCGCTATGTGACTGGGGCCAGGCGGATGTTAATGCCTG
GGGAAATGCAACAGGAAATAGTTGGCGCATGTCAGGGGATATCACGGGTA
TGCTCCCTATGTCCCCTTCAACCACAAAGATCCCATGAAAAAAAGTATCT
TGAGGATGATACTAATAAAAAGTACATCAATACAGCAACCTGGTCCCGCA
TCGCCGAAATCGCCAACGAAAACAGCTTCCTCATGAACTACGCCAACTTC
TGGGGCTATCCGGACCCAGACATGCTGGAAGTGGGCAATGGGAATCTGAC
ACTTCCCGAGAATAGAGCGCATTTTGCCCTTTGGGCGATGATGAAGGCGC
CGTTGATTATTGGGACGCCTGTATGTCCTCTTCCCTTATCCCTCCCCCAC
CTTATAACTATTCCCCCCTTTCCTGCAATGACGACGTGCTAATATCAATG
GGGGATGTAGTTGGATTCAATCGATACCTCCCACCTCACTATCCTCTCCA
ACAAACCCCTGCTCACCTTCCACCAAGACGCTGTGATCGGTCGTCCTGCG
TACCCGTATAAATGGGGATATAATCCCGATTGGACGTTTGATCCGGAGCA
TCCGGCGGAGTATTGGTCTGGGCCGACTTCTTCTGGGGAGGTGTTTGTGT
TGATGTTGAATTCGGAGGGGGAGGTCAAGACTCGCTCGGCGGTTTGGGAG
GAGGTGCCTGAGTTGAAGGACAGAGGTACGAAGAAGAATTCGAAGGAGAA
GAAGGGGTTTAAGGTGACGGATGCGTGGACGGGCAAGGACCTGGGGTGTG
TCAAGGATAAGTATGAGGTTAAGTTGCAGGCGCATGATGTCGCGGTTTTG
GTGGTGGGAGGGCAATGTTAGGAAAAAGACTTTTTCTCTTCTTTCTGGTA
TTGAGGTTGGGATGGTCGTAGTTACTAGCAATGGAAATGAAGGTATGAAT
GTCA back to topCoding sequence (CDS) from alignment at ACJE01000010.1:2868999..2870852+ >ASPNIDRAFT_207264-T1 ID=ASPNIDRAFT_207264-T1|Name=ASPNIDRAFT_207264-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9324bp|location=Sequence derived from alignment at ACJE01000010.1:2868999..2870852+ (Aspergillus niger ATCC 1015)
ATGCGGTGGCTTCTCACCTCGTCCGCACTGTTAGTGCCGGCCGCAGCCCT
GGTTCGACCCGATGGCGTGGGCCTCACTCCTGCCCTTGGCTGGAACTCTT
GGAACGCATACAGCTGCGACATTGATGCCGACAAAATCGTGACTGCCGCC
AACGAGGTGGTCAATCTGGGGTTGAAGGACCTGGGATATGAGTATATCAA
CATCGACGACTGCTGGTCCGTCAAATCCGGCCGCAACACCACCACCAAAC
GCATCATCCCCGACCCAGACAAATTCCCCAATGGCATCTCCGGCGTCGCA
GACCAGGTGCACGCTTTGGGATTGAAGCTGGGAATCTACAGCAGCGCCGG
CCTCACCACCTGCGCCGGCTACCCCGCCAGTCTAGGCTACGAAGAAATCG
ACGCGCAATCCTTTGCCGAATGGGGGATTGACTACCTAAAATACGACAAC
TGCGGCGTCCCCACCAACCTCACAGACCAATACACCTACTGCGTCCCCGA
CAGCACCGACGGCTCCAACTACCCCAACGGCACCTGCGTGAACCTCACGG
ACGCCGCACCCCAGGGGTACGACTGGGCCACCTCCACCACGGCGAAGCGG
TACCAGCGCATGCGCGATGCCCTGCTCAGTGTGAACAGGACGATCCTGTA
CTCGCTATGTGACTGGGGCCAGGCGGATGTTAATGCCTGGGGAAATGCAA
CAGGAAATAGTTGGCGCATGTCAGGGGATATCACGGCAACCTGGTCCCGC
ATCGCCGAAATCGCCAACGAAAACAGCTTCCTCATGAACTACGCCAACTT
CTGGGGCTATCCGGACCCAGACATGCTGGAAGTGGGCAATGGGAATCTGA
CACTTCCCGAGAATAGAGCGCATTTTGCCCTTTGGGCGATGATGAAGGCG
CCGTTGATTATTGGGACGCCTTTGGATTCAATCGATACCTCCCACCTCAC
TATCCTCTCCAACAAACCCCTGCTCACCTTCCACCAAGACGCTGTGATCG
GTCGTCCTGCGTACCCGTATAAATGGGGATATAATCCCGATTGGACGTTT
GATCCGGAGCATCCGGCGGAGTATTGGTCTGGGCCGACTTCTTCTGGGGA
GGTGTTTGTGTTGATGTTGAATTCGGAGGGGGAGGTCAAGACTCGCTCGG
CGGTTTGGGAGGAGGTGCCTGAGTTGAAGGACAGAGGTACGAAGAAGAAT
TCGAAGGAGAAGAAGGGGTTTAAGGTGACGGATGCGTGGACGGGCAAGGA
CCTGGGGTGTGTCAAGGATAAGTATGAGGTTAAGTTGCAGGCGCATGATG
TCGCGGTTTTGGTGGTGGGAGGGCAATGTTAGATGCGGTGGCTTCTCACC
TCGTCCGCACTGTTAGTGCCGGCCGCAGCCCTGGTTCGACCCGATGGCGT
GGGCCTCACTCCTGCCCTTGGCTGGAACTCTTGGAACGCATACAGCTGCG
ACATTGATGCCGACAAAATCGTGACTGCCGCCAACGAGGTGGTCAATCTG
GGGTTGAAGGACCTGGGATATGAGTATATCAACATCGACGACTGCTGGTC
CGTCAAATCCGGCCGCAACACCACCACCAAACGCATCATCCCCGACCCAG
ACAAATTCCCCAATGGCATCTCCGGCGTCGCAGACCAGGTGCACGCTTTG
GGATTGAAGCTGGGAATCTACAGCAGCGCCGGCCTCACCACCTGCGCCGG
CTACCCCGCCAGTCTAGGCTACGAAGAAATCGACGCGCAATCCTTTGCCG
AATGGGGGATTGACTACCTAAAATACGACAACTGCGGCGTCCCCACCAAC
CTCACAGACCAATACACCTACTGCGTCCCCGACAGCACCGACGGCTCCAA
CTACCCCAACGGCACCTGCGTGAACCTCACGGACGCCGCACCCCAGGGGT
ACGACTGGGCCACCTCCACCACGGCGAAGCGGTACCAGCGCATGCGCGAT
GCCCTGCTCAGTGTGAACAGGACGATCCTGTACTCGCTATGTGACTGGGG
CCAGGCGGATGTTAATGCCTGGGGAAATGCAACAGGAAATAGTTGGCGCA
TGTCAGGGGATATCACGGCAACCTGGTCCCGCATCGCCGAAATCGCCAAC
GAAAACAGCTTCCTCATGAACTACGCCAACTTCTGGGGCTATCCGGACCC
AGACATGCTGGAAGTGGGCAATGGGAATCTGACACTTCCCGAGAATAGAG
CGCATTTTGCCCTTTGGGCGATGATGAAGGCGCCGTTGATTATTGGGACG
CCTTTGGATTCAATCGATACCTCCCACCTCACTATCCTCTCCAACAAACC
CCTGCTCACCTTCCACCAAGACGCTGTGATCGGTCGTCCTGCGTACCCGT
ATAAATGGGGATATAATCCCGATTGGACGTTTGATCCGGAGCATCCGGCG
GAGTATTGGTCTGGGCCGACTTCTTCTGGGGAGGTGTTTGTGTTGATGTT
GAATTCGGAGGGGGAGGTCAAGACTCGCTCGGCGGTTTGGGAGGAGGTGC
CTGAGTTGAAGGACAGAGGTACGAAGAAGAATTCGAAGGAGAAGAAGGGG
TTTAAGGTGACGGATGCGTGGACGGGCAAGGACCTGGGGTGTGTCAAGGA
TAAGTATGAGGTTAAGTTGCAGGCGCATGATGTCGCGGTTTTGGTGGTGG
GAGGGCAATGTTAGATGCGGTGGCTTCTCACCTCGTCCGCACTGTTAGTG
CCGGCCGCAGCCCTGGTTCGACCCGATGGCGTGGGCCTCACTCCTGCCCT
TGGCTGGAACTCTTGGAACGCATACAGCTGCGACATTGATGCCGACAAAA
TCGTGACTGCCGCCAACGAGGTGGTCAATCTGGGGTTGAAGGACCTGGGA
TATGAGTATATCAACATCGACGACTGCTGGTCCGTCAAATCCGGCCGCAA
CACCACCACCAAACGCATCATCCCCGACCCAGACAAATTCCCCAATGGCA
TCTCCGGCGTCGCAGACCAGGTGCACGCTTTGGGATTGAAGCTGGGAATC
TACAGCAGCGCCGGCCTCACCACCTGCGCCGGCTACCCCGCCAGTCTAGG
CTACGAAGAAATCGACGCGCAATCCTTTGCCGAATGGGGGATTGACTACC
TAAAATACGACAACTGCGGCGTCCCCACCAACCTCACAGACCAATACACC
TACTGCGTCCCCGACAGCACCGACGGCTCCAACTACCCCAACGGCACCTG
CGTGAACCTCACGGACGCCGCACCCCAGGGGTACGACTGGGCCACCTCCA
CCACGGCGAAGCGGTACCAGCGCATGCGCGATGCCCTGCTCAGTGTGAAC
AGGACGATCCTGTACTCGCTATGTGACTGGGGCCAGGCGGATGTTAATGC
CTGGGGAAATGCAACAGGAAATAGTTGGCGCATGTCAGGGGATATCACGG
CAACCTGGTCCCGCATCGCCGAAATCGCCAACGAAAACAGCTTCCTCATG
AACTACGCCAACTTCTGGGGCTATCCGGACCCAGACATGCTGGAAGTGGG
CAATGGGAATCTGACACTTCCCGAGAATAGAGCGCATTTTGCCCTTTGGG
CGATGATGAAGGCGCCGTTGATTATTGGGACGCCTTTGGATTCAATCGAT
ACCTCCCACCTCACTATCCTCTCCAACAAACCCCTGCTCACCTTCCACCA
AGACGCTGTGATCGGTCGTCCTGCGTACCCGTATAAATGGGGATATAATC
CCGATTGGACGTTTGATCCGGAGCATCCGGCGGAGTATTGGTCTGGGCCG
ACTTCTTCTGGGGAGGTGTTTGTGTTGATGTTGAATTCGGAGGGGGAGGT
CAAGACTCGCTCGGCGGTTTGGGAGGAGGTGCCTGAGTTGAAGGACAGAG
GTACGAAGAAGAATTCGAAGGAGAAGAAGGGGTTTAAGGTGACGGATGCG
TGGACGGGCAAGGACCTGGGGTGTGTCAAGGATAAGTATGAGGTTAAGTT
GCAGGCGCATGATGTCGCGGTTTTGGTGGTGGGAGGGCAATGTTAGATGC
GGTGGCTTCTCACCTCGTCCGCACTGTTAGTGCCGGCCGCAGCCCTGGTT
CGACCCGATGGCGTGGGCCTCACTCCTGCCCTTGGCTGGAACTCTTGGAA
CGCATACAGCTGCGACATTGATGCCGACAAAATCGTGACTGCCGCCAACG
AGGTGGTCAATCTGGGGTTGAAGGACCTGGGATATGAGTATATCAACATC
GACGACTGCTGGTCCGTCAAATCCGGCCGCAACACCACCACCAAACGCAT
CATCCCCGACCCAGACAAATTCCCCAATGGCATCTCCGGCGTCGCAGACC
AGGTGCACGCTTTGGGATTGAAGCTGGGAATCTACAGCAGCGCCGGCCTC
ACCACCTGCGCCGGCTACCCCGCCAGTCTAGGCTACGAAGAAATCGACGC
GCAATCCTTTGCCGAATGGGGGATTGACTACCTAAAATACGACAACTGCG
GCGTCCCCACCAACCTCACAGACCAATACACCTACTGCGTCCCCGACAGC
ACCGACGGCTCCAACTACCCCAACGGCACCTGCGTGAACCTCACGGACGC
CGCACCCCAGGGGTACGACTGGGCCACCTCCACCACGGCGAAGCGGTACC
AGCGCATGCGCGATGCCCTGCTCAGTGTGAACAGGACGATCCTGTACTCG
CTATGTGACTGGGGCCAGGCGGATGTTAATGCCTGGGGAAATGCAACAGG
AAATAGTTGGCGCATGTCAGGGGATATCACGGCAACCTGGTCCCGCATCG
CCGAAATCGCCAACGAAAACAGCTTCCTCATGAACTACGCCAACTTCTGG
GGCTATCCGGACCCAGACATGCTGGAAGTGGGCAATGGGAATCTGACACT
TCCCGAGAATAGAGCGCATTTTGCCCTTTGGGCGATGATGAAGGCGCCGT
TGATTATTGGGACGCCTTTGGATTCAATCGATACCTCCCACCTCACTATC
CTCTCCAACAAACCCCTGCTCACCTTCCACCAAGACGCTGTGATCGGTCG
TCCTGCGTACCCGTATAAATGGGGATATAATCCCGATTGGACGTTTGATC
CGGAGCATCCGGCGGAGTATTGGTCTGGGCCGACTTCTTCTGGGGAGGTG
TTTGTGTTGATGTTGAATTCGGAGGGGGAGGTCAAGACTCGCTCGGCGGT
TTGGGAGGAGGTGCCTGAGTTGAAGGACAGAGGTACGAAGAAGAATTCGA
AGGAGAAGAAGGGGTTTAAGGTGACGGATGCGTGGACGGGCAAGGACCTG
GGGTGTGTCAAGGATAAGTATGAGGTTAAGTTGCAGGCGCATGATGTCGC
GGTTTTGGTGGTGGGAGGGCAATGTTAGATGCGGTGGCTTCTCACCTCGT
CCGCACTGTTAGTGCCGGCCGCAGCCCTGGTTCGACCCGATGGCGTGGGC
CTCACTCCTGCCCTTGGCTGGAACTCTTGGAACGCATACAGCTGCGACAT
TGATGCCGACAAAATCGTGACTGCCGCCAACGAGGTGGTCAATCTGGGGT
TGAAGGACCTGGGATATGAGTATATCAACATCGACGACTGCTGGTCCGTC
AAATCCGGCCGCAACACCACCACCAAACGCATCATCCCCGACCCAGACAA
ATTCCCCAATGGCATCTCCGGCGTCGCAGACCAGGTGCACGCTTTGGGAT
TGAAGCTGGGAATCTACAGCAGCGCCGGCCTCACCACCTGCGCCGGCTAC
CCCGCCAGTCTAGGCTACGAAGAAATCGACGCGCAATCCTTTGCCGAATG
GGGGATTGACTACCTAAAATACGACAACTGCGGCGTCCCCACCAACCTCA
CAGACCAATACACCTACTGCGTCCCCGACAGCACCGACGGCTCCAACTAC
CCCAACGGCACCTGCGTGAACCTCACGGACGCCGCACCCCAGGGGTACGA
CTGGGCCACCTCCACCACGGCGAAGCGGTACCAGCGCATGCGCGATGCCC
TGCTCAGTGTGAACAGGACGATCCTGTACTCGCTATGTGACTGGGGCCAG
GCGGATGTTAATGCCTGGGGAAATGCAACAGGAAATAGTTGGCGCATGTC
AGGGGATATCACGGCAACCTGGTCCCGCATCGCCGAAATCGCCAACGAAA
ACAGCTTCCTCATGAACTACGCCAACTTCTGGGGCTATCCGGACCCAGAC
ATGCTGGAAGTGGGCAATGGGAATCTGACACTTCCCGAGAATAGAGCGCA
TTTTGCCCTTTGGGCGATGATGAAGGCGCCGTTGATTATTGGGACGCCTT
TGGATTCAATCGATACCTCCCACCTCACTATCCTCTCCAACAAACCCCTG
CTCACCTTCCACCAAGACGCTGTGATCGGTCGTCCTGCGTACCCGTATAA
ATGGGGATATAATCCCGATTGGACGTTTGATCCGGAGCATCCGGCGGAGT
ATTGGTCTGGGCCGACTTCTTCTGGGGAGGTGTTTGTGTTGATGTTGAAT
TCGGAGGGGGAGGTCAAGACTCGCTCGGCGGTTTGGGAGGAGGTGCCTGA
GTTGAAGGACAGAGGTACGAAGAAGAATTCGAAGGAGAAGAAGGGGTTTA
AGGTGACGGATGCGTGGACGGGCAAGGACCTGGGGTGTGTCAAGGATAAG
TATGAGGTTAAGTTGCAGGCGCATGATGTCGCGGTTTTGGTGGTGGGAGG
GCAATGTTAGATGCGGTGGCTTCTCACCTCGTCCGCACTGTTAGTGCCGG
CCGCAGCCCTGGTTCGACCCGATGGCGTGGGCCTCACTCCTGCCCTTGGC
TGGAACTCTTGGAACGCATACAGCTGCGACATTGATGCCGACAAAATCGT
GACTGCCGCCAACGAGGTGGTCAATCTGGGGTTGAAGGACCTGGGATATG
AGTATATCAACATCGACGACTGCTGGTCCGTCAAATCCGGCCGCAACACC
ACCACCAAACGCATCATCCCCGACCCAGACAAATTCCCCAATGGCATCTC
CGGCGTCGCAGACCAGGTGCACGCTTTGGGATTGAAGCTGGGAATCTACA
GCAGCGCCGGCCTCACCACCTGCGCCGGCTACCCCGCCAGTCTAGGCTAC
GAAGAAATCGACGCGCAATCCTTTGCCGAATGGGGGATTGACTACCTAAA
ATACGACAACTGCGGCGTCCCCACCAACCTCACAGACCAATACACCTACT
GCGTCCCCGACAGCACCGACGGCTCCAACTACCCCAACGGCACCTGCGTG
AACCTCACGGACGCCGCACCCCAGGGGTACGACTGGGCCACCTCCACCAC
GGCGAAGCGGTACCAGCGCATGCGCGATGCCCTGCTCAGTGTGAACAGGA
CGATCCTGTACTCGCTATGTGACTGGGGCCAGGCGGATGTTAATGCCTGG
GGAAATGCAACAGGAAATAGTTGGCGCATGTCAGGGGATATCACGGCAAC
CTGGTCCCGCATCGCCGAAATCGCCAACGAAAACAGCTTCCTCATGAACT
ACGCCAACTTCTGGGGCTATCCGGACCCAGACATGCTGGAAGTGGGCAAT
GGGAATCTGACACTTCCCGAGAATAGAGCGCATTTTGCCCTTTGGGCGAT
GATGAAGGCGCCGTTGATTATTGGGACGCCTTTGGATTCAATCGATACCT
CCCACCTCACTATCCTCTCCAACAAACCCCTGCTCACCTTCCACCAAGAC
GCTGTGATCGGTCGTCCTGCGTACCCGTATAAATGGGGATATAATCCCGA
TTGGACGTTTGATCCGGAGCATCCGGCGGAGTATTGGTCTGGGCCGACTT
CTTCTGGGGAGGTGTTTGTGTTGATGTTGAATTCGGAGGGGGAGGTCAAG
ACTCGCTCGGCGGTTTGGGAGGAGGTGCCTGAGTTGAAGGACAGAGGTAC
GAAGAAGAATTCGAAGGAGAAGAAGGGGTTTAAGGTGACGGATGCGTGGA
CGGGCAAGGACCTGGGGTGTGTCAAGGATAAGTATGAGGTTAAGTTGCAG
GCGCATGATGTCGCGGTTTTGGTGGTGGGAGGGCAATGTTAGATGCGGTG
GCTTCTCACCTCGTCCGCACTGTTAGTGCCGGCCGCAGCCCTGGTTCGAC
CCGATGGCGTGGGCCTCACTCCTGCCCTTGGCTGGAACTCTTGGAACGCA
TACAGCTGCGACATTGATGCCGACAAAATCGTGACTGCCGCCAACGAGGT
GGTCAATCTGGGGTTGAAGGACCTGGGATATGAGTATATCAACATCGACG
ACTGCTGGTCCGTCAAATCCGGCCGCAACACCACCACCAAACGCATCATC
CCCGACCCAGACAAATTCCCCAATGGCATCTCCGGCGTCGCAGACCAGGT
GCACGCTTTGGGATTGAAGCTGGGAATCTACAGCAGCGCCGGCCTCACCA
CCTGCGCCGGCTACCCCGCCAGTCTAGGCTACGAAGAAATCGACGCGCAA
TCCTTTGCCGAATGGGGGATTGACTACCTAAAATACGACAACTGCGGCGT
CCCCACCAACCTCACAGACCAATACACCTACTGCGTCCCCGACAGCACCG
ACGGCTCCAACTACCCCAACGGCACCTGCGTGAACCTCACGGACGCCGCA
CCCCAGGGGTACGACTGGGCCACCTCCACCACGGCGAAGCGGTACCAGCG
CATGCGCGATGCCCTGCTCAGTGTGAACAGGACGATCCTGTACTCGCTAT
GTGACTGGGGCCAGGCGGATGTTAATGCCTGGGGAAATGCAACAGGAAAT
AGTTGGCGCATGTCAGGGGATATCACGGCAACCTGGTCCCGCATCGCCGA
AATCGCCAACGAAAACAGCTTCCTCATGAACTACGCCAACTTCTGGGGCT
ATCCGGACCCAGACATGCTGGAAGTGGGCAATGGGAATCTGACACTTCCC
GAGAATAGAGCGCATTTTGCCCTTTGGGCGATGATGAAGGCGCCGTTGAT
TATTGGGACGCCTTTGGATTCAATCGATACCTCCCACCTCACTATCCTCT
CCAACAAACCCCTGCTCACCTTCCACCAAGACGCTGTGATCGGTCGTCCT
GCGTACCCGTATAAATGGGGATATAATCCCGATTGGACGTTTGATCCGGA
GCATCCGGCGGAGTATTGGTCTGGGCCGACTTCTTCTGGGGAGGTGTTTG
TGTTGATGTTGAATTCGGAGGGGGAGGTCAAGACTCGCTCGGCGGTTTGG
GAGGAGGTGCCTGAGTTGAAGGACAGAGGTACGAAGAAGAATTCGAAGGA
GAAGAAGGGGTTTAAGGTGACGGATGCGTGGACGGGCAAGGACCTGGGGT
GTGTCAAGGATAAGTATGAGGTTAAGTTGCAGGCGCATGATGTCGCGGTT
TTGGTGGTGGGAGGGCAATGTTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0004553 | hydrolase activity, hydrolyzing O-glycosyl compounds |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-16) |
| DBxref | InterPro:IPR017853 |
| DBxref | InterPro:IPR000111 |
| DBxref | InterPro:IPR041233 |
| DBxref | InterPro:IPR013780 |
| DBxref | InterPro:IPR013785 |
| DBxref | InterPro:IPR002241 |
| DBxref | PFAM:PF17801 |
| Product | alpha-galactosidase |
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 | ACJE01000010.1:2868999..2870852 + |
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