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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:2928664..2931665- Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_197786-T1 ID=ASPNIDRAFT_197786-T1|Name=ASPNIDRAFT_197786-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3002bp|location=Sequence derived from alignment at ACJE01000010.1:2928664..2931665- (Aspergillus niger ATCC 1015)
GATGACAACAACGAATTCCTCCCCATGAGCAGTCCACGGCCGTCCACGTC
CTCAACATCCTCCGATTCGGGTCTCTCCGTCGATACCACCGCCTACCCCG
AAGAATCCAAGTACACTTCAACCGCCCCCGGCGCCGGTGGACTGTCCGAT
GAGAATAGATACCGAGATGTAGAAGAGGGAGAAGCAGGGGCAGACGAGCC
GTTCCTCCCTTCGGCAAAGAAGCAAGCTGCCTCCGGAAGCCGCACGTCTC
GTCTGATTTGGGGCCTGGTGATACTCTGCGTCGCCGGTTGGCTTTGGGGC
CTGGTGTTGTTTGTGACTCAAAATCGCTCGGCCCAGCAGTCAGTTTCCGA
AGCGCTGCAATCGCACGAGTCGGGTGCGATCTCCGGGAGTTCGAGTTCTG
GAAAACCGGTTACGCTGGAGCAGGTGCTTACGGGACAGTGGCTTCCTCGG
TCCCATGCTGTTTCTTGGATTGCAGGACCTAATGGCGAGGATGGTCTTTT
GGTGGAGCAAGGAGAGGATCAGGGCAAGGGATATTTGCGGGTCGACGACA
TTCGGAGTCGCAAAGGCGATGCGACTAGCCAGGAAAGCAGGGTGCTGATG
GAAAAGGCAATTGTGCAAGTGGATGGACGGACGATCTTCCCGGTCTCAAC
ATGGCCGAGCCCAAACTTGAACAAGGTGCTGCTTTTGTCCGAGCGCGAGA
AGAACTGGAGACACTCTTTCACTGGGAAATATTGGATCTTCGATGTGGCT
ACCCAAACCGCACAGCCGCTTGACCCAAGTAACCCTGATGGACGCGTGCA
GCTCGCAATCTGGTCGCCAACCTCAGACATGGTTGCCTTCGTGAGGGACA
ACAACTTGTACTTGCGTAGATTGTCCTCGAAGGAGGTGGTTCCTATTACA
AAAGACGGCGGTGCGGATCTTTTCTACGGCATTCCCGATTGGGTCTATGA
GGAAGAGGTCTTTTCGGGCAATAGTGTAACATGGTGGTCTGGAGACGGGA
AATACGTGGCTTTCCTGCGAACCAACGAGACGGCTGTCCCTGAATTTCCC
GTCCAGTACTACCTGTCACGGCCATCTGGCAAGCGACCTCCCCCGGGGCT
GGAGGATTACCCAGAAGTCAGGGAGATCAAGTACCCCAAGGCTGGCGCTC
CCAACCCCGTTGTCAGTCTGCAGTTCTACGACGTTGAGAAACAAGAAGTC
TTCTCGATCGAAGCACCGGATGATTTCGAGGATGACGATCGCATCGTCAT
TGAGATCGTGTGGGGCACCGAAGGGAAGATCCTTGTGCGCGCAACCAACC
GAGAAAGCGATGTCCTGAAGGTGTTCTTGTTCGACACGAAAGCCAGAACC
AGCAAACTTGTACGTACTGAGAATGTCGCTGATATCGACGGTGGCTGGGT
AGAGCCTACGCAGTACACATGGTTCATCCCAGCAGATCCCAGCAATGGCC
GCCCTCATGATGGATATCTCGATACTGTGATCCACGAGGGTTACGAGCAC
CTGGGTTACTTCACGCCCCTGGACAACTCAGAACCCATTCTCCTCACCCA
GGGTGAGTGGGAAGTAGTGGACGCGCCAACCGCCGTGGACTTGCGCAAAG
GCATCGTGTACTTCATCTCTACAAAGGAATCCCCCACTGAGCGACACCTC
TACCAGGTGAATCTAGACGGATCCAACCTCAAGCCTCTAACAGACACCTC
CAAGCCCGGCTACTACGACGTATCCTTCTCCCACGGAACCGGCTACGCCC
TGCTCAGCTACCGAGGTCCTTCCATTCCATGGCAAGCGATCGTCAACACC
GAGACCGACGAGCTGAAGTACGAGGAGACCATCGAAGACAACGCCGGTCT
GGCACGTATGGTTGACTCATACGCCCTTCCCACTGAGATCTACCAGAACG
TGACGATCGACGGCTTCACCCTACAAGTCGTCGAGCGCCGTCCCCCACAC
TTCAACCCAGCCAAGAAGTACCCGGTCCTCTTCTACCTCTACAACGGCCC
ACGCTCCCAAACCGTCGACCGCAAATTCAGCATCGACTTCCAATCCTACG
TCGCCTCCAGCCTCGGCTACATCGTCGTGACCGTCGACGGCCGCGGCACC
GGTTTCTCTGGCCGCAAAACCCGCTGCATCGTCCGCGGCAACCTAGGCTA
CTACGAAGCCTACGACCAAATCACCACGGCGAAGCTCTGGGGCGAGAAGC
CTTACGTCGATGAAACCCGCATGTCCATCTGGGGCTGGAGTTACGGCGGA
TTCATGACACTTAAGACATTGGAACAAGATGCCGGGCAGACCTTCCAGTA
CGGCATGGCCGTAGCCCCTGTGACTGACTGGCGACATTATGGTAGGCCCC
TCCTTAACCCTCTCCTCTTATAAACTCACACTAAAACTAATAATAAATAG
ACTCGATCTACACCGAACGCTACATGCACACCCCAGCCCACAACCCCAAC
GGCTACGACAACACCTCCATAACCGACATGACCGCTCTCCAACAAACCGT
GCGATTCCTCGTCATCCACGGCGCCTCGGACGACAACGTCCACATTCAAA
ACACGCTCGTCCTCGTGGATAAACTGGACCTGGCGGGCGTGCAGAACTAC
GATTTGCATTTCTATCCAGATTCAGATCATAGTATCAACTTTCACAATGC
GCATAGGATGGTTTATGAGCGTGAGCCCCCCTTCCCTTCCCCAATCCCGT
GGATGTCAAGTACGGGTGGTATTGAGACATGTACTGATGATATTGATAAT
AGGACTATCGAGCTGGCTCGTCAACGCTTTCAACGATGAATGGCATCGCA
TAGCGGATCCGGTCCCGGATGACTCAATGTGGGAGAAGGTGAAGAGGTCG
TTGCCGATGTTGGTGAATTGAATTGAATTGATTTGTTTGATACTAGTGCA
TACATATATATCATGGTTTCGGGGTCATATCTAGTTCCTACATACTACAT
AGCATGATACGTATGTATGGACATGTCAAAGGCGTTTTCTATTCACTATA
GG back to topCoding sequence (CDS) from alignment at ACJE01000010.1:2928664..2931665- >ASPNIDRAFT_197786-T1 ID=ASPNIDRAFT_197786-T1|Name=ASPNIDRAFT_197786-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8118bp|location=Sequence derived from alignment at ACJE01000010.1:2928664..2931665- (Aspergillus niger ATCC 1015)
GACTATCGAGCTGGCTCGTCAACGCTTTCAACGATGAATGGCATCGCATA
GCGGATCCGGTCCCGGATGACTCAATGTGGGAGAAGGTGAAGAGGTCGTT
GCCGATGTTGGTGAATTGAACTCGATCTACACCGAACGCTACATGCACAC
CCCAGCCCACAACCCCAACGGCTACGACAACACCTCCATAACCGACATGA
CCGCTCTCCAACAAACCGTGCGATTCCTCGTCATCCACGGCGCCTCGGAC
GACAACGTCCACATTCAAAACACGCTCGTCCTCGTGGATAAACTGGACCT
GGCGGGCGTGCAGAACTACGATTTGCATTTCTATCCAGATTCAGATCATA
GTATCAACTTTCACAATGCGCATAGGATGGTTTATGAGCATGAGCAGTCC
ACGGCCGTCCACGTCCTCAACATCCTCCGATTCGGGTCTCTCCGTCGATA
CCACCGCCTACCCCGAAGAATCCAAGTACACTTCAACCGCCCCCGGCGCC
GGTGGACTGTCCGATGAGAATAGATACCGAGATGTAGAAGAGGGAGAAGC
AGGGGCAGACGAGCCGTTCCTCCCTTCGGCAAAGAAGCAAGCTGCCTCCG
GAAGCCGCACGTCTCGTCTGATTTGGGGCCTGGTGATACTCTGCGTCGCC
GGTTGGCTTTGGGGCCTGGTGTTGTTTGTGACTCAAAATCGCTCGGCCCA
GCAGTCAGTTTCCGAAGCGCTGCAATCGCACGAGTCGGGTGCGATCTCCG
GGAGTTCGAGTTCTGGAAAACCGGTTACGCTGGAGCAGGTGCTTACGGGA
CAGTGGCTTCCTCGGTCCCATGCTGTTTCTTGGATTGCAGGACCTAATGG
CGAGGATGGTCTTTTGGTGGAGCAAGGAGAGGATCAGGGCAAGGGATATT
TGCGGGTCGACGACATTCGGAGTCGCAAAGGCGATGCGACTAGCCAGGAA
AGCAGGGTGCTGATGGAAAAGGCAATTGTGCAAGTGGATGGACGGACGAT
CTTCCCGGTCTCAACATGGCCGAGCCCAAACTTGAACAAGGTGCTGCTTT
TGTCCGAGCGCGAGAAGAACTGGAGACACTCTTTCACTGGGAAATATTGG
ATCTTCGATGTGGCTACCCAAACCGCACAGCCGCTTGACCCAAGTAACCC
TGATGGACGCGTGCAGCTCGCAATCTGGTCGCCAACCTCAGACATGGTTG
CCTTCGTGAGGGACAACAACTTGTACTTGCGTAGATTGTCCTCGAAGGAG
GTGGTTCCTATTACAAAAGACGGCGGTGCGGATCTTTTCTACGGCATTCC
CGATTGGGTCTATGAGGAAGAGGTCTTTTCGGGCAATAGTGTAACATGGT
GGTCTGGAGACGGGAAATACGTGGCTTTCCTGCGAACCAACGAGACGGCT
GTCCCTGAATTTCCCGTCCAGTACTACCTGTCACGGCCATCTGGCAAGCG
ACCTCCCCCGGGGCTGGAGGATTACCCAGAAGTCAGGGAGATCAAGTACC
CCAAGGCTGGCGCTCCCAACCCCGTTGTCAGTCTGCAGTTCTACGACGTT
GAGAAACAAGAAGTCTTCTCGATCGAAGCACCGGATGATTTCGAGGATGA
CGATCGCATCGTCATTGAGATCGTGTGGGGCACCGAAGGGAAGATCCTTG
TGCGCGCAACCAACCGAGAAAGCGATGTCCTGAAGGTGTTCTTGTTCGAC
ACGAAAGCCAGAACCAGCAAACTTGTACGTACTGAGAATGTCGCTGATAT
CGACGGTGGCTGGGTAGAGCCTACGCAGTACACATGGTTCATCCCAGCAG
ATCCCAGCAATGGCCGCCCTCATGATGGATATCTCGATACTGTGATCCAC
GAGGGTTACGAGCACCTGGGTTACTTCACGCCCCTGGACAACTCAGAACC
CATTCTCCTCACCCAGGGTGAGTGGGAAGTAGTGGACGCGCCAACCGCCG
TGGACTTGCGCAAAGGCATCGTGTACTTCATCTCTACAAAGGAATCCCCC
ACTGAGCGACACCTCTACCAGGTGAATCTAGACGGATCCAACCTCAAGCC
TCTAACAGACACCTCCAAGCCCGGCTACTACGACGTATCCTTCTCCCACG
GAACCGGCTACGCCCTGCTCAGCTACCGAGGTCCTTCCATTCCATGGCAA
GCGATCGTCAACACCGAGACCGACGAGCTGAAGTACGAGGAGACCATCGA
AGACAACGCCGGTCTGGCACGTATGGTTGACTCATACGCCCTTCCCACTG
AGATCTACCAGAACGTGACGATCGACGGCTTCACCCTACAAGTCGTCGAG
CGCCGTCCCCCACACTTCAACCCAGCCAAGAAGTACCCGGTCCTCTTCTA
CCTCTACAACGGCCCACGCTCCCAAACCGTCGACCGCAAATTCAGCATCG
ACTTCCAATCCTACGTCGCCTCCAGCCTCGGCTACATCGTCGTGACCGTC
GACGGCCGCGGCACCGGTTTCTCTGGCCGCAAAACCCGCTGCATCGTCCG
CGGCAACCTAGGCTACTACGAAGCCTACGACCAAATCACCACGGCGAAGC
TCTGGGGCGAGAAGCCTTACGTCGATGAAACCCGCATGTCCATCTGGGGC
TGGAGTTACGGCGGATTCATGACACTTAAGACATTGGAACAAGATGCCGG
GCAGACCTTCCAGTACGGCATGGCCGTAGCCCCTGTGACTGACTGGCGAC
ATTATGGACTATCGAGCTGGCTCGTCAACGCTTTCAACGATGAATGGCAT
CGCATAGCGGATCCGGTCCCGGATGACTCAATGTGGGAGAAGGTGAAGAG
GTCGTTGCCGATGTTGGTGAATTGAACTCGATCTACACCGAACGCTACAT
GCACACCCCAGCCCACAACCCCAACGGCTACGACAACACCTCCATAACCG
ACATGACCGCTCTCCAACAAACCGTGCGATTCCTCGTCATCCACGGCGCC
TCGGACGACAACGTCCACATTCAAAACACGCTCGTCCTCGTGGATAAACT
GGACCTGGCGGGCGTGCAGAACTACGATTTGCATTTCTATCCAGATTCAG
ATCATAGTATCAACTTTCACAATGCGCATAGGATGGTTTATGAGCATGAG
CAGTCCACGGCCGTCCACGTCCTCAACATCCTCCGATTCGGGTCTCTCCG
TCGATACCACCGCCTACCCCGAAGAATCCAAGTACACTTCAACCGCCCCC
GGCGCCGGTGGACTGTCCGATGAGAATAGATACCGAGATGTAGAAGAGGG
AGAAGCAGGGGCAGACGAGCCGTTCCTCCCTTCGGCAAAGAAGCAAGCTG
CCTCCGGAAGCCGCACGTCTCGTCTGATTTGGGGCCTGGTGATACTCTGC
GTCGCCGGTTGGCTTTGGGGCCTGGTGTTGTTTGTGACTCAAAATCGCTC
GGCCCAGCAGTCAGTTTCCGAAGCGCTGCAATCGCACGAGTCGGGTGCGA
TCTCCGGGAGTTCGAGTTCTGGAAAACCGGTTACGCTGGAGCAGGTGCTT
ACGGGACAGTGGCTTCCTCGGTCCCATGCTGTTTCTTGGATTGCAGGACC
TAATGGCGAGGATGGTCTTTTGGTGGAGCAAGGAGAGGATCAGGGCAAGG
GATATTTGCGGGTCGACGACATTCGGAGTCGCAAAGGCGATGCGACTAGC
CAGGAAAGCAGGGTGCTGATGGAAAAGGCAATTGTGCAAGTGGATGGACG
GACGATCTTCCCGGTCTCAACATGGCCGAGCCCAAACTTGAACAAGGTGC
TGCTTTTGTCCGAGCGCGAGAAGAACTGGAGACACTCTTTCACTGGGAAA
TATTGGATCTTCGATGTGGCTACCCAAACCGCACAGCCGCTTGACCCAAG
TAACCCTGATGGACGCGTGCAGCTCGCAATCTGGTCGCCAACCTCAGACA
TGGTTGCCTTCGTGAGGGACAACAACTTGTACTTGCGTAGATTGTCCTCG
AAGGAGGTGGTTCCTATTACAAAAGACGGCGGTGCGGATCTTTTCTACGG
CATTCCCGATTGGGTCTATGAGGAAGAGGTCTTTTCGGGCAATAGTGTAA
CATGGTGGTCTGGAGACGGGAAATACGTGGCTTTCCTGCGAACCAACGAG
ACGGCTGTCCCTGAATTTCCCGTCCAGTACTACCTGTCACGGCCATCTGG
CAAGCGACCTCCCCCGGGGCTGGAGGATTACCCAGAAGTCAGGGAGATCA
AGTACCCCAAGGCTGGCGCTCCCAACCCCGTTGTCAGTCTGCAGTTCTAC
GACGTTGAGAAACAAGAAGTCTTCTCGATCGAAGCACCGGATGATTTCGA
GGATGACGATCGCATCGTCATTGAGATCGTGTGGGGCACCGAAGGGAAGA
TCCTTGTGCGCGCAACCAACCGAGAAAGCGATGTCCTGAAGGTGTTCTTG
TTCGACACGAAAGCCAGAACCAGCAAACTTGTACGTACTGAGAATGTCGC
TGATATCGACGGTGGCTGGGTAGAGCCTACGCAGTACACATGGTTCATCC
CAGCAGATCCCAGCAATGGCCGCCCTCATGATGGATATCTCGATACTGTG
ATCCACGAGGGTTACGAGCACCTGGGTTACTTCACGCCCCTGGACAACTC
AGAACCCATTCTCCTCACCCAGGGTGAGTGGGAAGTAGTGGACGCGCCAA
CCGCCGTGGACTTGCGCAAAGGCATCGTGTACTTCATCTCTACAAAGGAA
TCCCCCACTGAGCGACACCTCTACCAGGTGAATCTAGACGGATCCAACCT
CAAGCCTCTAACAGACACCTCCAAGCCCGGCTACTACGACGTATCCTTCT
CCCACGGAACCGGCTACGCCCTGCTCAGCTACCGAGGTCCTTCCATTCCA
TGGCAAGCGATCGTCAACACCGAGACCGACGAGCTGAAGTACGAGGAGAC
CATCGAAGACAACGCCGGTCTGGCACGTATGGTTGACTCATACGCCCTTC
CCACTGAGATCTACCAGAACGTGACGATCGACGGCTTCACCCTACAAGTC
GTCGAGCGCCGTCCCCCACACTTCAACCCAGCCAAGAAGTACCCGGTCCT
CTTCTACCTCTACAACGGCCCACGCTCCCAAACCGTCGACCGCAAATTCA
GCATCGACTTCCAATCCTACGTCGCCTCCAGCCTCGGCTACATCGTCGTG
ACCGTCGACGGCCGCGGCACCGGTTTCTCTGGCCGCAAAACCCGCTGCAT
CGTCCGCGGCAACCTAGGCTACTACGAAGCCTACGACCAAATCACCACGG
CGAAGCTCTGGGGCGAGAAGCCTTACGTCGATGAAACCCGCATGTCCATC
TGGGGCTGGAGTTACGGCGGATTCATGACACTTAAGACATTGGAACAAGA
TGCCGGGCAGACCTTCCAGTACGGCATGGCCGTAGCCCCTGTGACTGACT
GGCGACATTATGGACTATCGAGCTGGCTCGTCAACGCTTTCAACGATGAA
TGGCATCGCATAGCGGATCCGGTCCCGGATGACTCAATGTGGGAGAAGGT
GAAGAGGTCGTTGCCGATGTTGGTGAATTGAACTCGATCTACACCGAACG
CTACATGCACACCCCAGCCCACAACCCCAACGGCTACGACAACACCTCCA
TAACCGACATGACCGCTCTCCAACAAACCGTGCGATTCCTCGTCATCCAC
GGCGCCTCGGACGACAACGTCCACATTCAAAACACGCTCGTCCTCGTGGA
TAAACTGGACCTGGCGGGCGTGCAGAACTACGATTTGCATTTCTATCCAG
ATTCAGATCATAGTATCAACTTTCACAATGCGCATAGGATGGTTTATGAG
CATGAGCAGTCCACGGCCGTCCACGTCCTCAACATCCTCCGATTCGGGTC
TCTCCGTCGATACCACCGCCTACCCCGAAGAATCCAAGTACACTTCAACC
GCCCCCGGCGCCGGTGGACTGTCCGATGAGAATAGATACCGAGATGTAGA
AGAGGGAGAAGCAGGGGCAGACGAGCCGTTCCTCCCTTCGGCAAAGAAGC
AAGCTGCCTCCGGAAGCCGCACGTCTCGTCTGATTTGGGGCCTGGTGATA
CTCTGCGTCGCCGGTTGGCTTTGGGGCCTGGTGTTGTTTGTGACTCAAAA
TCGCTCGGCCCAGCAGTCAGTTTCCGAAGCGCTGCAATCGCACGAGTCGG
GTGCGATCTCCGGGAGTTCGAGTTCTGGAAAACCGGTTACGCTGGAGCAG
GTGCTTACGGGACAGTGGCTTCCTCGGTCCCATGCTGTTTCTTGGATTGC
AGGACCTAATGGCGAGGATGGTCTTTTGGTGGAGCAAGGAGAGGATCAGG
GCAAGGGATATTTGCGGGTCGACGACATTCGGAGTCGCAAAGGCGATGCG
ACTAGCCAGGAAAGCAGGGTGCTGATGGAAAAGGCAATTGTGCAAGTGGA
TGGACGGACGATCTTCCCGGTCTCAACATGGCCGAGCCCAAACTTGAACA
AGGTGCTGCTTTTGTCCGAGCGCGAGAAGAACTGGAGACACTCTTTCACT
GGGAAATATTGGATCTTCGATGTGGCTACCCAAACCGCACAGCCGCTTGA
CCCAAGTAACCCTGATGGACGCGTGCAGCTCGCAATCTGGTCGCCAACCT
CAGACATGGTTGCCTTCGTGAGGGACAACAACTTGTACTTGCGTAGATTG
TCCTCGAAGGAGGTGGTTCCTATTACAAAAGACGGCGGTGCGGATCTTTT
CTACGGCATTCCCGATTGGGTCTATGAGGAAGAGGTCTTTTCGGGCAATA
GTGTAACATGGTGGTCTGGAGACGGGAAATACGTGGCTTTCCTGCGAACC
AACGAGACGGCTGTCCCTGAATTTCCCGTCCAGTACTACCTGTCACGGCC
ATCTGGCAAGCGACCTCCCCCGGGGCTGGAGGATTACCCAGAAGTCAGGG
AGATCAAGTACCCCAAGGCTGGCGCTCCCAACCCCGTTGTCAGTCTGCAG
TTCTACGACGTTGAGAAACAAGAAGTCTTCTCGATCGAAGCACCGGATGA
TTTCGAGGATGACGATCGCATCGTCATTGAGATCGTGTGGGGCACCGAAG
GGAAGATCCTTGTGCGCGCAACCAACCGAGAAAGCGATGTCCTGAAGGTG
TTCTTGTTCGACACGAAAGCCAGAACCAGCAAACTTGTACGTACTGAGAA
TGTCGCTGATATCGACGGTGGCTGGGTAGAGCCTACGCAGTACACATGGT
TCATCCCAGCAGATCCCAGCAATGGCCGCCCTCATGATGGATATCTCGAT
ACTGTGATCCACGAGGGTTACGAGCACCTGGGTTACTTCACGCCCCTGGA
CAACTCAGAACCCATTCTCCTCACCCAGGGTGAGTGGGAAGTAGTGGACG
CGCCAACCGCCGTGGACTTGCGCAAAGGCATCGTGTACTTCATCTCTACA
AAGGAATCCCCCACTGAGCGACACCTCTACCAGGTGAATCTAGACGGATC
CAACCTCAAGCCTCTAACAGACACCTCCAAGCCCGGCTACTACGACGTAT
CCTTCTCCCACGGAACCGGCTACGCCCTGCTCAGCTACCGAGGTCCTTCC
ATTCCATGGCAAGCGATCGTCAACACCGAGACCGACGAGCTGAAGTACGA
GGAGACCATCGAAGACAACGCCGGTCTGGCACGTATGGTTGACTCATACG
CCCTTCCCACTGAGATCTACCAGAACGTGACGATCGACGGCTTCACCCTA
CAAGTCGTCGAGCGCCGTCCCCCACACTTCAACCCAGCCAAGAAGTACCC
GGTCCTCTTCTACCTCTACAACGGCCCACGCTCCCAAACCGTCGACCGCA
AATTCAGCATCGACTTCCAATCCTACGTCGCCTCCAGCCTCGGCTACATC
GTCGTGACCGTCGACGGCCGCGGCACCGGTTTCTCTGGCCGCAAAACCCG
CTGCATCGTCCGCGGCAACCTAGGCTACTACGAAGCCTACGACCAAATCA
CCACGGCGAAGCTCTGGGGCGAGAAGCCTTACGTCGATGAAACCCGCATG
TCCATCTGGGGCTGGAGTTACGGCGGATTCATGACACTTAAGACATTGGA
ACAAGATGCCGGGCAGACCTTCCAGTACGGCATGGCCGTAGCCCCTGTGA
CTGACTGGCGACATTATG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008236 | serine-type peptidase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006508 | proteolysis |
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 three_prime_UTR 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 | MEROPS:MER0000405 |
| DBxref | InterPro:IPR001375 |
| DBxref | InterPro:IPR029058 |
| DBxref | InterPro:IPR002469 |
| DBxref | InterPro:IPR038554 |
| DBxref | PFAM:PF00326 |
| DBxref | PFAM:PF00930 |
| Product | dipeptidylpeptidase dapB |
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 | ACJE01000010.1:2928664..2931665 - |
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