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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000019.1:330511..332608+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_47817-T1 ID=ASPNIDRAFT_47817-T1|Name=ASPNIDRAFT_47817-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2098bp|location=Sequence derived from alignment at ACJE01000019.1:330511..332608+ (Aspergillus niger ATCC 1015)
ATGCATGTCTCACTTTTCCTACTCAGTGTTACGGCAGCGTTTGCCAGCCC
AACACCCCATAACTATGTTGTTCATGAGCGGCGCGATGCATTGCCCAGTG
TCTGGGTAGAAGAAAGCCGGCTGGACAAAGGTGCCCTACTGCCTATGCGG
ATAGGGCTTACTCAGTCCAACCTGGATCGTGGCCATGATTTATTGATGGA
GGTGTATGTGTTCCGACTCCTCACCAGAACCAAGCTGATTGTCCAGGTCT
CATCCACAATCGTCTCGCTACGGAAAGCATCTCTCCAGCGAGGAGGTGCA
CGACCTATTTGCCCCGTCGAATGAGGCCGTCGAGACCGTCCGAACCTGGA
TTGAATCCGCCGGAATTGCTCCAAGCCGCATCTCGCAATCATACAACAAG
CAGTGGCTACAGTTCGATGCCCATGCAAGCGAGGTTGAGCAGCTTCTGCA
GACGGAATACTACATCTACACCCATGCCGACACGGGAAGTTCCCATGTGA
CATGCCACGAGTGAGTCCATTTTCTACATGCCATGACACCGCTAACCAGT
TAGGTACCATGTGCCCGAAACCATCCAATCGCACATCGACTACATAACAC
CAGGAGTAAAGATGCTGGAAGTGCGCGGCACGCCCTCCAAAAAGAGAGAT
GCAGAGAAGCGCTCTCTTGGCAGTCTGCCCCCAATCTTAGCACCACTACC
AATCAATATCACGAAGATTTTCGACGACCCGCTAGCACACTGCGATCTGG
CGGTAACCCCAGACTGCATTCGAGGTACGTTCATCCATCCCAATTCAAGA
TTTCACGCTAACCGTCTAGCCATGTACAACATCACCAAAGGAACAACAGC
CACAAAGGGCAACGAGCTCGGCATCTTCGAGGACCTAGGAGACATCTACA
GCCAAGATGACCTCAACCTTTTCTTCGCCAACTTTGCCAGGTTCGATTAC
TCTCCACCCTCCCTTAGACACAACTAACACCACCAAGCGACATCCCACAG
GGAACCCATCCAACCCTCGACTCCATCGACGGCGCCACCGCCCCAACAGA
CGTCACAAACGCCGGCCCCGAATCCGACCTGGACTTCCAAATTGCCTACC
CAATTATCTGGCCCCAAAACACCATCCTCTACCAAACCGATGACCGCAAC
TACGAAGACAACTATAACTTCAAAGGACTCCTCAACAACCTCCTCTACGC
TATCGACGGCTCCTACTGCAATGAAACCTCCTCCCTAGACCCTCAATACC
CAGACCCCTCCCCAGGCGGCTACTCCTCCCCCAAGCAATGCGGCGTCTAC
ACCCCCACAAACGTAATCTCCATCTCCTACGGCAGCCCCGAAGCCGACCT
CCCCATCGCCTACCAACGCCGCCAATGCCACGAGTTCATGAAACTCGGCC
TTCAGGGCATCAGCGTGGTCGTCGCATCGGGCGACTCCGGCGTCGCGTCC
AGCACGGGCGCCTGCCTCGGCGATGCAGACAACGTCTTCGTCCCGGACTT
CCCAGCCACATGTCCCTATCTCACCGCAGTAGGAGGCACATACCTCCCCC
TAGGCGCAGACGCAGCCAAGGACCAGGAAATAGCAGTCACCCGCTTCCCC
TCCGGCGGCGGCTTCAGCAATATCTACGCCCGACCATCCTACCAGAACCA
CTCCGTGGAAGCCTATTTCTCCACTACCGCCGACGACCTCACCTACCCTT
ACTACTCCGGAGTAAACTACACAGACTTCTCCAACACAGATGGGATATAC
AACCGCATCGGACGAGGATACCCCGATGTCTCTGCTATCGCAGACAATAT
CATCATTTACAACCAGGGCGAAGCGACACTGGTGGGCGGTACGTCTGCCG
CGGCGCCGGCGTTCGCGGCCATGTTGACGCGCATCAACGAGGAGAGGTTG
GCGAAGGGGAAGCCCACGGTGGGGTTTGTGAATCCGGTGCTGTATGAACA
TCCTGAGGCGTTTAGGGATGTTACCGTTGGGTCGAATCCCGGGTGTGGGA
CCGATGGTTTCCCGGTTGCTGGGGGGTGGGATCCGGTGACGGGGTTGGGG
ACGCCGCGGTTTGAGGATTTGATGGATATATTTGTGGGTGATGATTGA back to topCoding sequence (CDS) from alignment at ACJE01000019.1:330511..332608+ >ASPNIDRAFT_47817-T1 ID=ASPNIDRAFT_47817-T1|Name=ASPNIDRAFT_47817-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9600bp|location=Sequence derived from alignment at ACJE01000019.1:330511..332608+ (Aspergillus niger ATCC 1015)
ATGCATGTCTCACTTTTCCTACTCAGTGTTACGGCAGCGTTTGCCAGCCC
AACACCCCATAACTATGTTGTTCATGAGCGGCGCGATGCATTGCCCAGTG
TCTGGGTAGAAGAAAGCCGGCTGGACAAAGGTGCCCTACTGCCTATGCGG
ATAGGGCTTACTCAGTCCAACCTGGATCGTGGCCATGATTTATTGATGGA
GGTGTCTCATCCACAATCGTCTCGCTACGGAAAGCATCTCTCCAGCGAGG
AGGTGCACGACCTATTTGCCCCGTCGAATGAGGCCGTCGAGACCGTCCGA
ACCTGGATTGAATCCGCCGGAATTGCTCCAAGCCGCATCTCGCAATCATA
CAACAAGCAGTGGCTACAGTTCGATGCCCATGCAAGCGAGGTTGAGCAGC
TTCTGCAGACGGAATACTACATCTACACCCATGCCGACACGGGAAGTTCC
CATGTGACATGCCACGAGTACCATGTGCCCGAAACCATCCAATCGCACAT
CGACTACATAACACCAGGAGTAAAGATGCTGGAAGTGCGCGGCACGCCCT
CCAAAAAGAGAGATGCAGAGAAGCGCTCTCTTGGCAGTCTGCCCCCAATC
TTAGCACCACTACCAATCAATATCACGAAGATTTTCGACGACCCGCTAGC
ACACTGCGATCTGGCGGTAACCCCAGACTGCATTCGAGCCATGTACAACA
TCACCAAAGGAACAACAGCCACAAAGGGCAACGAGCTCGGCATCTTCGAG
GACCTAGGAGACATCTACAGCCAAGATGACCTCAACCTTTTCTTCGCCAA
CTTTGCCAGCGACATCCCACAGGGAACCCATCCAACCCTCGACTCCATCG
ACGGCGCCACCGCCCCAACAGACGTCACAAACGCCGGCCCCGAATCCGAC
CTGGACTTCCAAATTGCCTACCCAATTATCTGGCCCCAAAACACCATCCT
CTACCAAACCGATGACCGCAACTACGAAGACAACTATAACTTCAAAGGAC
TCCTCAACAACCTCCTCTACGCTATCGACGGCTCCTACTGCAATGAAACC
TCCTCCCTAGACCCTCAATACCCAGACCCCTCCCCAGGCGGCTACTCCTC
CCCCAAGCAATGCGGCGTCTACACCCCCACAAACGTAATCTCCATCTCCT
ACGGCAGCCCCGAAGCCGACCTCCCCATCGCCTACCAACGCCGCCAATGC
CACGAGTTCATGAAACTCGGCCTTCAGGGCATCAGCGTGGTCGTCGCATC
GGGCGACTCCGGCGTCGCGTCCAGCACGGGCGCCTGCCTCGGCGATGCAG
ACAACGTCTTCGTCCCGGACTTCCCAGCCACATGTCCCTATCTCACCGCA
GTAGGAGGCACATACCTCCCCCTAGGCGCAGACGCAGCCAAGGACCAGGA
AATAGCAGTCACCCGCTTCCCCTCCGGCGGCGGCTTCAGCAATATCTACG
CCCGACCATCCTACCAGAACCACTCCGTGGAAGCCTATTTCTCCACTACC
GCCGACGACCTCACCTACCCTTACTACTCCGGAGTAAACTACACAGACTT
CTCCAACACAGATGGGATATACAACCGCATCGGACGAGGATACCCCGATG
TCTCTGCTATCGCAGACAATATCATCATTTACAACCAGGGCGAAGCGACA
CTGGTGGGCGGTACGTCTGCCGCGGCGCCGGCGTTCGCGGCCATGTTGAC
GCGCATCAACGAGGAGAGGTTGGCGAAGGGGAAGCCCACGGTGGGGTTTG
TGAATCCGGTGCTGTATGAACATCCTGAGGCGTTTAGGGATGTTACCGTT
GGGTCGAATCCCGGGTGTGGGACCGATGGTTTCCCGGTTGCTGGGGGGTG
GGATCCGGTGACGGGGTTGGGGACGCCGCGGTTTGAGGATTTGATGGATA
TATTTGTGGGTGATGATTGAATGCATGTCTCACTTTTCCTACTCAGTGTT
ACGGCAGCGTTTGCCAGCCCAACACCCCATAACTATGTTGTTCATGAGCG
GCGCGATGCATTGCCCAGTGTCTGGGTAGAAGAAAGCCGGCTGGACAAAG
GTGCCCTACTGCCTATGCGGATAGGGCTTACTCAGTCCAACCTGGATCGT
GGCCATGATTTATTGATGGAGGTGTCTCATCCACAATCGTCTCGCTACGG
AAAGCATCTCTCCAGCGAGGAGGTGCACGACCTATTTGCCCCGTCGAATG
AGGCCGTCGAGACCGTCCGAACCTGGATTGAATCCGCCGGAATTGCTCCA
AGCCGCATCTCGCAATCATACAACAAGCAGTGGCTACAGTTCGATGCCCA
TGCAAGCGAGGTTGAGCAGCTTCTGCAGACGGAATACTACATCTACACCC
ATGCCGACACGGGAAGTTCCCATGTGACATGCCACGAGTACCATGTGCCC
GAAACCATCCAATCGCACATCGACTACATAACACCAGGAGTAAAGATGCT
GGAAGTGCGCGGCACGCCCTCCAAAAAGAGAGATGCAGAGAAGCGCTCTC
TTGGCAGTCTGCCCCCAATCTTAGCACCACTACCAATCAATATCACGAAG
ATTTTCGACGACCCGCTAGCACACTGCGATCTGGCGGTAACCCCAGACTG
CATTCGAGCCATGTACAACATCACCAAAGGAACAACAGCCACAAAGGGCA
ACGAGCTCGGCATCTTCGAGGACCTAGGAGACATCTACAGCCAAGATGAC
CTCAACCTTTTCTTCGCCAACTTTGCCAGCGACATCCCACAGGGAACCCA
TCCAACCCTCGACTCCATCGACGGCGCCACCGCCCCAACAGACGTCACAA
ACGCCGGCCCCGAATCCGACCTGGACTTCCAAATTGCCTACCCAATTATC
TGGCCCCAAAACACCATCCTCTACCAAACCGATGACCGCAACTACGAAGA
CAACTATAACTTCAAAGGACTCCTCAACAACCTCCTCTACGCTATCGACG
GCTCCTACTGCAATGAAACCTCCTCCCTAGACCCTCAATACCCAGACCCC
TCCCCAGGCGGCTACTCCTCCCCCAAGCAATGCGGCGTCTACACCCCCAC
AAACGTAATCTCCATCTCCTACGGCAGCCCCGAAGCCGACCTCCCCATCG
CCTACCAACGCCGCCAATGCCACGAGTTCATGAAACTCGGCCTTCAGGGC
ATCAGCGTGGTCGTCGCATCGGGCGACTCCGGCGTCGCGTCCAGCACGGG
CGCCTGCCTCGGCGATGCAGACAACGTCTTCGTCCCGGACTTCCCAGCCA
CATGTCCCTATCTCACCGCAGTAGGAGGCACATACCTCCCCCTAGGCGCA
GACGCAGCCAAGGACCAGGAAATAGCAGTCACCCGCTTCCCCTCCGGCGG
CGGCTTCAGCAATATCTACGCCCGACCATCCTACCAGAACCACTCCGTGG
AAGCCTATTTCTCCACTACCGCCGACGACCTCACCTACCCTTACTACTCC
GGAGTAAACTACACAGACTTCTCCAACACAGATGGGATATACAACCGCAT
CGGACGAGGATACCCCGATGTCTCTGCTATCGCAGACAATATCATCATTT
ACAACCAGGGCGAAGCGACACTGGTGGGCGGTACGTCTGCCGCGGCGCCG
GCGTTCGCGGCCATGTTGACGCGCATCAACGAGGAGAGGTTGGCGAAGGG
GAAGCCCACGGTGGGGTTTGTGAATCCGGTGCTGTATGAACATCCTGAGG
CGTTTAGGGATGTTACCGTTGGGTCGAATCCCGGGTGTGGGACCGATGGT
TTCCCGGTTGCTGGGGGGTGGGATCCGGTGACGGGGTTGGGGACGCCGCG
GTTTGAGGATTTGATGGATATATTTGTGGGTGATGATTGAATGCATGTCT
CACTTTTCCTACTCAGTGTTACGGCAGCGTTTGCCAGCCCAACACCCCAT
AACTATGTTGTTCATGAGCGGCGCGATGCATTGCCCAGTGTCTGGGTAGA
AGAAAGCCGGCTGGACAAAGGTGCCCTACTGCCTATGCGGATAGGGCTTA
CTCAGTCCAACCTGGATCGTGGCCATGATTTATTGATGGAGGTGTCTCAT
CCACAATCGTCTCGCTACGGAAAGCATCTCTCCAGCGAGGAGGTGCACGA
CCTATTTGCCCCGTCGAATGAGGCCGTCGAGACCGTCCGAACCTGGATTG
AATCCGCCGGAATTGCTCCAAGCCGCATCTCGCAATCATACAACAAGCAG
TGGCTACAGTTCGATGCCCATGCAAGCGAGGTTGAGCAGCTTCTGCAGAC
GGAATACTACATCTACACCCATGCCGACACGGGAAGTTCCCATGTGACAT
GCCACGAGTACCATGTGCCCGAAACCATCCAATCGCACATCGACTACATA
ACACCAGGAGTAAAGATGCTGGAAGTGCGCGGCACGCCCTCCAAAAAGAG
AGATGCAGAGAAGCGCTCTCTTGGCAGTCTGCCCCCAATCTTAGCACCAC
TACCAATCAATATCACGAAGATTTTCGACGACCCGCTAGCACACTGCGAT
CTGGCGGTAACCCCAGACTGCATTCGAGCCATGTACAACATCACCAAAGG
AACAACAGCCACAAAGGGCAACGAGCTCGGCATCTTCGAGGACCTAGGAG
ACATCTACAGCCAAGATGACCTCAACCTTTTCTTCGCCAACTTTGCCAGC
GACATCCCACAGGGAACCCATCCAACCCTCGACTCCATCGACGGCGCCAC
CGCCCCAACAGACGTCACAAACGCCGGCCCCGAATCCGACCTGGACTTCC
AAATTGCCTACCCAATTATCTGGCCCCAAAACACCATCCTCTACCAAACC
GATGACCGCAACTACGAAGACAACTATAACTTCAAAGGACTCCTCAACAA
CCTCCTCTACGCTATCGACGGCTCCTACTGCAATGAAACCTCCTCCCTAG
ACCCTCAATACCCAGACCCCTCCCCAGGCGGCTACTCCTCCCCCAAGCAA
TGCGGCGTCTACACCCCCACAAACGTAATCTCCATCTCCTACGGCAGCCC
CGAAGCCGACCTCCCCATCGCCTACCAACGCCGCCAATGCCACGAGTTCA
TGAAACTCGGCCTTCAGGGCATCAGCGTGGTCGTCGCATCGGGCGACTCC
GGCGTCGCGTCCAGCACGGGCGCCTGCCTCGGCGATGCAGACAACGTCTT
CGTCCCGGACTTCCCAGCCACATGTCCCTATCTCACCGCAGTAGGAGGCA
CATACCTCCCCCTAGGCGCAGACGCAGCCAAGGACCAGGAAATAGCAGTC
ACCCGCTTCCCCTCCGGCGGCGGCTTCAGCAATATCTACGCCCGACCATC
CTACCAGAACCACTCCGTGGAAGCCTATTTCTCCACTACCGCCGACGACC
TCACCTACCCTTACTACTCCGGAGTAAACTACACAGACTTCTCCAACACA
GATGGGATATACAACCGCATCGGACGAGGATACCCCGATGTCTCTGCTAT
CGCAGACAATATCATCATTTACAACCAGGGCGAAGCGACACTGGTGGGCG
GTACGTCTGCCGCGGCGCCGGCGTTCGCGGCCATGTTGACGCGCATCAAC
GAGGAGAGGTTGGCGAAGGGGAAGCCCACGGTGGGGTTTGTGAATCCGGT
GCTGTATGAACATCCTGAGGCGTTTAGGGATGTTACCGTTGGGTCGAATC
CCGGGTGTGGGACCGATGGTTTCCCGGTTGCTGGGGGGTGGGATCCGGTG
ACGGGGTTGGGGACGCCGCGGTTTGAGGATTTGATGGATATATTTGTGGG
TGATGATTGAATGCATGTCTCACTTTTCCTACTCAGTGTTACGGCAGCGT
TTGCCAGCCCAACACCCCATAACTATGTTGTTCATGAGCGGCGCGATGCA
TTGCCCAGTGTCTGGGTAGAAGAAAGCCGGCTGGACAAAGGTGCCCTACT
GCCTATGCGGATAGGGCTTACTCAGTCCAACCTGGATCGTGGCCATGATT
TATTGATGGAGGTGTCTCATCCACAATCGTCTCGCTACGGAAAGCATCTC
TCCAGCGAGGAGGTGCACGACCTATTTGCCCCGTCGAATGAGGCCGTCGA
GACCGTCCGAACCTGGATTGAATCCGCCGGAATTGCTCCAAGCCGCATCT
CGCAATCATACAACAAGCAGTGGCTACAGTTCGATGCCCATGCAAGCGAG
GTTGAGCAGCTTCTGCAGACGGAATACTACATCTACACCCATGCCGACAC
GGGAAGTTCCCATGTGACATGCCACGAGTACCATGTGCCCGAAACCATCC
AATCGCACATCGACTACATAACACCAGGAGTAAAGATGCTGGAAGTGCGC
GGCACGCCCTCCAAAAAGAGAGATGCAGAGAAGCGCTCTCTTGGCAGTCT
GCCCCCAATCTTAGCACCACTACCAATCAATATCACGAAGATTTTCGACG
ACCCGCTAGCACACTGCGATCTGGCGGTAACCCCAGACTGCATTCGAGCC
ATGTACAACATCACCAAAGGAACAACAGCCACAAAGGGCAACGAGCTCGG
CATCTTCGAGGACCTAGGAGACATCTACAGCCAAGATGACCTCAACCTTT
TCTTCGCCAACTTTGCCAGCGACATCCCACAGGGAACCCATCCAACCCTC
GACTCCATCGACGGCGCCACCGCCCCAACAGACGTCACAAACGCCGGCCC
CGAATCCGACCTGGACTTCCAAATTGCCTACCCAATTATCTGGCCCCAAA
ACACCATCCTCTACCAAACCGATGACCGCAACTACGAAGACAACTATAAC
TTCAAAGGACTCCTCAACAACCTCCTCTACGCTATCGACGGCTCCTACTG
CAATGAAACCTCCTCCCTAGACCCTCAATACCCAGACCCCTCCCCAGGCG
GCTACTCCTCCCCCAAGCAATGCGGCGTCTACACCCCCACAAACGTAATC
TCCATCTCCTACGGCAGCCCCGAAGCCGACCTCCCCATCGCCTACCAACG
CCGCCAATGCCACGAGTTCATGAAACTCGGCCTTCAGGGCATCAGCGTGG
TCGTCGCATCGGGCGACTCCGGCGTCGCGTCCAGCACGGGCGCCTGCCTC
GGCGATGCAGACAACGTCTTCGTCCCGGACTTCCCAGCCACATGTCCCTA
TCTCACCGCAGTAGGAGGCACATACCTCCCCCTAGGCGCAGACGCAGCCA
AGGACCAGGAAATAGCAGTCACCCGCTTCCCCTCCGGCGGCGGCTTCAGC
AATATCTACGCCCGACCATCCTACCAGAACCACTCCGTGGAAGCCTATTT
CTCCACTACCGCCGACGACCTCACCTACCCTTACTACTCCGGAGTAAACT
ACACAGACTTCTCCAACACAGATGGGATATACAACCGCATCGGACGAGGA
TACCCCGATGTCTCTGCTATCGCAGACAATATCATCATTTACAACCAGGG
CGAAGCGACACTGGTGGGCGGTACGTCTGCCGCGGCGCCGGCGTTCGCGG
CCATGTTGACGCGCATCAACGAGGAGAGGTTGGCGAAGGGGAAGCCCACG
GTGGGGTTTGTGAATCCGGTGCTGTATGAACATCCTGAGGCGTTTAGGGA
TGTTACCGTTGGGTCGAATCCCGGGTGTGGGACCGATGGTTTCCCGGTTG
CTGGGGGGTGGGATCCGGTGACGGGGTTGGGGACGCCGCGGTTTGAGGAT
TTGATGGATATATTTGTGGGTGATGATTGAATGCATGTCTCACTTTTCCT
ACTCAGTGTTACGGCAGCGTTTGCCAGCCCAACACCCCATAACTATGTTG
TTCATGAGCGGCGCGATGCATTGCCCAGTGTCTGGGTAGAAGAAAGCCGG
CTGGACAAAGGTGCCCTACTGCCTATGCGGATAGGGCTTACTCAGTCCAA
CCTGGATCGTGGCCATGATTTATTGATGGAGGTGTCTCATCCACAATCGT
CTCGCTACGGAAAGCATCTCTCCAGCGAGGAGGTGCACGACCTATTTGCC
CCGTCGAATGAGGCCGTCGAGACCGTCCGAACCTGGATTGAATCCGCCGG
AATTGCTCCAAGCCGCATCTCGCAATCATACAACAAGCAGTGGCTACAGT
TCGATGCCCATGCAAGCGAGGTTGAGCAGCTTCTGCAGACGGAATACTAC
ATCTACACCCATGCCGACACGGGAAGTTCCCATGTGACATGCCACGAGTA
CCATGTGCCCGAAACCATCCAATCGCACATCGACTACATAACACCAGGAG
TAAAGATGCTGGAAGTGCGCGGCACGCCCTCCAAAAAGAGAGATGCAGAG
AAGCGCTCTCTTGGCAGTCTGCCCCCAATCTTAGCACCACTACCAATCAA
TATCACGAAGATTTTCGACGACCCGCTAGCACACTGCGATCTGGCGGTAA
CCCCAGACTGCATTCGAGCCATGTACAACATCACCAAAGGAACAACAGCC
ACAAAGGGCAACGAGCTCGGCATCTTCGAGGACCTAGGAGACATCTACAG
CCAAGATGACCTCAACCTTTTCTTCGCCAACTTTGCCAGCGACATCCCAC
AGGGAACCCATCCAACCCTCGACTCCATCGACGGCGCCACCGCCCCAACA
GACGTCACAAACGCCGGCCCCGAATCCGACCTGGACTTCCAAATTGCCTA
CCCAATTATCTGGCCCCAAAACACCATCCTCTACCAAACCGATGACCGCA
ACTACGAAGACAACTATAACTTCAAAGGACTCCTCAACAACCTCCTCTAC
GCTATCGACGGCTCCTACTGCAATGAAACCTCCTCCCTAGACCCTCAATA
CCCAGACCCCTCCCCAGGCGGCTACTCCTCCCCCAAGCAATGCGGCGTCT
ACACCCCCACAAACGTAATCTCCATCTCCTACGGCAGCCCCGAAGCCGAC
CTCCCCATCGCCTACCAACGCCGCCAATGCCACGAGTTCATGAAACTCGG
CCTTCAGGGCATCAGCGTGGTCGTCGCATCGGGCGACTCCGGCGTCGCGT
CCAGCACGGGCGCCTGCCTCGGCGATGCAGACAACGTCTTCGTCCCGGAC
TTCCCAGCCACATGTCCCTATCTCACCGCAGTAGGAGGCACATACCTCCC
CCTAGGCGCAGACGCAGCCAAGGACCAGGAAATAGCAGTCACCCGCTTCC
CCTCCGGCGGCGGCTTCAGCAATATCTACGCCCGACCATCCTACCAGAAC
CACTCCGTGGAAGCCTATTTCTCCACTACCGCCGACGACCTCACCTACCC
TTACTACTCCGGAGTAAACTACACAGACTTCTCCAACACAGATGGGATAT
ACAACCGCATCGGACGAGGATACCCCGATGTCTCTGCTATCGCAGACAAT
ATCATCATTTACAACCAGGGCGAAGCGACACTGGTGGGCGGTACGTCTGC
CGCGGCGCCGGCGTTCGCGGCCATGTTGACGCGCATCAACGAGGAGAGGT
TGGCGAAGGGGAAGCCCACGGTGGGGTTTGTGAATCCGGTGCTGTATGAA
CATCCTGAGGCGTTTAGGGATGTTACCGTTGGGTCGAATCCCGGGTGTGG
GACCGATGGTTTCCCGGTTGCTGGGGGGTGGGATCCGGTGACGGGGTTGG
GGACGCCGCGGTTTGAGGATTTGATGGATATATTTGTGGGTGATGATTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006508 | proteolysis |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004252 | serine-type endopeptidase activity |
| GO:0008236 | serine-type peptidase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-15) |
| Note | MEROPS:MER0005329 |
| DBxref | InterPro:IPR036852 |
| DBxref | InterPro:IPR030400 |
| DBxref | InterPro:IPR015366 |
| DBxref | PFAM:PF09286 |
| Product | Tripeptidyl-peptidase sed1 |
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 |
|---|
| ACJE01000019.1 | supercontig | ACJE01000019.1:330511..332608 + |
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