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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:4691229..4693247- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_49610-T1 ID=CAN33_49610-T1|Name=CAN33_49610-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2019bp|location=Sequence derived from alignment at NKJJ01000022.1:4691229..4693247- (Aspergillus niger FDAARGOS_311)
ATGTTGAGTAGTCTGCTGCTTGGGGGTCTTCTGGGTCTAGCGACCGCTCA
ATTTCCTCCCGAGCCGGAAGGCATCACTGTGCTCAAGTCCAAGCTGCATG
AGAATGTGACTATTTCTTTCAGAGAGGTGTGTGCAGAGTAATCAGAATTA
ACTTTTATGCTCGATGCCGTGCTGATTGTCAGCCTGAAATTTGCGAAACG
ACGCCGGGTGTCCGATCTTATTCGGGCTATGTACACCTTCCCCCGGGTTC
CTTTCCGACGGGACAGGAGAAGTGCAGGATTATCCTATCAACACGTAAGC
CAACCTCGAAACATTGGAGGATGAGCAATTACTGAGCCTCAACCAGCTTC
TTTTGGTTTTTCGAAGCCCGCAAAGATCCCAGCAATGCGCCTCTGGCCAT
CTGGCTCAATGGCGGTCCGGGTGGCTCGTCGCTCATGGGCTCCTGGAAGA
ATTAGGTCCCTGTTCCATTGCATCAGACTCCAAGACCACAGTTCTCAATC
CTTGGAGTTGGAACAATGAAGTCAATCTTCTATTCCTTGACCAGCCAACT
CAAGTCGGCTTCTCATACGATGTCCCAACAAATGGCACTTTGGTTCGGAC
TGCGGACGGCGAAGAAGAGATAGTTTCCGGTGATTTCTCCACTGATGTTC
CCCAGTCCAACTTCACCCATCATGTTGGTACCTTTGCAAGCCAGAAGCTT
GCACAGACAGCTAATGGGACTGAATTCGCGGCTCACGCTCTCTGGCATTT
CGCGCAAACCTGGTTTTTCGAATTCCCACACTACAAGCCAAACGATGATC
GCGTCAGTCTCTGGGCTGAAAGTTACGGAGGCCATTATGGTCCAGGCATC
TTTCGGTTCTTCCAACAGCAGAATGACAAAATCGCAGAGGGGACTGCAGA
AGACGGTGCACAGTATTTGCACCTCGACACGCTTGGCATTGTGAACGGCT
TGATGGATATGGTGATCCAAGAAGAGGCTTACATTACTTGGCCATACAAT
AACGTAAGGCTCGCCCCTTCTTCATTCAACTCGCGTAATGTCTAATTCAG
TCCAGACCTACGGCCTCGAAATCTTCGATAAACCCCTCTACGAAGAACTG
ATGTATAACTGGACGCATCCAGGAGGCTTTCGCGATCAGGCCCTCGCCTG
CGAAGCGGCTCTGAAAGAACGCGATTCCGGCTTGCCTCACTCAGGGCAGA
ATATCTCTGAAATTTGCGGAGGCCTTGCACTAGAATGGGGAGATGGTCCC
GTCACCTACTACCACACCTTCAATCGCGGGTGGTACGACATCGCCCATCC
TAAGAATGACCCATTCCCTGCCAAGCACATGCTCGGGTATTTGACGCAGG
AGTCCGTCCTCGCCGCACTTGGGGTACCCGTCAACTTCACATCTTCGTCG
AGTGCCGTGGCTACACAGTTCATAAAAACCTTTGATATCGTCCACGGCGG
CTTCCTGGATGCAATTGGCTACCTCCTCGACAGTGGTGTAAAAGTGCACA
TGATGTACGGAGATCGTGATTACGCCTGCAATTGGGTCGGGGGCGAAAAA
GCCAGCCTTGCAGTCCCGTATTCCCGTATCGCCGAATTTGCCGACACGGG
ATACTCCCCACTCCTTACGCCCGACGGGATCAGCGGCATGACCCGCCAGC
TCGGCAACTACAGCTTCACTCGCGTCTTCCAAGCCGGGCATGAGGTCCCC
TCCTACCAGCCTGTCGCGGCGTATGAGATCTTCATGCGGGCGACATTCAA
CAAAGATATCCCTACTGGCCTCTTGGCTGTTGATGACGAATTCCAGTCGG
TTGGACCTAAGGATACGTGGCATATCAAGAATATCCCTCCTATTATGCCA
AAGCCGCAGTGCTATGTTCTAAGTCCCGGCACGTGTACCCCGGAGGTTTG
GGAGACCGTTTTGAACGGATCCGCGACGGTAAAGGATTGGTATGTCGTGG
ATGATAGCGCGGGTGTGGAGGACCACGAGGGGTTCAGCATTCTTGGGGGG
ATGAGCTGTAGTAGCTTAG back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:4691229..4693247- >CAN33_49610-T1 ID=CAN33_49610-T1|Name=CAN33_49610-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9090bp|location=Sequence derived from alignment at NKJJ01000022.1:4691229..4693247- (Aspergillus niger FDAARGOS_311)
CTTAGACCTACGGCCTCGAAATCTTCGATAAACCCCTCTACGAAGAACTG
ATGTATAACTGGACGCATCCAGGAGGCTTTCGCGATCAGGCCCTCGCCTG
CGAAGCGGCTCTGAAAGAACGCGATTCCGGCTTGCCTCACTCAGGGCAGA
ATATCTCTGAAATTTGCGGAGGCCTTGCACTAGAATGGGGAGATGGTCCC
GTCACCTACTACCACACCTTCAATCGCGGGTGGTACGACATCGCCCATCC
TAAGAATGACCCATTCCCTGCCAAGCACATGCTCGGGTATTTGACGCAGG
AGTCCGTCCTCGCCGCACTTGGGGTACCCGTCAACTTCACATCTTCGTCG
AGTGCCGTGGCTACACAGTTCATAAAAACCTTTGATATCGTCCACGGCGG
CTTCCTGGATGCAATTGGCTACCTCCTCGACAGTGGTGTAAAAGTGCACA
TGATGTACGGAGATCGTGATTACGCCTGCAATTGGGTCGGGGGCGAAAAA
GCCAGCCTTGCAGTCCCGTATTCCCGTATCGCCGAATTTGCCGACACGGG
ATACTCCCCACTCCTTACGCCCGACGGGATCAGCGGCATGACCCGCCAGC
TCGGCAACTACAGCTTCACTCGCGTCTTCCAAGCCGGGCATGAGGTCCCC
TCCTACCAGCCTGTCGCGGCGTATGAGATCTTCATGCGGGCGACATTCAA
CAAAGATATCCCTACTGGCCTCTTGGCTGTTGATGACGAATTCCAGTCGG
TTGGACCTAAGGATACGTGGCATATCAAGAATATCCCTCCTATTATGCCA
AAGCCGCAGTGCTATGTTCTAAGTCCCGGCACGTGTACCCCGGAGGTTTG
GGAGACCGTTTTGAACGGATCCGCGACGGTAAAGGATTGGTATGTCGTGG
ATGATAGCGCGGCTTCTTTTGGTTTTTCGAAGCCCGCAAAGATCCCAGCA
ATGCGCCTCTGGCCATCTGGCTCAATGGCGGTCCGGGTGGCTCGTCGCTC
ATGGGCTCCTGGAAGAATTAGGTCCCTGTTCCATTGCATCAGACTCCAAG
ACCACAGTTCTCAATCCTTGGAGTTGGAACAATGAAGTCAATCTTCTATT
CCTTGACCAGCCAACTCAAGTCGGCTTCTCATACGATGTCCCAACAAATG
GCACTTTGGTTCGGACTGCGGACGGCGAAGAAGAGATAGTTTCCGGTGAT
TTCTCCACTGATGTTCCCCAGTCCAACTTCACCCATCATGTTGGTACCTT
TGCAAGCCAGAAGCTTGCACAGACAGCTAATGGGACTGAATTCGCGGCTC
ACGCTCTCTGGCATTTCGCGCAAACCTGGTTTTTCGAATTCCCACACTAC
AAGCCAAACGATGATCGCGTCAGTCTCTGGGCTGAAAGTTACGGAGGCCA
TTATGGTCCAGGCATCTTTCGGTTCTTCCAACAGCAGAATGACAAAATCG
CAGAGGGGACTGCAGAAGACGGTGCACAGTATTTGCACCTCGACACGCTT
GGCATTGTGAACGGCTTGATGGATATGGTGATCCAAGAAGAGGCTTACAT
TACTTGGCCATACAATAACCCTGAAATTTGCGAAACGACGCCGGGTGTCC
GATCTTATTCGGGCTATGTACACCTTCCCCCGGGTTCCTTTCCGACGGGA
CAGGAGAAGTGCAGGATTATCCTATCAACACATGTTGAGTAGTCTGCTGC
TTGGGGGTCTTCTGGGTCTAGCGACCGCTCAATTTCCTCCCGAGCCGGAA
GGCATCACTGTGCTCAAGTCCAAGCTGCATGAGAATGTGACTATTTCTTT
CAGAGAGGTGTGTGCAGACTTAGACCTACGGCCTCGAAATCTTCGATAAA
CCCCTCTACGAAGAACTGATGTATAACTGGACGCATCCAGGAGGCTTTCG
CGATCAGGCCCTCGCCTGCGAAGCGGCTCTGAAAGAACGCGATTCCGGCT
TGCCTCACTCAGGGCAGAATATCTCTGAAATTTGCGGAGGCCTTGCACTA
GAATGGGGAGATGGTCCCGTCACCTACTACCACACCTTCAATCGCGGGTG
GTACGACATCGCCCATCCTAAGAATGACCCATTCCCTGCCAAGCACATGC
TCGGGTATTTGACGCAGGAGTCCGTCCTCGCCGCACTTGGGGTACCCGTC
AACTTCACATCTTCGTCGAGTGCCGTGGCTACACAGTTCATAAAAACCTT
TGATATCGTCCACGGCGGCTTCCTGGATGCAATTGGCTACCTCCTCGACA
GTGGTGTAAAAGTGCACATGATGTACGGAGATCGTGATTACGCCTGCAAT
TGGGTCGGGGGCGAAAAAGCCAGCCTTGCAGTCCCGTATTCCCGTATCGC
CGAATTTGCCGACACGGGATACTCCCCACTCCTTACGCCCGACGGGATCA
GCGGCATGACCCGCCAGCTCGGCAACTACAGCTTCACTCGCGTCTTCCAA
GCCGGGCATGAGGTCCCCTCCTACCAGCCTGTCGCGGCGTATGAGATCTT
CATGCGGGCGACATTCAACAAAGATATCCCTACTGGCCTCTTGGCTGTTG
ATGACGAATTCCAGTCGGTTGGACCTAAGGATACGTGGCATATCAAGAAT
ATCCCTCCTATTATGCCAAAGCCGCAGTGCTATGTTCTAAGTCCCGGCAC
GTGTACCCCGGAGGTTTGGGAGACCGTTTTGAACGGATCCGCGACGGTAA
AGGATTGGTATGTCGTGGATGATAGCGCGGCTTCTTTTGGTTTTTCGAAG
CCCGCAAAGATCCCAGCAATGCGCCTCTGGCCATCTGGCTCAATGGCGGT
CCGGGTGGCTCGTCGCTCATGGGCTCCTGGAAGAATTAGGTCCCTGTTCC
ATTGCATCAGACTCCAAGACCACAGTTCTCAATCCTTGGAGTTGGAACAA
TGAAGTCAATCTTCTATTCCTTGACCAGCCAACTCAAGTCGGCTTCTCAT
ACGATGTCCCAACAAATGGCACTTTGGTTCGGACTGCGGACGGCGAAGAA
GAGATAGTTTCCGGTGATTTCTCCACTGATGTTCCCCAGTCCAACTTCAC
CCATCATGTTGGTACCTTTGCAAGCCAGAAGCTTGCACAGACAGCTAATG
GGACTGAATTCGCGGCTCACGCTCTCTGGCATTTCGCGCAAACCTGGTTT
TTCGAATTCCCACACTACAAGCCAAACGATGATCGCGTCAGTCTCTGGGC
TGAAAGTTACGGAGGCCATTATGGTCCAGGCATCTTTCGGTTCTTCCAAC
AGCAGAATGACAAAATCGCAGAGGGGACTGCAGAAGACGGTGCACAGTAT
TTGCACCTCGACACGCTTGGCATTGTGAACGGCTTGATGGATATGGTGAT
CCAAGAAGAGGCTTACATTACTTGGCCATACAATAACCCTGAAATTTGCG
AAACGACGCCGGGTGTCCGATCTTATTCGGGCTATGTACACCTTCCCCCG
GGTTCCTTTCCGACGGGACAGGAGAAGTGCAGGATTATCCTATCAACACA
TGTTGAGTAGTCTGCTGCTTGGGGGTCTTCTGGGTCTAGCGACCGCTCAA
TTTCCTCCCGAGCCGGAAGGCATCACTGTGCTCAAGTCCAAGCTGCATGA
GAATGTGACTATTTCTTTCAGAGAGGTGTGTGCAGACTTAGACCTACGGC
CTCGAAATCTTCGATAAACCCCTCTACGAAGAACTGATGTATAACTGGAC
GCATCCAGGAGGCTTTCGCGATCAGGCCCTCGCCTGCGAAGCGGCTCTGA
AAGAACGCGATTCCGGCTTGCCTCACTCAGGGCAGAATATCTCTGAAATT
TGCGGAGGCCTTGCACTAGAATGGGGAGATGGTCCCGTCACCTACTACCA
CACCTTCAATCGCGGGTGGTACGACATCGCCCATCCTAAGAATGACCCAT
TCCCTGCCAAGCACATGCTCGGGTATTTGACGCAGGAGTCCGTCCTCGCC
GCACTTGGGGTACCCGTCAACTTCACATCTTCGTCGAGTGCCGTGGCTAC
ACAGTTCATAAAAACCTTTGATATCGTCCACGGCGGCTTCCTGGATGCAA
TTGGCTACCTCCTCGACAGTGGTGTAAAAGTGCACATGATGTACGGAGAT
CGTGATTACGCCTGCAATTGGGTCGGGGGCGAAAAAGCCAGCCTTGCAGT
CCCGTATTCCCGTATCGCCGAATTTGCCGACACGGGATACTCCCCACTCC
TTACGCCCGACGGGATCAGCGGCATGACCCGCCAGCTCGGCAACTACAGC
TTCACTCGCGTCTTCCAAGCCGGGCATGAGGTCCCCTCCTACCAGCCTGT
CGCGGCGTATGAGATCTTCATGCGGGCGACATTCAACAAAGATATCCCTA
CTGGCCTCTTGGCTGTTGATGACGAATTCCAGTCGGTTGGACCTAAGGAT
ACGTGGCATATCAAGAATATCCCTCCTATTATGCCAAAGCCGCAGTGCTA
TGTTCTAAGTCCCGGCACGTGTACCCCGGAGGTTTGGGAGACCGTTTTGA
ACGGATCCGCGACGGTAAAGGATTGGTATGTCGTGGATGATAGCGCGGCT
TCTTTTGGTTTTTCGAAGCCCGCAAAGATCCCAGCAATGCGCCTCTGGCC
ATCTGGCTCAATGGCGGTCCGGGTGGCTCGTCGCTCATGGGCTCCTGGAA
GAATTAGGTCCCTGTTCCATTGCATCAGACTCCAAGACCACAGTTCTCAA
TCCTTGGAGTTGGAACAATGAAGTCAATCTTCTATTCCTTGACCAGCCAA
CTCAAGTCGGCTTCTCATACGATGTCCCAACAAATGGCACTTTGGTTCGG
ACTGCGGACGGCGAAGAAGAGATAGTTTCCGGTGATTTCTCCACTGATGT
TCCCCAGTCCAACTTCACCCATCATGTTGGTACCTTTGCAAGCCAGAAGC
TTGCACAGACAGCTAATGGGACTGAATTCGCGGCTCACGCTCTCTGGCAT
TTCGCGCAAACCTGGTTTTTCGAATTCCCACACTACAAGCCAAACGATGA
TCGCGTCAGTCTCTGGGCTGAAAGTTACGGAGGCCATTATGGTCCAGGCA
TCTTTCGGTTCTTCCAACAGCAGAATGACAAAATCGCAGAGGGGACTGCA
GAAGACGGTGCACAGTATTTGCACCTCGACACGCTTGGCATTGTGAACGG
CTTGATGGATATGGTGATCCAAGAAGAGGCTTACATTACTTGGCCATACA
ATAACCCTGAAATTTGCGAAACGACGCCGGGTGTCCGATCTTATTCGGGC
TATGTACACCTTCCCCCGGGTTCCTTTCCGACGGGACAGGAGAAGTGCAG
GATTATCCTATCAACACATGTTGAGTAGTCTGCTGCTTGGGGGTCTTCTG
GGTCTAGCGACCGCTCAATTTCCTCCCGAGCCGGAAGGCATCACTGTGCT
CAAGTCCAAGCTGCATGAGAATGTGACTATTTCTTTCAGAGAGGTGTGTG
CAGACTTAGACCTACGGCCTCGAAATCTTCGATAAACCCCTCTACGAAGA
ACTGATGTATAACTGGACGCATCCAGGAGGCTTTCGCGATCAGGCCCTCG
CCTGCGAAGCGGCTCTGAAAGAACGCGATTCCGGCTTGCCTCACTCAGGG
CAGAATATCTCTGAAATTTGCGGAGGCCTTGCACTAGAATGGGGAGATGG
TCCCGTCACCTACTACCACACCTTCAATCGCGGGTGGTACGACATCGCCC
ATCCTAAGAATGACCCATTCCCTGCCAAGCACATGCTCGGGTATTTGACG
CAGGAGTCCGTCCTCGCCGCACTTGGGGTACCCGTCAACTTCACATCTTC
GTCGAGTGCCGTGGCTACACAGTTCATAAAAACCTTTGATATCGTCCACG
GCGGCTTCCTGGATGCAATTGGCTACCTCCTCGACAGTGGTGTAAAAGTG
CACATGATGTACGGAGATCGTGATTACGCCTGCAATTGGGTCGGGGGCGA
AAAAGCCAGCCTTGCAGTCCCGTATTCCCGTATCGCCGAATTTGCCGACA
CGGGATACTCCCCACTCCTTACGCCCGACGGGATCAGCGGCATGACCCGC
CAGCTCGGCAACTACAGCTTCACTCGCGTCTTCCAAGCCGGGCATGAGGT
CCCCTCCTACCAGCCTGTCGCGGCGTATGAGATCTTCATGCGGGCGACAT
TCAACAAAGATATCCCTACTGGCCTCTTGGCTGTTGATGACGAATTCCAG
TCGGTTGGACCTAAGGATACGTGGCATATCAAGAATATCCCTCCTATTAT
GCCAAAGCCGCAGTGCTATGTTCTAAGTCCCGGCACGTGTACCCCGGAGG
TTTGGGAGACCGTTTTGAACGGATCCGCGACGGTAAAGGATTGGTATGTC
GTGGATGATAGCGCGGCTTCTTTTGGTTTTTCGAAGCCCGCAAAGATCCC
AGCAATGCGCCTCTGGCCATCTGGCTCAATGGCGGTCCGGGTGGCTCGTC
GCTCATGGGCTCCTGGAAGAATTAGGTCCCTGTTCCATTGCATCAGACTC
CAAGACCACAGTTCTCAATCCTTGGAGTTGGAACAATGAAGTCAATCTTC
TATTCCTTGACCAGCCAACTCAAGTCGGCTTCTCATACGATGTCCCAACA
AATGGCACTTTGGTTCGGACTGCGGACGGCGAAGAAGAGATAGTTTCCGG
TGATTTCTCCACTGATGTTCCCCAGTCCAACTTCACCCATCATGTTGGTA
CCTTTGCAAGCCAGAAGCTTGCACAGACAGCTAATGGGACTGAATTCGCG
GCTCACGCTCTCTGGCATTTCGCGCAAACCTGGTTTTTCGAATTCCCACA
CTACAAGCCAAACGATGATCGCGTCAGTCTCTGGGCTGAAAGTTACGGAG
GCCATTATGGTCCAGGCATCTTTCGGTTCTTCCAACAGCAGAATGACAAA
ATCGCAGAGGGGACTGCAGAAGACGGTGCACAGTATTTGCACCTCGACAC
GCTTGGCATTGTGAACGGCTTGATGGATATGGTGATCCAAGAAGAGGCTT
ACATTACTTGGCCATACAATAACCCTGAAATTTGCGAAACGACGCCGGGT
GTCCGATCTTATTCGGGCTATGTACACCTTCCCCCGGGTTCCTTTCCGAC
GGGACAGGAGAAGTGCAGGATTATCCTATCAACACATGTTGAGTAGTCTG
CTGCTTGGGGGTCTTCTGGGTCTAGCGACCGCTCAATTTCCTCCCGAGCC
GGAAGGCATCACTGTGCTCAAGTCCAAGCTGCATGAGAATGTGACTATTT
CTTTCAGAGAGGTGTGTGCAGACTTAGACCTACGGCCTCGAAATCTTCGA
TAAACCCCTCTACGAAGAACTGATGTATAACTGGACGCATCCAGGAGGCT
TTCGCGATCAGGCCCTCGCCTGCGAAGCGGCTCTGAAAGAACGCGATTCC
GGCTTGCCTCACTCAGGGCAGAATATCTCTGAAATTTGCGGAGGCCTTGC
ACTAGAATGGGGAGATGGTCCCGTCACCTACTACCACACCTTCAATCGCG
GGTGGTACGACATCGCCCATCCTAAGAATGACCCATTCCCTGCCAAGCAC
ATGCTCGGGTATTTGACGCAGGAGTCCGTCCTCGCCGCACTTGGGGTACC
CGTCAACTTCACATCTTCGTCGAGTGCCGTGGCTACACAGTTCATAAAAA
CCTTTGATATCGTCCACGGCGGCTTCCTGGATGCAATTGGCTACCTCCTC
GACAGTGGTGTAAAAGTGCACATGATGTACGGAGATCGTGATTACGCCTG
CAATTGGGTCGGGGGCGAAAAAGCCAGCCTTGCAGTCCCGTATTCCCGTA
TCGCCGAATTTGCCGACACGGGATACTCCCCACTCCTTACGCCCGACGGG
ATCAGCGGCATGACCCGCCAGCTCGGCAACTACAGCTTCACTCGCGTCTT
CCAAGCCGGGCATGAGGTCCCCTCCTACCAGCCTGTCGCGGCGTATGAGA
TCTTCATGCGGGCGACATTCAACAAAGATATCCCTACTGGCCTCTTGGCT
GTTGATGACGAATTCCAGTCGGTTGGACCTAAGGATACGTGGCATATCAA
GAATATCCCTCCTATTATGCCAAAGCCGCAGTGCTATGTTCTAAGTCCCG
GCACGTGTACCCCGGAGGTTTGGGAGACCGTTTTGAACGGATCCGCGACG
GTAAAGGATTGGTATGTCGTGGATGATAGCGCGGCTTCTTTTGGTTTTTC
GAAGCCCGCAAAGATCCCAGCAATGCGCCTCTGGCCATCTGGCTCAATGG
CGGTCCGGGTGGCTCGTCGCTCATGGGCTCCTGGAAGAATTAGGTCCCTG
TTCCATTGCATCAGACTCCAAGACCACAGTTCTCAATCCTTGGAGTTGGA
ACAATGAAGTCAATCTTCTATTCCTTGACCAGCCAACTCAAGTCGGCTTC
TCATACGATGTCCCAACAAATGGCACTTTGGTTCGGACTGCGGACGGCGA
AGAAGAGATAGTTTCCGGTGATTTCTCCACTGATGTTCCCCAGTCCAACT
TCACCCATCATGTTGGTACCTTTGCAAGCCAGAAGCTTGCACAGACAGCT
AATGGGACTGAATTCGCGGCTCACGCTCTCTGGCATTTCGCGCAAACCTG
GTTTTTCGAATTCCCACACTACAAGCCAAACGATGATCGCGTCAGTCTCT
GGGCTGAAAGTTACGGAGGCCATTATGGTCCAGGCATCTTTCGGTTCTTC
CAACAGCAGAATGACAAAATCGCAGAGGGGACTGCAGAAGACGGTGCACA
GTATTTGCACCTCGACACGCTTGGCATTGTGAACGGCTTGATGGATATGG
TGATCCAAGAAGAGGCTTACATTACTTGGCCATACAATAACCCTGAAATT
TGCGAAACGACGCCGGGTGTCCGATCTTATTCGGGCTATGTACACCTTCC
CCCGGGTTCCTTTCCGACGGGACAGGAGAAGTGCAGGATTATCCTATCAA
CACATGTTGAGTAGTCTGCTGCTTGGGGGTCTTCTGGGTCTAGCGACCGC
TCAATTTCCTCCCGAGCCGGAAGGCATCACTGTGCTCAAGTCCAAGCTGC
ATGAGAATGTGACTATTTCTTTCAGAGAGGTGTGTGCAGA 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:0004185 | serine-type carboxypeptidase activity |
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:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| Note | SECRETED:SignalP(1-16) |
| Note | MEROPS:MER0016549 |
| DBxref | InterPro:IPR029058 |
| DBxref | InterPro:IPR001563 |
| DBxref | PFAM:PF00450 |
| Product | Serine carboxypeptidase 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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:4691229..4693247 - |
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