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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000017.1:3370099..3374159+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_41560-T1 ID=CAN33_41560-T1|Name=CAN33_41560-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4061bp|location=Sequence derived from alignment at NKJJ01000017.1:3370099..3374159+ (Aspergillus niger FDAARGOS_311)
ATGGCATCGACCAACGAATTCCGCCTTGGAGTCGACGTCGGCGGTACCTT
CACTGACGTGTGCGTCTTCACTCCGAACGGGGAGACAGTCCGCGCCAAAG
TCCCCACCACGCCCAACCAAACGATCGGGATTAGACACGGGATCGCGAAA
GTGCGACGGGTTCTCAAGGAGCAGTATAACTGGGATGGGACATTTAGGTT
CATTCATCATGGTACCACGACGGCGACGAATGCCGTGTTAGAAGGCAAAG
GGGCGCGGACTGCCTTGGTGGTCACGGCTGGGCATAAAGATATTCTGGCT
GTGAGGCGTTCGCAGATTCCTGGGGGCCTTGGGGCGTGGCTTTATTACAC
CCCTCCTGAGCCGCCGGTGCCGCTGGAGAGGGTGGTTCAGTGTGCGGAGA
GAATGTCGGTTAGTGGGGAGACGGTGGTGGAGGTTGATGGAGAGAGGCTG
AAGGGGGATTTGCTGGAGTTGATGGAGAGGGAGAGGCCTGAGGCGGTGGC
AGTTTCGTTGCTGAGTTCGTATAAAAATTCTGCTCATGAGGAGGCTGTTG
CGAAGATAATTCGAGAGGTATGTGGGCCGGGGGTGTCGGTCAATTGCTCG
AGTGAAGTGTTGCGGGAGGTGGGCGAGTATGAGCGAACGGTCACGACGTG
TACCAATGCTTTGGTAAAGCCGGTGATGCAGAATTATCTGCGCGAGCTGT
CGGAGCACTTGGCATCGGAGACCGAGGCGATCCGGGTGTTGAAGAGTGAC
GGTGGTTTGACGAGTGTCGGCCTGGCCGGGGAATTCCCCGTGAATATCTT
GATGTCTGGGCCGGCTGGAGGAGCCAAAGGCGTGGCTGATGCGGTCGCTC
GAAGTACCCCGTACAAAAACCTCATTACTCTCGACATGGGGGGTACATCG
ACGGACTGTGCGCTCATTTTGGATGGAAAGCCGCGTATCCGTCGAGATAC
TGTTGTCGATACCCTAGCAGTTCGTGCACCGGCCGTGGATATTCATACCG
TTGGTGCTGGAGGTGGCTCAATCGCGACATATATGGAGCTCACTGAGACC
TTGCGGGTTGGGCCAGAGAGTGCTGGGGCAGCACCAGGTCCAGCTTGTTA
TGGAAAAGGGGGAACAGAAGCGACGGTCACCGATGCAAATCTCGTCCTGG
GATACTTGCCCCATACTCTATTGGGTGGAGAATTCTGCTTGGATACAGAG
GCAGCAAAGACCGCGGTTCAGAAGCTTGCCACGGCAATGGAACTTCCTCT
CAGACAAACGGCAGAGAACATAATTAACATTGTCAATGAAACAATGTATG
GTGCTGTTCGATTGGTTTCTGTTGAACAGGGATATGATCCAAGAGACTTT
GCACTCGTTGCCTTTGGTGGTGCTGGACCCCTGCATGCCAATGCTGTAGG
AAAGCTTCTAGGCGCGTGGCCCGTCATTGTCCCACCGTCTCCAGGCATTC
TGTGTGCACAGGGCGATCTGACAACCAAGTTGAGTCATGAGCAGTCCGTG
ACCTTTACTCGGCTGGTGAGAGATACCTCGTCGGAGGAACTGCGACGTCA
GGTGGATGAGCTGGAAAAACACTGCGAACAGACAATGCGAGAGTCTTGTG
GTTCAGACTGGCCTATGCCATTGGTTGCCACGTACGAGGTCGATGTCCGA
TACAAAGGGCAGGCTCTAACCATCACCATCAATCTCTTGCCCGACGAAAT
CCAACTAGATGATCAAGCTTGGCGTTGTGTGTTACAAGACGCATTCAACA
AAAAGCATCAACAGCAGTTTGGCTATTGTCTTCCCGACTTTGAACTCGAG
CTGATGCGTATCGGCGTAACCCTCGAGGACGGCTCCTCAGATGTGGAGCT
GCCAGTAGTCCCTAAAGCAGAATCTAGCGAGCCTACATCCTCGGCCGTCA
TAGGCACGCAGATTATTATCATCGAGGGCCAAGAACAGGTAGCGATGGTG
TGGGAGCGAGAGAAGATTACGCTCGAAGGCATCCGGGTTACAGGACCCTG
CATCATCACGGAGATGGACAGCAACACACTGATACTTCCCGGCTATTCAG
GTGAGATCGATCGGCTCGGCAATATTCTCATCCAGCCGATTGCAAAGCAA
CCATCCCCAACGACGCAGCATACCTCAGACTCAGCAGCAGACTTGATGCA
CAGTAACCCGCTCATCGCAACTCTGGTAGCCTCTTCACTGGCATGCATCC
GTGGCGAAATGGACAAATTGATGCTTCGCTGTAGCATGTCCCCTGCTATC
CGCGAACAGCAAGACGAATTCAATGTCATCACAACTGCAGAGGGCAAGAT
GCTCGTAGGCCAATTCGGCAGCTTCATCAAGGAGTTCCTTGAGGTGTGGA
CGGGAAGTATCGAAGAAGGCGATGTGTTCATTACCAATGACACATACATG
GTCAAAGGAGCTGTCAGTCACTTGAACGATGTGATTATCATCCTTCCCAT
CTTTCATGAACATCGGTTGATCGGCTGGGCTTCTCAATTTGGACACCTGA
CCGATGTCGGCGGCATGGTTCCGGGAAGCCTGTCCATCAACGCCACCTCC
ATCTATGACGATGGAGTCCAGATCCCATGTATCAAGCTCTACTCCCGAGG
GGTGATGAACAGCGACCTGGTCGACCTGCTATGTCGGAACTCCCGCCAAC
CGGCGTGGTATCGATCGGATTTGACGGCTCTGGTGACGGCATGTCGCATG
GCAGCAACGCGCATCTCCGAGCTGGCCACCCGCTTCGGAACCGAGGTGTA
TCTAGCTGCCTGTCAGGAGCTTCTACTTCGGAATCGAACGGGTCTAGCCA
AGATTGTAGAGCGTCAATTCGACGATCAACTCAGCACATTTACCGACTTT
GTCGATGACGACGGCCACGGCGTCGGACCCTGGGCCGTAACATGCTCAAT
GCAGAAGACCAGTGCGGGAGGGTTAAAGTTCGACTGGAGTGGTACTTCGC
CCCAGAGCGAGCACAGCATCAACTTTTACCTCTCCGAGACCATGTTCAAG
ATGCTCGTCGATACTACCTCATTGCCGCTGCCGCCCCGGGAACCGTCATC
AACGACGGGTTTCACGACCTCATTGAAGTGCATATCCCCGAGGGCACTGT
TCTAAAGCCAGTCCGCCCTGCTGCAATTTCCTGCCGCACTCACTTCCTAG
GTCGAACCATGGACGTGATCCAAGCGCTGATCGGGCAGAAGAACGAAGCC
TATGTAGCGGCAGCTGGATTCAGCGACTCGCCCCATTTCTTCTACTCCGG
ATACTATCCCTCTGGAGAATGGTATCAACTATATCAGATTGGATTTGGTG
GGGTTCCGGCCCGAGCAGCAGGCGATGGACTGGACTGTCATTGCTTGTTC
CCCGCCATCAAGTCGATTCCAACGGAGAGCATCGAGCTGAATTACCCCCT
TCGGATTGAGGCGAACGAGAGTGTCGCGGACAGTGGTGGCCCGGGATACT
TCCGAGGAGGCAATGCGCAACGAACCCTGTATCGATTCCTGGCGAAAGGA
GAGATCAGCCTGCATGATGATCGGTGGTTCACGAAGCCATGGGGTCTCAA
AGGGGGGAAGCCGGGACAACGTTCGCGGAAGATCTTGTATCGGTACCCTC
GCGGTGCCGATAGTCCCGTGATAGGGGTCCTGCCGTCAAAATGCGACCAT
GTGCGTGTTAGTCCGGGTGATTTATTGGAATGGGTGACGTGGGGAGGTGG
TGGATTGGGCGACCCTCTCACTCGACCCGCTGAGCGGGTTGCGATGGATG
TCCGTCGGAAACTGGTGACGGTGGAGGGTGCACGCAACGGATATGGTGTT
TTGCTCGATACGAATGGTATGGTCTGTACTCTGGAAACAGAAGAATTGAG
GGCAGATATGCGGAGCCTTGTGACAGATGGCAGCATCTATGACCGCGGAG
GCAATCTGGACGAGCTGCGGGTGTCATGTTTACAAGTGACGGGGCTTGCT
GCCCCGATCCCGCCGTGGGAAGCTGAGCCATATGGACCACACACGGGCCT
GGAGTATGTGAAGCATTGGTATGCCACGATGCAGGAGGCGAGGGGGTGGG
AGTTGGAGTAA back to topCoding sequence (CDS) from alignment at NKJJ01000017.1:3370099..3374159+ >CAN33_41560-T1 ID=CAN33_41560-T1|Name=CAN33_41560-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8004bp|location=Sequence derived from alignment at NKJJ01000017.1:3370099..3374159+ (Aspergillus niger FDAARGOS_311)
ATGGCATCGACCAACGAATTCCGCCTTGGAGTCGACGTCGGCGGTACCTT
CACTGACGTGTGCGTCTTCACTCCGAACGGGGAGACAGTCCGCGCCAAAG
TCCCCACCACGCCCAACCAAACGATCGGGATTAGACACGGGATCGCGAAA
GTGCGACGGGTTCTCAAGGAGCAGTATAACTGGGATGGGACATTTAGGTT
CATTCATCATGGTACCACGACGGCGACGAATGCCGTGTTAGAAGGCAAAG
GGGCGCGGACTGCCTTGGTGGTCACGGCTGGGCATAAAGATATTCTGGCT
GTGAGGCGTTCGCAGATTCCTGGGGGCCTTGGGGCGTGGCTTTATTACAC
CCCTCCTGAGCCGCCGGTGCCGCTGGAGAGGGTGGTTCAGTGTGCGGAGA
GAATGTCGGTTAGTGGGGAGACGGTGGTGGAGGTTGATGGAGAGAGGCTG
AAGGGGGATTTGCTGGAGTTGATGGAGAGGGAGAGGCCTGAGGCGGTGGC
AGTTTCGTTGCTGAGTTCGTATAAAAATTCTGCTCATGAGGAGGCTGTTG
CGAAGATAATTCGAGAGGTATGTGGGCCGGGGGTGTCGGTCAATTGCTCG
AGTGAAGTGTTGCGGGAGGTGGGCGAGTATGAGCGAACGGTCACGACGTG
TACCAATGCTTTGGTAAAGCCGGTGATGCAGAATTATCTGCGCGAGCTGT
CGGAGCACTTGGCATCGGAGACCGAGGCGATCCGGGTGTTGAAGAGTGAC
GGTGGTTTGACGAGTGTCGGCCTGGCCGGGGAATTCCCCGTGAATATCTT
GATGTCTGGGCCGGCTGGAGGAGCCAAAGGCGTGGCTGATGCGGTCGCTC
GAAGTACCCCGTACAAAAACCTCATTACTCTCGACATGGGGGGTACATCG
ACGGACTGTGCGCTCATTTTGGATGGAAAGCCGCGTATCCGTCGAGATAC
TGTTGTCGATACCCTAGCAGTTCGTGCACCGGCCGTGGATATTCATACCG
TTGGTGCTGGAGGTGGCTCAATCGCGACATATATGGAGCTCACTGAGACC
TTGCGGGTTGGGCCAGAGAGTGCTGGGGCAGCACCAGGTCCAGCTTGTTA
TGGAAAAGGGGGAACAGAAGCGACGGTCACCGATGCAAATCTCGTCCTGG
GATACTTGCCCCATACTCTATTGGGTGGAGAATTCTGCTTGGATACAGAG
GCAGCAAAGACCGCGGTTCAGAAGCTTGCCACGGCAATGGAACTTCCTCT
CAGACAAACGGCAGAGAACATAATTAACATTGTCAATGAAACAATGTATG
GTGCTGTTCGATTGGTTTCTGTTGAACAGGGATATGATCCAAGAGACTTT
GCACTCGTTGCCTTTGGTGGTGCTGGACCCCTGCATGCCAATGCTGTAGG
AAAGCTTCTAGGCGCGTGGCCCGTCATTGTCCCACCGTCTCCAGGCATTC
TGTGTGCACAGGGCGATCTGACAACCAAGTTGAGTCATGAGCAGTCCGTG
ACCTTTACTCGGCTGGTGAGAGATACCTCGTCGGAGGAACTGCGACGTCA
GGTGGATGAGCTGGAAAAACACTGCGAACAGACAATGCGAGAGTCTTGTG
GTTCAGACTGGCCTATGCCATTGGTTGCCACGTACGAGGTCGATGTCCGA
TACAAAGGGCAGGCTCTAACCATCACCATCAATCTCTTGCCCGACGAAAT
CCAACTAGATGATCAAGCTTGGCGTTGTGTGTTACAAGACGCATTCAACA
AAAAGCATCAACAGCAGTTTGGCTATTGTCTTCCCGACTTTGAACTCGAG
CTGATGCGTATCGGCGTAACCCTCGAGGACGGCTCCTCAGATGTGGAGCT
GCCAGTAGTCCCTAAAGCAGAATCTAGCGAGCCTACATCCTCGGCCGTCA
TAGGCACGCAGATTATTATCATCGAGGGCCAAGAACAGGTAGCGATGGTG
TGGGAGCGAGAGAAGATTACGCTCGAAGGCATCCGGGTTACAGGACCCTG
CATCATCACGGAGATGGACAGCAACACACTGATACTTCCCGGCTATTCAG
GTGAGATCGATCGGCTCGGCAATATTCTCATCCAGCCGATTGCAAAGCAA
CCATCCCCAACGACGCAGCATACCTCAGACTCAGCAGCAGACTTGATGCA
CAGTAACCCGCTCATCGCAACTCTGGTAGCCTCTTCACTGGCATGCATCC
GTGGCGAAATGGACAAATTGATGCTTCGCTGTAGCATGTCCCCTGCTATC
CGCGAACAGCAAGACGAATTCAATGTCATCACAACTGCAGAGGGCAAGAT
GCTCGTAGGCCAATTCGGCAGCTTCATCAAGGAGTTCCTTGAGGTGTGGA
CGGGAAGTATCGAAGAAGGCGATGTGTTCATTACCAATGACACATACATG
GTCAAAGGAGCTGTCAGTCACTTGAACGATGTGATTATCATCCTTCCCAT
CTTTCATGAACATCGGTTGATCGGCTGGGCTTCTCAATTTGGACACCTGA
CCGATGTCGGCGGCATGGTTCCGGGAAGCCTGTCCATCAACGCCACCTCC
ATCTATGACGATGGAGTCCAGATCCCATGTATCAAGCTCTACTCCCGAGG
GGTGATGAACAGCGACCTGGTCGACCTGCTATGTCGGAACTCCCGCCAAC
CGGCGTGGTATCGATCGGATTTGACGGCTCTGGTGACGGCATGTCGCATG
GCAGCAACGCGCATCTCCGAGCTGGCCACCCGCTTCGGAACCGAGGTGTA
TCTAGCTGCCTGTCAGGAGCTTCTACTTCGGAATCGAACGGGTCTAGCCA
AGATTGTAGAGCGTCAATTCGACGATCAACTCAGCACATTTACCGACTTT
GTCGATGACGACGGCCACGGCGTCGGACCCTGGGCCGTAACATGCTCAAT
GCAGAAGACCAGTGCGGGAGGGTTAAAGTTCGACTGGAGTGATGCTCGTC
GATACTACCTCATTGCCGCTGCCGCCCCGGGAACCGTCATCAACGACGGG
TTTCACGACCTCATTGAAGTGCATATCCCCGAGGGCACTGTTCTAAAGCC
AGTCCGCCCTGCTGCAATTTCCTGCCGCACTCACTTCCTAGGTCGAACCA
TGGACGTGATCCAAGCGCTGATCGGGCAGAAGAACGAAGCCTATGTAGCG
GCAGCTGGATTCAGCGACTCGCCCCATTTCTTCTACTCCGGATACTATCC
CTCTGGAGAATGGTATCAACTATATCAGATTGGATTTGGTGGGGTTCCGG
CCCGAGCAGCAGGCGATGGACTGGACTGTCATTGCTTGTTCCCCGCCATC
AAGTCGATTCCAACGGAGAGCATCGAGCTGAATTACCCCCTTCGGATTGA
GGCGAACGAGAGTGTCGCGGACAGTGGTGGCCCGGGATACTTCCGAGGAG
GCAATGCGCAACGAACCCTGTATCGATTCCTGGCGAAAGGAGAGATCAGC
CTGCATGATGATCGGTGGTTCACGAAGCCATGGGGTCTCAAAGGGGGGAA
GCCGGGACAACGTTCGCGGAAGATCTTGTATCGGTACCCTCGCGGTGCCG
ATAGTCCCGTGATAGGGGTCCTGCCGTCAAAATGCGACCATGTGCGTGTT
AGTCCGGGTGATTTATTGGAATGGGTGACGTGGGGAGGTGGTGGATTGGG
CGACCCTCTCACTCGACCCGCTGAGCGGGTTGCGATGGATGTCCGTCGGA
AACTGGTGACGGTGGAGGGTGCACGCAACGGATATGGTGTTTTGCTCGAT
ACGAATGGTATGGTCTGTACTCTGGAAACAGAAGAATTGAGGGCAGATAT
GCGGAGCCTTGTGACAGATGGCAGCATCTATGACCGCGGAGGCAATCTGG
ACGAGCTGCGGGTGTCATGTTTACAAGTGACGGGGCTTGCTGCCCCGATC
CCGCCGTGGGAAGCTGAGCCATATGGACCACACACGGGCCTGGAGTATGT
GAAGCATTGGTATGCCACGATGCAGGAGGCGAGGGGGTGGGAGTTGGAGT
AAATGGCATCGACCAACGAATTCCGCCTTGGAGTCGACGTCGGCGGTACC
TTCACTGACGTGTGCGTCTTCACTCCGAACGGGGAGACAGTCCGCGCCAA
AGTCCCCACCACGCCCAACCAAACGATCGGGATTAGACACGGGATCGCGA
AAGTGCGACGGGTTCTCAAGGAGCAGTATAACTGGGATGGGACATTTAGG
TTCATTCATCATGGTACCACGACGGCGACGAATGCCGTGTTAGAAGGCAA
AGGGGCGCGGACTGCCTTGGTGGTCACGGCTGGGCATAAAGATATTCTGG
CTGTGAGGCGTTCGCAGATTCCTGGGGGCCTTGGGGCGTGGCTTTATTAC
ACCCCTCCTGAGCCGCCGGTGCCGCTGGAGAGGGTGGTTCAGTGTGCGGA
GAGAATGTCGGTTAGTGGGGAGACGGTGGTGGAGGTTGATGGAGAGAGGC
TGAAGGGGGATTTGCTGGAGTTGATGGAGAGGGAGAGGCCTGAGGCGGTG
GCAGTTTCGTTGCTGAGTTCGTATAAAAATTCTGCTCATGAGGAGGCTGT
TGCGAAGATAATTCGAGAGGTATGTGGGCCGGGGGTGTCGGTCAATTGCT
CGAGTGAAGTGTTGCGGGAGGTGGGCGAGTATGAGCGAACGGTCACGACG
TGTACCAATGCTTTGGTAAAGCCGGTGATGCAGAATTATCTGCGCGAGCT
GTCGGAGCACTTGGCATCGGAGACCGAGGCGATCCGGGTGTTGAAGAGTG
ACGGTGGTTTGACGAGTGTCGGCCTGGCCGGGGAATTCCCCGTGAATATC
TTGATGTCTGGGCCGGCTGGAGGAGCCAAAGGCGTGGCTGATGCGGTCGC
TCGAAGTACCCCGTACAAAAACCTCATTACTCTCGACATGGGGGGTACAT
CGACGGACTGTGCGCTCATTTTGGATGGAAAGCCGCGTATCCGTCGAGAT
ACTGTTGTCGATACCCTAGCAGTTCGTGCACCGGCCGTGGATATTCATAC
CGTTGGTGCTGGAGGTGGCTCAATCGCGACATATATGGAGCTCACTGAGA
CCTTGCGGGTTGGGCCAGAGAGTGCTGGGGCAGCACCAGGTCCAGCTTGT
TATGGAAAAGGGGGAACAGAAGCGACGGTCACCGATGCAAATCTCGTCCT
GGGATACTTGCCCCATACTCTATTGGGTGGAGAATTCTGCTTGGATACAG
AGGCAGCAAAGACCGCGGTTCAGAAGCTTGCCACGGCAATGGAACTTCCT
CTCAGACAAACGGCAGAGAACATAATTAACATTGTCAATGAAACAATGTA
TGGTGCTGTTCGATTGGTTTCTGTTGAACAGGGATATGATCCAAGAGACT
TTGCACTCGTTGCCTTTGGTGGTGCTGGACCCCTGCATGCCAATGCTGTA
GGAAAGCTTCTAGGCGCGTGGCCCGTCATTGTCCCACCGTCTCCAGGCAT
TCTGTGTGCACAGGGCGATCTGACAACCAAGTTGAGTCATGAGCAGTCCG
TGACCTTTACTCGGCTGGTGAGAGATACCTCGTCGGAGGAACTGCGACGT
CAGGTGGATGAGCTGGAAAAACACTGCGAACAGACAATGCGAGAGTCTTG
TGGTTCAGACTGGCCTATGCCATTGGTTGCCACGTACGAGGTCGATGTCC
GATACAAAGGGCAGGCTCTAACCATCACCATCAATCTCTTGCCCGACGAA
ATCCAACTAGATGATCAAGCTTGGCGTTGTGTGTTACAAGACGCATTCAA
CAAAAAGCATCAACAGCAGTTTGGCTATTGTCTTCCCGACTTTGAACTCG
AGCTGATGCGTATCGGCGTAACCCTCGAGGACGGCTCCTCAGATGTGGAG
CTGCCAGTAGTCCCTAAAGCAGAATCTAGCGAGCCTACATCCTCGGCCGT
CATAGGCACGCAGATTATTATCATCGAGGGCCAAGAACAGGTAGCGATGG
TGTGGGAGCGAGAGAAGATTACGCTCGAAGGCATCCGGGTTACAGGACCC
TGCATCATCACGGAGATGGACAGCAACACACTGATACTTCCCGGCTATTC
AGGTGAGATCGATCGGCTCGGCAATATTCTCATCCAGCCGATTGCAAAGC
AACCATCCCCAACGACGCAGCATACCTCAGACTCAGCAGCAGACTTGATG
CACAGTAACCCGCTCATCGCAACTCTGGTAGCCTCTTCACTGGCATGCAT
CCGTGGCGAAATGGACAAATTGATGCTTCGCTGTAGCATGTCCCCTGCTA
TCCGCGAACAGCAAGACGAATTCAATGTCATCACAACTGCAGAGGGCAAG
ATGCTCGTAGGCCAATTCGGCAGCTTCATCAAGGAGTTCCTTGAGGTGTG
GACGGGAAGTATCGAAGAAGGCGATGTGTTCATTACCAATGACACATACA
TGGTCAAAGGAGCTGTCAGTCACTTGAACGATGTGATTATCATCCTTCCC
ATCTTTCATGAACATCGGTTGATCGGCTGGGCTTCTCAATTTGGACACCT
GACCGATGTCGGCGGCATGGTTCCGGGAAGCCTGTCCATCAACGCCACCT
CCATCTATGACGATGGAGTCCAGATCCCATGTATCAAGCTCTACTCCCGA
GGGGTGATGAACAGCGACCTGGTCGACCTGCTATGTCGGAACTCCCGCCA
ACCGGCGTGGTATCGATCGGATTTGACGGCTCTGGTGACGGCATGTCGCA
TGGCAGCAACGCGCATCTCCGAGCTGGCCACCCGCTTCGGAACCGAGGTG
TATCTAGCTGCCTGTCAGGAGCTTCTACTTCGGAATCGAACGGGTCTAGC
CAAGATTGTAGAGCGTCAATTCGACGATCAACTCAGCACATTTACCGACT
TTGTCGATGACGACGGCCACGGCGTCGGACCCTGGGCCGTAACATGCTCA
ATGCAGAAGACCAGTGCGGGAGGGTTAAAGTTCGACTGGAGTGATGCTCG
TCGATACTACCTCATTGCCGCTGCCGCCCCGGGAACCGTCATCAACGACG
GGTTTCACGACCTCATTGAAGTGCATATCCCCGAGGGCACTGTTCTAAAG
CCAGTCCGCCCTGCTGCAATTTCCTGCCGCACTCACTTCCTAGGTCGAAC
CATGGACGTGATCCAAGCGCTGATCGGGCAGAAGAACGAAGCCTATGTAG
CGGCAGCTGGATTCAGCGACTCGCCCCATTTCTTCTACTCCGGATACTAT
CCCTCTGGAGAATGGTATCAACTATATCAGATTGGATTTGGTGGGGTTCC
GGCCCGAGCAGCAGGCGATGGACTGGACTGTCATTGCTTGTTCCCCGCCA
TCAAGTCGATTCCAACGGAGAGCATCGAGCTGAATTACCCCCTTCGGATT
GAGGCGAACGAGAGTGTCGCGGACAGTGGTGGCCCGGGATACTTCCGAGG
AGGCAATGCGCAACGAACCCTGTATCGATTCCTGGCGAAAGGAGAGATCA
GCCTGCATGATGATCGGTGGTTCACGAAGCCATGGGGTCTCAAAGGGGGG
AAGCCGGGACAACGTTCGCGGAAGATCTTGTATCGGTACCCTCGCGGTGC
CGATAGTCCCGTGATAGGGGTCCTGCCGTCAAAATGCGACCATGTGCGTG
TTAGTCCGGGTGATTTATTGGAATGGGTGACGTGGGGAGGTGGTGGATTG
GGCGACCCTCTCACTCGACCCGCTGAGCGGGTTGCGATGGATGTCCGTCG
GAAACTGGTGACGGTGGAGGGTGCACGCAACGGATATGGTGTTTTGCTCG
ATACGAATGGTATGGTCTGTACTCTGGAAACAGAAGAATTGAGGGCAGAT
ATGCGGAGCCTTGTGACAGATGGCAGCATCTATGACCGCGGAGGCAATCT
GGACGAGCTGCGGGTGTCATGTTTACAAGTGACGGGGCTTGCTGCCCCGA
TCCCGCCGTGGGAAGCTGAGCCATATGGACCACACACGGGCCTGGAGTAT
GTGAAGCATTGGTATGCCACGATGCAGGAGGCGAGGGGGTGGGAGTTGGA
GTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0016787 | hydrolase activity |
| GO:0003824 | catalytic activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR008040 |
| DBxref | InterPro:IPR002821 |
| DBxref | InterPro:IPR003692 |
| DBxref | PFAM:PF05378 |
| DBxref | PFAM:PF02538 |
| DBxref | PFAM:PF01968 |
| Product | Hydantoinase/oxoprolinase 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 |
|---|
| NKJJ01000017.1 | supercontig | NKJJ01000017.1:3370099..3374159 + |
|
