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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch7:932242..936322- Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_009625-T1 ID=KJC3_009625-T1|Name=KJC3_009625-T1|organism=Aspergillus niger KJC3|type=mRNA|length=4081bp|location=Sequence derived from alignment at ch7:932242..936322- (Aspergillus niger KJC3)
CTCGACCTCCTTATCCGACATCCCACACATTCGCCGCCACCTTATCGCCT
TATGTTGCCCATTTAATTTGAGATTGCGCAGCATTGACACTCACTGCACT
TAACCGGCACGGGATTTGTTACTCTCATTCTATAGTCCACTATGGCCGGC
CCACAACGGCCTGCCTCTGGGCTGCCAACAAGACGTACGACGACAACGAC
TACACGCCCGTCGACACGCCCATCGACAAGACGAGCGGGGTCGGTGGTGC
CCTCTTCGACCAGAGCCAATTCTCCGGCAGTTACAGCGAAAGCCCCCCCT
AGTAGCTCGCGCGTGGTGAAATCGCCGACCGAATCATCCACCACCAGTCT
TATTGCGAAGCGAAAAGAAAGAGACTTTGAACGTGAAATCAACGAAGACA
CCAGTATTCACGTTGTGGTAAGATGTCGCGGCCGCAACGACAGGGAAATC
CAGGAGAAGAGCGGAGTCGTCGTATCAACTCCCGAGGGAGTAAAAGGCAA
ATGCGTTGAATTATCTATGGGCCCAAATGCCTTGGCCAACAAGGCCTACA
CATTTGACAAGGTTTTCTCAGCAGCCGCCGATCAGGTCACTGTGTATGAA
GACGTTGTATTACCCATTGTTAACGAAATGCTTGCTGGATACAATTGCAC
AATCTTCGCCTATGGACAGACGGGAACCGGAAAGACCTACACAATGTCAG
GCGACATGACGGATACCCTGGGCATACTCTCAGACAATGCTGGTATCATT
CCGCGTGTGCTCTACTCATTATTCCACAAGCTTCAGGAAACAGAGAGCAC
TGTGAAGTGTTCCTTCATCGAGTTATACAATGAAGAGCTTCGCGATCTGC
TCTCCTCTGAGGAAAACCCAAAACTCAAGATCTATGAGAACGAGTCAAAA
AAGGGCCATGGAAGCACACTTGTACAGGGTATGGAGGAGACATTCATCGA
CTCTGCGTCGGCTGGAATAAAGCTGCTCCAGGAGGGCAGTCACAAGCGGC
AAGTGGCGGCAACCAAATGTAACGACCTGAGTTCCCGGAGTCACACTGTT
TTCACTATCACCGTCCTTACGAAACGAACGACAGAGTCGGGCGAGGAGTA
TATCAGCCCCGGAAAGCTGAACTTGGTCGACTTGGCTGGTAGTGAGAATA
TCCAGCGTAGCGGTGCTGAAAACAAGCGTGCGACCGAAGCTGGTCTAATA
AACAAGAGTTTGCTCACTTTGGGTCGTGTGATCAACGCCTTGGTCGACAA
GAGCGCCCATATCCCATACCGGGAATCCAAGCTTACCCGCCTGCTGCAAG
ACTCTCTCGGAGGCCGAACAAAGACATGCATCATTGCTACGGTCTCACCA
TCGCGCAGTAACCTGGAGGAAACGATTTCCACTTTGGATTATGCGTTCAG
GGCGAAGAATATCCGCAACAAGCCGCAGATCAACTCAACAATGCCGAAGA
AGACGCTCATTCGTGAATTCACAGCAGAGATTGAAAAACTGAAAGGAGAG
CTTATCGCTACGCGACACCGAAATGGTGTGTACATGAGCGTCGATTCCTG
GGAAGAGATGCACATGGAAAGCGAATCACGAAGGATCGTCAATGAGGAAC
AGCGTGCAAAGATCGAGTCCATGGAATCGAGCTTGCGACACAAGGTTCAG
GAACTTTTCACACTCACGAGCAATTTCAATGATCTGAAGAAGGACAATGA
AGAAACACGTGCTGCTCTTGCTAATACGAACGACGTACTTGAGCAGACCG
AAATTGTTCTCAAGGATACTAAAGCTCAGCTTGAGGAAGAGGAAATGCTG
CGGAAAGCGCATGAGGACACAGAAGCGAAACTTCGTGATATTGGCGCAGG
TCTTTTGTCTACTTTGGATACGACAGTGGAAGACATCAGTGGCCTGCATG
CCAAGATACAGCGCAAGACTGACCTCGATGCCACCAACAAGCGGGCCTGG
CAGGTGTCTACCGCGGAGGTATCCAATGTTACTACAGTGATTGATTCCAA
GGTGGAGGCGTTCCAGGAGCAACATTCCGAGCTTGTGGAAGCTATGTCTG
AGAAGATCAACGAATTTGTCACACGTGAACTCGGCAACATTGAATCGAAC
CAATCGCAATTACTTCATTCGGCAGGCCTATTTGAAAAGGCGGAACGTGA
GGCGAATTCTCAGACCTCGGGCGCCCATGATGAGATGAACGAAGTCCTCG
AAGAGATCAAGGACCTACGTGAGGAAGTCAAGCGTAAGGTTGGCGAAGGG
TTGAATGGTCTCTCAGCTGCAGCCGCTCGCATATCAAAAGAGGTTATTGG
CGAGTTCTCCGAGTTTCACGCTCAACTTCATTCGTCCTACAGTGCTCTTG
GCAAGGATTTGAAGACTGTGTTTGAGGATATGGTCACGCATCTCAATGGA
CAAAAAGCAGAGATCAACAAGTTGCGATTGGAGCTCCAGGAGGCTAACAC
CAAGGCGGTAGAGGCCAACCGCAAGGCATCTTCCCACTTGGCACAGACCC
TTGAGGAAGAGAGTGCCAATGCTGAAGCCGAGCGTGACCTTCTGATGTCG
CAAATGAAGGCATTGATTGACGAGTCCCGCCAGAGGCAGTATGGCCGCTT
GAAGGGTAGGGTGGAGACCATGCGCACAGAACTTACATCTTCTGGCGACT
TCCTGGAGCACGCCACTGCTCAGTATGACCGCCACGTTGACGAATGGGTG
TTCAAGTCGGAACAGTTTGCAAAGGATGTCACTGCATCGAAAGACGACAT
CAGGTCAAGGATGCAAAGTGACTGGGAAGTAAGTTTCGCTCTCTGGATAC
TTGTGCCCACGTATACTAATAATTTAGGTCTTCGATCAACGCAATGCTTC
TATCCAAAAAGCAACCGAGTCTGTTCACGAAGAAACGGTCCGTATTGTTG
ATGCTCAGGTGAACAACATGAGTAAACAAATGGAAGCACTGGACGATTTC
GTCGCCAAGGCTCGCTCCCAGAATGGCCTTTACCGTGACGCCCACATTTC
CAGCCTGCAGAACATGGCATCCAATGTCCACCAGTCATATGATTCTGTGA
ACACGCAGTTCATGGAGCTTGGTGGCCGTCTGAGCGAGCTACAAGAGGGC
GCGATCCAGCAACAACTCAACCTGCAAGAGTCGACGATGCCACTGTCGGA
TGAAGTCCGGAAGCCGTTGACCGATCTTCGGGAGAACATCAGGAACCGAG
CCTTCGAGGATTATGTCTCCACTGGCATGACTCCCAGGAAACGTGCCTAC
GACTATCCGTCTGACCTACCCCGGACAGAAGGCCATGATTGCCTGAAAAC
CCGGATGAGAACGTCGAGACAGTTCACAGCACTGCCATTCAGCGGCGAAG
ATCAGCTCCCCACCCTTGACAGCTCTCCTGGAACACCCCCATCCAAAGGG
TTCGTTTTTAACGACACCTCGGACGAGGTAGGATCTTTACCACCCAAAAC
CGCGGTTACTCCTTCCAACACGGGCCTTAGGGAAGTCGATGCAAACGTCG
TAAAACCGCGCGCATCTAGCGCTGGAGACCGCAAGTCCTCTACTGCCGGC
GCGGAAACCCCTCGGACTACTATGGACCCCACACCGGAAACCGAGGACAC
CGACCAACCGCCTGCGAAAAGGCGCTGCTCCAATCTCACCTCGACTGATA
CCAAGCTCTCGCAGAAGAAGCTGACGAGGAAGATGGCTGGGATGATGGAG
GGTCCGGAAAACGTTCCTCCCCCTTCCAGCGCTAGAAGGCTTAGAAACTA
GCCCTTCAATTAGAGTCACGTGCTTGACTACTTTTCCGTTTTGCATTGTG
CATGGATACTGCTATGTCTCGCTTGGTTGTGGCAGGCGTTATGGGATACC
CGATACCCTGGGATTTGGCCGATTTGAGGAACGACAGGTTGTTTGACATT
GTATTTTGGCTGGCGGGTTGGAGACGGACACTGGCTGGGTGCTTGCTTTT
CAGATGCAGGATGGGTAATTTTCTGAAACTTTGCAGTATGGTGTTTGGGA
GTTTGTGTTACATTTGTTTCTGGTATAGATACCTCGTCGTTTGATACAAT
GGAGCTTAGCTCTTCGTGGCTATTGCATGCG back to topCoding sequence (CDS) from alignment at ch7:932242..936322- >KJC3_009625-T1 ID=KJC3_009625-T1|Name=KJC3_009625-T1|organism=Aspergillus niger KJC3|type=CDS|length=7122bp|location=Sequence derived from alignment at ch7:932242..936322- (Aspergillus niger KJC3)
GTCTTCGATCAACGCAATGCTTCTATCCAAAAAGCAACCGAGTCTGTTCA
CGAAGAAACGGTCCGTATTGTTGATGCTCAGGTGAACAACATGAGTAAAC
AAATGGAAGCACTGGACGATTTCGTCGCCAAGGCTCGCTCCCAGAATGGC
CTTTACCGTGACGCCCACATTTCCAGCCTGCAGAACATGGCATCCAATGT
CCACCAGTCATATGATTCTGTGAACACGCAGTTCATGGAGCTTGGTGGCC
GTCTGAGCGAGCTACAAGAGGGCGCGATCCAGCAACAACTCAACCTGCAA
GAGTCGACGATGCCACTGTCGGATGAAGTCCGGAAGCCGTTGACCGATCT
TCGGGAGAACATCAGGAACCGAGCCTTCGAGGATTATGTCTCCACTGGCA
TGACTCCCAGGAAACGTGCCTACGACTATCCGTCTGACCTACCCCGGACA
GAAGGCCATGATTGCCTGAAAACCCGGATGAGAACGTCGAGACAGTTCAC
AGCACTGCCATTCAGCGGCGAAGATCAGCTCCCCACCCTTGACAGCTCTC
CTGGAACACCCCCATCCAAAGGGTTCGTTTTTAACGACACCTCGGACGAG
GTAGGATCTTTACCACCCAAAACCGCGGTTACTCCTTCCAACACGGGCCT
TAGGGAAGTCGATGCAAACGTCGTAAAACCGCGCGCATCTAGCGCTGGAG
ACCGCAAGTCCTCTACTGCCGGCGCGGAAACCCCTCGGACTACTATGGAC
CCCACACCGGAAACCGAGGACACCGACCAACCGCCTGCGAAAAGGCGCTG
CTCCAATCTCACCTCGACTGATACCAAGCTCTCGCAGAAGAAGCTGACGA
GGAAGATGGCTGGGATGATGGAGGGTCCGGAAAACGTTCCTCCCCCTTCC
AGCGCTAGAAGGCTTAGAAACTAGATGGCCGGCCCACAACGGCCTGCCTC
TGGGCTGCCAACAAGACGTACGACGACAACGACTACACGCCCGTCGACAC
GCCCATCGACAAGACGAGCGGGGTCGGTGGTGCCCTCTTCGACCAGAGCC
AATTCTCCGGCAGTTACAGCGAAAGCCCCCCCTAGTAGCTCGCGCGTGGT
GAAATCGCCGACCGAATCATCCACCACCAGTCTTATTGCGAAGCGAAAAG
AAAGAGACTTTGAACGTGAAATCAACGAAGACACCAGTATTCACGTTGTG
GTAAGATGTCGCGGCCGCAACGACAGGGAAATCCAGGAGAAGAGCGGAGT
CGTCGTATCAACTCCCGAGGGAGTAAAAGGCAAATGCGTTGAATTATCTA
TGGGCCCAAATGCCTTGGCCAACAAGGCCTACACATTTGACAAGGTTTTC
TCAGCAGCCGCCGATCAGGTCACTGTGTATGAAGACGTTGTATTACCCAT
TGTTAACGAAATGCTTGCTGGATACAATTGCACAATCTTCGCCTATGGAC
AGACGGGAACCGGAAAGACCTACACAATGTCAGGCGACATGACGGATACC
CTGGGCATACTCTCAGACAATGCTGGTATCATTCCGCGTGTGCTCTACTC
ATTATTCCACAAGCTTCAGGAAACAGAGAGCACTGTGAAGTGTTCCTTCA
TCGAGTTATACAATGAAGAGCTTCGCGATCTGCTCTCCTCTGAGGAAAAC
CCAAAACTCAAGATCTATGAGAACGAGTCAAAAAAGGGCCATGGAAGCAC
ACTTGTACAGGGTATGGAGGAGACATTCATCGACTCTGCGTCGGCTGGAA
TAAAGCTGCTCCAGGAGGGCAGTCACAAGCGGCAAGTGGCGGCAACCAAA
TGTAACGACCTGAGTTCCCGGAGTCACACTGTTTTCACTATCACCGTCCT
TACGAAACGAACGACAGAGTCGGGCGAGGAGTATATCAGCCCCGGAAAGC
TGAACTTGGTCGACTTGGCTGGTAGTGAGAATATCCAGCGTAGCGGTGCT
GAAAACAAGCGTGCGACCGAAGCTGGTCTAATAAACAAGAGTTTGCTCAC
TTTGGGTCGTGTGATCAACGCCTTGGTCGACAAGAGCGCCCATATCCCAT
ACCGGGAATCCAAGCTTACCCGCCTGCTGCAAGACTCTCTCGGAGGCCGA
ACAAAGACATGCATCATTGCTACGGTCTCACCATCGCGCAGTAACCTGGA
GGAAACGATTTCCACTTTGGATTATGCGTTCAGGGCGAAGAATATCCGCA
ACAAGCCGCAGATCAACTCAACAATGCCGAAGAAGACGCTCATTCGTGAA
TTCACAGCAGAGATTGAAAAACTGAAAGGAGAGCTTATCGCTACGCGACA
CCGAAATGGTGTGTACATGAGCGTCGATTCCTGGGAAGAGATGCACATGG
AAAGCGAATCACGAAGGATCGTCAATGAGGAACAGCGTGCAAAGATCGAG
TCCATGGAATCGAGCTTGCGACACAAGGTTCAGGAACTTTTCACACTCAC
GAGCAATTTCAATGATCTGAAGAAGGACAATGAAGAAACACGTGCTGCTC
TTGCTAATACGAACGACGTACTTGAGCAGACCGAAATTGTTCTCAAGGAT
ACTAAAGCTCAGCTTGAGGAAGAGGAAATGCTGCGGAAAGCGCATGAGGA
CACAGAAGCGAAACTTCGTGATATTGGCGCAGGTCTTTTGTCTACTTTGG
ATACGACAGTGGAAGACATCAGTGGCCTGCATGCCAAGATACAGCGCAAG
ACTGACCTCGATGCCACCAACAAGCGGGCCTGGCAGGTGTCTACCGCGGA
GGTATCCAATGTTACTACAGTGATTGATTCCAAGGTGGAGGCGTTCCAGG
AGCAACATTCCGAGCTTGTGGAAGCTATGTCTGAGAAGATCAACGAATTT
GTCACACGTGAACTCGGCAACATTGAATCGAACCAATCGCAATTACTTCA
TTCGGCAGGCCTATTTGAAAAGGCGGAACGTGAGGCGAATTCTCAGACCT
CGGGCGCCCATGATGAGATGAACGAAGTCCTCGAAGAGATCAAGGACCTA
CGTGAGGAAGTCAAGCGTAAGGTTGGCGAAGGGTTGAATGGTCTCTCAGC
TGCAGCCGCTCGCATATCAAAAGAGGTTATTGGCGAGTTCTCCGAGTTTC
ACGCTCAACTTCATTCGTCCTACAGTGCTCTTGGCAAGGATTTGAAGACT
GTGTTTGAGGATATGGTCACGCATCTCAATGGACAAAAAGCAGAGATCAA
CAAGTTGCGATTGGAGCTCCAGGAGGCTAACACCAAGGCGGTAGAGGCCA
ACCGCAAGGCATCTTCCCACTTGGCACAGACCCTTGAGGAAGAGAGTGCC
AATGCTGAAGCCGAGCGTGACCTTCTGATGTCGCAAATGAAGGCATTGAT
TGACGAGTCCCGCCAGAGGCAGTATGGCCGCTTGAAGGGTAGGGTGGAGA
CCATGCGCACAGAACTTACATCTTCTGGCGACTTCCTGGAGCACGCCACT
GCTCAGTATGACCGCCACGTTGACGAATGGGTGTTCAAGTCGGAACAGTT
TGCAAAGGATGTCACTGCATCGAAAGACGACATCAGGTCAAGGATGCAAA
GTGACTGGGAAGTCTTCGATCAACGCAATGCTTCTATCCAAAAAGCAACC
GAGTCTGTTCACGAAGAAACGGTCCGTATTGTTGATGCTCAGGTGAACAA
CATGAGTAAACAAATGGAAGCACTGGACGATTTCGTCGCCAAGGCTCGCT
CCCAGAATGGCCTTTACCGTGACGCCCACATTTCCAGCCTGCAGAACATG
GCATCCAATGTCCACCAGTCATATGATTCTGTGAACACGCAGTTCATGGA
GCTTGGTGGCCGTCTGAGCGAGCTACAAGAGGGCGCGATCCAGCAACAAC
TCAACCTGCAAGAGTCGACGATGCCACTGTCGGATGAAGTCCGGAAGCCG
TTGACCGATCTTCGGGAGAACATCAGGAACCGAGCCTTCGAGGATTATGT
CTCCACTGGCATGACTCCCAGGAAACGTGCCTACGACTATCCGTCTGACC
TACCCCGGACAGAAGGCCATGATTGCCTGAAAACCCGGATGAGAACGTCG
AGACAGTTCACAGCACTGCCATTCAGCGGCGAAGATCAGCTCCCCACCCT
TGACAGCTCTCCTGGAACACCCCCATCCAAAGGGTTCGTTTTTAACGACA
CCTCGGACGAGGTAGGATCTTTACCACCCAAAACCGCGGTTACTCCTTCC
AACACGGGCCTTAGGGAAGTCGATGCAAACGTCGTAAAACCGCGCGCATC
TAGCGCTGGAGACCGCAAGTCCTCTACTGCCGGCGCGGAAACCCCTCGGA
CTACTATGGACCCCACACCGGAAACCGAGGACACCGACCAACCGCCTGCG
AAAAGGCGCTGCTCCAATCTCACCTCGACTGATACCAAGCTCTCGCAGAA
GAAGCTGACGAGGAAGATGGCTGGGATGATGGAGGGTCCGGAAAACGTTC
CTCCCCCTTCCAGCGCTAGAAGGCTTAGAAACTAGATGGCCGGCCCACAA
CGGCCTGCCTCTGGGCTGCCAACAAGACGTACGACGACAACGACTACACG
CCCGTCGACACGCCCATCGACAAGACGAGCGGGGTCGGTGGTGCCCTCTT
CGACCAGAGCCAATTCTCCGGCAGTTACAGCGAAAGCCCCCCCTAGTAGC
TCGCGCGTGGTGAAATCGCCGACCGAATCATCCACCACCAGTCTTATTGC
GAAGCGAAAAGAAAGAGACTTTGAACGTGAAATCAACGAAGACACCAGTA
TTCACGTTGTGGTAAGATGTCGCGGCCGCAACGACAGGGAAATCCAGGAG
AAGAGCGGAGTCGTCGTATCAACTCCCGAGGGAGTAAAAGGCAAATGCGT
TGAATTATCTATGGGCCCAAATGCCTTGGCCAACAAGGCCTACACATTTG
ACAAGGTTTTCTCAGCAGCCGCCGATCAGGTCACTGTGTATGAAGACGTT
GTATTACCCATTGTTAACGAAATGCTTGCTGGATACAATTGCACAATCTT
CGCCTATGGACAGACGGGAACCGGAAAGACCTACACAATGTCAGGCGACA
TGACGGATACCCTGGGCATACTCTCAGACAATGCTGGTATCATTCCGCGT
GTGCTCTACTCATTATTCCACAAGCTTCAGGAAACAGAGAGCACTGTGAA
GTGTTCCTTCATCGAGTTATACAATGAAGAGCTTCGCGATCTGCTCTCCT
CTGAGGAAAACCCAAAACTCAAGATCTATGAGAACGAGTCAAAAAAGGGC
CATGGAAGCACACTTGTACAGGGTATGGAGGAGACATTCATCGACTCTGC
GTCGGCTGGAATAAAGCTGCTCCAGGAGGGCAGTCACAAGCGGCAAGTGG
CGGCAACCAAATGTAACGACCTGAGTTCCCGGAGTCACACTGTTTTCACT
ATCACCGTCCTTACGAAACGAACGACAGAGTCGGGCGAGGAGTATATCAG
CCCCGGAAAGCTGAACTTGGTCGACTTGGCTGGTAGTGAGAATATCCAGC
GTAGCGGTGCTGAAAACAAGCGTGCGACCGAAGCTGGTCTAATAAACAAG
AGTTTGCTCACTTTGGGTCGTGTGATCAACGCCTTGGTCGACAAGAGCGC
CCATATCCCATACCGGGAATCCAAGCTTACCCGCCTGCTGCAAGACTCTC
TCGGAGGCCGAACAAAGACATGCATCATTGCTACGGTCTCACCATCGCGC
AGTAACCTGGAGGAAACGATTTCCACTTTGGATTATGCGTTCAGGGCGAA
GAATATCCGCAACAAGCCGCAGATCAACTCAACAATGCCGAAGAAGACGC
TCATTCGTGAATTCACAGCAGAGATTGAAAAACTGAAAGGAGAGCTTATC
GCTACGCGACACCGAAATGGTGTGTACATGAGCGTCGATTCCTGGGAAGA
GATGCACATGGAAAGCGAATCACGAAGGATCGTCAATGAGGAACAGCGTG
CAAAGATCGAGTCCATGGAATCGAGCTTGCGACACAAGGTTCAGGAACTT
TTCACACTCACGAGCAATTTCAATGATCTGAAGAAGGACAATGAAGAAAC
ACGTGCTGCTCTTGCTAATACGAACGACGTACTTGAGCAGACCGAAATTG
TTCTCAAGGATACTAAAGCTCAGCTTGAGGAAGAGGAAATGCTGCGGAAA
GCGCATGAGGACACAGAAGCGAAACTTCGTGATATTGGCGCAGGTCTTTT
GTCTACTTTGGATACGACAGTGGAAGACATCAGTGGCCTGCATGCCAAGA
TACAGCGCAAGACTGACCTCGATGCCACCAACAAGCGGGCCTGGCAGGTG
TCTACCGCGGAGGTATCCAATGTTACTACAGTGATTGATTCCAAGGTGGA
GGCGTTCCAGGAGCAACATTCCGAGCTTGTGGAAGCTATGTCTGAGAAGA
TCAACGAATTTGTCACACGTGAACTCGGCAACATTGAATCGAACCAATCG
CAATTACTTCATTCGGCAGGCCTATTTGAAAAGGCGGAACGTGAGGCGAA
TTCTCAGACCTCGGGCGCCCATGATGAGATGAACGAAGTCCTCGAAGAGA
TCAAGGACCTACGTGAGGAAGTCAAGCGTAAGGTTGGCGAAGGGTTGAAT
GGTCTCTCAGCTGCAGCCGCTCGCATATCAAAAGAGGTTATTGGCGAGTT
CTCCGAGTTTCACGCTCAACTTCATTCGTCCTACAGTGCTCTTGGCAAGG
ATTTGAAGACTGTGTTTGAGGATATGGTCACGCATCTCAATGGACAAAAA
GCAGAGATCAACAAGTTGCGATTGGAGCTCCAGGAGGCTAACACCAAGGC
GGTAGAGGCCAACCGCAAGGCATCTTCCCACTTGGCACAGACCCTTGAGG
AAGAGAGTGCCAATGCTGAAGCCGAGCGTGACCTTCTGATGTCGCAAATG
AAGGCATTGATTGACGAGTCCCGCCAGAGGCAGTATGGCCGCTTGAAGGG
TAGGGTGGAGACCATGCGCACAGAACTTACATCTTCTGGCGACTTCCTGG
AGCACGCCACTGCTCAGTATGACCGCCACGTTGACGAATGGGTGTTCAAG
TCGGAACAGTTTGCAAAGGATGTCACTGCATCGAAAGACGACATCAGGTC
AAGGATGCAAAGTGACTGGGAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0007018 | microtubule-based movement |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003777 | microtubule motor activity |
| GO:0005524 | ATP binding |
| GO:0008017 | microtubule binding |
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:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_009625-T1.utr3p1 | KJC3_009625-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
The following exon feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_009625-T1.utr5p1 | KJC3_009625-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR019821 |
| DBxref | InterPro:IPR036961 |
| DBxref | InterPro:IPR025901 |
| DBxref | InterPro:IPR001752 |
| DBxref | PFAM:PF16796 |
| DBxref | PFAM:PF00225 |
| Product | hypothetical 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 |
|---|
| ch7 | supercontig | ch7:932242..936322 - |
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