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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch3:2853111..2854941+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_003863-T1 ID=KYF_003863-T1|Name=KYF_003863-T1|organism=Aspergillus niger KYF3|type=mRNA|length=1831bp|location=Sequence derived from alignment at ch3:2853111..2854941+ (Aspergillus niger KYF3)
ATGCGAGGCGAAGTATACCCCCCGTTGTATTTACCTTTGGACCCCCGCAC
CGTCACCCCCTCCCCTTATCCATAAACAGCCATTCCCACAACCTCACGTA
CCAGCACGCATTCAACTTCCTCATCCCAGCTTGACTTCCCTTTATTCTAA
CTATTGCGTTCCATCAGGTCTGCCACATCCACATCGGCCAGGCTGGTATC
CAGCTTGGTAACAGTGCTTGGGAGCTGTACGTCCTCACCGCTTTTTATTG
TACCCCGATATATATGCCTTCATAGGTGATTTCATGCTGACCGCGGCCAT
CACCGCAGGTACCTCCTTGAACACGGTCTCAAGGCAGATGGCCAGCTCAA
TCCTGAGGCTGACGACGCAATCAATTCTGGCGGTTCGTTCGAAACCTTCT
TCACCGAAACGCACAGCGGCAAATATGTCCCTCGCTCTATCTTCGTGGAT
CTTGATCCTTCGGTACGACTTTATCCAATCAAAATGGCTTATTGAATGTA
TATGGTAAACTGATGGATGCAGCCCGTCGATGAGATCCGCACCGGCCAGT
ACCGTCAACTCTTCCACCCTGAAACGTTGATTAGCGGAAAGGAAGACGCC
GCCAACAACTGTACGAACTACTTCTGGTCGGGCCTGAACATGTAAGCTAA
TGCTTGTCAGATGCCCGTGGACATTACACCATCGGTAAGGAGCTTGTCGA
AGCAGTTGCCGACCGCATTCGTCGTGTCTCCGGTAGGTTAACCACAATCC
TCTGAAACCTGACTCTTCGGGAAGTAAGCTTACACACACAAGATAACTGC
AACTCCCTGCAGGGATTCTTGGTTTTCCACTCCTTCGGCGGTGGTACCGG
CTCCGGATTTGGTGCCTTGCTGCTCGAGCGTCTTTCCACCGATTATGGAA
AGAAGTCGAAGCTCGAGTTTGCGGTGTACCCTTCCCCTCGTGTGTCGACC
GCCGTCGTTGAGCCATACAACGCTGTTCTCTCTACCCACAGCACGATTGA
GAATGCTGACTGCACCTTCTTGGTGGACAATGAGGCGGTTTACGACATCT
GTCGCCGCAACTTGGACATCCCACGTCCCGGCTATGAGCACCTCAACCGC
CTGATCGCACAGGTCGTCAGCTCCATCACCTCCAGTCTCAGATTCGATGG
TGCCCTCAATGTCGACTTGACTGAGTTCCAGACCAACTTGGTACCATTCC
CTCGTATTCACTATCCGTTGATCTCGTATGCACCTGTGGTCTCGAGCAGC
CGCAGCTCCCACGAGAGCTTTAAGGTGCAGGATCTCACCTTCCAGTGTAT
GTACTTCTCTTTGGGCCCTTTCGTCTAGGCATCGGTGGTGGTAGATGGCT
AACGGTGGCTGCAGGTTTCGAGCCGAACAATCAGATGGTGGTCTGTGATC
CTCGCAAGGGCAAGTATATGGCAGTGGCTCTGCTGTACCGCGGTGACGTG
GTACCCCGTGACTGCACCCAGGCCATCGCCTCCCTCAAGGCCAAGGCCTC
GTTCAATCTCGTTGAATGGTGCCCCACCGGCTTCAAGTTGGGTATCAATT
ACCAGAAGCCCGTTCGGGTTCCCGACACTGAGCTGGCTCCGGTCGACCGC
TCCGTCAGCATGCTCTCAAACACGACCTCCATTGCTGAAGCATGGGGCCG
TCTTGACCACAAATTCGACCTCATGTACTCGAAGCGCGCCTTCGTTCACT
GGTACGTGGGTGAGGGTATGGAGGAAGGCGAGTTCTCCGAAGCTCGTGAG
GACCTGGCTGCGCTGGAGAAGGACTATGAAGAAGTTGCCAATGACAGTCT
GGAGCCGGAGGGTGAGGAGGGTGAGTACTGA back to topCoding sequence (CDS) from alignment at ch3:2853111..2854941+ >KYF_003863-T1 ID=KYF_003863-T1|Name=KYF_003863-T1|organism=Aspergillus niger KYF3|type=CDS|length=9492bp|location=Sequence derived from alignment at ch3:2853111..2854941+ (Aspergillus niger KYF3)
ATGCGAGGCGAAGTCTGCCACATCCACATCGGCCAGGCTGGTATCCAGCT
TGGTAACAGTGCTTGGGAGCTGTACCTCCTTGAACACGGTCTCAAGGCAG
ATGGCCAGCTCAATCCTGAGGCTGACGACGCAATCAATTCTGGCGGTTCG
TTCGAAACCTTCTTCACCGAAACGCACAGCGGCAAATATGTCCCTCGCTC
TATCTTCGTGGATCTTGATCCTTCGCCCGTCGATGAGATCCGCACCGGCC
AGTACCGTCAACTCTTCCACCCTGAAACGTTGATTAGCGGAAAGGAAGAC
GCCGCCAACAACTATGCCCGTGGACATTACACCATCGGTAAGGAGCTTGT
CGAAGCAGTTGCCGACCGCATTCGTCGTGTCTCCGATAACTGCAACTCCC
TGCAGGGATTCTTGGTTTTCCACTCCTTCGGCGGTGGTACCGGCTCCGGA
TTTGGTGCCTTGCTGCTCGAGCGTCTTTCCACCGATTATGGAAAGAAGTC
GAAGCTCGAGTTTGCGGTGTACCCTTCCCCTCGTGTGTCGACCGCCGTCG
TTGAGCCATACAACGCTGTTCTCTCTACCCACAGCACGATTGAGAATGCT
GACTGCACCTTCTTGGTGGACAATGAGGCGGTTTACGACATCTGTCGCCG
CAACTTGGACATCCCACGTCCCGGCTATGAGCACCTCAACCGCCTGATCG
CACAGGTCGTCAGCTCCATCACCTCCAGTCTCAGATTCGATGGTGCCCTC
AATGTCGACTTGACTGAGTTCCAGACCAACTTGGTACCATTCCCTCGTAT
TCACTATCCGTTGATCTCGTATGCACCTGTGGTCTCGAGCAGCCGCAGCT
CCCACGAGAGCTTTAAGGTGCAGGATCTCACCTTCCAGTGTTTCGAGCCG
AACAATCAGATGGTGGTCTGTGATCCTCGCAAGGGCAAGTATATGGCAGT
GGCTCTGCTGTACCGCGGTGACGTGGTACCCCGTGACTGCACCCAGGCCA
TCGCCTCCCTCAAGGCCAAGGCCTCGTTCAATCTCGTTGAATGGTGCCCC
ACCGGCTTCAAGTTGGGTATCAATTACCAGAAGCCCGTTCGGGTTCCCGA
CACTGAGCTGGCTCCGGTCGACCGCTCCGTCAGCATGCTCTCAAACACGA
CCTCCATTGCTGAAGCATGGGGCCGTCTTGACCACAAATTCGACCTCATG
TACTCGAAGCGCGCCTTCGTTCACTGGTACGTGGGTGAGGGTATGGAGGA
AGGCGAGTTCTCCGAAGCTCGTGAGGACCTGGCTGCGCTGGAGAAGGACT
ATGAAGAAGTTGCCAATGACAGTCTGGAGCCGGAGGGTGAGGAGGGTGAG
TACTGAATGCGAGGCGAAGTCTGCCACATCCACATCGGCCAGGCTGGTAT
CCAGCTTGGTAACAGTGCTTGGGAGCTGTACCTCCTTGAACACGGTCTCA
AGGCAGATGGCCAGCTCAATCCTGAGGCTGACGACGCAATCAATTCTGGC
GGTTCGTTCGAAACCTTCTTCACCGAAACGCACAGCGGCAAATATGTCCC
TCGCTCTATCTTCGTGGATCTTGATCCTTCGCCCGTCGATGAGATCCGCA
CCGGCCAGTACCGTCAACTCTTCCACCCTGAAACGTTGATTAGCGGAAAG
GAAGACGCCGCCAACAACTATGCCCGTGGACATTACACCATCGGTAAGGA
GCTTGTCGAAGCAGTTGCCGACCGCATTCGTCGTGTCTCCGATAACTGCA
ACTCCCTGCAGGGATTCTTGGTTTTCCACTCCTTCGGCGGTGGTACCGGC
TCCGGATTTGGTGCCTTGCTGCTCGAGCGTCTTTCCACCGATTATGGAAA
GAAGTCGAAGCTCGAGTTTGCGGTGTACCCTTCCCCTCGTGTGTCGACCG
CCGTCGTTGAGCCATACAACGCTGTTCTCTCTACCCACAGCACGATTGAG
AATGCTGACTGCACCTTCTTGGTGGACAATGAGGCGGTTTACGACATCTG
TCGCCGCAACTTGGACATCCCACGTCCCGGCTATGAGCACCTCAACCGCC
TGATCGCACAGGTCGTCAGCTCCATCACCTCCAGTCTCAGATTCGATGGT
GCCCTCAATGTCGACTTGACTGAGTTCCAGACCAACTTGGTACCATTCCC
TCGTATTCACTATCCGTTGATCTCGTATGCACCTGTGGTCTCGAGCAGCC
GCAGCTCCCACGAGAGCTTTAAGGTGCAGGATCTCACCTTCCAGTGTTTC
GAGCCGAACAATCAGATGGTGGTCTGTGATCCTCGCAAGGGCAAGTATAT
GGCAGTGGCTCTGCTGTACCGCGGTGACGTGGTACCCCGTGACTGCACCC
AGGCCATCGCCTCCCTCAAGGCCAAGGCCTCGTTCAATCTCGTTGAATGG
TGCCCCACCGGCTTCAAGTTGGGTATCAATTACCAGAAGCCCGTTCGGGT
TCCCGACACTGAGCTGGCTCCGGTCGACCGCTCCGTCAGCATGCTCTCAA
ACACGACCTCCATTGCTGAAGCATGGGGCCGTCTTGACCACAAATTCGAC
CTCATGTACTCGAAGCGCGCCTTCGTTCACTGGTACGTGGGTGAGGGTAT
GGAGGAAGGCGAGTTCTCCGAAGCTCGTGAGGACCTGGCTGCGCTGGAGA
AGGACTATGAAGAAGTTGCCAATGACAGTCTGGAGCCGGAGGGTGAGGAG
GGTGAGTACTGAATGCGAGGCGAAGTCTGCCACATCCACATCGGCCAGGC
TGGTATCCAGCTTGGTAACAGTGCTTGGGAGCTGTACCTCCTTGAACACG
GTCTCAAGGCAGATGGCCAGCTCAATCCTGAGGCTGACGACGCAATCAAT
TCTGGCGGTTCGTTCGAAACCTTCTTCACCGAAACGCACAGCGGCAAATA
TGTCCCTCGCTCTATCTTCGTGGATCTTGATCCTTCGCCCGTCGATGAGA
TCCGCACCGGCCAGTACCGTCAACTCTTCCACCCTGAAACGTTGATTAGC
GGAAAGGAAGACGCCGCCAACAACTATGCCCGTGGACATTACACCATCGG
TAAGGAGCTTGTCGAAGCAGTTGCCGACCGCATTCGTCGTGTCTCCGATA
ACTGCAACTCCCTGCAGGGATTCTTGGTTTTCCACTCCTTCGGCGGTGGT
ACCGGCTCCGGATTTGGTGCCTTGCTGCTCGAGCGTCTTTCCACCGATTA
TGGAAAGAAGTCGAAGCTCGAGTTTGCGGTGTACCCTTCCCCTCGTGTGT
CGACCGCCGTCGTTGAGCCATACAACGCTGTTCTCTCTACCCACAGCACG
ATTGAGAATGCTGACTGCACCTTCTTGGTGGACAATGAGGCGGTTTACGA
CATCTGTCGCCGCAACTTGGACATCCCACGTCCCGGCTATGAGCACCTCA
ACCGCCTGATCGCACAGGTCGTCAGCTCCATCACCTCCAGTCTCAGATTC
GATGGTGCCCTCAATGTCGACTTGACTGAGTTCCAGACCAACTTGGTACC
ATTCCCTCGTATTCACTATCCGTTGATCTCGTATGCACCTGTGGTCTCGA
GCAGCCGCAGCTCCCACGAGAGCTTTAAGGTGCAGGATCTCACCTTCCAG
TGTTTCGAGCCGAACAATCAGATGGTGGTCTGTGATCCTCGCAAGGGCAA
GTATATGGCAGTGGCTCTGCTGTACCGCGGTGACGTGGTACCCCGTGACT
GCACCCAGGCCATCGCCTCCCTCAAGGCCAAGGCCTCGTTCAATCTCGTT
GAATGGTGCCCCACCGGCTTCAAGTTGGGTATCAATTACCAGAAGCCCGT
TCGGGTTCCCGACACTGAGCTGGCTCCGGTCGACCGCTCCGTCAGCATGC
TCTCAAACACGACCTCCATTGCTGAAGCATGGGGCCGTCTTGACCACAAA
TTCGACCTCATGTACTCGAAGCGCGCCTTCGTTCACTGGTACGTGGGTGA
GGGTATGGAGGAAGGCGAGTTCTCCGAAGCTCGTGAGGACCTGGCTGCGC
TGGAGAAGGACTATGAAGAAGTTGCCAATGACAGTCTGGAGCCGGAGGGT
GAGGAGGGTGAGTACTGAATGCGAGGCGAAGTCTGCCACATCCACATCGG
CCAGGCTGGTATCCAGCTTGGTAACAGTGCTTGGGAGCTGTACCTCCTTG
AACACGGTCTCAAGGCAGATGGCCAGCTCAATCCTGAGGCTGACGACGCA
ATCAATTCTGGCGGTTCGTTCGAAACCTTCTTCACCGAAACGCACAGCGG
CAAATATGTCCCTCGCTCTATCTTCGTGGATCTTGATCCTTCGCCCGTCG
ATGAGATCCGCACCGGCCAGTACCGTCAACTCTTCCACCCTGAAACGTTG
ATTAGCGGAAAGGAAGACGCCGCCAACAACTATGCCCGTGGACATTACAC
CATCGGTAAGGAGCTTGTCGAAGCAGTTGCCGACCGCATTCGTCGTGTCT
CCGATAACTGCAACTCCCTGCAGGGATTCTTGGTTTTCCACTCCTTCGGC
GGTGGTACCGGCTCCGGATTTGGTGCCTTGCTGCTCGAGCGTCTTTCCAC
CGATTATGGAAAGAAGTCGAAGCTCGAGTTTGCGGTGTACCCTTCCCCTC
GTGTGTCGACCGCCGTCGTTGAGCCATACAACGCTGTTCTCTCTACCCAC
AGCACGATTGAGAATGCTGACTGCACCTTCTTGGTGGACAATGAGGCGGT
TTACGACATCTGTCGCCGCAACTTGGACATCCCACGTCCCGGCTATGAGC
ACCTCAACCGCCTGATCGCACAGGTCGTCAGCTCCATCACCTCCAGTCTC
AGATTCGATGGTGCCCTCAATGTCGACTTGACTGAGTTCCAGACCAACTT
GGTACCATTCCCTCGTATTCACTATCCGTTGATCTCGTATGCACCTGTGG
TCTCGAGCAGCCGCAGCTCCCACGAGAGCTTTAAGGTGCAGGATCTCACC
TTCCAGTGTTTCGAGCCGAACAATCAGATGGTGGTCTGTGATCCTCGCAA
GGGCAAGTATATGGCAGTGGCTCTGCTGTACCGCGGTGACGTGGTACCCC
GTGACTGCACCCAGGCCATCGCCTCCCTCAAGGCCAAGGCCTCGTTCAAT
CTCGTTGAATGGTGCCCCACCGGCTTCAAGTTGGGTATCAATTACCAGAA
GCCCGTTCGGGTTCCCGACACTGAGCTGGCTCCGGTCGACCGCTCCGTCA
GCATGCTCTCAAACACGACCTCCATTGCTGAAGCATGGGGCCGTCTTGAC
CACAAATTCGACCTCATGTACTCGAAGCGCGCCTTCGTTCACTGGTACGT
GGGTGAGGGTATGGAGGAAGGCGAGTTCTCCGAAGCTCGTGAGGACCTGG
CTGCGCTGGAGAAGGACTATGAAGAAGTTGCCAATGACAGTCTGGAGCCG
GAGGGTGAGGAGGGTGAGTACTGAATGCGAGGCGAAGTCTGCCACATCCA
CATCGGCCAGGCTGGTATCCAGCTTGGTAACAGTGCTTGGGAGCTGTACC
TCCTTGAACACGGTCTCAAGGCAGATGGCCAGCTCAATCCTGAGGCTGAC
GACGCAATCAATTCTGGCGGTTCGTTCGAAACCTTCTTCACCGAAACGCA
CAGCGGCAAATATGTCCCTCGCTCTATCTTCGTGGATCTTGATCCTTCGC
CCGTCGATGAGATCCGCACCGGCCAGTACCGTCAACTCTTCCACCCTGAA
ACGTTGATTAGCGGAAAGGAAGACGCCGCCAACAACTATGCCCGTGGACA
TTACACCATCGGTAAGGAGCTTGTCGAAGCAGTTGCCGACCGCATTCGTC
GTGTCTCCGATAACTGCAACTCCCTGCAGGGATTCTTGGTTTTCCACTCC
TTCGGCGGTGGTACCGGCTCCGGATTTGGTGCCTTGCTGCTCGAGCGTCT
TTCCACCGATTATGGAAAGAAGTCGAAGCTCGAGTTTGCGGTGTACCCTT
CCCCTCGTGTGTCGACCGCCGTCGTTGAGCCATACAACGCTGTTCTCTCT
ACCCACAGCACGATTGAGAATGCTGACTGCACCTTCTTGGTGGACAATGA
GGCGGTTTACGACATCTGTCGCCGCAACTTGGACATCCCACGTCCCGGCT
ATGAGCACCTCAACCGCCTGATCGCACAGGTCGTCAGCTCCATCACCTCC
AGTCTCAGATTCGATGGTGCCCTCAATGTCGACTTGACTGAGTTCCAGAC
CAACTTGGTACCATTCCCTCGTATTCACTATCCGTTGATCTCGTATGCAC
CTGTGGTCTCGAGCAGCCGCAGCTCCCACGAGAGCTTTAAGGTGCAGGAT
CTCACCTTCCAGTGTTTCGAGCCGAACAATCAGATGGTGGTCTGTGATCC
TCGCAAGGGCAAGTATATGGCAGTGGCTCTGCTGTACCGCGGTGACGTGG
TACCCCGTGACTGCACCCAGGCCATCGCCTCCCTCAAGGCCAAGGCCTCG
TTCAATCTCGTTGAATGGTGCCCCACCGGCTTCAAGTTGGGTATCAATTA
CCAGAAGCCCGTTCGGGTTCCCGACACTGAGCTGGCTCCGGTCGACCGCT
CCGTCAGCATGCTCTCAAACACGACCTCCATTGCTGAAGCATGGGGCCGT
CTTGACCACAAATTCGACCTCATGTACTCGAAGCGCGCCTTCGTTCACTG
GTACGTGGGTGAGGGTATGGAGGAAGGCGAGTTCTCCGAAGCTCGTGAGG
ACCTGGCTGCGCTGGAGAAGGACTATGAAGAAGTTGCCAATGACAGTCTG
GAGCCGGAGGGTGAGGAGGGTGAGTACTGAATGCGAGGCGAAGTCTGCCA
CATCCACATCGGCCAGGCTGGTATCCAGCTTGGTAACAGTGCTTGGGAGC
TGTACCTCCTTGAACACGGTCTCAAGGCAGATGGCCAGCTCAATCCTGAG
GCTGACGACGCAATCAATTCTGGCGGTTCGTTCGAAACCTTCTTCACCGA
AACGCACAGCGGCAAATATGTCCCTCGCTCTATCTTCGTGGATCTTGATC
CTTCGCCCGTCGATGAGATCCGCACCGGCCAGTACCGTCAACTCTTCCAC
CCTGAAACGTTGATTAGCGGAAAGGAAGACGCCGCCAACAACTATGCCCG
TGGACATTACACCATCGGTAAGGAGCTTGTCGAAGCAGTTGCCGACCGCA
TTCGTCGTGTCTCCGATAACTGCAACTCCCTGCAGGGATTCTTGGTTTTC
CACTCCTTCGGCGGTGGTACCGGCTCCGGATTTGGTGCCTTGCTGCTCGA
GCGTCTTTCCACCGATTATGGAAAGAAGTCGAAGCTCGAGTTTGCGGTGT
ACCCTTCCCCTCGTGTGTCGACCGCCGTCGTTGAGCCATACAACGCTGTT
CTCTCTACCCACAGCACGATTGAGAATGCTGACTGCACCTTCTTGGTGGA
CAATGAGGCGGTTTACGACATCTGTCGCCGCAACTTGGACATCCCACGTC
CCGGCTATGAGCACCTCAACCGCCTGATCGCACAGGTCGTCAGCTCCATC
ACCTCCAGTCTCAGATTCGATGGTGCCCTCAATGTCGACTTGACTGAGTT
CCAGACCAACTTGGTACCATTCCCTCGTATTCACTATCCGTTGATCTCGT
ATGCACCTGTGGTCTCGAGCAGCCGCAGCTCCCACGAGAGCTTTAAGGTG
CAGGATCTCACCTTCCAGTGTTTCGAGCCGAACAATCAGATGGTGGTCTG
TGATCCTCGCAAGGGCAAGTATATGGCAGTGGCTCTGCTGTACCGCGGTG
ACGTGGTACCCCGTGACTGCACCCAGGCCATCGCCTCCCTCAAGGCCAAG
GCCTCGTTCAATCTCGTTGAATGGTGCCCCACCGGCTTCAAGTTGGGTAT
CAATTACCAGAAGCCCGTTCGGGTTCCCGACACTGAGCTGGCTCCGGTCG
ACCGCTCCGTCAGCATGCTCTCAAACACGACCTCCATTGCTGAAGCATGG
GGCCGTCTTGACCACAAATTCGACCTCATGTACTCGAAGCGCGCCTTCGT
TCACTGGTACGTGGGTGAGGGTATGGAGGAAGGCGAGTTCTCCGAAGCTC
GTGAGGACCTGGCTGCGCTGGAGAAGGACTATGAAGAAGTTGCCAATGAC
AGTCTGGAGCCGGAGGGTGAGGAGGGTGAGTACTGAATGCGAGGCGAAGT
CTGCCACATCCACATCGGCCAGGCTGGTATCCAGCTTGGTAACAGTGCTT
GGGAGCTGTACCTCCTTGAACACGGTCTCAAGGCAGATGGCCAGCTCAAT
CCTGAGGCTGACGACGCAATCAATTCTGGCGGTTCGTTCGAAACCTTCTT
CACCGAAACGCACAGCGGCAAATATGTCCCTCGCTCTATCTTCGTGGATC
TTGATCCTTCGCCCGTCGATGAGATCCGCACCGGCCAGTACCGTCAACTC
TTCCACCCTGAAACGTTGATTAGCGGAAAGGAAGACGCCGCCAACAACTA
TGCCCGTGGACATTACACCATCGGTAAGGAGCTTGTCGAAGCAGTTGCCG
ACCGCATTCGTCGTGTCTCCGATAACTGCAACTCCCTGCAGGGATTCTTG
GTTTTCCACTCCTTCGGCGGTGGTACCGGCTCCGGATTTGGTGCCTTGCT
GCTCGAGCGTCTTTCCACCGATTATGGAAAGAAGTCGAAGCTCGAGTTTG
CGGTGTACCCTTCCCCTCGTGTGTCGACCGCCGTCGTTGAGCCATACAAC
GCTGTTCTCTCTACCCACAGCACGATTGAGAATGCTGACTGCACCTTCTT
GGTGGACAATGAGGCGGTTTACGACATCTGTCGCCGCAACTTGGACATCC
CACGTCCCGGCTATGAGCACCTCAACCGCCTGATCGCACAGGTCGTCAGC
TCCATCACCTCCAGTCTCAGATTCGATGGTGCCCTCAATGTCGACTTGAC
TGAGTTCCAGACCAACTTGGTACCATTCCCTCGTATTCACTATCCGTTGA
TCTCGTATGCACCTGTGGTCTCGAGCAGCCGCAGCTCCCACGAGAGCTTT
AAGGTGCAGGATCTCACCTTCCAGTGTTTCGAGCCGAACAATCAGATGGT
GGTCTGTGATCCTCGCAAGGGCAAGTATATGGCAGTGGCTCTGCTGTACC
GCGGTGACGTGGTACCCCGTGACTGCACCCAGGCCATCGCCTCCCTCAAG
GCCAAGGCCTCGTTCAATCTCGTTGAATGGTGCCCCACCGGCTTCAAGTT
GGGTATCAATTACCAGAAGCCCGTTCGGGTTCCCGACACTGAGCTGGCTC
CGGTCGACCGCTCCGTCAGCATGCTCTCAAACACGACCTCCATTGCTGAA
GCATGGGGCCGTCTTGACCACAAATTCGACCTCATGTACTCGAAGCGCGC
CTTCGTTCACTGGTACGTGGGTGAGGGTATGGAGGAAGGCGAGTTCTCCG
AAGCTCGTGAGGACCTGGCTGCGCTGGAGAAGGACTATGAAGAAGTTGCC
AATGACAGTCTGGAGCCGGAGGGTGAGGAGGGTGAGTACTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005874 | microtubule |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003924 | GTPase activity |
| GO:0005200 | structural constituent of cytoskeleton |
| GO:0005525 | GTP binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0007017 | microtubule-based process |
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 |
|---|
| DBxref | InterPro:IPR008280 |
| DBxref | InterPro:IPR017975 |
| DBxref | InterPro:IPR023123 |
| DBxref | InterPro:IPR036525 |
| DBxref | InterPro:IPR037103 |
| DBxref | InterPro:IPR018316 |
| DBxref | InterPro:IPR003008 |
| DBxref | InterPro:IPR000217 |
| DBxref | InterPro:IPR002452 |
| DBxref | PFAM:PF03953 |
| DBxref | PFAM:PF00091 |
| 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 |
|---|
| ch3 | supercontig | ch3:2853111..2854941 + |
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