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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:2808574..2811460- Legend: polypeptideCDSexonthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_119526-T1 ID=ASPNIDRAFT_119526-T1|Name=ASPNIDRAFT_119526-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2887bp|location=Sequence derived from alignment at ACJE01000021.1:2808574..2811460- (Aspergillus niger ATCC 1015)
ACAGTGGTTGCGAGGTTCCGACCGCAAAACAAGGTTGAGTTGTCCTCTGG
AGGAGAGCCGATTGTTGAATTCGAAAATGAGCAATCATGTTACGTTAATG
TGAGCTTTTCTCTCGACTTGTGGGGGAGGGTGGCATAGGAGGCAAGTTCG
CCTAGTGGGCTAACTCAGTTCAGGCCCGTGATGGCTCTGGAGCCTTCACC
TTCGACCGCGTGTTCCCTATGGACTCGAAACAAACGGATATCTTCGACTT
CTCGATTCGGCCCACCGTAGACGATATTCTGAACGGTTATAATGGAACGG
TCTTCGCTTACGGTCAGACGGGTGCAGGAAAGTCTTACACCATGATGGGT
TCGGACATCGACGATGATATTGGCAAGGGTATCATTCCCCGCATTGTCGA
GCAGATCTTCGCCAGCATCCTCACCAGCCCAAGCAACATCGAGTACACCG
TCCGCGTGAGTTACATGGAAATCTACATGGAACGAATTCGAGATTTGCTG
GTGCCGCATAACGACAACCTTCCCGTTCACGAGGAGAAATCGAGAGGTGT
CTATGTCAAGGGTCTCCTGGAGGTGTACGTGTCAAGCGTCCAGGAGGTGT
ACGAAGTCATGCGACGTGGTGGTACAGCAAGAGCGGTTGCGGCGACAAAT
ATGAACCAGGAATCCTCTCGGTCCCACTCCATCTTCGTCATCACTGTTAC
ACAGAAGAACCTGGAGACCGGCTCTGCGAAGAGCGGACAGCTGTTCTTGG
TGGATCTGGCAGGTAGTGAGAAGGTTGGAAAGACGGGCGCCAGTGGTCAG
ACGCTCGAAGAAGCAAAGAAGATCAACAAGAGTTTGAGTGCTCTTGGTAT
GGTCATCAACGCGCTAACGGATGGCAAATCCACGCATATCCCGTACCGTG
ACTCCAAGCTCACGCGTATTCTGCAAGAGAGTTTGGGAGGTAACTCGAGA
ACGACATTGATCATCAACTGCTCCCCCAGCAGCTACAACGATGCGGAAAC
CATCTCCACCCTGCGTTTCGGTGTGCGCGCCAAGGCAATCAAGAACAAGG
CGAAGGTCAACGCCGAATTGAGCCCTTCGGAACTGAAGGCACTTTTGCGC
AAGGCCCAGAGCCAGGTGACGAATTTCGAAACATATATTTCACAACTTGA
GACTGAAGTGCACGTGTGGCGGAGTGGCGAGGCCGTTCCCAAGGATCGCT
GGACTCCCGCCAGAGGGGATGCTGTGAGCGCCGCGAAGGCCGAGGCTCGT
GCACCACGGCCCGGTACGCCCTCCCGTTTCCAGGACACGCCTCGATCTGA
GACTCCTCGTCCTGAGTCCAGGCTTGGCGATCGTTCTAGCACACCTAGCC
TTGTTCTCGAGAAGGACGAGAGAGAGGAGTTCCTTAGACGCGAGAATGAG
CTTCAGGACCAGATCGCGGAGAAGGAGTCGCATATCGCCAACGTCGAAAG
AGGTCTCCGTGAGGCGCGGGAGGAGTTGAGAAGCATGAAAGAGAACTCCG
CCCGCTCAGGCAAAGACAACGATAAGTTGACCACCGAGGTCAATGAGCTC
CGTATGCAGTTGGAGAAGGTGTCGTATGAAAGCAAGGAGGCCGCTATCAC
TATGGACAGCCTCCGCGAGGCTAACTCCGAGTTGACTACCGAGCTGGACG
ATGTTAAGCAGCAGCTTCTCGACGTTCGGATGAAGGCCAAGGAGACCAGC
GCTGCACTGGACGAGAAGGAGAAGAAGAAGGCCGAAAAGATGGCGAAGAT
GATGGCCGGATTCGACTTGGGCGGTGACGTTTTCTCCGATAATGAACGCA
AGCTTCAGGACTTGATCCAGCGGGTCGATTCCCTGCACAAGGTCAGCGAA
GCCGGCGAGACGATCGCGCCTGACGACCTTATGGAGCTGCGGGCGAGTCT
CCTGGAGACCCAAGGGTTCATCCGTCAAGCCGAGCTCACGATGAACGACC
GGGGAGATTTCAATGAGCTGCAGGACAGCCGTAGAGCGGAGGTTGAGCAG
AAGCTGGCGAATCTCGAGCGGGACTATGAGAACCTTCTGGAGCGGAACCT
GGGCGAGGGCGACGTAGAGGAAATCCGGGAGCGGTTGGAGAAGGTGTACG
TGACCCGGAAGGAGGCCGAAATGCAGGCAGTCACGGACCTTAGGAACGAG
ATTGCACGCAAGGATGATGAGCTGGACAAGCTGCGCCAGTCCCTTGCAGA
CTCCCAATCCCGGGTCTCGACCAACGGCGCCGCCGGCAAGAACCTGCAGC
AGCAGATTGCTGACTTTGATGCCATGAAGAAGTCGCTCATGCGCGACCTC
CAGAACCGCTGCGAGCGCGTTGTGGAGCTTGAGATCTCGCTGGACGATGC
TCGGGAGCAGTACAACAACGTTCTCCGTTCGTCGAACAACCGGGCTCAGC
AGAAGAAGATGGCGTTCCTGGAACGCAACCTGGAGCAGCTGACTCATGTG
CAGCGGCAGCTGGTAGAACAGAACAGCAGCCTGAAGAAGGAGGTTGCTAT
TGCGGAGAGAAAGCTCATTGCCCGGAATGAGCGGATTGCGAGCTTGGAGA
GCCTGCTCCAGGAGAGCCAGGAGAAACTCACCCAAGCGAATCACCGGTAC
GACCCTCTCCACTTTTTTGACGAAGGAACGAAAGCAGGTTGCTGACTAGA
TGATGATACAGATTTGAAGCCCAACTCACTGCGGTCAAAGAGCGACTCGA
AGCTGCGAAGCAGGGCTCTACGAGGGGTCTTCCAAGTATGGATGGCAGCG
GCGGTTTCAGTTTTGGCGGCTCGAGAATCGCAAAGCCGCTCCGAGGCGGC
GGCGGAGGAAACGAGAGCAGTGCTCCAGTTGCAGGAGTCCAGTCGCAGGA
GACTGGGAAGCGTACCAGCTGGTTTTTTGATCGACGA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:2808574..2811460- >ASPNIDRAFT_119526-T1 ID=ASPNIDRAFT_119526-T1|Name=ASPNIDRAFT_119526-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8241bp|location=Sequence derived from alignment at ACJE01000021.1:2808574..2811460- (Aspergillus niger ATCC 1015)
ATTTGAAGCCCAACTCACTGCGGTCAAAGAGCGACTCGAAGCTGCGAAGC
AGGGCTCTACGAGGGGTCTTCCAAGTATGGATGGCAGCGGCGGTTTCAGT
TTTGGCGGCTCGAGAATCGCAAAGCCGCTCCGAGGCGGCGGCGGAGGAAA
CGAGAGCAGTGCTCCAGTTGCAGGAGTCCAGTCGCAGGAGACTGGGAAGC
GTACCAGCTGGTTTTTTGATCGACGGCCCGTGATGGCTCTGGAGCCTTCA
CCTTCGACCGCGTGTTCCCTATGGACTCGAAACAAACGGATATCTTCGAC
TTCTCGATTCGGCCCACCGTAGACGATATTCTGAACGGTTATAATGGAAC
GGTCTTCGCTTACGGTCAGACGGGTGCAGGAAAGTCTTACACCATGATGG
GTTCGGACATCGACGATGATATTGGCAAGGGTATCATTCCCCGCATTGTC
GAGCAGATCTTCGCCAGCATCCTCACCAGCCCAAGCAACATCGAGTACAC
CGTCCGCGTGAGTTACATGGAAATCTACATGGAACGAATTCGAGATTTGC
TGGTGCCGCATAACGACAACCTTCCCGTTCACGAGGAGAAATCGAGAGGT
GTCTATGTCAAGGGTCTCCTGGAGGTGTACGTGTCAAGCGTCCAGGAGGT
GTACGAAGTCATGCGACGTGGTGGTACAGCAAGAGCGGTTGCGGCGACAA
ATATGAACCAGGAATCCTCTCGGTCCCACTCCATCTTCGTCATCACTGTT
ACACAGAAGAACCTGGAGACCGGCTCTGCGAAGAGCGGACAGCTGTTCTT
GGTGGATCTGGCAGGTAGTGAGAAGGTTGGAAAGACGGGCGCCAGTGGTC
AGACGCTCGAAGAAGCAAAGAAGATCAACAAGAGTTTGAGTGCTCTTGGT
ATGGTCATCAACGCGCTAACGGATGGCAAATCCACGCATATCCCGTACCG
TGACTCCAAGCTCACGCGTATTCTGCAAGAGAGTTTGGGAGGTAACTCGA
GAACGACATTGATCATCAACTGCTCCCCCAGCAGCTACAACGATGCGGAA
ACCATCTCCACCCTGCGTTTCGGTGTGCGCGCCAAGGCAATCAAGAACAA
GGCGAAGGTCAACGCCGAATTGAGCCCTTCGGAACTGAAGGCACTTTTGC
GCAAGGCCCAGAGCCAGGTGACGAATTTCGAAACATATATTTCACAACTT
GAGACTGAAGTGCACGTGTGGCGGAGTGGCGAGGCCGTTCCCAAGGATCG
CTGGACTCCCGCCAGAGGGGATGCTGTGAGCGCCGCGAAGGCCGAGGCTC
GTGCACCACGGCCCGGTACGCCCTCCCGTTTCCAGGACACGCCTCGATCT
GAGACTCCTCGTCCTGAGTCCAGGCTTGGCGATCGTTCTAGCACACCTAG
CCTTGTTCTCGAGAAGGACGAGAGAGAGGAGTTCCTTAGACGCGAGAATG
AGCTTCAGGACCAGATCGCGGAGAAGGAGTCGCATATCGCCAACGTCGAA
AGAGGTCTCCGTGAGGCGCGGGAGGAGTTGAGAAGCATGAAAGAGAACTC
CGCCCGCTCAGGCAAAGACAACGATAAGTTGACCACCGAGGTCAATGAGC
TCCGTATGCAGTTGGAGAAGGTGTCGTATGAAAGCAAGGAGGCCGCTATC
ACTATGGACAGCCTCCGCGAGGCTAACTCCGAGTTGACTACCGAGCTGGA
CGATGTTAAGCAGCAGCTTCTCGACGTTCGGATGAAGGCCAAGGAGACCA
GCGCTGCACTGGACGAGAAGGAGAAGAAGAAGGCCGAAAAGATGGCGAAG
ATGATGGCCGGATTCGACTTGGGCGGTGACGTTTTCTCCGATAATGAACG
CAAGCTTCAGGACTTGATCCAGCGGGTCGATTCCCTGCACAAGGTCAGCG
AAGCCGGCGAGACGATCGCGCCTGACGACCTTATGGAGCTGCGGGCGAGT
CTCCTGGAGACCCAAGGGTTCATCCGTCAAGCCGAGCTCACGATGAACGA
CCGGGGAGATTTCAATGAGCTGCAGGACAGCCGTAGAGCGGAGGTTGAGC
AGAAGCTGGCGAATCTCGAGCGGGACTATGAGAACCTTCTGGAGCGGAAC
CTGGGCGAGGGCGACGTAGAGGAAATCCGGGAGCGGTTGGAGAAGGTGTA
CGTGACCCGGAAGGAGGCCGAAATGCAGGCAGTCACGGACCTTAGGAACG
AGATTGCACGCAAGGATGATGAGCTGGACAAGCTGCGCCAGTCCCTTGCA
GACTCCCAATCCCGGGTCTCGACCAACGGCGCCGCCGGCAAGAACCTGCA
GCAGCAGATTGCTGACTTTGATGCCATGAAGAAGTCGCTCATGCGCGACC
TCCAGAACCGCTGCGAGCGCGTTGTGGAGCTTGAGATCTCGCTGGACGAT
GCTCGGGAGCAGTACAACAACGTTCTCCGTTCGTCGAACAACCGGGCTCA
GCAGAAGAAGATGGCGTTCCTGGAACGCAACCTGGAGCAGCTGACTCATG
TGCAGCGGCAGCTGGTAGAACAGAACAGCAGCCTGAAGAAGGAGGTTGCT
ATTGCGGAGAGAAAGCTCATTGCCCGGAATGAGCGGATTGCGAGCTTGGA
GAGCCTGCTCCAGGAGAGCCAGGAGAAACTCACCCAAGCGAATCACCGAC
AGTGGTTGCGAGGTTCCGACCGCAAAACAAGGTTGAGTTGTCCTCTGGAG
GAGAGCCGATTGTTGAATTCGAAAATGAGCAATCATGTTACGTTAATATT
TGAAGCCCAACTCACTGCGGTCAAAGAGCGACTCGAAGCTGCGAAGCAGG
GCTCTACGAGGGGTCTTCCAAGTATGGATGGCAGCGGCGGTTTCAGTTTT
GGCGGCTCGAGAATCGCAAAGCCGCTCCGAGGCGGCGGCGGAGGAAACGA
GAGCAGTGCTCCAGTTGCAGGAGTCCAGTCGCAGGAGACTGGGAAGCGTA
CCAGCTGGTTTTTTGATCGACGGCCCGTGATGGCTCTGGAGCCTTCACCT
TCGACCGCGTGTTCCCTATGGACTCGAAACAAACGGATATCTTCGACTTC
TCGATTCGGCCCACCGTAGACGATATTCTGAACGGTTATAATGGAACGGT
CTTCGCTTACGGTCAGACGGGTGCAGGAAAGTCTTACACCATGATGGGTT
CGGACATCGACGATGATATTGGCAAGGGTATCATTCCCCGCATTGTCGAG
CAGATCTTCGCCAGCATCCTCACCAGCCCAAGCAACATCGAGTACACCGT
CCGCGTGAGTTACATGGAAATCTACATGGAACGAATTCGAGATTTGCTGG
TGCCGCATAACGACAACCTTCCCGTTCACGAGGAGAAATCGAGAGGTGTC
TATGTCAAGGGTCTCCTGGAGGTGTACGTGTCAAGCGTCCAGGAGGTGTA
CGAAGTCATGCGACGTGGTGGTACAGCAAGAGCGGTTGCGGCGACAAATA
TGAACCAGGAATCCTCTCGGTCCCACTCCATCTTCGTCATCACTGTTACA
CAGAAGAACCTGGAGACCGGCTCTGCGAAGAGCGGACAGCTGTTCTTGGT
GGATCTGGCAGGTAGTGAGAAGGTTGGAAAGACGGGCGCCAGTGGTCAGA
CGCTCGAAGAAGCAAAGAAGATCAACAAGAGTTTGAGTGCTCTTGGTATG
GTCATCAACGCGCTAACGGATGGCAAATCCACGCATATCCCGTACCGTGA
CTCCAAGCTCACGCGTATTCTGCAAGAGAGTTTGGGAGGTAACTCGAGAA
CGACATTGATCATCAACTGCTCCCCCAGCAGCTACAACGATGCGGAAACC
ATCTCCACCCTGCGTTTCGGTGTGCGCGCCAAGGCAATCAAGAACAAGGC
GAAGGTCAACGCCGAATTGAGCCCTTCGGAACTGAAGGCACTTTTGCGCA
AGGCCCAGAGCCAGGTGACGAATTTCGAAACATATATTTCACAACTTGAG
ACTGAAGTGCACGTGTGGCGGAGTGGCGAGGCCGTTCCCAAGGATCGCTG
GACTCCCGCCAGAGGGGATGCTGTGAGCGCCGCGAAGGCCGAGGCTCGTG
CACCACGGCCCGGTACGCCCTCCCGTTTCCAGGACACGCCTCGATCTGAG
ACTCCTCGTCCTGAGTCCAGGCTTGGCGATCGTTCTAGCACACCTAGCCT
TGTTCTCGAGAAGGACGAGAGAGAGGAGTTCCTTAGACGCGAGAATGAGC
TTCAGGACCAGATCGCGGAGAAGGAGTCGCATATCGCCAACGTCGAAAGA
GGTCTCCGTGAGGCGCGGGAGGAGTTGAGAAGCATGAAAGAGAACTCCGC
CCGCTCAGGCAAAGACAACGATAAGTTGACCACCGAGGTCAATGAGCTCC
GTATGCAGTTGGAGAAGGTGTCGTATGAAAGCAAGGAGGCCGCTATCACT
ATGGACAGCCTCCGCGAGGCTAACTCCGAGTTGACTACCGAGCTGGACGA
TGTTAAGCAGCAGCTTCTCGACGTTCGGATGAAGGCCAAGGAGACCAGCG
CTGCACTGGACGAGAAGGAGAAGAAGAAGGCCGAAAAGATGGCGAAGATG
ATGGCCGGATTCGACTTGGGCGGTGACGTTTTCTCCGATAATGAACGCAA
GCTTCAGGACTTGATCCAGCGGGTCGATTCCCTGCACAAGGTCAGCGAAG
CCGGCGAGACGATCGCGCCTGACGACCTTATGGAGCTGCGGGCGAGTCTC
CTGGAGACCCAAGGGTTCATCCGTCAAGCCGAGCTCACGATGAACGACCG
GGGAGATTTCAATGAGCTGCAGGACAGCCGTAGAGCGGAGGTTGAGCAGA
AGCTGGCGAATCTCGAGCGGGACTATGAGAACCTTCTGGAGCGGAACCTG
GGCGAGGGCGACGTAGAGGAAATCCGGGAGCGGTTGGAGAAGGTGTACGT
GACCCGGAAGGAGGCCGAAATGCAGGCAGTCACGGACCTTAGGAACGAGA
TTGCACGCAAGGATGATGAGCTGGACAAGCTGCGCCAGTCCCTTGCAGAC
TCCCAATCCCGGGTCTCGACCAACGGCGCCGCCGGCAAGAACCTGCAGCA
GCAGATTGCTGACTTTGATGCCATGAAGAAGTCGCTCATGCGCGACCTCC
AGAACCGCTGCGAGCGCGTTGTGGAGCTTGAGATCTCGCTGGACGATGCT
CGGGAGCAGTACAACAACGTTCTCCGTTCGTCGAACAACCGGGCTCAGCA
GAAGAAGATGGCGTTCCTGGAACGCAACCTGGAGCAGCTGACTCATGTGC
AGCGGCAGCTGGTAGAACAGAACAGCAGCCTGAAGAAGGAGGTTGCTATT
GCGGAGAGAAAGCTCATTGCCCGGAATGAGCGGATTGCGAGCTTGGAGAG
CCTGCTCCAGGAGAGCCAGGAGAAACTCACCCAAGCGAATCACCGACAGT
GGTTGCGAGGTTCCGACCGCAAAACAAGGTTGAGTTGTCCTCTGGAGGAG
AGCCGATTGTTGAATTCGAAAATGAGCAATCATGTTACGTTAATATTTGA
AGCCCAACTCACTGCGGTCAAAGAGCGACTCGAAGCTGCGAAGCAGGGCT
CTACGAGGGGTCTTCCAAGTATGGATGGCAGCGGCGGTTTCAGTTTTGGC
GGCTCGAGAATCGCAAAGCCGCTCCGAGGCGGCGGCGGAGGAAACGAGAG
CAGTGCTCCAGTTGCAGGAGTCCAGTCGCAGGAGACTGGGAAGCGTACCA
GCTGGTTTTTTGATCGACGGCCCGTGATGGCTCTGGAGCCTTCACCTTCG
ACCGCGTGTTCCCTATGGACTCGAAACAAACGGATATCTTCGACTTCTCG
ATTCGGCCCACCGTAGACGATATTCTGAACGGTTATAATGGAACGGTCTT
CGCTTACGGTCAGACGGGTGCAGGAAAGTCTTACACCATGATGGGTTCGG
ACATCGACGATGATATTGGCAAGGGTATCATTCCCCGCATTGTCGAGCAG
ATCTTCGCCAGCATCCTCACCAGCCCAAGCAACATCGAGTACACCGTCCG
CGTGAGTTACATGGAAATCTACATGGAACGAATTCGAGATTTGCTGGTGC
CGCATAACGACAACCTTCCCGTTCACGAGGAGAAATCGAGAGGTGTCTAT
GTCAAGGGTCTCCTGGAGGTGTACGTGTCAAGCGTCCAGGAGGTGTACGA
AGTCATGCGACGTGGTGGTACAGCAAGAGCGGTTGCGGCGACAAATATGA
ACCAGGAATCCTCTCGGTCCCACTCCATCTTCGTCATCACTGTTACACAG
AAGAACCTGGAGACCGGCTCTGCGAAGAGCGGACAGCTGTTCTTGGTGGA
TCTGGCAGGTAGTGAGAAGGTTGGAAAGACGGGCGCCAGTGGTCAGACGC
TCGAAGAAGCAAAGAAGATCAACAAGAGTTTGAGTGCTCTTGGTATGGTC
ATCAACGCGCTAACGGATGGCAAATCCACGCATATCCCGTACCGTGACTC
CAAGCTCACGCGTATTCTGCAAGAGAGTTTGGGAGGTAACTCGAGAACGA
CATTGATCATCAACTGCTCCCCCAGCAGCTACAACGATGCGGAAACCATC
TCCACCCTGCGTTTCGGTGTGCGCGCCAAGGCAATCAAGAACAAGGCGAA
GGTCAACGCCGAATTGAGCCCTTCGGAACTGAAGGCACTTTTGCGCAAGG
CCCAGAGCCAGGTGACGAATTTCGAAACATATATTTCACAACTTGAGACT
GAAGTGCACGTGTGGCGGAGTGGCGAGGCCGTTCCCAAGGATCGCTGGAC
TCCCGCCAGAGGGGATGCTGTGAGCGCCGCGAAGGCCGAGGCTCGTGCAC
CACGGCCCGGTACGCCCTCCCGTTTCCAGGACACGCCTCGATCTGAGACT
CCTCGTCCTGAGTCCAGGCTTGGCGATCGTTCTAGCACACCTAGCCTTGT
TCTCGAGAAGGACGAGAGAGAGGAGTTCCTTAGACGCGAGAATGAGCTTC
AGGACCAGATCGCGGAGAAGGAGTCGCATATCGCCAACGTCGAAAGAGGT
CTCCGTGAGGCGCGGGAGGAGTTGAGAAGCATGAAAGAGAACTCCGCCCG
CTCAGGCAAAGACAACGATAAGTTGACCACCGAGGTCAATGAGCTCCGTA
TGCAGTTGGAGAAGGTGTCGTATGAAAGCAAGGAGGCCGCTATCACTATG
GACAGCCTCCGCGAGGCTAACTCCGAGTTGACTACCGAGCTGGACGATGT
TAAGCAGCAGCTTCTCGACGTTCGGATGAAGGCCAAGGAGACCAGCGCTG
CACTGGACGAGAAGGAGAAGAAGAAGGCCGAAAAGATGGCGAAGATGATG
GCCGGATTCGACTTGGGCGGTGACGTTTTCTCCGATAATGAACGCAAGCT
TCAGGACTTGATCCAGCGGGTCGATTCCCTGCACAAGGTCAGCGAAGCCG
GCGAGACGATCGCGCCTGACGACCTTATGGAGCTGCGGGCGAGTCTCCTG
GAGACCCAAGGGTTCATCCGTCAAGCCGAGCTCACGATGAACGACCGGGG
AGATTTCAATGAGCTGCAGGACAGCCGTAGAGCGGAGGTTGAGCAGAAGC
TGGCGAATCTCGAGCGGGACTATGAGAACCTTCTGGAGCGGAACCTGGGC
GAGGGCGACGTAGAGGAAATCCGGGAGCGGTTGGAGAAGGTGTACGTGAC
CCGGAAGGAGGCCGAAATGCAGGCAGTCACGGACCTTAGGAACGAGATTG
CACGCAAGGATGATGAGCTGGACAAGCTGCGCCAGTCCCTTGCAGACTCC
CAATCCCGGGTCTCGACCAACGGCGCCGCCGGCAAGAACCTGCAGCAGCA
GATTGCTGACTTTGATGCCATGAAGAAGTCGCTCATGCGCGACCTCCAGA
ACCGCTGCGAGCGCGTTGTGGAGCTTGAGATCTCGCTGGACGATGCTCGG
GAGCAGTACAACAACGTTCTCCGTTCGTCGAACAACCGGGCTCAGCAGAA
GAAGATGGCGTTCCTGGAACGCAACCTGGAGCAGCTGACTCATGTGCAGC
GGCAGCTGGTAGAACAGAACAGCAGCCTGAAGAAGGAGGTTGCTATTGCG
GAGAGAAAGCTCATTGCCCGGAATGAGCGGATTGCGAGCTTGGAGAGCCT
GCTCCAGGAGAGCCAGGAGAAACTCACCCAAGCGAATCACCGACAGTGGT
TGCGAGGTTCCGACCGCAAAACAAGGTTGAGTTGTCCTCTGGAGGAGAGC
CGATTGTTGAATTCGAAAATGAGCAATCATGTTACGTTAAT 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:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR019821 |
| DBxref | InterPro:IPR036961 |
| DBxref | InterPro:IPR001752 |
| DBxref | PFAM:PF16796 |
| DBxref | PFAM:PF00225 |
| Product | Kinesin heavy chain |
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 |
|---|
| ACJE01000021.1 | supercontig | ACJE01000021.1:2808574..2811460 - |
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