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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000009.1:2015386..2017474- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_139753-T1 ID=ASPNIDRAFT_139753-T1|Name=ASPNIDRAFT_139753-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2089bp|location=Sequence derived from alignment at ACJE01000009.1:2015386..2017474- (Aspergillus niger ATCC 1015)
ATGTCTCAAAATTTTGAGAAGTCGGTGAAGGGAGCCACCAAGATAAAGGT
TGGTAGGAGGTTCCGTGCCTTTTCAGGGGATGGATGATCTTGCGCAAGTG
CTGACAATCTGGTCTTCATCAACAGCTTGCGGCCCCCAAATCCAAATACA
TTGAACATATTCTTGTTGCGACACATACAGGCGAGGCAGGTGTTGCAGAG
ATTTTTCGGACGCTGCAGCTTCGACTTCGCGACTCAACATGGACCATTGT
TTTCAAAGCTCTTATTGTTGTCCACTTGATGATAAGGGAAGGACAGCTGG
ACGCTACATTGCAGTATATGGCAGAGAACCCCAGAAGACTTGCGATCAGT
GGATTCTCAGAAGGTGGGAGACGATCTCAAAACATGCACGAGAGATTGCT
AACATCTAAGTGTTACAGTACAATCGCAAGGCCATAATATTCGAAGATAT
TCCGATTATCTGATCGCGCGTGCGCGTGCCTTCGAAGATACAAAGACCGA
CTATGTGCGAAGCGGACAAGGTCGAATGAAGAGACTGACAGTTGAAAAGG
GACTTCTGAGGGAGACAGAAATAGTTCAACATCAGATCCATGCACTGCTC
AAATGTGACGTGGGTCATCTCATTCCTTCCCTTGCATCATGACATTTATC
ACTGACCTGTTTCAGCTTCTCACTGACGACGTCGAGAACGAAATATCGTT
GACCGCATTTCGCTTACTGGTTTTGGATCTTCTGACATTGTATTCAGTGA
TGAATGAAGGAACAATAAACGTTCTTGGTAGGTGCTCTGCTTAGCAAACC
CACGGCATGCGCTGACTGGACTGCGCACAGAGCATTATTTTGAAATGTCG
CGACCCGACAGCGAACGTGCATTGGAAATATACAAGACATTTACTGCCCA
AACGGAAGAAGTTGTGAAGTTTCTGGGAGTTGCCAGGCATTTCCAGGCTG
CGACGCGATTGGAGATCCCCAAGCTCAAACATGCCTCTACGGATCTGACG
CGACTTCTGGAGGACGATCTCAATGACCCGGATTTCAACCTTCGCCGGCG
CGAATATTTGGCACGAAAGCAAGGGAAGAGCGGCGGAACTCCTCCGCCTG
TGAGCAAAACTGCGACAGGCGATCGGGCCGTGAGCAACTCGAACACTATG
CCGGCCCGGCCTCAAACCCAGCCGAACCCACAGACACAGAAGTCAAACCA
ATCGGACCTTATCGACTTCTTTGATTCAATCGAGCAGAATCAGCAGCCGA
TGGCCCAGACCAATCCGTTCCAGCAAGCGCAATTACAGCAGCAACCACAG
GCGATGCAGTTCCAGCAAACTGGATTTCCACCGCAGCAGCAGCAGCAGGC
CTTCTACGCGCAACCGACGGGCTTCCAGCAGCCCCAACCCACTGGATTTG
ACCAACAAGCGGCGTTTGGAAACCAGTTTGCGCCGCAGAATATCCAGCAG
TTTGGCCAGCAGCAGCAGGCCCCCCAACCTCTTCAACCCAACCACACGGG
GGCCGGATTTGGTGGTTATTCGGCGCAGCCCCAGACATACGGGTTCCAGT
CAAACCTCGCACCCATCCCACAACATGACATGAGCGCATTCTCCCAGCAG
CAACAAATGCCAATGGCCCAGCAGCAATTGCAGCCACAGTCAACCAACCC
CTTCAGACAATCAATGTTAATGAGCACGCCGACCGGATCGGCCACGCCTG
CCACCCCCCTTAACCGCCAAAATACGAACCCCTTCGCACGACGTTTATCA
ACAGTCAACCCACAGGTCGAAACCGGTGTTCCTCAAGCCTTCCCGCAGGC
GCAGCCGCAAGCGCCCCAACAGCCAGCGCCACTTCAAGCTCAGCGAACGG
GAACCAATCCGTTTGCCCGTGCGTCCTCTGTTCCCCCACCGCAGTCACAG
GGCCTGCAACCTCCAGCTGCGGCTCCTCTGCGACCAAACCCTACAGGGAG
CACGAATCCTTTCCGTCAGAGCGCCTTTGTGAACCAACAGACAGGCCAAG
GGTGGCATGTCGGTGGACAACAGGGCACAATGGGAGGTTTGGAGCAACTG
GACACTGTGCCAATATTCCCGCGCCCGGGGCTATCATAG back to topCoding sequence (CDS) from alignment at ACJE01000009.1:2015386..2017474- >ASPNIDRAFT_139753-T1 ID=ASPNIDRAFT_139753-T1|Name=ASPNIDRAFT_139753-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9105bp|location=Sequence derived from alignment at ACJE01000009.1:2015386..2017474- (Aspergillus niger ATCC 1015)
AGCATTATTTTGAAATGTCGCGACCCGACAGCGAACGTGCATTGGAAATA
TACAAGACATTTACTGCCCAAACGGAAGAAGTTGTGAAGTTTCTGGGAGT
TGCCAGGCATTTCCAGGCTGCGACGCGATTGGAGATCCCCAAGCTCAAAC
ATGCCTCTACGGATCTGACGCGACTTCTGGAGGACGATCTCAATGACCCG
GATTTCAACCTTCGCCGGCGCGAATATTTGGCACGAAAGCAAGGGAAGAG
CGGCGGAACTCCTCCGCCTGTGAGCAAAACTGCGACAGGCGATCGGGCCG
TGAGCAACTCGAACACTATGCCGGCCCGGCCTCAAACCCAGCCGAACCCA
CAGACACAGAAGTCAAACCAATCGGACCTTATCGACTTCTTTGATTCAAT
CGAGCAGAATCAGCAGCCGATGGCCCAGACCAATCCGTTCCAGCAAGCGC
AATTACAGCAGCAACCACAGGCGATGCAGTTCCAGCAAACTGGATTTCCA
CCGCAGCAGCAGCAGCAGGCCTTCTACGCGCAACCGACGGGCTTCCAGCA
GCCCCAACCCACTGGATTTGACCAACAAGCGGCGTTTGGAAACCAGTTTG
CGCCGCAGAATATCCAGCAGTTTGGCCAGCAGCAGCAGGCCCCCCAACCT
CTTCAACCCAACCACACGGGGGCCGGATTTGGTGGTTATTCGGCGCAGCC
CCAGACATACGGGTTCCAGTCAAACCTCGCACCCATCCCACAACATGACA
TGAGCGCATTCTCCCAGCAGCAACAAATGCCAATGGCCCAGCAGCAATTG
CAGCCACAGTCAACCAACCCCTTCAGACAATCAATGTTAATGAGCACGCC
GACCGGATCGGCCACGCCTGCCACCCCCCTTAACCGCCAAAATACGAACC
CCTTCGCACGACGTTTATCAACAGTCAACCCACAGGTCGAAACCGGTGTT
CCTCAAGCCTTCCCGCAGGCGCAGCCGCAAGCGCCCCAACAGCCAGCGCC
ACTTCAAGCTCAGCGAACGGGAACCAATCCGTTTGCCCGTGCGTCCTCTG
TTCCCCCACCGCAGTCACAGGGCCTGCAACCTCCAGCTGCGGCTCCTCTG
CGACCAAACCCTACAGGGAGCACGAATCCTTTCCGTCAGAGCGCCTTTGT
GAACCAACAGACAGGCCAAGGGTGGCATGTCGGTGGACAACAGGGCACAA
TGGGAGGTTTGGAGCAACTGGACACTGTGCCAATATTCCCGCGCCCGGGG
CTATCATAGCTTCTCACTGACGACGTCGAGAACGAAATATCGTTGACCGC
ATTTCGCTTACTGGTTTTGGATCTTCTGACATTGTATTCAGTGATGAATG
AAGGAACAATAAACGTTCTTGGCCATAATATTCGAAGATATTCCGATTAT
CTGATCGCGCGTGCGCGTGCCTTCGAAGATACAAAGACCGACTATGTGCG
AAGCGGACAAGGTCGAATGAAGAGACTGACAGTTGAAAAGGGACTTCTGA
GGGAGACAGAAATAGTTCAACATCAGATCCATGCACTGCTCAAATGTGAC
CTTGCGGCCCCCAAATCCAAATACATTGAACATATTCTTGTTGCGACACA
TACAGGCGAGGCAGGTGTTGCAGAGATTTTTCGGACGCTGCAGCTTCGAC
TTCGCGACTCAACATGGACCATTGTTTTCAAAGCTCTTATTGTTGTCCAC
TTGATGATAAGGGAAGGACAGCTGGACGCTACATTGCAGTATATGGCAGA
GAACCCCAGAAGACTTGCGATCAATGTCTCAAAATTTTGAGAAGTCGGTG
AAGGGAGCCACCAAGATAAAGAGCATTATTTTGAAATGTCGCGACCCGAC
AGCGAACGTGCATTGGAAATATACAAGACATTTACTGCCCAAACGGAAGA
AGTTGTGAAGTTTCTGGGAGTTGCCAGGCATTTCCAGGCTGCGACGCGAT
TGGAGATCCCCAAGCTCAAACATGCCTCTACGGATCTGACGCGACTTCTG
GAGGACGATCTCAATGACCCGGATTTCAACCTTCGCCGGCGCGAATATTT
GGCACGAAAGCAAGGGAAGAGCGGCGGAACTCCTCCGCCTGTGAGCAAAA
CTGCGACAGGCGATCGGGCCGTGAGCAACTCGAACACTATGCCGGCCCGG
CCTCAAACCCAGCCGAACCCACAGACACAGAAGTCAAACCAATCGGACCT
TATCGACTTCTTTGATTCAATCGAGCAGAATCAGCAGCCGATGGCCCAGA
CCAATCCGTTCCAGCAAGCGCAATTACAGCAGCAACCACAGGCGATGCAG
TTCCAGCAAACTGGATTTCCACCGCAGCAGCAGCAGCAGGCCTTCTACGC
GCAACCGACGGGCTTCCAGCAGCCCCAACCCACTGGATTTGACCAACAAG
CGGCGTTTGGAAACCAGTTTGCGCCGCAGAATATCCAGCAGTTTGGCCAG
CAGCAGCAGGCCCCCCAACCTCTTCAACCCAACCACACGGGGGCCGGATT
TGGTGGTTATTCGGCGCAGCCCCAGACATACGGGTTCCAGTCAAACCTCG
CACCCATCCCACAACATGACATGAGCGCATTCTCCCAGCAGCAACAAATG
CCAATGGCCCAGCAGCAATTGCAGCCACAGTCAACCAACCCCTTCAGACA
ATCAATGTTAATGAGCACGCCGACCGGATCGGCCACGCCTGCCACCCCCC
TTAACCGCCAAAATACGAACCCCTTCGCACGACGTTTATCAACAGTCAAC
CCACAGGTCGAAACCGGTGTTCCTCAAGCCTTCCCGCAGGCGCAGCCGCA
AGCGCCCCAACAGCCAGCGCCACTTCAAGCTCAGCGAACGGGAACCAATC
CGTTTGCCCGTGCGTCCTCTGTTCCCCCACCGCAGTCACAGGGCCTGCAA
CCTCCAGCTGCGGCTCCTCTGCGACCAAACCCTACAGGGAGCACGAATCC
TTTCCGTCAGAGCGCCTTTGTGAACCAACAGACAGGCCAAGGGTGGCATG
TCGGTGGACAACAGGGCACAATGGGAGGTTTGGAGCAACTGGACACTGTG
CCAATATTCCCGCGCCCGGGGCTATCATAGCTTCTCACTGACGACGTCGA
GAACGAAATATCGTTGACCGCATTTCGCTTACTGGTTTTGGATCTTCTGA
CATTGTATTCAGTGATGAATGAAGGAACAATAAACGTTCTTGGCCATAAT
ATTCGAAGATATTCCGATTATCTGATCGCGCGTGCGCGTGCCTTCGAAGA
TACAAAGACCGACTATGTGCGAAGCGGACAAGGTCGAATGAAGAGACTGA
CAGTTGAAAAGGGACTTCTGAGGGAGACAGAAATAGTTCAACATCAGATC
CATGCACTGCTCAAATGTGACCTTGCGGCCCCCAAATCCAAATACATTGA
ACATATTCTTGTTGCGACACATACAGGCGAGGCAGGTGTTGCAGAGATTT
TTCGGACGCTGCAGCTTCGACTTCGCGACTCAACATGGACCATTGTTTTC
AAAGCTCTTATTGTTGTCCACTTGATGATAAGGGAAGGACAGCTGGACGC
TACATTGCAGTATATGGCAGAGAACCCCAGAAGACTTGCGATCAATGTCT
CAAAATTTTGAGAAGTCGGTGAAGGGAGCCACCAAGATAAAGAGCATTAT
TTTGAAATGTCGCGACCCGACAGCGAACGTGCATTGGAAATATACAAGAC
ATTTACTGCCCAAACGGAAGAAGTTGTGAAGTTTCTGGGAGTTGCCAGGC
ATTTCCAGGCTGCGACGCGATTGGAGATCCCCAAGCTCAAACATGCCTCT
ACGGATCTGACGCGACTTCTGGAGGACGATCTCAATGACCCGGATTTCAA
CCTTCGCCGGCGCGAATATTTGGCACGAAAGCAAGGGAAGAGCGGCGGAA
CTCCTCCGCCTGTGAGCAAAACTGCGACAGGCGATCGGGCCGTGAGCAAC
TCGAACACTATGCCGGCCCGGCCTCAAACCCAGCCGAACCCACAGACACA
GAAGTCAAACCAATCGGACCTTATCGACTTCTTTGATTCAATCGAGCAGA
ATCAGCAGCCGATGGCCCAGACCAATCCGTTCCAGCAAGCGCAATTACAG
CAGCAACCACAGGCGATGCAGTTCCAGCAAACTGGATTTCCACCGCAGCA
GCAGCAGCAGGCCTTCTACGCGCAACCGACGGGCTTCCAGCAGCCCCAAC
CCACTGGATTTGACCAACAAGCGGCGTTTGGAAACCAGTTTGCGCCGCAG
AATATCCAGCAGTTTGGCCAGCAGCAGCAGGCCCCCCAACCTCTTCAACC
CAACCACACGGGGGCCGGATTTGGTGGTTATTCGGCGCAGCCCCAGACAT
ACGGGTTCCAGTCAAACCTCGCACCCATCCCACAACATGACATGAGCGCA
TTCTCCCAGCAGCAACAAATGCCAATGGCCCAGCAGCAATTGCAGCCACA
GTCAACCAACCCCTTCAGACAATCAATGTTAATGAGCACGCCGACCGGAT
CGGCCACGCCTGCCACCCCCCTTAACCGCCAAAATACGAACCCCTTCGCA
CGACGTTTATCAACAGTCAACCCACAGGTCGAAACCGGTGTTCCTCAAGC
CTTCCCGCAGGCGCAGCCGCAAGCGCCCCAACAGCCAGCGCCACTTCAAG
CTCAGCGAACGGGAACCAATCCGTTTGCCCGTGCGTCCTCTGTTCCCCCA
CCGCAGTCACAGGGCCTGCAACCTCCAGCTGCGGCTCCTCTGCGACCAAA
CCCTACAGGGAGCACGAATCCTTTCCGTCAGAGCGCCTTTGTGAACCAAC
AGACAGGCCAAGGGTGGCATGTCGGTGGACAACAGGGCACAATGGGAGGT
TTGGAGCAACTGGACACTGTGCCAATATTCCCGCGCCCGGGGCTATCATA
GCTTCTCACTGACGACGTCGAGAACGAAATATCGTTGACCGCATTTCGCT
TACTGGTTTTGGATCTTCTGACATTGTATTCAGTGATGAATGAAGGAACA
ATAAACGTTCTTGGCCATAATATTCGAAGATATTCCGATTATCTGATCGC
GCGTGCGCGTGCCTTCGAAGATACAAAGACCGACTATGTGCGAAGCGGAC
AAGGTCGAATGAAGAGACTGACAGTTGAAAAGGGACTTCTGAGGGAGACA
GAAATAGTTCAACATCAGATCCATGCACTGCTCAAATGTGACCTTGCGGC
CCCCAAATCCAAATACATTGAACATATTCTTGTTGCGACACATACAGGCG
AGGCAGGTGTTGCAGAGATTTTTCGGACGCTGCAGCTTCGACTTCGCGAC
TCAACATGGACCATTGTTTTCAAAGCTCTTATTGTTGTCCACTTGATGAT
AAGGGAAGGACAGCTGGACGCTACATTGCAGTATATGGCAGAGAACCCCA
GAAGACTTGCGATCAATGTCTCAAAATTTTGAGAAGTCGGTGAAGGGAGC
CACCAAGATAAAGAGCATTATTTTGAAATGTCGCGACCCGACAGCGAACG
TGCATTGGAAATATACAAGACATTTACTGCCCAAACGGAAGAAGTTGTGA
AGTTTCTGGGAGTTGCCAGGCATTTCCAGGCTGCGACGCGATTGGAGATC
CCCAAGCTCAAACATGCCTCTACGGATCTGACGCGACTTCTGGAGGACGA
TCTCAATGACCCGGATTTCAACCTTCGCCGGCGCGAATATTTGGCACGAA
AGCAAGGGAAGAGCGGCGGAACTCCTCCGCCTGTGAGCAAAACTGCGACA
GGCGATCGGGCCGTGAGCAACTCGAACACTATGCCGGCCCGGCCTCAAAC
CCAGCCGAACCCACAGACACAGAAGTCAAACCAATCGGACCTTATCGACT
TCTTTGATTCAATCGAGCAGAATCAGCAGCCGATGGCCCAGACCAATCCG
TTCCAGCAAGCGCAATTACAGCAGCAACCACAGGCGATGCAGTTCCAGCA
AACTGGATTTCCACCGCAGCAGCAGCAGCAGGCCTTCTACGCGCAACCGA
CGGGCTTCCAGCAGCCCCAACCCACTGGATTTGACCAACAAGCGGCGTTT
GGAAACCAGTTTGCGCCGCAGAATATCCAGCAGTTTGGCCAGCAGCAGCA
GGCCCCCCAACCTCTTCAACCCAACCACACGGGGGCCGGATTTGGTGGTT
ATTCGGCGCAGCCCCAGACATACGGGTTCCAGTCAAACCTCGCACCCATC
CCACAACATGACATGAGCGCATTCTCCCAGCAGCAACAAATGCCAATGGC
CCAGCAGCAATTGCAGCCACAGTCAACCAACCCCTTCAGACAATCAATGT
TAATGAGCACGCCGACCGGATCGGCCACGCCTGCCACCCCCCTTAACCGC
CAAAATACGAACCCCTTCGCACGACGTTTATCAACAGTCAACCCACAGGT
CGAAACCGGTGTTCCTCAAGCCTTCCCGCAGGCGCAGCCGCAAGCGCCCC
AACAGCCAGCGCCACTTCAAGCTCAGCGAACGGGAACCAATCCGTTTGCC
CGTGCGTCCTCTGTTCCCCCACCGCAGTCACAGGGCCTGCAACCTCCAGC
TGCGGCTCCTCTGCGACCAAACCCTACAGGGAGCACGAATCCTTTCCGTC
AGAGCGCCTTTGTGAACCAACAGACAGGCCAAGGGTGGCATGTCGGTGGA
CAACAGGGCACAATGGGAGGTTTGGAGCAACTGGACACTGTGCCAATATT
CCCGCGCCCGGGGCTATCATAGCTTCTCACTGACGACGTCGAGAACGAAA
TATCGTTGACCGCATTTCGCTTACTGGTTTTGGATCTTCTGACATTGTAT
TCAGTGATGAATGAAGGAACAATAAACGTTCTTGGCCATAATATTCGAAG
ATATTCCGATTATCTGATCGCGCGTGCGCGTGCCTTCGAAGATACAAAGA
CCGACTATGTGCGAAGCGGACAAGGTCGAATGAAGAGACTGACAGTTGAA
AAGGGACTTCTGAGGGAGACAGAAATAGTTCAACATCAGATCCATGCACT
GCTCAAATGTGACCTTGCGGCCCCCAAATCCAAATACATTGAACATATTC
TTGTTGCGACACATACAGGCGAGGCAGGTGTTGCAGAGATTTTTCGGACG
CTGCAGCTTCGACTTCGCGACTCAACATGGACCATTGTTTTCAAAGCTCT
TATTGTTGTCCACTTGATGATAAGGGAAGGACAGCTGGACGCTACATTGC
AGTATATGGCAGAGAACCCCAGAAGACTTGCGATCAATGTCTCAAAATTT
TGAGAAGTCGGTGAAGGGAGCCACCAAGATAAAGAGCATTATTTTGAAAT
GTCGCGACCCGACAGCGAACGTGCATTGGAAATATACAAGACATTTACTG
CCCAAACGGAAGAAGTTGTGAAGTTTCTGGGAGTTGCCAGGCATTTCCAG
GCTGCGACGCGATTGGAGATCCCCAAGCTCAAACATGCCTCTACGGATCT
GACGCGACTTCTGGAGGACGATCTCAATGACCCGGATTTCAACCTTCGCC
GGCGCGAATATTTGGCACGAAAGCAAGGGAAGAGCGGCGGAACTCCTCCG
CCTGTGAGCAAAACTGCGACAGGCGATCGGGCCGTGAGCAACTCGAACAC
TATGCCGGCCCGGCCTCAAACCCAGCCGAACCCACAGACACAGAAGTCAA
ACCAATCGGACCTTATCGACTTCTTTGATTCAATCGAGCAGAATCAGCAG
CCGATGGCCCAGACCAATCCGTTCCAGCAAGCGCAATTACAGCAGCAACC
ACAGGCGATGCAGTTCCAGCAAACTGGATTTCCACCGCAGCAGCAGCAGC
AGGCCTTCTACGCGCAACCGACGGGCTTCCAGCAGCCCCAACCCACTGGA
TTTGACCAACAAGCGGCGTTTGGAAACCAGTTTGCGCCGCAGAATATCCA
GCAGTTTGGCCAGCAGCAGCAGGCCCCCCAACCTCTTCAACCCAACCACA
CGGGGGCCGGATTTGGTGGTTATTCGGCGCAGCCCCAGACATACGGGTTC
CAGTCAAACCTCGCACCCATCCCACAACATGACATGAGCGCATTCTCCCA
GCAGCAACAAATGCCAATGGCCCAGCAGCAATTGCAGCCACAGTCAACCA
ACCCCTTCAGACAATCAATGTTAATGAGCACGCCGACCGGATCGGCCACG
CCTGCCACCCCCCTTAACCGCCAAAATACGAACCCCTTCGCACGACGTTT
ATCAACAGTCAACCCACAGGTCGAAACCGGTGTTCCTCAAGCCTTCCCGC
AGGCGCAGCCGCAAGCGCCCCAACAGCCAGCGCCACTTCAAGCTCAGCGA
ACGGGAACCAATCCGTTTGCCCGTGCGTCCTCTGTTCCCCCACCGCAGTC
ACAGGGCCTGCAACCTCCAGCTGCGGCTCCTCTGCGACCAAACCCTACAG
GGAGCACGAATCCTTTCCGTCAGAGCGCCTTTGTGAACCAACAGACAGGC
CAAGGGTGGCATGTCGGTGGACAACAGGGCACAATGGGAGGTTTGGAGCA
ACTGGACACTGTGCCAATATTCCCGCGCCCGGGGCTATCATAGCTTCTCA
CTGACGACGTCGAGAACGAAATATCGTTGACCGCATTTCGCTTACTGGTT
TTGGATCTTCTGACATTGTATTCAGTGATGAATGAAGGAACAATAAACGT
TCTTGGCCATAATATTCGAAGATATTCCGATTATCTGATCGCGCGTGCGC
GTGCCTTCGAAGATACAAAGACCGACTATGTGCGAAGCGGACAAGGTCGA
ATGAAGAGACTGACAGTTGAAAAGGGACTTCTGAGGGAGACAGAAATAGT
TCAACATCAGATCCATGCACTGCTCAAATGTGACCTTGCGGCCCCCAAAT
CCAAATACATTGAACATATTCTTGTTGCGACACATACAGGCGAGGCAGGT
GTTGCAGAGATTTTTCGGACGCTGCAGCTTCGACTTCGCGACTCAACATG
GACCATTGTTTTCAAAGCTCTTATTGTTGTCCACTTGATGATAAGGGAAG
GACAGCTGGACGCTACATTGCAGTATATGGCAGAGAACCCCAGAAGACTT
GCGATCAATGTCTCAAAATTTTGAGAAGTCGGTGAAGGGAGCCACCAAGA
TAAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0030136 | clathrin-coated vesicle |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0048268 | clathrin coat assembly |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0030276 | clathrin binding |
| GO:0005545 | 1-phosphatidylinositol binding |
| GO:0005543 | phospholipid 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 exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR014712 |
| DBxref | InterPro:IPR011417 |
| DBxref | InterPro:IPR008942 |
| DBxref | InterPro:IPR013809 |
| DBxref | PFAM:PF01417 |
| DBxref | PFAM:PF07651 |
| 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 |
|---|
| ACJE01000009.1 | supercontig | ACJE01000009.1:2015386..2017474 - |
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