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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000009.1:725467..727615+ Legend: five_prime_UTRexonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_53311-T1 ID=ASPNIDRAFT_53311-T1|Name=ASPNIDRAFT_53311-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2149bp|location=Sequence derived from alignment at ACJE01000009.1:725467..727615+ (Aspergillus niger ATCC 1015)
CGCAGGCACGTCGGCCAAGACCTCCCCTTCTGCTGCTTCCTGTGAGTTCT
CCGGCTCCGGTTTTCACAGATTCCCCAGTTGAATGTTCCTCTTGAGCTGT
CTCTGATGCACACTGTCCACAGCTACCTCCCCGCAAGTCCAGCATGTTGA
ACTAGTGGTTTCGCTGGCCTCTCCCGTTGAATCTCGCCCAGGAGCCTCCC
GCCCATTTAGTCCTCCAGTACCTGCCCGACTCACCTCCTCGATTCTCGCG
CCGTTTAACCTCCACCTTACTTTTCCACCCACGACCTCCTTTCGAATCCC
TTCGCGATGGCGTCGGCCATCTTCTTCCTCGATCTCAAGGGCAAGGTATG
AACCCCCGTGGAGGTTGCGCTGTCATGAACAATTCCGCCGTGATCCCCTG
GAACCTGACCGTTTATTTAGACCCTTCTAGCCCGAAACTACCGCGGAGAC
ATCCCCATGTCCGCCGTCGAAAATTTCCCCATCCTACTCAGTGACGCCGA
AGAAGAGAGCTCCGCCGTGGCTCCGTGCTTTTCCCACGAAGGAATTAACG
TACGTATTTGTGTCTCCGACTCGTGGCTGCGGCGGCGCACCTGCACCTCC
CCCCGCCGTTCCCCGCAACCCGCTGTGTCTACCATCTCCCACATCAGCCC
TGCGCGCATACCCAGAAAGGAACCCAGAAGCATGGAGGTCAATTGCTGAG
AATTCCGCCTTTCCTAGTACCTCTACATCCGTCACAGCAACCTTTACATT
CTTGCCCTGACTAAGAAGAACACCAATGCCACCGAGATCCTCCTTTTCCT
GCATAAGATCGTGGAGGTGTTCACGGAATACTTCAAGGTACTGGAGGAGG
AGAGTATCCGCGATAACTTTGTCATCATCTATGAATTGCTCGATGAGATG
ATGGACTTTGGATATCCGCAGACGACGGAGAGCAAGATATTGCAAGAGTA
AGACGGACCCGTCTTTGAGACTACGAGTAATGGAGGACCACAGCTGACGA
TTCCATGGCAGATACATTACCCAAGAATCACACAAGCTGGAGATCCAAGC
CCGACCACCCATTGCTGTCACCAATGCCGTGTCATGGCGAAGTGAGGGTA
TCCGGTACCGCAAGAACGAAGTCTTCCTTGATGTTGTGGAGTCCCTTAAC
CTCCTCGTGTCCGCGTCTGGTAACGTGTTGCGATCGGAGATTCTCGGAGC
TATCAAGATGAAGTGTTATCTGAGTGGTATGCCGGAGCTTCGTCTGGGCT
TGAACGACAAGGTCATGTTCGAAACCACGGGTCGCGCAACAAGAGGAAAG
GCCGTCGAGATGGAGGACGTCAAGTTCCATCAGTGTGTCCGACTTTCTCG
GTTCGAGAATGACCGCACCATCAGCTTCATTCCCCCGGATGGCGAGTTCG
AGCTGATGAGCTACCGGTTGAACACCCAAGTCAAGCCTCTGATTTGGGTG
GAATGTCTGGTGGAGTCGCACTCTGGTTCGCGCATGGAGTATATGTTGAA
GGTGCGGCCCAGCTCCCTGCCTATAATACTAGAGAGACATATCACCAAGC
TAACGTCACTCCTCCCAAACAGGCCAAGGCCCAATTCAAGCGCCGCAGCA
CTGCCAACAACGTAGAAATCCTCGTCCCAGTCCCAGAAGATGCCGACTCA
CCCCGTTTCCGCACCAACATCGGAACCGTGCACTACGCGCCTGAGAAATC
CGCCATCATCTGGAAGATCAAGCAGTTCGGCGGAGGCAAGGAGTTCCTCA
TGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAGGGCGACGACGAGCACGGC
GGTGGCATGACCGGCGGTTTCGGAGGTAGCATGGGTGGAACTGGGCAGGG
CAAGGCAAAGCGGCCGATCAACGTCAAATTCGAAATCCCTTACTTCACTA
CTAGCGGTATCCAAGTCCGGTACTTGAAGATCACGGAACCTAAGGTATGT
CCATAAATCCATGTCAACTCCCTTCCCTTCAACAACCCACCATCAGTTGG
ATTGGAAGCCTTGTCGCACAAGCACAATGCAATGCAATGGATGCTAACGA
ATGACCCAATGAATGCAGCTACAATACCCCTCCCTCCCATGGGTGCGATA
TATAACACAATCAGGCGACATTGCTGTCCGCATGCCAGATGTACAATGA back to topCoding sequence (CDS) from alignment at ACJE01000009.1:725467..727615+ >ASPNIDRAFT_53311-T1 ID=ASPNIDRAFT_53311-T1|Name=ASPNIDRAFT_53311-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9219bp|location=Sequence derived from alignment at ACJE01000009.1:725467..727615+ (Aspergillus niger ATCC 1015)
ATGGCGTCGGCCATCTTCTTCCTCGATCTCAAGGGCAAGACCCTTCTAGC
CCGAAACTACCGCGGAGACATCCCCATGTCCGCCGTCGAAAATTTCCCCA
TCCTACTCAGTGACGCCGAAGAAGAGAGCTCCGCCGTGGCTCCGTGCTTT
TCCCACGAAGGAATTAACTACCTCTACATCCGTCACAGCAACCTTTACAT
TCTTGCCCTGACTAAGAAGAACACCAATGCCACCGAGATCCTCCTTTTCC
TGCATAAGATCGTGGAGGTGTTCACGGAATACTTCAAGGTACTGGAGGAG
GAGAGTATCCGCGATAACTTTGTCATCATCTATGAATTGCTCGATGAGAT
GATGGACTTTGGATATCCGCAGACGACGGAGAGCAAGATATTGCAAGAAT
ACATTACCCAAGAATCACACAAGCTGGAGATCCAAGCCCGACCACCCATT
GCTGTCACCAATGCCGTGTCATGGCGAAGTGAGGGTATCCGGTACCGCAA
GAACGAAGTCTTCCTTGATGTTGTGGAGTCCCTTAACCTCCTCGTGTCCG
CGTCTGGTAACGTGTTGCGATCGGAGATTCTCGGAGCTATCAAGATGAAG
TGTTATCTGAGTGGTATGCCGGAGCTTCGTCTGGGCTTGAACGACAAGGT
CATGTTCGAAACCACGGGTCGCGCAACAAGAGGAAAGGCCGTCGAGATGG
AGGACGTCAAGTTCCATCAGTGTGTCCGACTTTCTCGGTTCGAGAATGAC
CGCACCATCAGCTTCATTCCCCCGGATGGCGAGTTCGAGCTGATGAGCTA
CCGGTTGAACACCCAAGTCAAGCCTCTGATTTGGGTGGAATGTCTGGTGG
AGTCGCACTCTGGTTCGCGCATGGAGTATATGTTGAAGGCCAAGGCCCAA
TTCAAGCGCCGCAGCACTGCCAACAACGTAGAAATCCTCGTCCCAGTCCC
AGAAGATGCCGACTCACCCCGTTTCCGCACCAACATCGGAACCGTGCACT
ACGCGCCTGAGAAATCCGCCATCATCTGGAAGATCAAGCAGTTCGGCGGA
GGCAAGGAGTTCCTCATGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAGGG
CGACGACGAGCACGGCGGTAGCATGGGTGGAACTGGGCAGGGCAAGGCAA
AGCGGCCGATCAACGTCAAATTCGAAATCCCTTACTTCACTACTAGCGGT
ATCCAAGTCCGGTACTTGAAGATCACGGAACCTAAGCTACAATACCCCTC
CCTCCCATGGGTGCGATATATAACACAATCAGGCGACATTGCTGTCCGCA
TGCCAGATGTACAATGAATGGCGTCGGCCATCTTCTTCCTCGATCTCAAG
GGCAAGACCCTTCTAGCCCGAAACTACCGCGGAGACATCCCCATGTCCGC
CGTCGAAAATTTCCCCATCCTACTCAGTGACGCCGAAGAAGAGAGCTCCG
CCGTGGCTCCGTGCTTTTCCCACGAAGGAATTAACTACCTCTACATCCGT
CACAGCAACCTTTACATTCTTGCCCTGACTAAGAAGAACACCAATGCCAC
CGAGATCCTCCTTTTCCTGCATAAGATCGTGGAGGTGTTCACGGAATACT
TCAAGGTACTGGAGGAGGAGAGTATCCGCGATAACTTTGTCATCATCTAT
GAATTGCTCGATGAGATGATGGACTTTGGATATCCGCAGACGACGGAGAG
CAAGATATTGCAAGAATACATTACCCAAGAATCACACAAGCTGGAGATCC
AAGCCCGACCACCCATTGCTGTCACCAATGCCGTGTCATGGCGAAGTGAG
GGTATCCGGTACCGCAAGAACGAAGTCTTCCTTGATGTTGTGGAGTCCCT
TAACCTCCTCGTGTCCGCGTCTGGTAACGTGTTGCGATCGGAGATTCTCG
GAGCTATCAAGATGAAGTGTTATCTGAGTGGTATGCCGGAGCTTCGTCTG
GGCTTGAACGACAAGGTCATGTTCGAAACCACGGGTCGCGCAACAAGAGG
AAAGGCCGTCGAGATGGAGGACGTCAAGTTCCATCAGTGTGTCCGACTTT
CTCGGTTCGAGAATGACCGCACCATCAGCTTCATTCCCCCGGATGGCGAG
TTCGAGCTGATGAGCTACCGGTTGAACACCCAAGTCAAGCCTCTGATTTG
GGTGGAATGTCTGGTGGAGTCGCACTCTGGTTCGCGCATGGAGTATATGT
TGAAGGCCAAGGCCCAATTCAAGCGCCGCAGCACTGCCAACAACGTAGAA
ATCCTCGTCCCAGTCCCAGAAGATGCCGACTCACCCCGTTTCCGCACCAA
CATCGGAACCGTGCACTACGCGCCTGAGAAATCCGCCATCATCTGGAAGA
TCAAGCAGTTCGGCGGAGGCAAGGAGTTCCTCATGCGCGCAGAGCTGGGT
CTGCCGTCCGTAAAGGGCGACGACGAGCACGGCGGTAGCATGGGTGGAAC
TGGGCAGGGCAAGGCAAAGCGGCCGATCAACGTCAAATTCGAAATCCCTT
ACTTCACTACTAGCGGTATCCAAGTCCGGTACTTGAAGATCACGGAACCT
AAGCTACAATACCCCTCCCTCCCATGGGTGCGATATATAACACAATCAGG
CGACATTGCTGTCCGCATGCCAGATGTACAATGAATGGCGTCGGCCATCT
TCTTCCTCGATCTCAAGGGCAAGACCCTTCTAGCCCGAAACTACCGCGGA
GACATCCCCATGTCCGCCGTCGAAAATTTCCCCATCCTACTCAGTGACGC
CGAAGAAGAGAGCTCCGCCGTGGCTCCGTGCTTTTCCCACGAAGGAATTA
ACTACCTCTACATCCGTCACAGCAACCTTTACATTCTTGCCCTGACTAAG
AAGAACACCAATGCCACCGAGATCCTCCTTTTCCTGCATAAGATCGTGGA
GGTGTTCACGGAATACTTCAAGGTACTGGAGGAGGAGAGTATCCGCGATA
ACTTTGTCATCATCTATGAATTGCTCGATGAGATGATGGACTTTGGATAT
CCGCAGACGACGGAGAGCAAGATATTGCAAGAATACATTACCCAAGAATC
ACACAAGCTGGAGATCCAAGCCCGACCACCCATTGCTGTCACCAATGCCG
TGTCATGGCGAAGTGAGGGTATCCGGTACCGCAAGAACGAAGTCTTCCTT
GATGTTGTGGAGTCCCTTAACCTCCTCGTGTCCGCGTCTGGTAACGTGTT
GCGATCGGAGATTCTCGGAGCTATCAAGATGAAGTGTTATCTGAGTGGTA
TGCCGGAGCTTCGTCTGGGCTTGAACGACAAGGTCATGTTCGAAACCACG
GGTCGCGCAACAAGAGGAAAGGCCGTCGAGATGGAGGACGTCAAGTTCCA
TCAGTGTGTCCGACTTTCTCGGTTCGAGAATGACCGCACCATCAGCTTCA
TTCCCCCGGATGGCGAGTTCGAGCTGATGAGCTACCGGTTGAACACCCAA
GTCAAGCCTCTGATTTGGGTGGAATGTCTGGTGGAGTCGCACTCTGGTTC
GCGCATGGAGTATATGTTGAAGGCCAAGGCCCAATTCAAGCGCCGCAGCA
CTGCCAACAACGTAGAAATCCTCGTCCCAGTCCCAGAAGATGCCGACTCA
CCCCGTTTCCGCACCAACATCGGAACCGTGCACTACGCGCCTGAGAAATC
CGCCATCATCTGGAAGATCAAGCAGTTCGGCGGAGGCAAGGAGTTCCTCA
TGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAGGGCGACGACGAGCACGGC
GGTAGCATGGGTGGAACTGGGCAGGGCAAGGCAAAGCGGCCGATCAACGT
CAAATTCGAAATCCCTTACTTCACTACTAGCGGTATCCAAGTCCGGTACT
TGAAGATCACGGAACCTAAGCTACAATACCCCTCCCTCCCATGGGTGCGA
TATATAACACAATCAGGCGACATTGCTGTCCGCATGCCAGATGTACAATG
AATGGCGTCGGCCATCTTCTTCCTCGATCTCAAGGGCAAGACCCTTCTAG
CCCGAAACTACCGCGGAGACATCCCCATGTCCGCCGTCGAAAATTTCCCC
ATCCTACTCAGTGACGCCGAAGAAGAGAGCTCCGCCGTGGCTCCGTGCTT
TTCCCACGAAGGAATTAACTACCTCTACATCCGTCACAGCAACCTTTACA
TTCTTGCCCTGACTAAGAAGAACACCAATGCCACCGAGATCCTCCTTTTC
CTGCATAAGATCGTGGAGGTGTTCACGGAATACTTCAAGGTACTGGAGGA
GGAGAGTATCCGCGATAACTTTGTCATCATCTATGAATTGCTCGATGAGA
TGATGGACTTTGGATATCCGCAGACGACGGAGAGCAAGATATTGCAAGAA
TACATTACCCAAGAATCACACAAGCTGGAGATCCAAGCCCGACCACCCAT
TGCTGTCACCAATGCCGTGTCATGGCGAAGTGAGGGTATCCGGTACCGCA
AGAACGAAGTCTTCCTTGATGTTGTGGAGTCCCTTAACCTCCTCGTGTCC
GCGTCTGGTAACGTGTTGCGATCGGAGATTCTCGGAGCTATCAAGATGAA
GTGTTATCTGAGTGGTATGCCGGAGCTTCGTCTGGGCTTGAACGACAAGG
TCATGTTCGAAACCACGGGTCGCGCAACAAGAGGAAAGGCCGTCGAGATG
GAGGACGTCAAGTTCCATCAGTGTGTCCGACTTTCTCGGTTCGAGAATGA
CCGCACCATCAGCTTCATTCCCCCGGATGGCGAGTTCGAGCTGATGAGCT
ACCGGTTGAACACCCAAGTCAAGCCTCTGATTTGGGTGGAATGTCTGGTG
GAGTCGCACTCTGGTTCGCGCATGGAGTATATGTTGAAGGCCAAGGCCCA
ATTCAAGCGCCGCAGCACTGCCAACAACGTAGAAATCCTCGTCCCAGTCC
CAGAAGATGCCGACTCACCCCGTTTCCGCACCAACATCGGAACCGTGCAC
TACGCGCCTGAGAAATCCGCCATCATCTGGAAGATCAAGCAGTTCGGCGG
AGGCAAGGAGTTCCTCATGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAGG
GCGACGACGAGCACGGCGGTAGCATGGGTGGAACTGGGCAGGGCAAGGCA
AAGCGGCCGATCAACGTCAAATTCGAAATCCCTTACTTCACTACTAGCGG
TATCCAAGTCCGGTACTTGAAGATCACGGAACCTAAGCTACAATACCCCT
CCCTCCCATGGGTGCGATATATAACACAATCAGGCGACATTGCTGTCCGC
ATGCCAGATGTACAATGAATGGCGTCGGCCATCTTCTTCCTCGATCTCAA
GGGCAAGACCCTTCTAGCCCGAAACTACCGCGGAGACATCCCCATGTCCG
CCGTCGAAAATTTCCCCATCCTACTCAGTGACGCCGAAGAAGAGAGCTCC
GCCGTGGCTCCGTGCTTTTCCCACGAAGGAATTAACTACCTCTACATCCG
TCACAGCAACCTTTACATTCTTGCCCTGACTAAGAAGAACACCAATGCCA
CCGAGATCCTCCTTTTCCTGCATAAGATCGTGGAGGTGTTCACGGAATAC
TTCAAGGTACTGGAGGAGGAGAGTATCCGCGATAACTTTGTCATCATCTA
TGAATTGCTCGATGAGATGATGGACTTTGGATATCCGCAGACGACGGAGA
GCAAGATATTGCAAGAATACATTACCCAAGAATCACACAAGCTGGAGATC
CAAGCCCGACCACCCATTGCTGTCACCAATGCCGTGTCATGGCGAAGTGA
GGGTATCCGGTACCGCAAGAACGAAGTCTTCCTTGATGTTGTGGAGTCCC
TTAACCTCCTCGTGTCCGCGTCTGGTAACGTGTTGCGATCGGAGATTCTC
GGAGCTATCAAGATGAAGTGTTATCTGAGTGGTATGCCGGAGCTTCGTCT
GGGCTTGAACGACAAGGTCATGTTCGAAACCACGGGTCGCGCAACAAGAG
GAAAGGCCGTCGAGATGGAGGACGTCAAGTTCCATCAGTGTGTCCGACTT
TCTCGGTTCGAGAATGACCGCACCATCAGCTTCATTCCCCCGGATGGCGA
GTTCGAGCTGATGAGCTACCGGTTGAACACCCAAGTCAAGCCTCTGATTT
GGGTGGAATGTCTGGTGGAGTCGCACTCTGGTTCGCGCATGGAGTATATG
TTGAAGGCCAAGGCCCAATTCAAGCGCCGCAGCACTGCCAACAACGTAGA
AATCCTCGTCCCAGTCCCAGAAGATGCCGACTCACCCCGTTTCCGCACCA
ACATCGGAACCGTGCACTACGCGCCTGAGAAATCCGCCATCATCTGGAAG
ATCAAGCAGTTCGGCGGAGGCAAGGAGTTCCTCATGCGCGCAGAGCTGGG
TCTGCCGTCCGTAAAGGGCGACGACGAGCACGGCGGTAGCATGGGTGGAA
CTGGGCAGGGCAAGGCAAAGCGGCCGATCAACGTCAAATTCGAAATCCCT
TACTTCACTACTAGCGGTATCCAAGTCCGGTACTTGAAGATCACGGAACC
TAAGCTACAATACCCCTCCCTCCCATGGGTGCGATATATAACACAATCAG
GCGACATTGCTGTCCGCATGCCAGATGTACAATGAATGGCGTCGGCCATC
TTCTTCCTCGATCTCAAGGGCAAGACCCTTCTAGCCCGAAACTACCGCGG
AGACATCCCCATGTCCGCCGTCGAAAATTTCCCCATCCTACTCAGTGACG
CCGAAGAAGAGAGCTCCGCCGTGGCTCCGTGCTTTTCCCACGAAGGAATT
AACTACCTCTACATCCGTCACAGCAACCTTTACATTCTTGCCCTGACTAA
GAAGAACACCAATGCCACCGAGATCCTCCTTTTCCTGCATAAGATCGTGG
AGGTGTTCACGGAATACTTCAAGGTACTGGAGGAGGAGAGTATCCGCGAT
AACTTTGTCATCATCTATGAATTGCTCGATGAGATGATGGACTTTGGATA
TCCGCAGACGACGGAGAGCAAGATATTGCAAGAATACATTACCCAAGAAT
CACACAAGCTGGAGATCCAAGCCCGACCACCCATTGCTGTCACCAATGCC
GTGTCATGGCGAAGTGAGGGTATCCGGTACCGCAAGAACGAAGTCTTCCT
TGATGTTGTGGAGTCCCTTAACCTCCTCGTGTCCGCGTCTGGTAACGTGT
TGCGATCGGAGATTCTCGGAGCTATCAAGATGAAGTGTTATCTGAGTGGT
ATGCCGGAGCTTCGTCTGGGCTTGAACGACAAGGTCATGTTCGAAACCAC
GGGTCGCGCAACAAGAGGAAAGGCCGTCGAGATGGAGGACGTCAAGTTCC
ATCAGTGTGTCCGACTTTCTCGGTTCGAGAATGACCGCACCATCAGCTTC
ATTCCCCCGGATGGCGAGTTCGAGCTGATGAGCTACCGGTTGAACACCCA
AGTCAAGCCTCTGATTTGGGTGGAATGTCTGGTGGAGTCGCACTCTGGTT
CGCGCATGGAGTATATGTTGAAGGCCAAGGCCCAATTCAAGCGCCGCAGC
ACTGCCAACAACGTAGAAATCCTCGTCCCAGTCCCAGAAGATGCCGACTC
ACCCCGTTTCCGCACCAACATCGGAACCGTGCACTACGCGCCTGAGAAAT
CCGCCATCATCTGGAAGATCAAGCAGTTCGGCGGAGGCAAGGAGTTCCTC
ATGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAGGGCGACGACGAGCACGG
CGGTAGCATGGGTGGAACTGGGCAGGGCAAGGCAAAGCGGCCGATCAACG
TCAAATTCGAAATCCCTTACTTCACTACTAGCGGTATCCAAGTCCGGTAC
TTGAAGATCACGGAACCTAAGCTACAATACCCCTCCCTCCCATGGGTGCG
ATATATAACACAATCAGGCGACATTGCTGTCCGCATGCCAGATGTACAAT
GAATGGCGTCGGCCATCTTCTTCCTCGATCTCAAGGGCAAGACCCTTCTA
GCCCGAAACTACCGCGGAGACATCCCCATGTCCGCCGTCGAAAATTTCCC
CATCCTACTCAGTGACGCCGAAGAAGAGAGCTCCGCCGTGGCTCCGTGCT
TTTCCCACGAAGGAATTAACTACCTCTACATCCGTCACAGCAACCTTTAC
ATTCTTGCCCTGACTAAGAAGAACACCAATGCCACCGAGATCCTCCTTTT
CCTGCATAAGATCGTGGAGGTGTTCACGGAATACTTCAAGGTACTGGAGG
AGGAGAGTATCCGCGATAACTTTGTCATCATCTATGAATTGCTCGATGAG
ATGATGGACTTTGGATATCCGCAGACGACGGAGAGCAAGATATTGCAAGA
ATACATTACCCAAGAATCACACAAGCTGGAGATCCAAGCCCGACCACCCA
TTGCTGTCACCAATGCCGTGTCATGGCGAAGTGAGGGTATCCGGTACCGC
AAGAACGAAGTCTTCCTTGATGTTGTGGAGTCCCTTAACCTCCTCGTGTC
CGCGTCTGGTAACGTGTTGCGATCGGAGATTCTCGGAGCTATCAAGATGA
AGTGTTATCTGAGTGGTATGCCGGAGCTTCGTCTGGGCTTGAACGACAAG
GTCATGTTCGAAACCACGGGTCGCGCAACAAGAGGAAAGGCCGTCGAGAT
GGAGGACGTCAAGTTCCATCAGTGTGTCCGACTTTCTCGGTTCGAGAATG
ACCGCACCATCAGCTTCATTCCCCCGGATGGCGAGTTCGAGCTGATGAGC
TACCGGTTGAACACCCAAGTCAAGCCTCTGATTTGGGTGGAATGTCTGGT
GGAGTCGCACTCTGGTTCGCGCATGGAGTATATGTTGAAGGCCAAGGCCC
AATTCAAGCGCCGCAGCACTGCCAACAACGTAGAAATCCTCGTCCCAGTC
CCAGAAGATGCCGACTCACCCCGTTTCCGCACCAACATCGGAACCGTGCA
CTACGCGCCTGAGAAATCCGCCATCATCTGGAAGATCAAGCAGTTCGGCG
GAGGCAAGGAGTTCCTCATGCGCGCAGAGCTGGGTCTGCCGTCCGTAAAG
GGCGACGACGAGCACGGCGGTAGCATGGGTGGAACTGGGCAGGGCAAGGC
AAAGCGGCCGATCAACGTCAAATTCGAAATCCCTTACTTCACTACTAGCG
GTATCCAAGTCCGGTACTTGAAGATCACGGAACCTAAGCTACAATACCCC
TCCCTCCCATGGGTGCGATATATAACACAATCAGGCGACATTGCTGTCCG
CATGCCAGATGTACAATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0030131 | clathrin adaptor complex |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0016192 | vesicle-mediated transport |
| GO:0006886 | intracellular protein transport |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of 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:IPR011012 |
| DBxref | InterPro:IPR036168 |
| DBxref | InterPro:IPR018240 |
| DBxref | InterPro:IPR022775 |
| DBxref | InterPro:IPR028565 |
| DBxref | InterPro:IPR001392 |
| DBxref | PFAM:PF01217 |
| DBxref | PFAM:PF00928 |
| Product | AP-1 complex subunit mu-1-Iike |
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 | ACJE01000009.1:725467..727615 + |
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