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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:2563949..2566820+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_52565-T1 ID=ASPNIDRAFT_52565-T1|Name=ASPNIDRAFT_52565-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2872bp|location=Sequence derived from alignment at ACJE01000021.1:2563949..2566820+ (Aspergillus niger ATCC 1015)
ATGGCAGCACCACAAGGGGGCTACCCTCCCCAGGAAGGGTACGGTCAGCC
TGCCGGTTATGGGTCTCCCGTGCAACAACCCGCGGGGTTGGCTGCTGGTG
CTCCGGCCCAAGGCCAGGCTGGAGGTCGGAAGAAGCGTGTTTATGCCGGC
GAAGCGTTCGACTTTGGATCTGGTGCCAATGCTGCTCTAGGAGGTCAGTT
GCCCGCGGGTGGCAGCTACGGAGCATACCCGCCGCAACCACAAGCTGCGG
GATACCAGCAACCTATGTATGGAGCAGACCCGACTCAGGTGCAGGCTGCG
GCCCCAGGATATGCGGCGCCGGTCAGCCCTCAAGTCGCACAGATGACCCA
GCAGTTTGGTGCAATGGGCATGACTGATCCGCACCTCCTGCCACCGCAGC
CGGTCGCCCCAGCTCCCCAGGCTCAGGCCCCGCGGGCTGTTCCCCTCAAC
CAGCTCTACCCAACCGATCTCCTTACCCAGCCCTTCAATGTCGCCGAGCT
CGATTACCCACCACCTCCCATTGTTCTGCCGCCCGGTGTATGTCTCTGAT
GTCTTCAAGTTGCGGGTAACTGGATTGCTGACTTTCCCGCTAGACCAGCG
TTTACCCTTCTCCCTATGCCAACTGCCCTCCGAAATACGTTCGCTCGACC
CTGAACGCCGTCCCGACCACAAGTTCGCTGCTGAAGAAGTCCAAGTTGCC
TTTCGCACTGGTCATCCAGCCCTATGCAGCTCTCCATGACTCCGAAGATC
CCGTTCCTGTTGTCCCAGACCAAGTCATCTCGCGTTGCCGACGTTGCCGA
TCCTACATCAATCCTTTTGTGACATTCCTCGACCATGGACACCGCTGGCG
TTGCAATATGTGCAACCTGACAAACGATGTGCCTCAGGCATTTGATTGGG
ACACCGCGCTGCAGAAGCCCGCAGACAGGTCGTTGAGGCCTGATCTCAAC
CATTCGGTGGTCGAATTTGTTGCTCCCCAAGAATACATGGTCCGGCCCCC
GCAGCCGCTTGTCTATCTCTTCTTAATCGACGTGAGCTACGCTTCTGTCA
CGAACGGCCTTTTGGCCACCACTGCCCGCTGCATCAGGGAGAGCCTTGAC
CGGATCCCGAACGCGGACCGTCGGACGCGACTAGGATTCATTGCGGTCGA
CTCCAGTCTTCATTACTTCAGTATTCCCCGCGATGGCTCAGAGAACTCGG
AGCCCAGGATGCTGGTCATCAGTGATCTGGATGAGCCCTTCCTTCCCATT
CCTGGCGATCTTTTGGTGACCCTGAGCGAGTGCCGTGAGAACATTGAGAT
CTTCCTCGATAAGCTGCAGGAAATGTTCCAGAACACTCAGAGCAACGCCT
GCGCCATGGGATCCGCTCTGCGTGCTGGTTACAAGCTCATCTCACCCGTG
GGAGGCAAGATGACCGTGCTCAGCTCCTCCCTGCCCAACATTGGCCATGG
CTCGTTGACCATGAGAGAAGACAAGAAGGTCCTTGGCACTAGCAAGGAGA
GCAGTCTGCTGCAGACGGCGAACAGCTTCTACAAGAGCTTCGCTGTCGAG
TGCTCCAAGGCGCAGGTCTCCGTGGACATGTTCCTGTTCTCTTCGCAATA
CCAGGATGTTGCGTCTCTCAGTAACCTGCCCCGCTACACCGGCGGTCAGA
CTTACTTCTACCCTGGGTGGAACGCTGCTCGTGGGGAGGACGCGATCAAG
TTCGCTCGTGAATTTTCCGACTACCTCTCTTCGGAGATTGGCTTGGAGGC
TGTGCTCCGTGTCCGTGCTACGACCGGTCTGCGCATGAACACTTTCTACG
GTAACTTCTTCAACCGCAGTTCGGATCTGTGTGCATTCCCTGCATTCCCG
CGTGACCAAGCATATGTCGTTGAAGTGGCGATTGACGAGACCGTCACGAA
ACCCGTTGTCTGCCTGCAGACGGCGGTTCTGCACACTACATGCAACGGCG
AGCGCAGAATCCGGGTGTTGACTCTGGCGCTCCCTACGACGCAAAACCTG
GCTGATGTCTACGCTTCGGCCGATCAACAAGCTGTTGCTACTTACTTCAG
TCACAAGGCCGTTGAGCGGGCACTGAGCAGCGGGCTGGAGCCTGCCCGCG
AGGCTCTGCAGACCAAGGCCGTGGAGTTGCTGTCGACCTACCGGAAGGAA
TTGGCTGGAGGCAGTGTCAGCGGCGGTGGTCTTCAGTTCCCTGCCAACCT
AAGAGGCTTGCCAGTCCTCTTCCTTGCCATGATCAAAAACGTAAGTCCCT
GTCAAAGAAGGTTGTATGTTCAATCGTGATTGCTAACACCGATTAGCTTG
GTCTTCGGAAATCCGCGCAAATACCCACCGACATGCGCTCTGCTGCCCTC
TGCTTGCTTTCGACGCTCCCCCTTCCTCTCCTCATGCAGTACATCTACCC
TAAGATGTATTCCCTTCATGACATGCCCGACACTGCCGGATTGCCCGATG
AGCAGACCGGCGAGATCCTTCTCCCTCCCCCGATCAACCTTTCATCCGAG
CGCATTGTTCCCTATGGTCTCTACCTCATCGATGACGGCCAGACGCAGTT
CCTGTGGGTTGGACGCGATGCGGTGCCTCAGCTGATCGAAGATGTCTTTG
GCCTGCAAGACAAGTCGCAACTCCGCGTAGGCAAGCAGAACCTGCCGGAT
GTGGACAACGAATTCAACCAGCGGGTGCGGGCGGTGGTTGAGAAGAGCCG
GGATCACCGGTCGAAGGGCGTGGGCAGCATTGTGGTGCCACACCTGTATG
TGGTGAAGGAGGATGGAGAGCCTGGACTCCGCTTATGGGCGCAGACCATG
CTGGTTGAGGACCGTGCTGACCAGAGCGTCAGCCTGGTGCAGTGGATGGG
CTCGCTGCGGGAAAAGGTTTGA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:2563949..2566820+ >ASPNIDRAFT_52565-T1 ID=ASPNIDRAFT_52565-T1|Name=ASPNIDRAFT_52565-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8280bp|location=Sequence derived from alignment at ACJE01000021.1:2563949..2566820+ (Aspergillus niger ATCC 1015)
ATGGCAGCACCACAAGGGGGCTACCCTCCCCAGGAAGGGTACGGTCAGCC
TGCCGGTTATGGGTCTCCCGTGCAACAACCCGCGGGGTTGGCTGCTGGTG
CTCCGGCCCAAGGCCAGGCTGGAGGTCGGAAGAAGCGTGTTTATGCCGGC
GAAGCGTTCGACTTTGGATCTGGTGCCAATGCTGCTCTAGGAGGTCAGTT
GCCCGCGGGTGGCAGCTACGGAGCATACCCGCCGCAACCACAAGCTGCGG
GATACCAGCAACCTATGTATGGAGCAGACCCGACTCAGGTGCAGGCTGCG
GCCCCAGGATATGCGGCGCCGGTCAGCCCTCAAGTCGCACAGATGACCCA
GCAGTTTGGTGCAATGGGCATGACTGATCCGCACCTCCTGCCACCGCAGC
CGGTCGCCCCAGCTCCCCAGGCTCAGGCCCCGCGGGCTGTTCCCCTCAAC
CAGCTCTACCCAACCGATCTCCTTACCCAGCCCTTCAATGTCGCCGAGCT
CGATTACCCACCACCTCCCATTGTTCTGCCGCCCGGTACCAGCGTTTACC
CTTCTCCCTATGCCAACTGCCCTCCGAAATACGTTCGCTCGACCCTGAAC
GCCGTCCCGACCACAAGTTCGCTGCTGAAGAAGTCCAAGTTGCCTTTCGC
ACTGGTCATCCAGCCCTATGCAGCTCTCCATGACTCCGAAGATCCCGTTC
CTGTTGTCCCAGACCAAGTCATCTCGCGTTGCCGACGTTGCCGATCCTAC
ATCAATCCTTTTGTGACATTCCTCGACCATGGACACCGCTGGCGTTGCAA
TATGTGCAACCTGACAAACGATGTGCCTCAGGCATTTGATTGGGACACCG
CGCTGCAGAAGCCCGCAGACAGGTCGTTGAGGCCTGATCTCAACCATTCG
GTGGTCGAATTTGTTGCTCCCCAAGAATACATGGTCCGGCCCCCGCAGCC
GCTTGTCTATCTCTTCTTAATCGACGTGAGCTACGCTTCTGTCACGAACG
GCCTTTTGGCCACCACTGCCCGCTGCATCAGGGAGAGCCTTGACCGGATC
CCGAACGCGGACCGTCGGACGCGACTAGGATTCATTGCGGTCGACTCCAG
TCTTCATTACTTCAGTATTCCCCGCGATGGCTCAGAGAACTCGGAGCCCA
GGATGCTGGTCATCAGTGATCTGGATGAGCCCTTCCTTCCCATTCCTGGC
GATCTTTTGGTGACCCTGAGCGAGTGCCGTGAGAACATTGAGATCTTCCT
CGATAAGCTGCAGGAAATGTTCCAGAACACTCAGAGCAACGCCTGCGCCA
TGGGATCCGCTCTGCGTGCTGGTTACAAGCTCATCTCACCCGTGGGAGGC
AAGATGACCGTGCTCAGCTCCTCCCTGCCCAACATTGGCCATGGCTCGTT
GACCATGAGAGAAGACAAGAAGGTCCTTGGCACTAGCAAGGAGAGCAGTC
TGCTGCAGACGGCGAACAGCTTCTACAAGAGCTTCGCTGTCGAGTGCTCC
AAGGCGCAGGTCTCCGTGGACATGTTCCTGTTCTCTTCGCAATACCAGGA
TGTTGCGTCTCTCAGTAACCTGCCCCGCTACACCGGCGGTCAGACTTACT
TCTACCCTGGGTGGAACGCTGCTCGTGGGGAGGACGCGATCAAGTTCGCT
CGTGAATTTTCCGACTACCTCTCTTCGGAGATTGGCTTGGAGGCTGTGCT
CCGTGTCCGTGCTACGACCGGTCTGCGCATGAACACTTTCTACGGTAACT
TCTTCAACCGCAGTTCGGATCTGTGTGCATTCCCTGCATTCCCGCGTGAC
CAAGCATATGTCGTTGAAGTGGCGATTGACGAGACCGTCACGAAACCCGT
TGTCTGCCTGCAGACGGCGGTTCTGCACACTACATGCAACGGCGAGCGCA
GAATCCGGGTGTTGACTCTGGCGCTCCCTACGACGCAAAACCTGGCTGAT
GTCTACGCTTCGGCCGATCAACAAGCTGTTGCTACTTACTTCAGTCACAA
GGCCGTTGAGCGGGCACTGAGCAGCGGGCTGGAGCCTGCCCGCGAGGCTC
TGCAGACCAAGGCCGTGGAGTTGCTGTCGACCTACCGGAAGGAATTGGCT
GGAGGCAGTGTCAGCGGCGGTGGTCTTCAGTTCCCTGCCAACCTAAGAGG
CTTGCCAGTCCTCTTCCTTGCCATGATCAAAAACCTTGGTCTTCGGAAAT
CCGCGCAAATACCCACCGACATGCGCTCTGCTGCCCTCTGCTTGCTTTCG
ACGCTCCCCCTTCCTCTCCTCATGCAGTACATCTACCCTAAGATGTATTC
CCTTCATGACATGCCCGACACTGCCGGATTGCCCGATGAGCAGACCGGCG
AGATCCTTCTCCCTCCCCCGATCAACCTTTCATCCGAGCGCATTGTTCCC
TATGGTCTCTACCTCATCGATGACGGCCAGACGCAGTTCCTGTGGGTTGG
ACGCGATGCGGTGCCTCAGCTGATCGAAGATGTCTTTGGCCTGCAAGACA
AGTCGCAACTCCGCGTAGGCAAGCAGAACCTGCCGGATGTGGACAACGAA
TTCAACCAGCGGGTGCGGGCGGTGGTTGAGAAGAGCCGGGATCACCGGTC
GAAGGGCGTGGGCAGCATTGTGGTGCCACACCTGTATGTGGTGAAGGAGG
ATGGAGAGCCTGGACTCCGCTTATGGGCGCAGACCATGCTGGTTGAGGAC
CGTGCTGACCAGAGCGTCAGCCTGGTGCAGTGGATGGGCTCGCTGCGGGA
AAAGGTTTGAATGGCAGCACCACAAGGGGGCTACCCTCCCCAGGAAGGGT
ACGGTCAGCCTGCCGGTTATGGGTCTCCCGTGCAACAACCCGCGGGGTTG
GCTGCTGGTGCTCCGGCCCAAGGCCAGGCTGGAGGTCGGAAGAAGCGTGT
TTATGCCGGCGAAGCGTTCGACTTTGGATCTGGTGCCAATGCTGCTCTAG
GAGGTCAGTTGCCCGCGGGTGGCAGCTACGGAGCATACCCGCCGCAACCA
CAAGCTGCGGGATACCAGCAACCTATGTATGGAGCAGACCCGACTCAGGT
GCAGGCTGCGGCCCCAGGATATGCGGCGCCGGTCAGCCCTCAAGTCGCAC
AGATGACCCAGCAGTTTGGTGCAATGGGCATGACTGATCCGCACCTCCTG
CCACCGCAGCCGGTCGCCCCAGCTCCCCAGGCTCAGGCCCCGCGGGCTGT
TCCCCTCAACCAGCTCTACCCAACCGATCTCCTTACCCAGCCCTTCAATG
TCGCCGAGCTCGATTACCCACCACCTCCCATTGTTCTGCCGCCCGGTACC
AGCGTTTACCCTTCTCCCTATGCCAACTGCCCTCCGAAATACGTTCGCTC
GACCCTGAACGCCGTCCCGACCACAAGTTCGCTGCTGAAGAAGTCCAAGT
TGCCTTTCGCACTGGTCATCCAGCCCTATGCAGCTCTCCATGACTCCGAA
GATCCCGTTCCTGTTGTCCCAGACCAAGTCATCTCGCGTTGCCGACGTTG
CCGATCCTACATCAATCCTTTTGTGACATTCCTCGACCATGGACACCGCT
GGCGTTGCAATATGTGCAACCTGACAAACGATGTGCCTCAGGCATTTGAT
TGGGACACCGCGCTGCAGAAGCCCGCAGACAGGTCGTTGAGGCCTGATCT
CAACCATTCGGTGGTCGAATTTGTTGCTCCCCAAGAATACATGGTCCGGC
CCCCGCAGCCGCTTGTCTATCTCTTCTTAATCGACGTGAGCTACGCTTCT
GTCACGAACGGCCTTTTGGCCACCACTGCCCGCTGCATCAGGGAGAGCCT
TGACCGGATCCCGAACGCGGACCGTCGGACGCGACTAGGATTCATTGCGG
TCGACTCCAGTCTTCATTACTTCAGTATTCCCCGCGATGGCTCAGAGAAC
TCGGAGCCCAGGATGCTGGTCATCAGTGATCTGGATGAGCCCTTCCTTCC
CATTCCTGGCGATCTTTTGGTGACCCTGAGCGAGTGCCGTGAGAACATTG
AGATCTTCCTCGATAAGCTGCAGGAAATGTTCCAGAACACTCAGAGCAAC
GCCTGCGCCATGGGATCCGCTCTGCGTGCTGGTTACAAGCTCATCTCACC
CGTGGGAGGCAAGATGACCGTGCTCAGCTCCTCCCTGCCCAACATTGGCC
ATGGCTCGTTGACCATGAGAGAAGACAAGAAGGTCCTTGGCACTAGCAAG
GAGAGCAGTCTGCTGCAGACGGCGAACAGCTTCTACAAGAGCTTCGCTGT
CGAGTGCTCCAAGGCGCAGGTCTCCGTGGACATGTTCCTGTTCTCTTCGC
AATACCAGGATGTTGCGTCTCTCAGTAACCTGCCCCGCTACACCGGCGGT
CAGACTTACTTCTACCCTGGGTGGAACGCTGCTCGTGGGGAGGACGCGAT
CAAGTTCGCTCGTGAATTTTCCGACTACCTCTCTTCGGAGATTGGCTTGG
AGGCTGTGCTCCGTGTCCGTGCTACGACCGGTCTGCGCATGAACACTTTC
TACGGTAACTTCTTCAACCGCAGTTCGGATCTGTGTGCATTCCCTGCATT
CCCGCGTGACCAAGCATATGTCGTTGAAGTGGCGATTGACGAGACCGTCA
CGAAACCCGTTGTCTGCCTGCAGACGGCGGTTCTGCACACTACATGCAAC
GGCGAGCGCAGAATCCGGGTGTTGACTCTGGCGCTCCCTACGACGCAAAA
CCTGGCTGATGTCTACGCTTCGGCCGATCAACAAGCTGTTGCTACTTACT
TCAGTCACAAGGCCGTTGAGCGGGCACTGAGCAGCGGGCTGGAGCCTGCC
CGCGAGGCTCTGCAGACCAAGGCCGTGGAGTTGCTGTCGACCTACCGGAA
GGAATTGGCTGGAGGCAGTGTCAGCGGCGGTGGTCTTCAGTTCCCTGCCA
ACCTAAGAGGCTTGCCAGTCCTCTTCCTTGCCATGATCAAAAACCTTGGT
CTTCGGAAATCCGCGCAAATACCCACCGACATGCGCTCTGCTGCCCTCTG
CTTGCTTTCGACGCTCCCCCTTCCTCTCCTCATGCAGTACATCTACCCTA
AGATGTATTCCCTTCATGACATGCCCGACACTGCCGGATTGCCCGATGAG
CAGACCGGCGAGATCCTTCTCCCTCCCCCGATCAACCTTTCATCCGAGCG
CATTGTTCCCTATGGTCTCTACCTCATCGATGACGGCCAGACGCAGTTCC
TGTGGGTTGGACGCGATGCGGTGCCTCAGCTGATCGAAGATGTCTTTGGC
CTGCAAGACAAGTCGCAACTCCGCGTAGGCAAGCAGAACCTGCCGGATGT
GGACAACGAATTCAACCAGCGGGTGCGGGCGGTGGTTGAGAAGAGCCGGG
ATCACCGGTCGAAGGGCGTGGGCAGCATTGTGGTGCCACACCTGTATGTG
GTGAAGGAGGATGGAGAGCCTGGACTCCGCTTATGGGCGCAGACCATGCT
GGTTGAGGACCGTGCTGACCAGAGCGTCAGCCTGGTGCAGTGGATGGGCT
CGCTGCGGGAAAAGGTTTGAATGGCAGCACCACAAGGGGGCTACCCTCCC
CAGGAAGGGTACGGTCAGCCTGCCGGTTATGGGTCTCCCGTGCAACAACC
CGCGGGGTTGGCTGCTGGTGCTCCGGCCCAAGGCCAGGCTGGAGGTCGGA
AGAAGCGTGTTTATGCCGGCGAAGCGTTCGACTTTGGATCTGGTGCCAAT
GCTGCTCTAGGAGGTCAGTTGCCCGCGGGTGGCAGCTACGGAGCATACCC
GCCGCAACCACAAGCTGCGGGATACCAGCAACCTATGTATGGAGCAGACC
CGACTCAGGTGCAGGCTGCGGCCCCAGGATATGCGGCGCCGGTCAGCCCT
CAAGTCGCACAGATGACCCAGCAGTTTGGTGCAATGGGCATGACTGATCC
GCACCTCCTGCCACCGCAGCCGGTCGCCCCAGCTCCCCAGGCTCAGGCCC
CGCGGGCTGTTCCCCTCAACCAGCTCTACCCAACCGATCTCCTTACCCAG
CCCTTCAATGTCGCCGAGCTCGATTACCCACCACCTCCCATTGTTCTGCC
GCCCGGTACCAGCGTTTACCCTTCTCCCTATGCCAACTGCCCTCCGAAAT
ACGTTCGCTCGACCCTGAACGCCGTCCCGACCACAAGTTCGCTGCTGAAG
AAGTCCAAGTTGCCTTTCGCACTGGTCATCCAGCCCTATGCAGCTCTCCA
TGACTCCGAAGATCCCGTTCCTGTTGTCCCAGACCAAGTCATCTCGCGTT
GCCGACGTTGCCGATCCTACATCAATCCTTTTGTGACATTCCTCGACCAT
GGACACCGCTGGCGTTGCAATATGTGCAACCTGACAAACGATGTGCCTCA
GGCATTTGATTGGGACACCGCGCTGCAGAAGCCCGCAGACAGGTCGTTGA
GGCCTGATCTCAACCATTCGGTGGTCGAATTTGTTGCTCCCCAAGAATAC
ATGGTCCGGCCCCCGCAGCCGCTTGTCTATCTCTTCTTAATCGACGTGAG
CTACGCTTCTGTCACGAACGGCCTTTTGGCCACCACTGCCCGCTGCATCA
GGGAGAGCCTTGACCGGATCCCGAACGCGGACCGTCGGACGCGACTAGGA
TTCATTGCGGTCGACTCCAGTCTTCATTACTTCAGTATTCCCCGCGATGG
CTCAGAGAACTCGGAGCCCAGGATGCTGGTCATCAGTGATCTGGATGAGC
CCTTCCTTCCCATTCCTGGCGATCTTTTGGTGACCCTGAGCGAGTGCCGT
GAGAACATTGAGATCTTCCTCGATAAGCTGCAGGAAATGTTCCAGAACAC
TCAGAGCAACGCCTGCGCCATGGGATCCGCTCTGCGTGCTGGTTACAAGC
TCATCTCACCCGTGGGAGGCAAGATGACCGTGCTCAGCTCCTCCCTGCCC
AACATTGGCCATGGCTCGTTGACCATGAGAGAAGACAAGAAGGTCCTTGG
CACTAGCAAGGAGAGCAGTCTGCTGCAGACGGCGAACAGCTTCTACAAGA
GCTTCGCTGTCGAGTGCTCCAAGGCGCAGGTCTCCGTGGACATGTTCCTG
TTCTCTTCGCAATACCAGGATGTTGCGTCTCTCAGTAACCTGCCCCGCTA
CACCGGCGGTCAGACTTACTTCTACCCTGGGTGGAACGCTGCTCGTGGGG
AGGACGCGATCAAGTTCGCTCGTGAATTTTCCGACTACCTCTCTTCGGAG
ATTGGCTTGGAGGCTGTGCTCCGTGTCCGTGCTACGACCGGTCTGCGCAT
GAACACTTTCTACGGTAACTTCTTCAACCGCAGTTCGGATCTGTGTGCAT
TCCCTGCATTCCCGCGTGACCAAGCATATGTCGTTGAAGTGGCGATTGAC
GAGACCGTCACGAAACCCGTTGTCTGCCTGCAGACGGCGGTTCTGCACAC
TACATGCAACGGCGAGCGCAGAATCCGGGTGTTGACTCTGGCGCTCCCTA
CGACGCAAAACCTGGCTGATGTCTACGCTTCGGCCGATCAACAAGCTGTT
GCTACTTACTTCAGTCACAAGGCCGTTGAGCGGGCACTGAGCAGCGGGCT
GGAGCCTGCCCGCGAGGCTCTGCAGACCAAGGCCGTGGAGTTGCTGTCGA
CCTACCGGAAGGAATTGGCTGGAGGCAGTGTCAGCGGCGGTGGTCTTCAG
TTCCCTGCCAACCTAAGAGGCTTGCCAGTCCTCTTCCTTGCCATGATCAA
AAACCTTGGTCTTCGGAAATCCGCGCAAATACCCACCGACATGCGCTCTG
CTGCCCTCTGCTTGCTTTCGACGCTCCCCCTTCCTCTCCTCATGCAGTAC
ATCTACCCTAAGATGTATTCCCTTCATGACATGCCCGACACTGCCGGATT
GCCCGATGAGCAGACCGGCGAGATCCTTCTCCCTCCCCCGATCAACCTTT
CATCCGAGCGCATTGTTCCCTATGGTCTCTACCTCATCGATGACGGCCAG
ACGCAGTTCCTGTGGGTTGGACGCGATGCGGTGCCTCAGCTGATCGAAGA
TGTCTTTGGCCTGCAAGACAAGTCGCAACTCCGCGTAGGCAAGCAGAACC
TGCCGGATGTGGACAACGAATTCAACCAGCGGGTGCGGGCGGTGGTTGAG
AAGAGCCGGGATCACCGGTCGAAGGGCGTGGGCAGCATTGTGGTGCCACA
CCTGTATGTGGTGAAGGAGGATGGAGAGCCTGGACTCCGCTTATGGGCGC
AGACCATGCTGGTTGAGGACCGTGCTGACCAGAGCGTCAGCCTGGTGCAG
TGGATGGGCTCGCTGCGGGAAAAGGTTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0030127 | COPII vesicle coat |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006888 | endoplasmic reticulum to Golgi vesicle-mediated transport |
| GO:0006886 | intracellular protein transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008270 | zinc ion binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR036180 |
| DBxref | InterPro:IPR036174 |
| DBxref | InterPro:IPR036175 |
| DBxref | InterPro:IPR041742 |
| DBxref | InterPro:IPR006900 |
| DBxref | InterPro:IPR007123 |
| DBxref | InterPro:IPR036465 |
| DBxref | InterPro:IPR012990 |
| DBxref | InterPro:IPR006896 |
| DBxref | InterPro:IPR006895 |
| DBxref | InterPro:IPR029006 |
| DBxref | PFAM:PF04810 |
| DBxref | PFAM:PF04811 |
| DBxref | PFAM:PF04815 |
| DBxref | PFAM:PF08033 |
| DBxref | PFAM:PF00626 |
| Product | COPII subunit |
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 | ACJE01000021.1:2563949..2566820 + |
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