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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000051:317496..319348- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_002436-T1 ID=ATCC10864_002436-T1|Name=ATCC10864_002436-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1853bp|location=Sequence derived from alignment at MCQH01000051:317496..319348- (Aspergillus niger ATCC 10864)
ATGGCATCTCGAACGCAATGGAGCAGAATGCTCATTTTCACGACCGTGCT
GCTGGCAGTTTCGGCGTTTAATTATGGGTTCAGCGACCAGGCGTTTTCGT
CCTGTCAGGCCATGGATTCGTTCGCTCGCCAATTTGGGGTTTATCATCCC
AGCACGGGGAGTTATAAGGTGAAGCCGTTGTTCACTTCGCTTTATAATAG
TTTGAAGGCGGGAACGCAGATTGTCGGTGAGGATCGTACTTTCCAAAGCT
ATGGAGAACTTCGCTGATTTGTTTGCGAAAGGTGTCTTCCTAGGAGGTTA
TATTAGCAATACCTATGGTCGGAAATGGTGCATATTTAGCATGAATCTCT
ACGCACTAGGCAGTGCAGCAGTAGTGGTGAGCTCCAAAACAGACGCACAA
ATATTAACAGGTCGAGCATTACACTGTCAGTGTCCTCCTTATTCCCGACC
AGATACAAACCATCATCTAACTCCTACAGACATCTACCTAGGAATGCAAT
TAGCCGTAATCCCAACCACCCTCGCCGAACTCGCCCCCCGAAACGTCCGC
GGCGCCATGGGCGTCCTATACTGGCTCAGCATCAAAATCGGAGGCCTAGT
AGTAACCGGCATCGCACGAGGCACATCCGGCATCTCAACAAACGCCGCAT
GGCAAATCCCCTTTGGCTTGATTCTCGTGATTCCATTTATTTGCATCTGG
CTCGTCTGGATAATACCCGAGTCTCCACGATGGCTGCTCCTCCGCGACCG
ACAAGAAGAAGCACTGCAAGCGTTGAAACGATATCGATCGAAAACCACAC
CCCAACATGAGATACAAGAGGATTTTGACGAAATGGCGCAGAAGGTCACG
GCCCAGCTGCAGAAGAAAAGCTTCAAGGATCTCTTTATCAAGGGGAATCG
TGAACGTACGTTCGTTGTTGCCGCTGCGAACTTCTTTCAGCAGGCTTCGG
GGCAGGCGTTTGCGAGTCAGTATGGGACGCTTTTCGTCAAGCAGTTGAAA
TCGGTCAATGCGTTTAGTGTTACGCTGGGTACTAATGCGACTGATATTGG
GGCGTTGATTATTTCGACGGCGCTGAGTGATGTAGTGGGACGGAGGTGAG
TGCATTCTCGATTCCCTTGTTTCAGTATTCACTAACACCCAATCTCAACG
CCAGAATGCTCTTCCACATAAGCGGCTTCCTCGAAACGGCGGCCTTAATG
ACAATGGGCGGTCTCGGTACCGCAGACTCTAGTAACACTGCTGCCAAAGA
AGGCATCGTCGCTATGTTGCTTCTTTACAGCTTTGGTTGGTCTCTTGCCT
GGGCGCCGTTGGTGTATGTGCTTGGTGCGGAGTTGCCTTCTGCGGGGTTG
AAAGAAATGACTTTGCGGATCGCGTATACTGTGAAGCTGGTGACTGAGTA
TGCAACACCTTTCTCTACATATTTTGCCATAGATATTAGTATGAAAACTG
ACATGTGATAATAATTAGGTTCGCTGTGACATTTTCGTATCCTTACCTCG
AAACCGCAGACGATCCCGGCCATGTGGACATTGGTGGTAAGCTGGGATTC
ATTTATGGGTCGCTGTCTGCTGTCTCGGTCATATTCGGGTACTTCTTCAT
CCCAGAAACGAGGAAGTTAGAGTTGGAGGATATCAATAAAAAGTATGAGT
CGTCAACGGAGAGTGAAATGGAGCAGAAGGTTGAGTATCAGGTTGGTTTG
AGGGAGGTTCCACGGGCGGATGTACAGAATTGATTTAAAAATACCTTCAT
GAATGTCATTCTGCAAATAGAAACGCTTAGCTCGGTTTTGTGTGTTTGTT
CTAGATTACTCTAGATTCTACACATCCCTGTGCGCCGATTCCTCTCCGTG
TAA back to topCoding sequence (CDS) from alignment at MCQH01000051:317496..319348- >ATCC10864_002436-T1 ID=ATCC10864_002436-T1|Name=ATCC10864_002436-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9126bp|location=Sequence derived from alignment at MCQH01000051:317496..319348- (Aspergillus niger ATCC 10864)
ATTCTACACATCCCTGTGCGCCGATTCCTCTCCGTGTAAGTTCGCTGTGA
CATTTTCGTATCCTTACCTCGAAACCGCAGACGATCCCGGCCATGTGGAC
ATTGGTGGTAAGCTGGGATTCATTTATGGGTCGCTGTCTGCTGTCTCGGT
CATATTCGGGTACTTCTTCATCCCAGAAACGAGGAAGTTAGAGTTGGAGG
ATATCAATAAAAAGTATGAGTCGTCAACGGAGAGTGAAATGGAGCAGAAG
GTTGAGTATCAGGTTGGTTTGAGGGAGGTTCCACGGGCGGATAATGCTCT
TCCACATAAGCGGCTTCCTCGAAACGGCGGCCTTAATGACAATGGGCGGT
CTCGGTACCGCAGACTCTAGTAACACTGCTGCCAAAGAAGGCATCGTCGC
TATGTTGCTTCTTTACAGCTTTGGTTGGTCTCTTGCCTGGGCGCCGTTGG
TGTATGTGCTTGGTGCGGAGTTGCCTTCTGCGGGGTTGAAAGAAATGACT
TTGCGGATCGCGTATACTGTGAAGCTGGTGACTGAACATCTACCTAGGAA
TGCAATTAGCCGTAATCCCAACCACCCTCGCCGAACTCGCCCCCCGAAAC
GTCCGCGGCGCCATGGGCGTCCTATACTGGCTCAGCATCAAAATCGGAGG
CCTAGTAGTAACCGGCATCGCACGAGGCACATCCGGCATCTCAACAAACG
CCGCATGGCAAATCCCCTTTGGCTTGATTCTCGTGATTCCATTTATTTGC
ATCTGGCTCGTCTGGATAATACCCGAGTCTCCACGATGGCTGCTCCTCCG
CGACCGACAAGAAGAAGCACTGCAAGCGTTGAAACGATATCGATCGAAAA
CCACACCCCAACATGAGATACAAGAGGATTTTGACGAAATGGCGCAGAAG
GTCACGGCCCAGCTGCAGAAGAAAAGCTTCAAGGATCTCTTTATCAAGGG
GAATCGTGAACGTACGTTCGTTGTTGCCGCTGCGAACTTCTTTCAGCAGG
CTTCGGGGCAGGCGTTTGCGAGTCAGTATGGGACGCTTTTCGTCAAGCAG
TTGAAATCGGTCAATGCGTTTAGTGTTACGCTGGGTACTAATGCGACTGA
TATTGGGGCGTTGATTATTTCGACGGCGCTGAGTGATGTAGTGGGACGGA
GGTGTCTTCCTAGGAGGTTATATTAGCAATACCTATGGTCGGAAATGGTG
CATATTTAGCATGAATCTCTACGCACTAGGCAGTGCAGCAGTAGTGGTGA
GCTCCAAAACAGACGCACAAATATTAACAGGTCGAGCATTACACTATGGC
ATCTCGAACGCAATGGAGCAGAATGCTCATTTTCACGACCGTGCTGCTGG
CAGTTTCGGCGTTTAATTATGGGTTCAGCGACCAGGCGTTTTCGTCCTGT
CAGGCCATGGATTCGTTCGCTCGCCAATTTGGGGTTTATCATCCCAGCAC
GGGGAGTTATAAGGTGAAGCCGTTGTTCACTTCGCTTTATAATAGTTTGA
AGGCGGGAACGCAGATTGTCGATTCTACACATCCCTGTGCGCCGATTCCT
CTCCGTGTAAGTTCGCTGTGACATTTTCGTATCCTTACCTCGAAACCGCA
GACGATCCCGGCCATGTGGACATTGGTGGTAAGCTGGGATTCATTTATGG
GTCGCTGTCTGCTGTCTCGGTCATATTCGGGTACTTCTTCATCCCAGAAA
CGAGGAAGTTAGAGTTGGAGGATATCAATAAAAAGTATGAGTCGTCAACG
GAGAGTGAAATGGAGCAGAAGGTTGAGTATCAGGTTGGTTTGAGGGAGGT
TCCACGGGCGGATAATGCTCTTCCACATAAGCGGCTTCCTCGAAACGGCG
GCCTTAATGACAATGGGCGGTCTCGGTACCGCAGACTCTAGTAACACTGC
TGCCAAAGAAGGCATCGTCGCTATGTTGCTTCTTTACAGCTTTGGTTGGT
CTCTTGCCTGGGCGCCGTTGGTGTATGTGCTTGGTGCGGAGTTGCCTTCT
GCGGGGTTGAAAGAAATGACTTTGCGGATCGCGTATACTGTGAAGCTGGT
GACTGAACATCTACCTAGGAATGCAATTAGCCGTAATCCCAACCACCCTC
GCCGAACTCGCCCCCCGAAACGTCCGCGGCGCCATGGGCGTCCTATACTG
GCTCAGCATCAAAATCGGAGGCCTAGTAGTAACCGGCATCGCACGAGGCA
CATCCGGCATCTCAACAAACGCCGCATGGCAAATCCCCTTTGGCTTGATT
CTCGTGATTCCATTTATTTGCATCTGGCTCGTCTGGATAATACCCGAGTC
TCCACGATGGCTGCTCCTCCGCGACCGACAAGAAGAAGCACTGCAAGCGT
TGAAACGATATCGATCGAAAACCACACCCCAACATGAGATACAAGAGGAT
TTTGACGAAATGGCGCAGAAGGTCACGGCCCAGCTGCAGAAGAAAAGCTT
CAAGGATCTCTTTATCAAGGGGAATCGTGAACGTACGTTCGTTGTTGCCG
CTGCGAACTTCTTTCAGCAGGCTTCGGGGCAGGCGTTTGCGAGTCAGTAT
GGGACGCTTTTCGTCAAGCAGTTGAAATCGGTCAATGCGTTTAGTGTTAC
GCTGGGTACTAATGCGACTGATATTGGGGCGTTGATTATTTCGACGGCGC
TGAGTGATGTAGTGGGACGGAGGTGTCTTCCTAGGAGGTTATATTAGCAA
TACCTATGGTCGGAAATGGTGCATATTTAGCATGAATCTCTACGCACTAG
GCAGTGCAGCAGTAGTGGTGAGCTCCAAAACAGACGCACAAATATTAACA
GGTCGAGCATTACACTATGGCATCTCGAACGCAATGGAGCAGAATGCTCA
TTTTCACGACCGTGCTGCTGGCAGTTTCGGCGTTTAATTATGGGTTCAGC
GACCAGGCGTTTTCGTCCTGTCAGGCCATGGATTCGTTCGCTCGCCAATT
TGGGGTTTATCATCCCAGCACGGGGAGTTATAAGGTGAAGCCGTTGTTCA
CTTCGCTTTATAATAGTTTGAAGGCGGGAACGCAGATTGTCGATTCTACA
CATCCCTGTGCGCCGATTCCTCTCCGTGTAAGTTCGCTGTGACATTTTCG
TATCCTTACCTCGAAACCGCAGACGATCCCGGCCATGTGGACATTGGTGG
TAAGCTGGGATTCATTTATGGGTCGCTGTCTGCTGTCTCGGTCATATTCG
GGTACTTCTTCATCCCAGAAACGAGGAAGTTAGAGTTGGAGGATATCAAT
AAAAAGTATGAGTCGTCAACGGAGAGTGAAATGGAGCAGAAGGTTGAGTA
TCAGGTTGGTTTGAGGGAGGTTCCACGGGCGGATAATGCTCTTCCACATA
AGCGGCTTCCTCGAAACGGCGGCCTTAATGACAATGGGCGGTCTCGGTAC
CGCAGACTCTAGTAACACTGCTGCCAAAGAAGGCATCGTCGCTATGTTGC
TTCTTTACAGCTTTGGTTGGTCTCTTGCCTGGGCGCCGTTGGTGTATGTG
CTTGGTGCGGAGTTGCCTTCTGCGGGGTTGAAAGAAATGACTTTGCGGAT
CGCGTATACTGTGAAGCTGGTGACTGAACATCTACCTAGGAATGCAATTA
GCCGTAATCCCAACCACCCTCGCCGAACTCGCCCCCCGAAACGTCCGCGG
CGCCATGGGCGTCCTATACTGGCTCAGCATCAAAATCGGAGGCCTAGTAG
TAACCGGCATCGCACGAGGCACATCCGGCATCTCAACAAACGCCGCATGG
CAAATCCCCTTTGGCTTGATTCTCGTGATTCCATTTATTTGCATCTGGCT
CGTCTGGATAATACCCGAGTCTCCACGATGGCTGCTCCTCCGCGACCGAC
AAGAAGAAGCACTGCAAGCGTTGAAACGATATCGATCGAAAACCACACCC
CAACATGAGATACAAGAGGATTTTGACGAAATGGCGCAGAAGGTCACGGC
CCAGCTGCAGAAGAAAAGCTTCAAGGATCTCTTTATCAAGGGGAATCGTG
AACGTACGTTCGTTGTTGCCGCTGCGAACTTCTTTCAGCAGGCTTCGGGG
CAGGCGTTTGCGAGTCAGTATGGGACGCTTTTCGTCAAGCAGTTGAAATC
GGTCAATGCGTTTAGTGTTACGCTGGGTACTAATGCGACTGATATTGGGG
CGTTGATTATTTCGACGGCGCTGAGTGATGTAGTGGGACGGAGGTGTCTT
CCTAGGAGGTTATATTAGCAATACCTATGGTCGGAAATGGTGCATATTTA
GCATGAATCTCTACGCACTAGGCAGTGCAGCAGTAGTGGTGAGCTCCAAA
ACAGACGCACAAATATTAACAGGTCGAGCATTACACTATGGCATCTCGAA
CGCAATGGAGCAGAATGCTCATTTTCACGACCGTGCTGCTGGCAGTTTCG
GCGTTTAATTATGGGTTCAGCGACCAGGCGTTTTCGTCCTGTCAGGCCAT
GGATTCGTTCGCTCGCCAATTTGGGGTTTATCATCCCAGCACGGGGAGTT
ATAAGGTGAAGCCGTTGTTCACTTCGCTTTATAATAGTTTGAAGGCGGGA
ACGCAGATTGTCGATTCTACACATCCCTGTGCGCCGATTCCTCTCCGTGT
AAGTTCGCTGTGACATTTTCGTATCCTTACCTCGAAACCGCAGACGATCC
CGGCCATGTGGACATTGGTGGTAAGCTGGGATTCATTTATGGGTCGCTGT
CTGCTGTCTCGGTCATATTCGGGTACTTCTTCATCCCAGAAACGAGGAAG
TTAGAGTTGGAGGATATCAATAAAAAGTATGAGTCGTCAACGGAGAGTGA
AATGGAGCAGAAGGTTGAGTATCAGGTTGGTTTGAGGGAGGTTCCACGGG
CGGATAATGCTCTTCCACATAAGCGGCTTCCTCGAAACGGCGGCCTTAAT
GACAATGGGCGGTCTCGGTACCGCAGACTCTAGTAACACTGCTGCCAAAG
AAGGCATCGTCGCTATGTTGCTTCTTTACAGCTTTGGTTGGTCTCTTGCC
TGGGCGCCGTTGGTGTATGTGCTTGGTGCGGAGTTGCCTTCTGCGGGGTT
GAAAGAAATGACTTTGCGGATCGCGTATACTGTGAAGCTGGTGACTGAAC
ATCTACCTAGGAATGCAATTAGCCGTAATCCCAACCACCCTCGCCGAACT
CGCCCCCCGAAACGTCCGCGGCGCCATGGGCGTCCTATACTGGCTCAGCA
TCAAAATCGGAGGCCTAGTAGTAACCGGCATCGCACGAGGCACATCCGGC
ATCTCAACAAACGCCGCATGGCAAATCCCCTTTGGCTTGATTCTCGTGAT
TCCATTTATTTGCATCTGGCTCGTCTGGATAATACCCGAGTCTCCACGAT
GGCTGCTCCTCCGCGACCGACAAGAAGAAGCACTGCAAGCGTTGAAACGA
TATCGATCGAAAACCACACCCCAACATGAGATACAAGAGGATTTTGACGA
AATGGCGCAGAAGGTCACGGCCCAGCTGCAGAAGAAAAGCTTCAAGGATC
TCTTTATCAAGGGGAATCGTGAACGTACGTTCGTTGTTGCCGCTGCGAAC
TTCTTTCAGCAGGCTTCGGGGCAGGCGTTTGCGAGTCAGTATGGGACGCT
TTTCGTCAAGCAGTTGAAATCGGTCAATGCGTTTAGTGTTACGCTGGGTA
CTAATGCGACTGATATTGGGGCGTTGATTATTTCGACGGCGCTGAGTGAT
GTAGTGGGACGGAGGTGTCTTCCTAGGAGGTTATATTAGCAATACCTATG
GTCGGAAATGGTGCATATTTAGCATGAATCTCTACGCACTAGGCAGTGCA
GCAGTAGTGGTGAGCTCCAAAACAGACGCACAAATATTAACAGGTCGAGC
ATTACACTATGGCATCTCGAACGCAATGGAGCAGAATGCTCATTTTCACG
ACCGTGCTGCTGGCAGTTTCGGCGTTTAATTATGGGTTCAGCGACCAGGC
GTTTTCGTCCTGTCAGGCCATGGATTCGTTCGCTCGCCAATTTGGGGTTT
ATCATCCCAGCACGGGGAGTTATAAGGTGAAGCCGTTGTTCACTTCGCTT
TATAATAGTTTGAAGGCGGGAACGCAGATTGTCGATTCTACACATCCCTG
TGCGCCGATTCCTCTCCGTGTAAGTTCGCTGTGACATTTTCGTATCCTTA
CCTCGAAACCGCAGACGATCCCGGCCATGTGGACATTGGTGGTAAGCTGG
GATTCATTTATGGGTCGCTGTCTGCTGTCTCGGTCATATTCGGGTACTTC
TTCATCCCAGAAACGAGGAAGTTAGAGTTGGAGGATATCAATAAAAAGTA
TGAGTCGTCAACGGAGAGTGAAATGGAGCAGAAGGTTGAGTATCAGGTTG
GTTTGAGGGAGGTTCCACGGGCGGATAATGCTCTTCCACATAAGCGGCTT
CCTCGAAACGGCGGCCTTAATGACAATGGGCGGTCTCGGTACCGCAGACT
CTAGTAACACTGCTGCCAAAGAAGGCATCGTCGCTATGTTGCTTCTTTAC
AGCTTTGGTTGGTCTCTTGCCTGGGCGCCGTTGGTGTATGTGCTTGGTGC
GGAGTTGCCTTCTGCGGGGTTGAAAGAAATGACTTTGCGGATCGCGTATA
CTGTGAAGCTGGTGACTGAACATCTACCTAGGAATGCAATTAGCCGTAAT
CCCAACCACCCTCGCCGAACTCGCCCCCCGAAACGTCCGCGGCGCCATGG
GCGTCCTATACTGGCTCAGCATCAAAATCGGAGGCCTAGTAGTAACCGGC
ATCGCACGAGGCACATCCGGCATCTCAACAAACGCCGCATGGCAAATCCC
CTTTGGCTTGATTCTCGTGATTCCATTTATTTGCATCTGGCTCGTCTGGA
TAATACCCGAGTCTCCACGATGGCTGCTCCTCCGCGACCGACAAGAAGAA
GCACTGCAAGCGTTGAAACGATATCGATCGAAAACCACACCCCAACATGA
GATACAAGAGGATTTTGACGAAATGGCGCAGAAGGTCACGGCCCAGCTGC
AGAAGAAAAGCTTCAAGGATCTCTTTATCAAGGGGAATCGTGAACGTACG
TTCGTTGTTGCCGCTGCGAACTTCTTTCAGCAGGCTTCGGGGCAGGCGTT
TGCGAGTCAGTATGGGACGCTTTTCGTCAAGCAGTTGAAATCGGTCAATG
CGTTTAGTGTTACGCTGGGTACTAATGCGACTGATATTGGGGCGTTGATT
ATTTCGACGGCGCTGAGTGATGTAGTGGGACGGAGGTGTCTTCCTAGGAG
GTTATATTAGCAATACCTATGGTCGGAAATGGTGCATATTTAGCATGAAT
CTCTACGCACTAGGCAGTGCAGCAGTAGTGGTGAGCTCCAAAACAGACGC
ACAAATATTAACAGGTCGAGCATTACACTATGGCATCTCGAACGCAATGG
AGCAGAATGCTCATTTTCACGACCGTGCTGCTGGCAGTTTCGGCGTTTAA
TTATGGGTTCAGCGACCAGGCGTTTTCGTCCTGTCAGGCCATGGATTCGT
TCGCTCGCCAATTTGGGGTTTATCATCCCAGCACGGGGAGTTATAAGGTG
AAGCCGTTGTTCACTTCGCTTTATAATAGTTTGAAGGCGGGAACGCAGAT
TGTCGATTCTACACATCCCTGTGCGCCGATTCCTCTCCGTGTAAGTTCGC
TGTGACATTTTCGTATCCTTACCTCGAAACCGCAGACGATCCCGGCCATG
TGGACATTGGTGGTAAGCTGGGATTCATTTATGGGTCGCTGTCTGCTGTC
TCGGTCATATTCGGGTACTTCTTCATCCCAGAAACGAGGAAGTTAGAGTT
GGAGGATATCAATAAAAAGTATGAGTCGTCAACGGAGAGTGAAATGGAGC
AGAAGGTTGAGTATCAGGTTGGTTTGAGGGAGGTTCCACGGGCGGATAAT
GCTCTTCCACATAAGCGGCTTCCTCGAAACGGCGGCCTTAATGACAATGG
GCGGTCTCGGTACCGCAGACTCTAGTAACACTGCTGCCAAAGAAGGCATC
GTCGCTATGTTGCTTCTTTACAGCTTTGGTTGGTCTCTTGCCTGGGCGCC
GTTGGTGTATGTGCTTGGTGCGGAGTTGCCTTCTGCGGGGTTGAAAGAAA
TGACTTTGCGGATCGCGTATACTGTGAAGCTGGTGACTGAACATCTACCT
AGGAATGCAATTAGCCGTAATCCCAACCACCCTCGCCGAACTCGCCCCCC
GAAACGTCCGCGGCGCCATGGGCGTCCTATACTGGCTCAGCATCAAAATC
GGAGGCCTAGTAGTAACCGGCATCGCACGAGGCACATCCGGCATCTCAAC
AAACGCCGCATGGCAAATCCCCTTTGGCTTGATTCTCGTGATTCCATTTA
TTTGCATCTGGCTCGTCTGGATAATACCCGAGTCTCCACGATGGCTGCTC
CTCCGCGACCGACAAGAAGAAGCACTGCAAGCGTTGAAACGATATCGATC
GAAAACCACACCCCAACATGAGATACAAGAGGATTTTGACGAAATGGCGC
AGAAGGTCACGGCCCAGCTGCAGAAGAAAAGCTTCAAGGATCTCTTTATC
AAGGGGAATCGTGAACGTACGTTCGTTGTTGCCGCTGCGAACTTCTTTCA
GCAGGCTTCGGGGCAGGCGTTTGCGAGTCAGTATGGGACGCTTTTCGTCA
AGCAGTTGAAATCGGTCAATGCGTTTAGTGTTACGCTGGGTACTAATGCG
ACTGATATTGGGGCGTTGATTATTTCGACGGCGCTGAGTGATGTAGTGGG
ACGGAGGTGTCTTCCTAGGAGGTTATATTAGCAATACCTATGGTCGGAAA
TGGTGCATATTTAGCATGAATCTCTACGCACTAGGCAGTGCAGCAGTAGT
GGTGAGCTCCAAAACAGACGCACAAATATTAACAGGTCGAGCATTACACT
ATGGCATCTCGAACGCAATGGAGCAGAATGCTCATTTTCACGACCGTGCT
GCTGGCAGTTTCGGCGTTTAATTATGGGTTCAGCGACCAGGCGTTTTCGT
CCTGTCAGGCCATGGATTCGTTCGCTCGCCAATTTGGGGTTTATCATCCC
AGCACGGGGAGTTATAAGGTGAAGCCGTTGTTCACTTCGCTTTATAATAG
TTTGAAGGCGGGAACGCAGATTGTCG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0022857 | transmembrane transporter activity |
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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| PFAM | PF07690 |
| InterPro | IPR036259 |
| PFAM | PF00083 |
| InterPro | IPR020846 |
| InterPro | IPR005828 |
| InterPro | IPR003663 |
Properties
| Property Name | Value |
|---|
| Note | SMCOG1169:sugar transport protein |
| Note | antiSMASH:Cluster_1000051.3 |
| Note | SECRETED:SignalP(1-22) |
| 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 |
|---|
| MCQH01000051 | supercontig | MCQH01000051:317496..319348 - |
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