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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000068:219438..222349+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_003653-T1 ID=ATCC10864_003653-T1|Name=ATCC10864_003653-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2912bp|location=Sequence derived from alignment at MCQH01000068:219438..222349+ (Aspergillus niger ATCC 10864)
ATGGGTTACCAACACGCAACTCGCGATATGGTGGCGTACTTGCGCATTGC
GTCGCCCATTATCCTGCTCCTCATATTTGTCGCCTCCTTCATTGCCAGCT
CCATTGTTACGGCTAGAAATGCGAACAAGAACGCCAATGCCGTTCACACA
GGTCCCGGTGGGCGACCACTTCCCAAACGGTCCCGGAGTACAATGACCGT
GATCAAGGCACCGCAAAAGTTCTCGGAACGCACAAAATTATTGTTCAAGT
GGCTGTCTGTCGGGGTACTTTTAACAATTGCCGCAGATGGTGCCCTTAAT
GTGGCCCATGTCATGATTGCAAGATCGGAACACTGGTGGTGTGGCCAATC
AGTGGTGGTAAGTCCTCTGTCTTGCCTCAGCTTTTAATTCTGACCCAAAC
CTGGGTTGGAATCTCAAGAAACGGGAGGGGCATCGTCGCTAATTACACTA
GATCTATGTCGTGGGCTCATTCTTCGACTACGCGATTATACTTGTCTCCC
TATTGGATACAAACCCCTCTCCAACCTTCGCCCAATTCATTCCATGGCTA
GTGGCGATTCCGATTGAGCTGGGTATCCTAGGAACCTCTCTCTCCATCTA
TTCCGACGTACACCGCGAACCTGTGGTTGGGAATCCTGTTGGTGGTCGCC
TGAGACAAGGTATAACGCCGTGGGAGTTGGCGGAGGTGGTCCTGAACTGT
ATCAGGGTACTGTTCCTCATGGCTATGGTCATGTCGTACATGTTTCATAC
GATCAACTTCAACTCTAAAAGAGCTCATGGTCACGCCAATGGGGTCAATG
AGACCACGGGATTGCTCAACGGCCACCACGCAGAAAACGGGAATGCTTAT
GGCTCAACGAATGGTCACGCGCAGGCTTCCAAGCCCACCGACCCGTGGGT
TCGCCCGACTACAGTTCCGTCAACTAGTTGGTGGGAGTATCTCAGCGGTT
ATTCACTATTTTTCCCATACCTGTGGCCATCGAAATCCCGTCGCTTGCAA
ATAGTAGTGGTCATCTGCTTTCTGCTAATTGTATTGCAACGGATCGTGAA
TGTGCTGGTTCCTTACCAGGCAGGTGTCATTACCAACATGCTCTCCAAAC
AAGACGGCGAGTTTCGAGTCCCGTGGTTCAACATCTGTCTCTACATTCTC
TACCGGTGGTTGCAGGGCAACCAGGGTCTTATCGGCTCTTTGCGGTCTAA
TCTATGGATTCCTGTGAGCCAGTACTCCTACATGGAGCTTTCGACAGCGG
CTTTCGAGCACGTGCACGGTCTGAGTCTCGATTTCCACCTAGGGAAAAAG
ACGGGTGAAGTGCTATCTGCCCTGAGCAAGGGCAGTTCGATCAACACATT
CCTCGAACAAGTAACCTTTCAGGTCGTCCCTATGTTGGTTGACCTCTGTG
TTGCGATTGTCTTCTTCCTTGTCTTCCTAGACGCTTATTATGCGCTCGTG
GTGACTATCGTCACTTTCTGCTATCTCTACGTCACCGTGCGGATGGCGCA
GTGGCGAGCGGAAATCCGCAGAGAGATGGTCAACAAGTCCAGACAAGAAG
ACGCTGTTAAGTAAGTACTCGATATTACCAGTTACTCCTTCTTTTTGCAA
GGCTTACAGTATGGCTAGGAACGATTCTATGGTCTCCTACGAAACCGTGA
AATACTTCAATGCCGAAGAATACGAATTTGGCAGATACAGAAATGCCGTG
TCTGACTTCCAGAAGGCCGAATATCACGTTCTCTTCTCCCTCAATCTGCT
GAATACATCGCAGAACACTGTTTTCATGCTAGGTTTGCTGATTGCATGCT
TTATCGCGGCTTATCAGGTTTCGTTAGGACAGCGGGATGTTGGTCAGTTT
GTTTCACTCCTCACATACATGGCCCAATTGCAAGGGCCCTTGAACTTCTT
CGGCACCTTCTACCGTTCCATCCAGTCAGCCATGATAAACTCAGAGCGGT
TGTTGGAACTGTTCAGGGAGCAGCCCACCGTGGTCGATCGACCCAGCGCC
AGGCCCCTGCCACTCTGCAAGGGTGATATCATGTTTGAAAATGTCGAGTT
CTCATATGACACCCGGAAACCAGCCTTGAATGGGCTGACATTCCGCTGCG
AGCCCGGGACAACCACAGCTCTGGTGGGTGAGTCAGGCGGAGGAAAGTCC
ACCGTTTTCCGTCTACTCTTCCGGTTTTATAACGCGACGAGGGGCCGCAT
CCGTGTAGATGGGCACGATGTGGAAAGTATCACAATCGATTCGCTCCGAA
AGCACATCGGTGTTGTGCCACAGGACACGGTGCTCTTCAACGAGACATTG
ATGTACAATTTGAAGTACGCCAATCAGGACGCGACGGATGAGGAGGTCTA
TGAAGCTTGCCGTGCTGCCAGCATCCACGACAAGATCATGTCCTTCCCCG
ATGGATATAGCACTAAGGTCGGTGAGCGCGGTCTCCGGCTCAGCGGCGGA
GAGAAACAGCGGGTTGCCATTGCTCGGACCATTCTCAAGAACCCGCGAAT
AATTCTTCTGGATGAAGCGACTGCTGCGCTGGACACAGAAACAGAGGAGC
ACATCCAGGGCGCGCTGTCCAGCCTTTCCCGTGGGCGGACGATGCTTGTT
ATTGCTCATCGACTGAGTACCATCACGACGGCAGACAGGATAGTAGTCTT
GCATGAAGGCCGAGTGGCCGAAAGTGGCACTCACGATCAATTGCTGGCAA
TGAAAGGTCGATATGCCAGCATGTGGCGTAAACAGATTCGTGCCCAGAGG
GCTGCCGCGGAAGCCCAAGTGCTTCAAGATCGCGCTCAACGCTTGCGTAG
CGCATCCACATCGGGTGCCGCCGATGACAGTTCCAGTCAGTCCGATGAGG
ACCGAAAGCCGGCCAACAAACCTGGTGACGATGGCCGCAAAGGACAGGAG
ACAGCTCGGTGA back to topCoding sequence (CDS) from alignment at MCQH01000068:219438..222349+ >ATCC10864_003653-T1 ID=ATCC10864_003653-T1|Name=ATCC10864_003653-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8280bp|location=Sequence derived from alignment at MCQH01000068:219438..222349+ (Aspergillus niger ATCC 10864)
ATGGGTTACCAACACGCAACTCGCGATATGGTGGCGTACTTGCGCATTGC
GTCGCCCATTATCCTGCTCCTCATATTTGTCGCCTCCTTCATTGCCAGCT
CCATTGTTACGGCTAGAAATGCGAACAAGAACGCCAATGCCGTTCACACA
GGTCCCGGTGGGCGACCACTTCCCAAACGGTCCCGGAGTACAATGACCGT
GATCAAGGCACCGCAAAAGTTCTCGGAACGCACAAAATTATTGTTCAAGT
GGCTGTCTGTCGGGGTACTTTTAACAATTGCCGCAGATGGTGCCCTTAAT
GTGGCCCATGTCATGATTGCAAGATCGGAACACTGGTGGTGTGGCCAATC
AGTGGTGATCTATGTCGTGGGCTCATTCTTCGACTACGCGATTATACTTG
TCTCCCTATTGGATACAAACCCCTCTCCAACCTTCGCCCAATTCATTCCA
TGGCTAGTGGCGATTCCGATTGAGCTGGGTATCCTAGGAACCTCTCTCTC
CATCTATTCCGACGTACACCGCGAACCTGTGGTTGGGAATCCTGTTGGTG
GTCGCCTGAGACAAGGTATAACGCCGTGGGAGTTGGCGGAGGTGGTCCTG
AACTGTATCAGGGTACTGTTCCTCATGGCTATGGTCATGTCGTACATGTT
TCATACGATCAACTTCAACTCTAAAAGAGCTCATGGTCACGCCAATGGGG
TCAATGAGACCACGGGATTGCTCAACGGCCACCACGCAGAAAACGGGAAT
GCTTATGGCTCAACGAATGGTCACGCGCAGGCTTCCAAGCCCACCGACCC
GTGGGTTCGCCCGACTACAGTTCCGTCAACTAGTTGGTGGGAGTATCTCA
GCGGTTATTCACTATTTTTCCCATACCTGTGGCCATCGAAATCCCGTCGC
TTGCAAATAGTAGTGGTCATCTGCTTTCTGCTAATTGTATTGCAACGGAT
CGTGAATGTGCTGGTTCCTTACCAGGCAGGTGTCATTACCAACATGCTCT
CCAAACAAGACGGCGAGTTTCGAGTCCCGTGGTTCAACATCTGTCTCTAC
ATTCTCTACCGGTGGTTGCAGGGCAACCAGGGTCTTATCGGCTCTTTGCG
GTCTAATCTATGGATTCCTGTGAGCCAGTACTCCTACATGGAGCTTTCGA
CAGCGGCTTTCGAGCACGTGCACGGTCTGAGTCTCGATTTCCACCTAGGG
AAAAAGACGGGTGAAGTGCTATCTGCCCTGAGCAAGGGCAGTTCGATCAA
CACATTCCTCGAACAAGTAACCTTTCAGGTCGTCCCTATGTTGGTTGACC
TCTGTGTTGCGATTGTCTTCTTCCTTGTCTTCCTAGACGCTTATTATGCG
CTCGTGGTGACTATCGTCACTTTCTGCTATCTCTACGTCACCGTGCGGAT
GGCGCAGTGGCGAGCGGAAATCCGCAGAGAGATGGTCAACAAGTCCAGAC
AAGAAGACGCTGTTAAGAACGATTCTATGGTCTCCTACGAAACCGTGAAA
TACTTCAATGCCGAAGAATACGAATTTGGCAGATACAGAAATGCCGTGTC
TGACTTCCAGAAGGCCGAATATCACGTTCTCTTCTCCCTCAATCTGCTGA
ATACATCGCAGAACACTGTTTTCATGCTAGGTTTGCTGATTGCATGCTTT
ATCGCGGCTTATCAGGTTTCGTTAGGACAGCGGGATGTTGGTCAGTTTGT
TTCACTCCTCACATACATGGCCCAATTGCAAGGGCCCTTGAACTTCTTCG
GCACCTTCTACCGTTCCATCCAGTCAGCCATGATAAACTCAGAGCGGTTG
TTGGAACTGTTCAGGGAGCAGCCCACCGTGGTCGATCGACCCAGCGCCAG
GCCCCTGCCACTCTGCAAGGGTGATATCATGTTTGAAAATGTCGAGTTCT
CATATGACACCCGGAAACCAGCCTTGAATGGGCTGACATTCCGCTGCGAG
CCCGGGACAACCACAGCTCTGGTGGGTGAGTCAGGCGGAGGAAAGTCCAC
CGTTTTCCGTCTACTCTTCCGGTTTTATAACGCGACGAGGGGCCGCATCC
GTGTAGATGGGCACGATGTGGAAAGTATCACAATCGATTCGCTCCGAAAG
CACATCGGTGTTGTGCCACAGGACACGGTGCTCTTCAACGAGACATTGAT
GTACAATTTGAAGTACGCCAATCAGGACGCGACGGATGAGGAGGTCTATG
AAGCTTGCCGTGCTGCCAGCATCCACGACAAGATCATGTCCTTCCCCGAT
GGATATAGCACTAAGGTCGGTGAGCGCGGTCTCCGGCTCAGCGGCGGAGA
GAAACAGCGGGTTGCCATTGCTCGGACCATTCTCAAGAACCCGCGAATAA
TTCTTCTGGATGAAGCGACTGCTGCGCTGGACACAGAAACAGAGGAGCAC
ATCCAGGGCGCGCTGTCCAGCCTTTCCCGTGGGCGGACGATGCTTGTTAT
TGCTCATCGACTGAGTACCATCACGACGGCAGACAGGATAGTAGTCTTGC
ATGAAGGCCGAGTGGCCGAAAGTGGCACTCACGATCAATTGCTGGCAATG
AAAGGTCGATATGCCAGCATGTGGCGTAAACAGATTCGTGCCCAGAGGGC
TGCCGCGGAAGCCCAAGTGCTTCAAGATCGCGCTCAACGCTTGCGTAGCG
CATCCACATCGGGTGCCGCCGATGACAGTTCCAGTCAGTCCGATGAGGAC
CGAAAGCCGGCCAACAAACCTGGTGACGATGGCCGCAAAGGACAGGAGAC
AGCTCGGTGAATGGGTTACCAACACGCAACTCGCGATATGGTGGCGTACT
TGCGCATTGCGTCGCCCATTATCCTGCTCCTCATATTTGTCGCCTCCTTC
ATTGCCAGCTCCATTGTTACGGCTAGAAATGCGAACAAGAACGCCAATGC
CGTTCACACAGGTCCCGGTGGGCGACCACTTCCCAAACGGTCCCGGAGTA
CAATGACCGTGATCAAGGCACCGCAAAAGTTCTCGGAACGCACAAAATTA
TTGTTCAAGTGGCTGTCTGTCGGGGTACTTTTAACAATTGCCGCAGATGG
TGCCCTTAATGTGGCCCATGTCATGATTGCAAGATCGGAACACTGGTGGT
GTGGCCAATCAGTGGTGATCTATGTCGTGGGCTCATTCTTCGACTACGCG
ATTATACTTGTCTCCCTATTGGATACAAACCCCTCTCCAACCTTCGCCCA
ATTCATTCCATGGCTAGTGGCGATTCCGATTGAGCTGGGTATCCTAGGAA
CCTCTCTCTCCATCTATTCCGACGTACACCGCGAACCTGTGGTTGGGAAT
CCTGTTGGTGGTCGCCTGAGACAAGGTATAACGCCGTGGGAGTTGGCGGA
GGTGGTCCTGAACTGTATCAGGGTACTGTTCCTCATGGCTATGGTCATGT
CGTACATGTTTCATACGATCAACTTCAACTCTAAAAGAGCTCATGGTCAC
GCCAATGGGGTCAATGAGACCACGGGATTGCTCAACGGCCACCACGCAGA
AAACGGGAATGCTTATGGCTCAACGAATGGTCACGCGCAGGCTTCCAAGC
CCACCGACCCGTGGGTTCGCCCGACTACAGTTCCGTCAACTAGTTGGTGG
GAGTATCTCAGCGGTTATTCACTATTTTTCCCATACCTGTGGCCATCGAA
ATCCCGTCGCTTGCAAATAGTAGTGGTCATCTGCTTTCTGCTAATTGTAT
TGCAACGGATCGTGAATGTGCTGGTTCCTTACCAGGCAGGTGTCATTACC
AACATGCTCTCCAAACAAGACGGCGAGTTTCGAGTCCCGTGGTTCAACAT
CTGTCTCTACATTCTCTACCGGTGGTTGCAGGGCAACCAGGGTCTTATCG
GCTCTTTGCGGTCTAATCTATGGATTCCTGTGAGCCAGTACTCCTACATG
GAGCTTTCGACAGCGGCTTTCGAGCACGTGCACGGTCTGAGTCTCGATTT
CCACCTAGGGAAAAAGACGGGTGAAGTGCTATCTGCCCTGAGCAAGGGCA
GTTCGATCAACACATTCCTCGAACAAGTAACCTTTCAGGTCGTCCCTATG
TTGGTTGACCTCTGTGTTGCGATTGTCTTCTTCCTTGTCTTCCTAGACGC
TTATTATGCGCTCGTGGTGACTATCGTCACTTTCTGCTATCTCTACGTCA
CCGTGCGGATGGCGCAGTGGCGAGCGGAAATCCGCAGAGAGATGGTCAAC
AAGTCCAGACAAGAAGACGCTGTTAAGAACGATTCTATGGTCTCCTACGA
AACCGTGAAATACTTCAATGCCGAAGAATACGAATTTGGCAGATACAGAA
ATGCCGTGTCTGACTTCCAGAAGGCCGAATATCACGTTCTCTTCTCCCTC
AATCTGCTGAATACATCGCAGAACACTGTTTTCATGCTAGGTTTGCTGAT
TGCATGCTTTATCGCGGCTTATCAGGTTTCGTTAGGACAGCGGGATGTTG
GTCAGTTTGTTTCACTCCTCACATACATGGCCCAATTGCAAGGGCCCTTG
AACTTCTTCGGCACCTTCTACCGTTCCATCCAGTCAGCCATGATAAACTC
AGAGCGGTTGTTGGAACTGTTCAGGGAGCAGCCCACCGTGGTCGATCGAC
CCAGCGCCAGGCCCCTGCCACTCTGCAAGGGTGATATCATGTTTGAAAAT
GTCGAGTTCTCATATGACACCCGGAAACCAGCCTTGAATGGGCTGACATT
CCGCTGCGAGCCCGGGACAACCACAGCTCTGGTGGGTGAGTCAGGCGGAG
GAAAGTCCACCGTTTTCCGTCTACTCTTCCGGTTTTATAACGCGACGAGG
GGCCGCATCCGTGTAGATGGGCACGATGTGGAAAGTATCACAATCGATTC
GCTCCGAAAGCACATCGGTGTTGTGCCACAGGACACGGTGCTCTTCAACG
AGACATTGATGTACAATTTGAAGTACGCCAATCAGGACGCGACGGATGAG
GAGGTCTATGAAGCTTGCCGTGCTGCCAGCATCCACGACAAGATCATGTC
CTTCCCCGATGGATATAGCACTAAGGTCGGTGAGCGCGGTCTCCGGCTCA
GCGGCGGAGAGAAACAGCGGGTTGCCATTGCTCGGACCATTCTCAAGAAC
CCGCGAATAATTCTTCTGGATGAAGCGACTGCTGCGCTGGACACAGAAAC
AGAGGAGCACATCCAGGGCGCGCTGTCCAGCCTTTCCCGTGGGCGGACGA
TGCTTGTTATTGCTCATCGACTGAGTACCATCACGACGGCAGACAGGATA
GTAGTCTTGCATGAAGGCCGAGTGGCCGAAAGTGGCACTCACGATCAATT
GCTGGCAATGAAAGGTCGATATGCCAGCATGTGGCGTAAACAGATTCGTG
CCCAGAGGGCTGCCGCGGAAGCCCAAGTGCTTCAAGATCGCGCTCAACGC
TTGCGTAGCGCATCCACATCGGGTGCCGCCGATGACAGTTCCAGTCAGTC
CGATGAGGACCGAAAGCCGGCCAACAAACCTGGTGACGATGGCCGCAAAG
GACAGGAGACAGCTCGGTGAATGGGTTACCAACACGCAACTCGCGATATG
GTGGCGTACTTGCGCATTGCGTCGCCCATTATCCTGCTCCTCATATTTGT
CGCCTCCTTCATTGCCAGCTCCATTGTTACGGCTAGAAATGCGAACAAGA
ACGCCAATGCCGTTCACACAGGTCCCGGTGGGCGACCACTTCCCAAACGG
TCCCGGAGTACAATGACCGTGATCAAGGCACCGCAAAAGTTCTCGGAACG
CACAAAATTATTGTTCAAGTGGCTGTCTGTCGGGGTACTTTTAACAATTG
CCGCAGATGGTGCCCTTAATGTGGCCCATGTCATGATTGCAAGATCGGAA
CACTGGTGGTGTGGCCAATCAGTGGTGATCTATGTCGTGGGCTCATTCTT
CGACTACGCGATTATACTTGTCTCCCTATTGGATACAAACCCCTCTCCAA
CCTTCGCCCAATTCATTCCATGGCTAGTGGCGATTCCGATTGAGCTGGGT
ATCCTAGGAACCTCTCTCTCCATCTATTCCGACGTACACCGCGAACCTGT
GGTTGGGAATCCTGTTGGTGGTCGCCTGAGACAAGGTATAACGCCGTGGG
AGTTGGCGGAGGTGGTCCTGAACTGTATCAGGGTACTGTTCCTCATGGCT
ATGGTCATGTCGTACATGTTTCATACGATCAACTTCAACTCTAAAAGAGC
TCATGGTCACGCCAATGGGGTCAATGAGACCACGGGATTGCTCAACGGCC
ACCACGCAGAAAACGGGAATGCTTATGGCTCAACGAATGGTCACGCGCAG
GCTTCCAAGCCCACCGACCCGTGGGTTCGCCCGACTACAGTTCCGTCAAC
TAGTTGGTGGGAGTATCTCAGCGGTTATTCACTATTTTTCCCATACCTGT
GGCCATCGAAATCCCGTCGCTTGCAAATAGTAGTGGTCATCTGCTTTCTG
CTAATTGTATTGCAACGGATCGTGAATGTGCTGGTTCCTTACCAGGCAGG
TGTCATTACCAACATGCTCTCCAAACAAGACGGCGAGTTTCGAGTCCCGT
GGTTCAACATCTGTCTCTACATTCTCTACCGGTGGTTGCAGGGCAACCAG
GGTCTTATCGGCTCTTTGCGGTCTAATCTATGGATTCCTGTGAGCCAGTA
CTCCTACATGGAGCTTTCGACAGCGGCTTTCGAGCACGTGCACGGTCTGA
GTCTCGATTTCCACCTAGGGAAAAAGACGGGTGAAGTGCTATCTGCCCTG
AGCAAGGGCAGTTCGATCAACACATTCCTCGAACAAGTAACCTTTCAGGT
CGTCCCTATGTTGGTTGACCTCTGTGTTGCGATTGTCTTCTTCCTTGTCT
TCCTAGACGCTTATTATGCGCTCGTGGTGACTATCGTCACTTTCTGCTAT
CTCTACGTCACCGTGCGGATGGCGCAGTGGCGAGCGGAAATCCGCAGAGA
GATGGTCAACAAGTCCAGACAAGAAGACGCTGTTAAGAACGATTCTATGG
TCTCCTACGAAACCGTGAAATACTTCAATGCCGAAGAATACGAATTTGGC
AGATACAGAAATGCCGTGTCTGACTTCCAGAAGGCCGAATATCACGTTCT
CTTCTCCCTCAATCTGCTGAATACATCGCAGAACACTGTTTTCATGCTAG
GTTTGCTGATTGCATGCTTTATCGCGGCTTATCAGGTTTCGTTAGGACAG
CGGGATGTTGGTCAGTTTGTTTCACTCCTCACATACATGGCCCAATTGCA
AGGGCCCTTGAACTTCTTCGGCACCTTCTACCGTTCCATCCAGTCAGCCA
TGATAAACTCAGAGCGGTTGTTGGAACTGTTCAGGGAGCAGCCCACCGTG
GTCGATCGACCCAGCGCCAGGCCCCTGCCACTCTGCAAGGGTGATATCAT
GTTTGAAAATGTCGAGTTCTCATATGACACCCGGAAACCAGCCTTGAATG
GGCTGACATTCCGCTGCGAGCCCGGGACAACCACAGCTCTGGTGGGTGAG
TCAGGCGGAGGAAAGTCCACCGTTTTCCGTCTACTCTTCCGGTTTTATAA
CGCGACGAGGGGCCGCATCCGTGTAGATGGGCACGATGTGGAAAGTATCA
CAATCGATTCGCTCCGAAAGCACATCGGTGTTGTGCCACAGGACACGGTG
CTCTTCAACGAGACATTGATGTACAATTTGAAGTACGCCAATCAGGACGC
GACGGATGAGGAGGTCTATGAAGCTTGCCGTGCTGCCAGCATCCACGACA
AGATCATGTCCTTCCCCGATGGATATAGCACTAAGGTCGGTGAGCGCGGT
CTCCGGCTCAGCGGCGGAGAGAAACAGCGGGTTGCCATTGCTCGGACCAT
TCTCAAGAACCCGCGAATAATTCTTCTGGATGAAGCGACTGCTGCGCTGG
ACACAGAAACAGAGGAGCACATCCAGGGCGCGCTGTCCAGCCTTTCCCGT
GGGCGGACGATGCTTGTTATTGCTCATCGACTGAGTACCATCACGACGGC
AGACAGGATAGTAGTCTTGCATGAAGGCCGAGTGGCCGAAAGTGGCACTC
ACGATCAATTGCTGGCAATGAAAGGTCGATATGCCAGCATGTGGCGTAAA
CAGATTCGTGCCCAGAGGGCTGCCGCGGAAGCCCAAGTGCTTCAAGATCG
CGCTCAACGCTTGCGTAGCGCATCCACATCGGGTGCCGCCGATGACAGTT
CCAGTCAGTCCGATGAGGACCGAAAGCCGGCCAACAAACCTGGTGACGAT
GGCCGCAAAGGACAGGAGACAGCTCGGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0005524 | ATP 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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR017871 |
| InterPro | IPR003439 |
| InterPro | IPR027417 |
| InterPro | IPR039421 |
| PFAM | PF00005 |
| InterPro | IPR011527 |
| InterPro | IPR003593 |
| InterPro | IPR036640 |
| PFAM | PF00664 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000068 | supercontig | MCQH01000068:219438..222349 + |
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