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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000015:352386..356387- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_000665-T1 ID=ATCC10864_000665-T1|Name=ATCC10864_000665-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=4002bp|location=Sequence derived from alignment at MCQH01000015:352386..356387- (Aspergillus niger ATCC 10864)
ATGGCATTCTTCACCAAGCTGGCGGGCTATCCCCGCCTGCTGCTGGCCGG
TAACCCCTCCAAGTACGATTTGGGTACCTTGCTCTCTGCCATCGTGTTTG
CTATCGGTTCGGGTGTCCCCTTTCCCATCATCGCCATCGTCTTCGGTCAG
CTCCTCGACAACTTCAACGACGTGACCTGCACCGAAGAAAACGGCGGAGG
CGACACCTCCTCCGACTCCAACAGCATCAACCACGAGATCCTCCTGATCG
TCTACCTGGCAATCGCCCAGTTCGTCCTCATCTATGGCCACCTCACGTGC
TGGACCCTGTACGGTGCTCGTCTAGCCCAGCGCCTGCGTGAACGCTACCT
GAAGAACCTCCTCCGCCAGGAACCTTCCTTCTTCGATAACCTGCCTCCTG
GTGAGGTAGCCTCGCGACTGAGCAGCGATATTCAGACCATTCGTTCGGGC
ACCTCAGAGAAAGTCGGCATCACCCTGGCAAGTTTCTCGTTCTTCGTCAC
AGCGTACATTGTGTCTTTCATCAAGGATTGGGAGCTGGCTGCCATTCTGC
TTTCTTTGATTCCGGCCTACCTTCTGATGTCCTTCGTGGGCAGTCATTAT
ATCGAAAAGTACTCTGGGCTCATGTCGGACTATGCCGCCAGTGCAGCATC
CATTGCTTCTGAGGCCCTGTCGAACATCGTCGTAGTGCAGGCCTTCGGCG
CCAATGCCCGCCTGGAGAAAAAGTTCGCTGGTGCGCTCAAGTCATCTGAA
ACCCAGGGTCTGAAAAAGGCTACCGCTGTGGGTATCCAGTCTGGAGTTTT
GTACTTCATCGCCTATTCGGCCAACGGTCTGGCTTTCTGGAAAGGAAGTC
ACCGTATCGCCGATTCAGTCAGAGATGGCACGGCAGGTGTCACTGTCGGT
GCTACTTTCACTGTCATCTTTGTCTTAATTGAGGGTAAGTTGATGTATCC
TGTGCTGTTTCCTTAGCAGCCAATGCTAATCATATGTATAGCTACTCTGC
TACTTAGTCAGGTCGCGCCTTTTCTCCACTTGTTCGTCGCTGCTACCGCT
TCGTACGAGAAACTGCGCGAAGACCTCGATCGCGAACCCCAAATCGATAG
CACCGGCGAGTCAGGCATCCGTGTCTCACAAGCGGAGGGCGGCTTTGAGT
TCCAGAACGTCACCTTTCAGTATCCGTCACGCCCCGAGGTCACCGTTCTC
GACAACATCAGTCTCTCTATTCCCGCAAACAAACACACGGCTCTCGTCGG
GTTGTCAGGAAGCGGCAAATCTACCATCGCTGGCCTTGTTACTCGGTTGT
ATGATCCGGTAGACGGAAAAATTCTCTTTGATGGTCACGACCTGCGTGAA
GTCAATGTCCGCGACCTGCGCAGCTACCTCAGTCTGGTGCAGCAAGAACC
CTCCCTGCTCGATCGTTCCCTGCTGGAGAACATTGCCCACGGCCTGATGA
ATTCAAGTAACCCGGATCATGAACGCCTGAAGATGGCCCTGATGAGCTCC
GACCTGACTGAAGTTGCCCGCGAGGTCCGGGAGGGCCAGGATCTTATGGC
TGCCGCCGAGAAACGCGGCGCGGAAATTGTCGAGGTTGTCAAGATGGCCT
GTCACGCTGCGAAATTGGCTGATGCGGATACCTTCATTTCAGCATTGCAA
CATGGATACGGTACCATGGTTGGATCTAGCGGACGTCTCATCAGCGGTGG
TCAGAAGCAACGTGTATCACTAGCTCGAGCCCTGGTCAAAGACCCTGCTG
TCCTCATTCTAGACGAAGCCACGGCGTCGTTGGACTCCCGGAGTGAACAG
CGCATCCAGCGGGCCATCGCCGGCATTGCCAGTGGCAGAACCATGATCAC
GATTGCTCACCGACTGTCAACCATCACCAGCGCGGACAACATCATCGTCA
TGTCTAAGGGCAGAATCTTGGAGCAAGGGACCCACGCTGAGCTAATGGCC
AAGGAGGGCGCATATTTCGACCTAGTCAAATTACAGACGCTGGGAACCGC
GTCCGCCAAGACTGATGCCTCCGCAAGCGTGGACAGTATCAGCAAATCTG
ATGACACCTCGCTGACGGAACCTGAGAATGAAAAGGCCAGTCTCACCCTG
GACACCCTCGAGAAGACGGAGGAGACCAAGGTCTCGGAAACCGAAACCCC
AGCCGGCGATGAGGCTGCCGAAGAGGAAGAGCCGGAGACTCCCAAAAAGT
CACTGTGGGCACTGGCTAAGGGATATGCCCCTGCATTGCGGCCACACCTC
CTATATGTTTTCCTCGCCTTGATTGGATCCAGTATCGTCGGTGGAGCCTT
TTCTGGTGAGGCTGTTATTTTTGGTAACACCGTCGGCAGCCTGAATCCCT
GCAAGAGTGCCTCCAGTATCAGCAACCGCGGTGACTTCTACGGACTGATG
TTCTTTATCCTCGCTATCATTGAGTTCTTCGCCAACGTGGTCAGCTGGTC
CGGCTTCGGTTGGGTGTCCGAGAAGATCGTTTACACTGTTCGTGTCCTTT
CATTCCGCTCGCTGTTCGAGCAAGACCTGCATTGGCACCAGTCAAATGGA
CGCAGCCCTGCCCTTCTACTGTCGTACATTACACGCGATGGCAACGCCCT
GGCTGGACTGAGCGGCTCGGTCATCGGCACACTCTTCTCCATCACCGTCA
ACCTCATCGCTGCCATTATTCTCACGCACATCATTGCCTGGAAGATTGCG
CTTGTCTGTCTGGCCCTGGTGCCGCTGCTCCTTGGTGCTGGTCTCATGGA
GCTGCTTGTGCTCGGCAAATTTGAGGAGAAGCACGAGAATGCCTACACCA
AGTCGGTGGACATTGGTGTGGAGGCAATCACCTCCATCAAGACCGTCTCC
TCCCTGTCTATCCAGCAGGATATCCTGCAAACCTACCGCGCCTCCCTGAA
GGGGCCCCGCATGGAGACCCTCGTAGTAACTCTGCAAGCCAGTCTCTGGC
AGGCTATGACTTACTTCCTGGGCAACCTCGTCAATGCGCTCGCCTACTGG
TGGGGTGCGAAGCAGATTATCGAAGGCACATACACGCAGACACAGTTCCT
GATCGTGGTGTTCTCCCTGCTGGTCAGCGCCCTACTCTGGAGTCAGATGT
TTGCACTGGCTCCAGAACTGTCCAGCGCGCGTGCCGCTATGGCTCGCATC
CTAGGACTGATTGAGATCGGTTCCGACAAGATGCAAGGCCGGGTGCCAGA
CCATAGCAATTCTTCCTCCGATCCTGAAGCTTCCACCACTATTGAACCCA
AGCCCACCACCCCCGCCAGCATCCAGCTCCGTGACGTGCACTTCGCCTAC
CCCGCCCGACCAGACATCCAAGTCCTCAAAGGCCTCACTCTCGACATCCA
GCCTGGTAAATTCTTCGCCCTAGTTGGCCCCTCCGGAGCCGGAAAGTCTA
CCATCATCTCCCTCATCGAACGCCTCTACACCCCGCAATCCGGCAGCATC
GCCATCGACCACACAGACCTGAAGAACCGACCCCCTAGCTTCCGCGACAC
CATCTCCCTCGTTCCTCAAGAAAGTGTTCTCTTTGAAGGCACTATCGCCT
TCAACATCGGGCTCGGTGCACCCCCGAACCACAATGCGACGCAGGAGGAG
ATTGAAGCTGCCTGCAAGCTAGCTAACATCCACGATACTATCATGGCACT
GCCAGATGGATATGAAACAATGTGTGGACCGAATGGGAACCAATTCTCGG
GTGGACAGAAGCAGCGGTTGTCGATTGCGCGGGCCTTGGTGCGCAAGCCT
CGGTTGTTAATTCTGGATGAGTCTACGAGTGCGTTGGATGCAGAGAGTGA
GCGGTTGTTGGAGGAGGGCCTGGAGAGAGCAGCAAAGGGTATCACAGTCG
TGGCAATCGCGCATCGACTGAGGACCATTCGCAAGGCGGATGTCATCTGT
TTGATTGAAGCAGGCGTTTGTGTTGATCGCGGAACACATGAGGAGCTTAT
GGAGCGATCGGCGAGTTATAGGGAGAATGTGTTGCATCAAACCGTGGAGT
AA back to topCoding sequence (CDS) from alignment at MCQH01000015:352386..356387- >ATCC10864_000665-T1 ID=ATCC10864_000665-T1|Name=ATCC10864_000665-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=7890bp|location=Sequence derived from alignment at MCQH01000015:352386..356387- (Aspergillus niger ATCC 10864)
CTACTCTGCTACTTAGTCAGGTCGCGCCTTTTCTCCACTTGTTCGTCGCT
GCTACCGCTTCGTACGAGAAACTGCGCGAAGACCTCGATCGCGAACCCCA
AATCGATAGCACCGGCGAGTCAGGCATCCGTGTCTCACAAGCGGAGGGCG
GCTTTGAGTTCCAGAACGTCACCTTTCAGTATCCGTCACGCCCCGAGGTC
ACCGTTCTCGACAACATCAGTCTCTCTATTCCCGCAAACAAACACACGGC
TCTCGTCGGGTTGTCAGGAAGCGGCAAATCTACCATCGCTGGCCTTGTTA
CTCGGTTGTATGATCCGGTAGACGGAAAAATTCTCTTTGATGGTCACGAC
CTGCGTGAAGTCAATGTCCGCGACCTGCGCAGCTACCTCAGTCTGGTGCA
GCAAGAACCCTCCCTGCTCGATCGTTCCCTGCTGGAGAACATTGCCCACG
GCCTGATGAATTCAAGTAACCCGGATCATGAACGCCTGAAGATGGCCCTG
ATGAGCTCCGACCTGACTGAAGTTGCCCGCGAGGTCCGGGAGGGCCAGGA
TCTTATGGCTGCCGCCGAGAAACGCGGCGCGGAAATTGTCGAGGTTGTCA
AGATGGCCTGTCACGCTGCGAAATTGGCTGATGCGGATACCTTCATTTCA
GCATTGCAACATGGATACGGTACCATGGTTGGATCTAGCGGACGTCTCAT
CAGCGGTGGTCAGAAGCAACGTGTATCACTAGCTCGAGCCCTGGTCAAAG
ACCCTGCTGTCCTCATTCTAGACGAAGCCACGGCGTCGTTGGACTCCCGG
AGTGAACAGCGCATCCAGCGGGCCATCGCCGGCATTGCCAGTGGCAGAAC
CATGATCACGATTGCTCACCGACTGTCAACCATCACCAGCGCGGACAACA
TCATCGTCATGTCTAAGGGCAGAATCTTGGAGCAAGGGACCCACGCTGAG
CTAATGGCCAAGGAGGGCGCATATTTCGACCTAGTCAAATTACAGACGCT
GGGAACCGCGTCCGCCAAGACTGATGCCTCCGCAAGCGTGGACAGTATCA
GCAAATCTGATGACACCTCGCTGACGGAACCTGAGAATGAAAAGGCCAGT
CTCACCCTGGACACCCTCGAGAAGACGGAGGAGACCAAGGTCTCGGAAAC
CGAAACCCCAGCCGGCGATGAGGCTGCCGAAGAGGAAGAGCCGGAGACTC
CCAAAAAGTCACTGTGGGCACTGGCTAAGGGATATGCCCCTGCATTGCGG
CCACACCTCCTATATGTTTTCCTCGCCTTGATTGGATCCAGTATCGTCGG
TGGAGCCTTTTCTGGTGAGGCTGTTATTTTTGGTAACACCGTCGGCAGCC
TGAATCCCTGCAAGAGTGCCTCCAGTATCAGCAACCGCGGTGACTTCTAC
GGACTGATGTTCTTTATCCTCGCTATCATTGAGTTCTTCGCCAACGTGGT
CAGCTGGTCCGGCTTCGGTTGGGTGTCCGAGAAGATCGTTTACACTGTTC
GTGTCCTTTCATTCCGCTCGCTGTTCGAGCAAGACCTGCATTGGCACCAG
TCAAATGGACGCAGCCCTGCCCTTCTACTGTCGTACATTACACGCGATGG
CAACGCCCTGGCTGGACTGAGCGGCTCGGTCATCGGCACACTCTTCTCCA
TCACCGTCAACCTCATCGCTGCCATTATTCTCACGCACATCATTGCCTGG
AAGATTGCGCTTGTCTGTCTGGCCCTGGTGCCGCTGCTCCTTGGTGCTGG
TCTCATGGAGCTGCTTGTGCTCGGCAAATTTGAGGAGAAGCACGAGAATG
CCTACACCAAGTCGGTGGACATTGGTGTGGAGGCAATCACCTCCATCAAG
ACCGTCTCCTCCCTGTCTATCCAGCAGGATATCCTGCAAACCTACCGCGC
CTCCCTGAAGGGGCCCCGCATGGAGACCCTCGTAGTAACTCTGCAAGCCA
GTCTCTGGCAGGCTATGACTTACTTCCTGGGCAACCTCGTCAATGCGCTC
GCCTACTGGTGGGGTGCGAAGCAGATTATCGAAGGCACATACACGCAGAC
ACAGTTCCTGATCGTGGTGTTCTCCCTGCTGGTCAGCGCCCTACTCTGGA
GTCAGATGTTTGCACTGGCTCCAGAACTGTCCAGCGCGCGTGCCGCTATG
GCTCGCATCCTAGGACTGATTGAGATCGGTTCCGACAAGATGCAAGGCCG
GGTGCCAGACCATAGCAATTCTTCCTCCGATCCTGAAGCTTCCACCACTA
TTGAACCCAAGCCCACCACCCCCGCCAGCATCCAGCTCCGTGACGTGCAC
TTCGCCTACCCCGCCCGACCAGACATCCAAGTCCTCAAAGGCCTCACTCT
CGACATCCAGCCTGGTAAATTCTTCGCCCTAGTTGGCCCCTCCGGAGCCG
GAAAGTCTACCATCATCTCCCTCATCGAACGCCTCTACACCCCGCAATCC
GGCAGCATCGCCATCGACCACACAGACCTGAAGAACCGACCCCCTAGCTT
CCGCGACACCATCTCCCTCGTTCCTCAAGAAAGTGTTCTCTTTGAAGGCA
CTATCGCCTTCAACATCGGGCTCGGTGCACCCCCGAACCACAATGCGACG
CAGGAGGAGATTGAAGCTGCCTGCAAGCTAGCTAACATCCACGATACTAT
CATGGCACTGCCAGATGGATATGAAACAATGTGTGGACCGAATGGGAACC
AATTCTCGGGTGGACAGAAGCAGCGGTTGTCGATTGCGCGGGCCTTGGTG
CGCAAGCCTCGGTTGTTAATTCTGGATGAGTCTACGAGTGCGTTGGATGC
AGAGAGTGAGCGGTTGTTGGAGGAGGGCCTGGAGAGAGCAGCAAAGGGTA
TCACAGTCGTGGCAATCGCGCATCGACTGAGGACCATTCGCAAGGCGGAT
GTCATCTGTTTGATTGAAGCAGGCGTTTGTGTTGATCGCGGAACACATGA
GGAGCTTATGGAGCGATCGGCGAGTTATAGGGAGAATGTGTTGCATCAAA
CCGTGGAGTAAATGGCATTCTTCACCAAGCTGGCGGGCTATCCCCGCCTG
CTGCTGGCCGGTAACCCCTCCAAGTACGATTTGGGTACCTTGCTCTCTGC
CATCGTGTTTGCTATCGGTTCGGGTGTCCCCTTTCCCATCATCGCCATCG
TCTTCGGTCAGCTCCTCGACAACTTCAACGACGTGACCTGCACCGAAGAA
AACGGCGGAGGCGACACCTCCTCCGACTCCAACAGCATCAACCACGAGAT
CCTCCTGATCGTCTACCTGGCAATCGCCCAGTTCGTCCTCATCTATGGCC
ACCTCACGTGCTGGACCCTGTACGGTGCTCGTCTAGCCCAGCGCCTGCGT
GAACGCTACCTGAAGAACCTCCTCCGCCAGGAACCTTCCTTCTTCGATAA
CCTGCCTCCTGGTGAGGTAGCCTCGCGACTGAGCAGCGATATTCAGACCA
TTCGTTCGGGCACCTCAGAGAAAGTCGGCATCACCCTGGCAAGTTTCTCG
TTCTTCGTCACAGCGTACATTGTGTCTTTCATCAAGGATTGGGAGCTGGC
TGCCATTCTGCTTTCTTTGATTCCGGCCTACCTTCTGATGTCCTTCGTGG
GCAGTCATTATATCGAAAAGTACTCTGGGCTCATGTCGGACTATGCCGCC
AGTGCAGCATCCATTGCTTCTGAGGCCCTGTCGAACATCGTCGTAGTGCA
GGCCTTCGGCGCCAATGCCCGCCTGGAGAAAAAGTTCGCTGGTGCGCTCA
AGTCATCTGAAACCCAGGGTCTGAAAAAGGCTACCGCTGTGGGTATCCAG
TCTGGAGTTTTGTACTTCATCGCCTATTCGGCCAACGGTCTGGCTTTCTG
GAAAGGAAGTCACCGTATCGCCGATTCAGTCAGAGATGGCACGGCAGGTG
TCACTGTCGGTGCTACTTTCACTGTCATCTTTGTCTTAATTGAGGCTACT
CTGCTACTTAGTCAGGTCGCGCCTTTTCTCCACTTGTTCGTCGCTGCTAC
CGCTTCGTACGAGAAACTGCGCGAAGACCTCGATCGCGAACCCCAAATCG
ATAGCACCGGCGAGTCAGGCATCCGTGTCTCACAAGCGGAGGGCGGCTTT
GAGTTCCAGAACGTCACCTTTCAGTATCCGTCACGCCCCGAGGTCACCGT
TCTCGACAACATCAGTCTCTCTATTCCCGCAAACAAACACACGGCTCTCG
TCGGGTTGTCAGGAAGCGGCAAATCTACCATCGCTGGCCTTGTTACTCGG
TTGTATGATCCGGTAGACGGAAAAATTCTCTTTGATGGTCACGACCTGCG
TGAAGTCAATGTCCGCGACCTGCGCAGCTACCTCAGTCTGGTGCAGCAAG
AACCCTCCCTGCTCGATCGTTCCCTGCTGGAGAACATTGCCCACGGCCTG
ATGAATTCAAGTAACCCGGATCATGAACGCCTGAAGATGGCCCTGATGAG
CTCCGACCTGACTGAAGTTGCCCGCGAGGTCCGGGAGGGCCAGGATCTTA
TGGCTGCCGCCGAGAAACGCGGCGCGGAAATTGTCGAGGTTGTCAAGATG
GCCTGTCACGCTGCGAAATTGGCTGATGCGGATACCTTCATTTCAGCATT
GCAACATGGATACGGTACCATGGTTGGATCTAGCGGACGTCTCATCAGCG
GTGGTCAGAAGCAACGTGTATCACTAGCTCGAGCCCTGGTCAAAGACCCT
GCTGTCCTCATTCTAGACGAAGCCACGGCGTCGTTGGACTCCCGGAGTGA
ACAGCGCATCCAGCGGGCCATCGCCGGCATTGCCAGTGGCAGAACCATGA
TCACGATTGCTCACCGACTGTCAACCATCACCAGCGCGGACAACATCATC
GTCATGTCTAAGGGCAGAATCTTGGAGCAAGGGACCCACGCTGAGCTAAT
GGCCAAGGAGGGCGCATATTTCGACCTAGTCAAATTACAGACGCTGGGAA
CCGCGTCCGCCAAGACTGATGCCTCCGCAAGCGTGGACAGTATCAGCAAA
TCTGATGACACCTCGCTGACGGAACCTGAGAATGAAAAGGCCAGTCTCAC
CCTGGACACCCTCGAGAAGACGGAGGAGACCAAGGTCTCGGAAACCGAAA
CCCCAGCCGGCGATGAGGCTGCCGAAGAGGAAGAGCCGGAGACTCCCAAA
AAGTCACTGTGGGCACTGGCTAAGGGATATGCCCCTGCATTGCGGCCACA
CCTCCTATATGTTTTCCTCGCCTTGATTGGATCCAGTATCGTCGGTGGAG
CCTTTTCTGGTGAGGCTGTTATTTTTGGTAACACCGTCGGCAGCCTGAAT
CCCTGCAAGAGTGCCTCCAGTATCAGCAACCGCGGTGACTTCTACGGACT
GATGTTCTTTATCCTCGCTATCATTGAGTTCTTCGCCAACGTGGTCAGCT
GGTCCGGCTTCGGTTGGGTGTCCGAGAAGATCGTTTACACTGTTCGTGTC
CTTTCATTCCGCTCGCTGTTCGAGCAAGACCTGCATTGGCACCAGTCAAA
TGGACGCAGCCCTGCCCTTCTACTGTCGTACATTACACGCGATGGCAACG
CCCTGGCTGGACTGAGCGGCTCGGTCATCGGCACACTCTTCTCCATCACC
GTCAACCTCATCGCTGCCATTATTCTCACGCACATCATTGCCTGGAAGAT
TGCGCTTGTCTGTCTGGCCCTGGTGCCGCTGCTCCTTGGTGCTGGTCTCA
TGGAGCTGCTTGTGCTCGGCAAATTTGAGGAGAAGCACGAGAATGCCTAC
ACCAAGTCGGTGGACATTGGTGTGGAGGCAATCACCTCCATCAAGACCGT
CTCCTCCCTGTCTATCCAGCAGGATATCCTGCAAACCTACCGCGCCTCCC
TGAAGGGGCCCCGCATGGAGACCCTCGTAGTAACTCTGCAAGCCAGTCTC
TGGCAGGCTATGACTTACTTCCTGGGCAACCTCGTCAATGCGCTCGCCTA
CTGGTGGGGTGCGAAGCAGATTATCGAAGGCACATACACGCAGACACAGT
TCCTGATCGTGGTGTTCTCCCTGCTGGTCAGCGCCCTACTCTGGAGTCAG
ATGTTTGCACTGGCTCCAGAACTGTCCAGCGCGCGTGCCGCTATGGCTCG
CATCCTAGGACTGATTGAGATCGGTTCCGACAAGATGCAAGGCCGGGTGC
CAGACCATAGCAATTCTTCCTCCGATCCTGAAGCTTCCACCACTATTGAA
CCCAAGCCCACCACCCCCGCCAGCATCCAGCTCCGTGACGTGCACTTCGC
CTACCCCGCCCGACCAGACATCCAAGTCCTCAAAGGCCTCACTCTCGACA
TCCAGCCTGGTAAATTCTTCGCCCTAGTTGGCCCCTCCGGAGCCGGAAAG
TCTACCATCATCTCCCTCATCGAACGCCTCTACACCCCGCAATCCGGCAG
CATCGCCATCGACCACACAGACCTGAAGAACCGACCCCCTAGCTTCCGCG
ACACCATCTCCCTCGTTCCTCAAGAAAGTGTTCTCTTTGAAGGCACTATC
GCCTTCAACATCGGGCTCGGTGCACCCCCGAACCACAATGCGACGCAGGA
GGAGATTGAAGCTGCCTGCAAGCTAGCTAACATCCACGATACTATCATGG
CACTGCCAGATGGATATGAAACAATGTGTGGACCGAATGGGAACCAATTC
TCGGGTGGACAGAAGCAGCGGTTGTCGATTGCGCGGGCCTTGGTGCGCAA
GCCTCGGTTGTTAATTCTGGATGAGTCTACGAGTGCGTTGGATGCAGAGA
GTGAGCGGTTGTTGGAGGAGGGCCTGGAGAGAGCAGCAAAGGGTATCACA
GTCGTGGCAATCGCGCATCGACTGAGGACCATTCGCAAGGCGGATGTCAT
CTGTTTGATTGAAGCAGGCGTTTGTGTTGATCGCGGAACACATGAGGAGC
TTATGGAGCGATCGGCGAGTTATAGGGAGAATGTGTTGCATCAAACCGTG
GAGTAAATGGCATTCTTCACCAAGCTGGCGGGCTATCCCCGCCTGCTGCT
GGCCGGTAACCCCTCCAAGTACGATTTGGGTACCTTGCTCTCTGCCATCG
TGTTTGCTATCGGTTCGGGTGTCCCCTTTCCCATCATCGCCATCGTCTTC
GGTCAGCTCCTCGACAACTTCAACGACGTGACCTGCACCGAAGAAAACGG
CGGAGGCGACACCTCCTCCGACTCCAACAGCATCAACCACGAGATCCTCC
TGATCGTCTACCTGGCAATCGCCCAGTTCGTCCTCATCTATGGCCACCTC
ACGTGCTGGACCCTGTACGGTGCTCGTCTAGCCCAGCGCCTGCGTGAACG
CTACCTGAAGAACCTCCTCCGCCAGGAACCTTCCTTCTTCGATAACCTGC
CTCCTGGTGAGGTAGCCTCGCGACTGAGCAGCGATATTCAGACCATTCGT
TCGGGCACCTCAGAGAAAGTCGGCATCACCCTGGCAAGTTTCTCGTTCTT
CGTCACAGCGTACATTGTGTCTTTCATCAAGGATTGGGAGCTGGCTGCCA
TTCTGCTTTCTTTGATTCCGGCCTACCTTCTGATGTCCTTCGTGGGCAGT
CATTATATCGAAAAGTACTCTGGGCTCATGTCGGACTATGCCGCCAGTGC
AGCATCCATTGCTTCTGAGGCCCTGTCGAACATCGTCGTAGTGCAGGCCT
TCGGCGCCAATGCCCGCCTGGAGAAAAAGTTCGCTGGTGCGCTCAAGTCA
TCTGAAACCCAGGGTCTGAAAAAGGCTACCGCTGTGGGTATCCAGTCTGG
AGTTTTGTACTTCATCGCCTATTCGGCCAACGGTCTGGCTTTCTGGAAAG
GAAGTCACCGTATCGCCGATTCAGTCAGAGATGGCACGGCAGGTGTCACT
GTCGGTGCTACTTTCACTGTCATCTTTGTCTTAATTGAGG 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 |
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 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 |
|---|
| 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 |
|---|
| MCQH01000015 | supercontig | MCQH01000015:352386..356387 - |
|
