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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000199:597368..599450+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_008409-T1 ID=ATCC10864_008409-T1|Name=ATCC10864_008409-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2083bp|location=Sequence derived from alignment at MCQH01000199:597368..599450+ (Aspergillus niger ATCC 10864)
ATGGCCCCCTCCGCTGATGCTGGCGAGAGCCAGCATGGTTCCGTCTTCTC
CGTCTCCGGTCCCGTCGTCGTGGCCGAGCATATGATCGGCTGTGCCATGT
ACGAGCTGGTATGCTTCCATGTGTTTCTTCGTCGATATATACTGCGCTTC
TAGGTTTACGCATCTGCAAATACCGATCGCTAACTCCGGGCATCGACTGT
AGTGCCGTGTTGGTCATGACCAGCTGGTCGGAGAAGTTATTCGGATCGAT
GGCGATAAGGCCACTATTCAGGTATACGAGGAGACAGGTACACCCACCAA
CTCGTCCTGTCTTTCCACAACACCCTCGTCTAACTGCAACTCTCTTTAGC
TGGTTTGACGGTCGGCGACCCCGTTACACGGACAGGAAAGCCCCTTTCGG
TCGAGCTGGGCCCCGGTTTGATGGAAACGATCTACGATGGTATTCAGCGG
CCCCTGAAGGCGATTTCCGACCAGTCCAAGGGTATCTACATCCCACGTGG
TATTGCGGTCAACGCCTTGGACCGTGAGAAGAAGTGGGACTTCACGCCCG
GCAAGTACAAGGTCGGCGATCACATCACCGGTGGTGACATCTGGGGTACC
GTTTTCGAGAACAGCTTGGTGAACGACCACAAGATCATCCTCCCTCCCCG
CGCGAGGGGTACCATCACCCGCATAGCCGAAGCTGGAAGCTACACTGTTG
AGGAGAAGCTGCTGGAAATCGAGTTCAATGGAGTGAAGACGGAACACAGT
ATGATGCACACCTGGCCTGTCCGTGTGCCCAGACCGGTCAACGAGAAGCT
CTCGTCGGACGCTCCTTTCATCGTCGGTCAACGTGTGCTGGACTCTCTCT
TCCCCAGTGTCCAGGGTGGTACTGTCTGTATCCCCGGTGCCTTCGGATGT
GGAAAGACTGTCATTTCGCAGAGTGTCTCCAAATTCTCCAACAGTGATAT
CATTGTCTACGTCGGTTGTGGTGAGCGTGGTAACGAGATGGCTGAAGTGT
TGATGGATTTCCCCGAAGTTAGTGCCCCGTCCTACAGTAAATCTTCATGA
CTAACGAGCGACCGCAATATTAATAGCTTTCTATCGACGTCGATGGCCGC
AAAGAACCCATCATGAAGCGTACCTGCTTGATCGCCAACACCTCCAACAT
GCCTGTCGCCGCCCGTGAGGCGTCCATCTACACCGGTATCACGATCGCCG
AATACTTCCGTGACCAGGGCAAGAACGTGGCTATGATGGCGGACTCCAGT
TCCCGCTGGGCTGAGGCTCTTCGTGAAATTTCCGGTCGTCTGGGAGAGAT
GCCGGCTGATCAGGGTTTCCCTGCCTACCTGGGTGCCAAGCTGGCTTCCT
TCTACGAGCGTGCCGGTAAGAGTAACGCCTTGGGTAGCCCCGAGAGAATT
GGTAGTGTCAGTATTGTAGCTGCCGTCAGCCCTCCGGGTGGTGACTTCTC
TGATCCCGTCACCAGTAGTACCCTGGGTATCGTCCAGGTGTTCTGGGGTC
TGGACAAGAAGTTGGCTCAACGTAAACATTTCCCGTCGATCAACACATCG
ATCTCTTACAGCAAGTACACGACGGTTCTGGACCGGTACTACGAGAAGCA
TCATCCCGAGTTCCCTCGCCTGCGTGACCAGGTCAGAGAGCTTCTGACCA
AGTCGGAGGATCTGGACCAGGTCGTGCAGCTGGTTGGTAAGGCAGCTCTG
GGTGACTCTGACAAGATTACTCTGGATGTGGCGGCCATGGTCAAGGATGA
CTTCCTGCAGCAGAACGGTTACAGTGACTACGATCAGTTCTGCCCGCTGT
GGAAGACCGAGTACATGATGAAGGCGTTCATGGGCTACCACGATGAAGCC
CAGAAGGCTGTTGCCCAGGGCCAGAACTGGTCCAAGGTTCGCGACGCCAC
TACCGACATTCAGAGCGCGCTCCGGGGTATGAAGTTCGAGGTGCCGAGCA
ACGAAGCGGAAGTTTCCGAGAAGGTAAGCCAGATGCCACCGCTCTTAGCT
ATTCTGTGTTCTAACTCTGTTTGCAGTACGAGAAGATCCTCCAGCAAATG
TCGGAGCGGTTTGCTTCGGTGTCGGATGAGTAG back to topCoding sequence (CDS) from alignment at MCQH01000199:597368..599450+ >ATCC10864_008409-T1 ID=ATCC10864_008409-T1|Name=ATCC10864_008409-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9075bp|location=Sequence derived from alignment at MCQH01000199:597368..599450+ (Aspergillus niger ATCC 10864)
ATGGCCCCCTCCGCTGATGCTGGCGAGAGCCAGCATGGTTCCGTCTTCTC
CGTCTCCGGTCCCGTCGTCGTGGCCGAGCATATGATCGGCTGTGCCATGT
ACGAGCTGTGCCGTGTTGGTCATGACCAGCTGGTCGGAGAAGTTATTCGG
ATCGATGGCGATAAGGCCACTATTCAGGTATACGAGGAGACAGCTGGTTT
GACGGTCGGCGACCCCGTTACACGGACAGGAAAGCCCCTTTCGGTCGAGC
TGGGCCCCGGTTTGATGGAAACGATCTACGATGGTATTCAGCGGCCCCTG
AAGGCGATTTCCGACCAGTCCAAGGGTATCTACATCCCACGTGGTATTGC
GGTCAACGCCTTGGACCGTGAGAAGAAGTGGGACTTCACGCCCGGCAAGT
ACAAGGTCGGCGATCACATCACCGGTGGTGACATCTGGGGTACCGTTTTC
GAGAACAGCTTGGTGAACGACCACAAGATCATCCTCCCTCCCCGCGCGAG
GGGTACCATCACCCGCATAGCCGAAGCTGGAAGCTACACTGTTGAGGAGA
AGCTGCTGGAAATCGAGTTCAATGGAGTGAAGACGGAACACAGTATGATG
CACACCTGGCCTGTCCGTGTGCCCAGACCGGTCAACGAGAAGCTCTCGTC
GGACGCTCCTTTCATCGTCGGTCAACGTGTGCTGGACTCTCTCTTCCCCA
GTGTCCAGGGTGGTACTGTCTGTATCCCCGGTGCCTTCGGATGTGGAAAG
ACTGTCATTTCGCAGAGTGTCTCCAAATTCTCCAACAGTGATATCATTGT
CTACGTCGGTTGTGGTGAGCGTGGTAACGAGATGGCTGAAGTGTTGATGG
ATTTCCCCGAACTTTCTATCGACGTCGATGGCCGCAAAGAACCCATCATG
AAGCGTACCTGCTTGATCGCCAACACCTCCAACATGCCTGTCGCCGCCCG
TGAGGCGTCCATCTACACCGGTATCACGATCGCCGAATACTTCCGTGACC
AGGGCAAGAACGTGGCTATGATGGCGGACTCCAGTTCCCGCTGGGCTGAG
GCTCTTCGTGAAATTTCCGGTCGTCTGGGAGAGATGCCGGCTGATCAGGG
TTTCCCTGCCTACCTGGGTGCCAAGCTGGCTTCCTTCTACGAGCGTGCCG
GTAAGAGTAACGCCTTGGGTAGCCCCGAGAGAATTGGTAGTGTCAGTATT
GTAGCTGCCGTCAGCCCTCCGGGTGGTGACTTCTCTGATCCCGTCACCAG
TAGTACCCTGGGTATCGTCCAGGTGTTCTGGGGTCTGGACAAGAAGTTGG
CTCAACGTAAACATTTCCCGTCGATCAACACATCGATCTCTTACAGCAAG
TACACGACGGTTCTGGACCGGTACTACGAGAAGCATCATCCCGAGTTCCC
TCGCCTGCGTGACCAGGTCAGAGAGCTTCTGACCAAGTCGGAGGATCTGG
ACCAGGTCGTGCAGCTGGTTGGTAAGGCAGCTCTGGGTGACTCTGACAAG
ATTACTCTGGATGTGGCGGCCATGGTCAAGGATGACTTCCTGCAGCAGAA
CGGTTACAGTGACTACGATCAGTTCTGCCCGCTGTGGAAGACCGAGTACA
TGATGAAGGCGTTCATGGGCTACCACGATGAAGCCCAGAAGGCTGTTGCC
CAGGGCCAGAACTGGTCCAAGGTTCGCGACGCCACTACCGACATTCAGAG
CGCGCTCCGGGGTATGAAGTTCGAGGTGCCGAGCAACGAAGCGGAAGTTT
CCGAGAAGTACGAGAAGATCCTCCAGCAAATGTCGGAGCGGTTTGCTTCG
GTGTCGGATGAGTAGATGGCCCCCTCCGCTGATGCTGGCGAGAGCCAGCA
TGGTTCCGTCTTCTCCGTCTCCGGTCCCGTCGTCGTGGCCGAGCATATGA
TCGGCTGTGCCATGTACGAGCTGTGCCGTGTTGGTCATGACCAGCTGGTC
GGAGAAGTTATTCGGATCGATGGCGATAAGGCCACTATTCAGGTATACGA
GGAGACAGCTGGTTTGACGGTCGGCGACCCCGTTACACGGACAGGAAAGC
CCCTTTCGGTCGAGCTGGGCCCCGGTTTGATGGAAACGATCTACGATGGT
ATTCAGCGGCCCCTGAAGGCGATTTCCGACCAGTCCAAGGGTATCTACAT
CCCACGTGGTATTGCGGTCAACGCCTTGGACCGTGAGAAGAAGTGGGACT
TCACGCCCGGCAAGTACAAGGTCGGCGATCACATCACCGGTGGTGACATC
TGGGGTACCGTTTTCGAGAACAGCTTGGTGAACGACCACAAGATCATCCT
CCCTCCCCGCGCGAGGGGTACCATCACCCGCATAGCCGAAGCTGGAAGCT
ACACTGTTGAGGAGAAGCTGCTGGAAATCGAGTTCAATGGAGTGAAGACG
GAACACAGTATGATGCACACCTGGCCTGTCCGTGTGCCCAGACCGGTCAA
CGAGAAGCTCTCGTCGGACGCTCCTTTCATCGTCGGTCAACGTGTGCTGG
ACTCTCTCTTCCCCAGTGTCCAGGGTGGTACTGTCTGTATCCCCGGTGCC
TTCGGATGTGGAAAGACTGTCATTTCGCAGAGTGTCTCCAAATTCTCCAA
CAGTGATATCATTGTCTACGTCGGTTGTGGTGAGCGTGGTAACGAGATGG
CTGAAGTGTTGATGGATTTCCCCGAACTTTCTATCGACGTCGATGGCCGC
AAAGAACCCATCATGAAGCGTACCTGCTTGATCGCCAACACCTCCAACAT
GCCTGTCGCCGCCCGTGAGGCGTCCATCTACACCGGTATCACGATCGCCG
AATACTTCCGTGACCAGGGCAAGAACGTGGCTATGATGGCGGACTCCAGT
TCCCGCTGGGCTGAGGCTCTTCGTGAAATTTCCGGTCGTCTGGGAGAGAT
GCCGGCTGATCAGGGTTTCCCTGCCTACCTGGGTGCCAAGCTGGCTTCCT
TCTACGAGCGTGCCGGTAAGAGTAACGCCTTGGGTAGCCCCGAGAGAATT
GGTAGTGTCAGTATTGTAGCTGCCGTCAGCCCTCCGGGTGGTGACTTCTC
TGATCCCGTCACCAGTAGTACCCTGGGTATCGTCCAGGTGTTCTGGGGTC
TGGACAAGAAGTTGGCTCAACGTAAACATTTCCCGTCGATCAACACATCG
ATCTCTTACAGCAAGTACACGACGGTTCTGGACCGGTACTACGAGAAGCA
TCATCCCGAGTTCCCTCGCCTGCGTGACCAGGTCAGAGAGCTTCTGACCA
AGTCGGAGGATCTGGACCAGGTCGTGCAGCTGGTTGGTAAGGCAGCTCTG
GGTGACTCTGACAAGATTACTCTGGATGTGGCGGCCATGGTCAAGGATGA
CTTCCTGCAGCAGAACGGTTACAGTGACTACGATCAGTTCTGCCCGCTGT
GGAAGACCGAGTACATGATGAAGGCGTTCATGGGCTACCACGATGAAGCC
CAGAAGGCTGTTGCCCAGGGCCAGAACTGGTCCAAGGTTCGCGACGCCAC
TACCGACATTCAGAGCGCGCTCCGGGGTATGAAGTTCGAGGTGCCGAGCA
ACGAAGCGGAAGTTTCCGAGAAGTACGAGAAGATCCTCCAGCAAATGTCG
GAGCGGTTTGCTTCGGTGTCGGATGAGTAGATGGCCCCCTCCGCTGATGC
TGGCGAGAGCCAGCATGGTTCCGTCTTCTCCGTCTCCGGTCCCGTCGTCG
TGGCCGAGCATATGATCGGCTGTGCCATGTACGAGCTGTGCCGTGTTGGT
CATGACCAGCTGGTCGGAGAAGTTATTCGGATCGATGGCGATAAGGCCAC
TATTCAGGTATACGAGGAGACAGCTGGTTTGACGGTCGGCGACCCCGTTA
CACGGACAGGAAAGCCCCTTTCGGTCGAGCTGGGCCCCGGTTTGATGGAA
ACGATCTACGATGGTATTCAGCGGCCCCTGAAGGCGATTTCCGACCAGTC
CAAGGGTATCTACATCCCACGTGGTATTGCGGTCAACGCCTTGGACCGTG
AGAAGAAGTGGGACTTCACGCCCGGCAAGTACAAGGTCGGCGATCACATC
ACCGGTGGTGACATCTGGGGTACCGTTTTCGAGAACAGCTTGGTGAACGA
CCACAAGATCATCCTCCCTCCCCGCGCGAGGGGTACCATCACCCGCATAG
CCGAAGCTGGAAGCTACACTGTTGAGGAGAAGCTGCTGGAAATCGAGTTC
AATGGAGTGAAGACGGAACACAGTATGATGCACACCTGGCCTGTCCGTGT
GCCCAGACCGGTCAACGAGAAGCTCTCGTCGGACGCTCCTTTCATCGTCG
GTCAACGTGTGCTGGACTCTCTCTTCCCCAGTGTCCAGGGTGGTACTGTC
TGTATCCCCGGTGCCTTCGGATGTGGAAAGACTGTCATTTCGCAGAGTGT
CTCCAAATTCTCCAACAGTGATATCATTGTCTACGTCGGTTGTGGTGAGC
GTGGTAACGAGATGGCTGAAGTGTTGATGGATTTCCCCGAACTTTCTATC
GACGTCGATGGCCGCAAAGAACCCATCATGAAGCGTACCTGCTTGATCGC
CAACACCTCCAACATGCCTGTCGCCGCCCGTGAGGCGTCCATCTACACCG
GTATCACGATCGCCGAATACTTCCGTGACCAGGGCAAGAACGTGGCTATG
ATGGCGGACTCCAGTTCCCGCTGGGCTGAGGCTCTTCGTGAAATTTCCGG
TCGTCTGGGAGAGATGCCGGCTGATCAGGGTTTCCCTGCCTACCTGGGTG
CCAAGCTGGCTTCCTTCTACGAGCGTGCCGGTAAGAGTAACGCCTTGGGT
AGCCCCGAGAGAATTGGTAGTGTCAGTATTGTAGCTGCCGTCAGCCCTCC
GGGTGGTGACTTCTCTGATCCCGTCACCAGTAGTACCCTGGGTATCGTCC
AGGTGTTCTGGGGTCTGGACAAGAAGTTGGCTCAACGTAAACATTTCCCG
TCGATCAACACATCGATCTCTTACAGCAAGTACACGACGGTTCTGGACCG
GTACTACGAGAAGCATCATCCCGAGTTCCCTCGCCTGCGTGACCAGGTCA
GAGAGCTTCTGACCAAGTCGGAGGATCTGGACCAGGTCGTGCAGCTGGTT
GGTAAGGCAGCTCTGGGTGACTCTGACAAGATTACTCTGGATGTGGCGGC
CATGGTCAAGGATGACTTCCTGCAGCAGAACGGTTACAGTGACTACGATC
AGTTCTGCCCGCTGTGGAAGACCGAGTACATGATGAAGGCGTTCATGGGC
TACCACGATGAAGCCCAGAAGGCTGTTGCCCAGGGCCAGAACTGGTCCAA
GGTTCGCGACGCCACTACCGACATTCAGAGCGCGCTCCGGGGTATGAAGT
TCGAGGTGCCGAGCAACGAAGCGGAAGTTTCCGAGAAGTACGAGAAGATC
CTCCAGCAAATGTCGGAGCGGTTTGCTTCGGTGTCGGATGAGTAGATGGC
CCCCTCCGCTGATGCTGGCGAGAGCCAGCATGGTTCCGTCTTCTCCGTCT
CCGGTCCCGTCGTCGTGGCCGAGCATATGATCGGCTGTGCCATGTACGAG
CTGTGCCGTGTTGGTCATGACCAGCTGGTCGGAGAAGTTATTCGGATCGA
TGGCGATAAGGCCACTATTCAGGTATACGAGGAGACAGCTGGTTTGACGG
TCGGCGACCCCGTTACACGGACAGGAAAGCCCCTTTCGGTCGAGCTGGGC
CCCGGTTTGATGGAAACGATCTACGATGGTATTCAGCGGCCCCTGAAGGC
GATTTCCGACCAGTCCAAGGGTATCTACATCCCACGTGGTATTGCGGTCA
ACGCCTTGGACCGTGAGAAGAAGTGGGACTTCACGCCCGGCAAGTACAAG
GTCGGCGATCACATCACCGGTGGTGACATCTGGGGTACCGTTTTCGAGAA
CAGCTTGGTGAACGACCACAAGATCATCCTCCCTCCCCGCGCGAGGGGTA
CCATCACCCGCATAGCCGAAGCTGGAAGCTACACTGTTGAGGAGAAGCTG
CTGGAAATCGAGTTCAATGGAGTGAAGACGGAACACAGTATGATGCACAC
CTGGCCTGTCCGTGTGCCCAGACCGGTCAACGAGAAGCTCTCGTCGGACG
CTCCTTTCATCGTCGGTCAACGTGTGCTGGACTCTCTCTTCCCCAGTGTC
CAGGGTGGTACTGTCTGTATCCCCGGTGCCTTCGGATGTGGAAAGACTGT
CATTTCGCAGAGTGTCTCCAAATTCTCCAACAGTGATATCATTGTCTACG
TCGGTTGTGGTGAGCGTGGTAACGAGATGGCTGAAGTGTTGATGGATTTC
CCCGAACTTTCTATCGACGTCGATGGCCGCAAAGAACCCATCATGAAGCG
TACCTGCTTGATCGCCAACACCTCCAACATGCCTGTCGCCGCCCGTGAGG
CGTCCATCTACACCGGTATCACGATCGCCGAATACTTCCGTGACCAGGGC
AAGAACGTGGCTATGATGGCGGACTCCAGTTCCCGCTGGGCTGAGGCTCT
TCGTGAAATTTCCGGTCGTCTGGGAGAGATGCCGGCTGATCAGGGTTTCC
CTGCCTACCTGGGTGCCAAGCTGGCTTCCTTCTACGAGCGTGCCGGTAAG
AGTAACGCCTTGGGTAGCCCCGAGAGAATTGGTAGTGTCAGTATTGTAGC
TGCCGTCAGCCCTCCGGGTGGTGACTTCTCTGATCCCGTCACCAGTAGTA
CCCTGGGTATCGTCCAGGTGTTCTGGGGTCTGGACAAGAAGTTGGCTCAA
CGTAAACATTTCCCGTCGATCAACACATCGATCTCTTACAGCAAGTACAC
GACGGTTCTGGACCGGTACTACGAGAAGCATCATCCCGAGTTCCCTCGCC
TGCGTGACCAGGTCAGAGAGCTTCTGACCAAGTCGGAGGATCTGGACCAG
GTCGTGCAGCTGGTTGGTAAGGCAGCTCTGGGTGACTCTGACAAGATTAC
TCTGGATGTGGCGGCCATGGTCAAGGATGACTTCCTGCAGCAGAACGGTT
ACAGTGACTACGATCAGTTCTGCCCGCTGTGGAAGACCGAGTACATGATG
AAGGCGTTCATGGGCTACCACGATGAAGCCCAGAAGGCTGTTGCCCAGGG
CCAGAACTGGTCCAAGGTTCGCGACGCCACTACCGACATTCAGAGCGCGC
TCCGGGGTATGAAGTTCGAGGTGCCGAGCAACGAAGCGGAAGTTTCCGAG
AAGTACGAGAAGATCCTCCAGCAAATGTCGGAGCGGTTTGCTTCGGTGTC
GGATGAGTAGATGGCCCCCTCCGCTGATGCTGGCGAGAGCCAGCATGGTT
CCGTCTTCTCCGTCTCCGGTCCCGTCGTCGTGGCCGAGCATATGATCGGC
TGTGCCATGTACGAGCTGTGCCGTGTTGGTCATGACCAGCTGGTCGGAGA
AGTTATTCGGATCGATGGCGATAAGGCCACTATTCAGGTATACGAGGAGA
CAGCTGGTTTGACGGTCGGCGACCCCGTTACACGGACAGGAAAGCCCCTT
TCGGTCGAGCTGGGCCCCGGTTTGATGGAAACGATCTACGATGGTATTCA
GCGGCCCCTGAAGGCGATTTCCGACCAGTCCAAGGGTATCTACATCCCAC
GTGGTATTGCGGTCAACGCCTTGGACCGTGAGAAGAAGTGGGACTTCACG
CCCGGCAAGTACAAGGTCGGCGATCACATCACCGGTGGTGACATCTGGGG
TACCGTTTTCGAGAACAGCTTGGTGAACGACCACAAGATCATCCTCCCTC
CCCGCGCGAGGGGTACCATCACCCGCATAGCCGAAGCTGGAAGCTACACT
GTTGAGGAGAAGCTGCTGGAAATCGAGTTCAATGGAGTGAAGACGGAACA
CAGTATGATGCACACCTGGCCTGTCCGTGTGCCCAGACCGGTCAACGAGA
AGCTCTCGTCGGACGCTCCTTTCATCGTCGGTCAACGTGTGCTGGACTCT
CTCTTCCCCAGTGTCCAGGGTGGTACTGTCTGTATCCCCGGTGCCTTCGG
ATGTGGAAAGACTGTCATTTCGCAGAGTGTCTCCAAATTCTCCAACAGTG
ATATCATTGTCTACGTCGGTTGTGGTGAGCGTGGTAACGAGATGGCTGAA
GTGTTGATGGATTTCCCCGAACTTTCTATCGACGTCGATGGCCGCAAAGA
ACCCATCATGAAGCGTACCTGCTTGATCGCCAACACCTCCAACATGCCTG
TCGCCGCCCGTGAGGCGTCCATCTACACCGGTATCACGATCGCCGAATAC
TTCCGTGACCAGGGCAAGAACGTGGCTATGATGGCGGACTCCAGTTCCCG
CTGGGCTGAGGCTCTTCGTGAAATTTCCGGTCGTCTGGGAGAGATGCCGG
CTGATCAGGGTTTCCCTGCCTACCTGGGTGCCAAGCTGGCTTCCTTCTAC
GAGCGTGCCGGTAAGAGTAACGCCTTGGGTAGCCCCGAGAGAATTGGTAG
TGTCAGTATTGTAGCTGCCGTCAGCCCTCCGGGTGGTGACTTCTCTGATC
CCGTCACCAGTAGTACCCTGGGTATCGTCCAGGTGTTCTGGGGTCTGGAC
AAGAAGTTGGCTCAACGTAAACATTTCCCGTCGATCAACACATCGATCTC
TTACAGCAAGTACACGACGGTTCTGGACCGGTACTACGAGAAGCATCATC
CCGAGTTCCCTCGCCTGCGTGACCAGGTCAGAGAGCTTCTGACCAAGTCG
GAGGATCTGGACCAGGTCGTGCAGCTGGTTGGTAAGGCAGCTCTGGGTGA
CTCTGACAAGATTACTCTGGATGTGGCGGCCATGGTCAAGGATGACTTCC
TGCAGCAGAACGGTTACAGTGACTACGATCAGTTCTGCCCGCTGTGGAAG
ACCGAGTACATGATGAAGGCGTTCATGGGCTACCACGATGAAGCCCAGAA
GGCTGTTGCCCAGGGCCAGAACTGGTCCAAGGTTCGCGACGCCACTACCG
ACATTCAGAGCGCGCTCCGGGGTATGAAGTTCGAGGTGCCGAGCAACGAA
GCGGAAGTTTCCGAGAAGTACGAGAAGATCCTCCAGCAAATGTCGGAGCG
GTTTGCTTCGGTGTCGGATGAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0033180 | proton-transporting V-type ATPase, V1 domain |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0046034 | ATP metabolic process |
| GO:1902600 | proton transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0046961 | proton-transporting ATPase activity, rotational mechanism |
| 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 exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| PFAM | PF02874 |
| InterPro | IPR027417 |
| InterPro | IPR005725 |
| InterPro | IPR020003 |
| InterPro | IPR036121 |
| InterPro | IPR024034 |
| InterPro | IPR023366 |
| InterPro | IPR004100 |
| PFAM | PF00006 |
| PFAM | PF16886 |
| InterPro | IPR022878 |
| InterPro | IPR000194 |
| InterPro | IPR031686 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09261225 |
| Product | H( )-transporting V1 sector ATPase subunit A |
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 |
|---|
| MCQH01000199 | supercontig | MCQH01000199:597368..599450 + |
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