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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000053:722977..725040+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_002755-T1 ID=ATCC10864_002755-T1|Name=ATCC10864_002755-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2064bp|location=Sequence derived from alignment at MCQH01000053:722977..725040+ (Aspergillus niger ATCC 10864)
ATGCCGATTCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAAGAG
AAAGCACGGTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGAAGC
CCGCTGTCGACAATGGAGAGACGACCGAAGTGACGGAGACACCTACGGAA
AAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCC
CAAGAAGCGCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACAGCG
AGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAGGGC
AAGGAGGATGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCT
GCCTCAGACGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCTCTG
AGAAGACGATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACCGAG
ATTCAGCAACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGG
TGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTG
TGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAATGGTGGGTTTTTG
GCCATGTCTACCAGGTGTTCACTCATTGAACGTGTGCTAATATTCCGGTT
CCAGGTACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGCGCTGCA
AATATTCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAACATATG
GTATCGTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAGCTCACC
AAGGGTGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGATCATCT
GCAGAACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTGTTATTG
GTAAGCGTGACGTGATTACGAACACAATAGGAAAACGACTCTAACGTCTG
TGCAGATGAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATGC
GTCAGATTGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTTC
TCTGCCACCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGCG
GCCTGGCCCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAGCACAG
TTGAGGGTTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTTC
CTGCTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTGT
CTTCTTCTCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAACT
ACATCGACCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAAG
CGGACCAACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGAT
TTGCACTGACGTTGCTGCCAGAGGTTTGGATGTGAGTTTCTACCTGCCCA
TGAACAGATCACCCAGAGCATAAACTAACTAGTATAGATTCCGGCTGTGG
ACTGGATTATCCAGTTCGACCCTCCGGATGACACCAGGGATTACGTTCAC
CGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGCAGTTTGAT
GTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTC
GTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCGTCAACGTT
CAATCTCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTGAACAAGGT
AAGTTTACAGGCTACATTTGACTCCTATGTACGATATCGATGCAATACTG
ACTCAACCCACCTAGTCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGC
ATATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACC
TGGTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGCATCGAC
ATCCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGG
ACGCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGC
ACGAGGATGACTGA back to topCoding sequence (CDS) from alignment at MCQH01000053:722977..725040+ >ATCC10864_002755-T1 ID=ATCC10864_002755-T1|Name=ATCC10864_002755-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9105bp|location=Sequence derived from alignment at MCQH01000053:722977..725040+ (Aspergillus niger ATCC 10864)
ATGCCGATTCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAAGAG
AAAGCACGGTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGAAGC
CCGCTGTCGACAATGGAGAGACGACCGAAGTGACGGAGACACCTACGGAA
AAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCC
CAAGAAGCGCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACAGCG
AGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAGGGC
AAGGAGGATGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCT
GCCTCAGACGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCTCTG
AGAAGACGATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACCGAG
ATTCAGCAACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGG
TGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTG
TGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAATGGTACTGGTGTT
CTTGTTGTTTCCCCCACCAGAGAGTTGGCGCTGCAAATATTCGGTGTGGC
CAGAGAGTTGATGGCGCACCACTCGCAAACATATGGTATCGTTATCGGAG
GTGCCAACCGCCGAGCTGAGGCAGAGAAGCTCACCAAGGGTGTCAACCTG
CTTATTGCCACCCCTGGACGTTTGCTCGATCATCTGCAGAACACCCCTGG
CTTTGTGTTCAAGAACCTGAAGACACTTGTTATTGATGAGGCGGACCGTA
TCCTGGAAGTCGGTTTCGAGGACGAAATGCGTCAGATTGTCAAGATCCTG
CCCTCCGAGGAGAGACAGACCATGCTGTTCTCTGCCACCCAGACCACGAA
AGTCGAGGATTTGGCGCGTATATCGCTGCGGCCTGGCCCCTTGTACATCA
ACGTTGACCACCGCAAGGAGCACAGCACAGTTGAGGGTTTGGAACAGGGT
TATGTCATCTGTGAGGCTGACAAGCGCTTCCTGCTTCTTTTCTCCTTCCT
TAAGCGCAACCTCAAGAAGAAGATCATTGTCTTCTTCTCCAGCTGTAACT
GTGTGAAGTACCACGCGGAGCTGCTCAACTACATCGACCTGCCGGTGCTT
GAACTCCACGGCAAGCAGAAGCAGCAGAAGCGGACCAACACATTCTTCGA
GTTCTGCAATGCCAAGCAGGGAACCCTGATTTGCACTGACGTTGCTGCCA
GAGGTTTGGATATTCCGGCTGTGGACTGGATTATCCAGTTCGACCCTCCG
GATGACACCAGGGATTACGTTCACCGTGTCGGTCGTACGGCTCGTGGTGT
GAACGGAAAGGGACGCAGTTTGATGTTCTTGCAGCCTTCCGAGGTTGGTT
TCTTGAAGCACCTCAAGGAGGCTCGTGTTCCCGTGGTGGAATTCGACTTC
CCGGCCAACAAGATCGTCAACGTTCAATCTCAACTTGAGAAGTTGATTGG
TCAGAACTACTATCTGAACAAGTCCGCCAAGGAAGGTTACAGAGCCTATC
TCCAGGCATATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAG
CTTGACCTGGTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCG
CATCGACATCCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGC
AGCAAGGACGCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAG
CGCAAGCACGAGGATGACTGAATGCCGATTCCTGTGGATACTGCGAAATC
CATCAACAAGAAGCGCAAGAGAAAGCACGGTGCGCGCGCTGCGACCGACG
CCGACGATGCTTCTCCGAAGCCCGCTGTCGACAATGGAGAGACGACCGAA
GTGACGGAGACACCTACGGAAAAGAAGTCGAAGAAGAAGGCCGCCAAGGA
GTCTGAGAAGGAAGAAAAGCCCAAGAAGCGCAAGGTAGATGACTCCAGCA
ACGAGGATGAGAATGACAGCGAGGAAGAAGTCCGTGAGGCCGATCCCGAA
GATGAAGATGATAACGAGGGCAAGGAGGATGGAAATGGTGCAGACCTTCC
TTCTTTGGACGCTGTGCGTCTGCCTCAGACGGATGGCGAGCCGAAGAAGT
TCACGGAATTGAACCTCTCTGAGAAGACGATGAAGGGTATTCAGGATATG
GGCTTCGAGACTATGACCGAGATTCAGCAACGTACTATTCCTCCGCTACT
TGCTGGTCGTGATGTCCTCGGTGCTGCAAAGACGGGTTCCGGAAAGACTT
TGTCGTTTTTGATCCCTGCTGTGGAGATGTTGAGCGCTCTGCGGTTTAAG
CCTCGCAATGGTACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGC
GCTGCAAATATTCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAA
CATATGGTATCGTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAG
CTCACCAAGGGTGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGA
TCATCTGCAGAACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTG
TTATTGATGAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATG
CGTCAGATTGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTT
CTCTGCCACCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGC
GGCCTGGCCCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAGCACA
GTTGAGGGTTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTT
CCTGCTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTG
TCTTCTTCTCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAAC
TACATCGACCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAA
GCGGACCAACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGA
TTTGCACTGACGTTGCTGCCAGAGGTTTGGATATTCCGGCTGTGGACTGG
ATTATCCAGTTCGACCCTCCGGATGACACCAGGGATTACGTTCACCGTGT
CGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGCAGTTTGATGTTCT
TGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTCGTGTT
CCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCGTCAACGTTCAATC
TCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTGAACAAGTCCGCCA
AGGAAGGTTACAGAGCCTATCTCCAGGCATATGCCTCGCACTCGCTCCGG
TCCGTCTTCGACGTGCACAAGCTTGACCTGGTCAAGATTGCCAAGGGATT
CGGATTCTCGACGCCGCCGCGCATCGACATCCAGCTGGGCTCCAGCCTGA
GTCGGGATAAGAAGCAGCAGCAGCAAGGACGCCGAAACTACGGCAGCCAA
CCGAAGGGGCTGAAGTTTAAGCGCAAGCACGAGGATGACTGAATGCCGAT
TCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAAGAGAAAGCACG
GTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGAAGCCCGCTGTC
GACAATGGAGAGACGACCGAAGTGACGGAGACACCTACGGAAAAGAAGTC
GAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCCCAAGAAGC
GCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACAGCGAGGAAGAA
GTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAGGGCAAGGAGGA
TGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCTGCCTCAGA
CGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCTCTGAGAAGACG
ATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACCGAGATTCAGCA
ACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGGTGCTGCAA
AGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTGTGGAGATG
TTGAGCGCTCTGCGGTTTAAGCCTCGCAATGGTACTGGTGTTCTTGTTGT
TTCCCCCACCAGAGAGTTGGCGCTGCAAATATTCGGTGTGGCCAGAGAGT
TGATGGCGCACCACTCGCAAACATATGGTATCGTTATCGGAGGTGCCAAC
CGCCGAGCTGAGGCAGAGAAGCTCACCAAGGGTGTCAACCTGCTTATTGC
CACCCCTGGACGTTTGCTCGATCATCTGCAGAACACCCCTGGCTTTGTGT
TCAAGAACCTGAAGACACTTGTTATTGATGAGGCGGACCGTATCCTGGAA
GTCGGTTTCGAGGACGAAATGCGTCAGATTGTCAAGATCCTGCCCTCCGA
GGAGAGACAGACCATGCTGTTCTCTGCCACCCAGACCACGAAAGTCGAGG
ATTTGGCGCGTATATCGCTGCGGCCTGGCCCCTTGTACATCAACGTTGAC
CACCGCAAGGAGCACAGCACAGTTGAGGGTTTGGAACAGGGTTATGTCAT
CTGTGAGGCTGACAAGCGCTTCCTGCTTCTTTTCTCCTTCCTTAAGCGCA
ACCTCAAGAAGAAGATCATTGTCTTCTTCTCCAGCTGTAACTGTGTGAAG
TACCACGCGGAGCTGCTCAACTACATCGACCTGCCGGTGCTTGAACTCCA
CGGCAAGCAGAAGCAGCAGAAGCGGACCAACACATTCTTCGAGTTCTGCA
ATGCCAAGCAGGGAACCCTGATTTGCACTGACGTTGCTGCCAGAGGTTTG
GATATTCCGGCTGTGGACTGGATTATCCAGTTCGACCCTCCGGATGACAC
CAGGGATTACGTTCACCGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAA
AGGGACGCAGTTTGATGTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAG
CACCTCAAGGAGGCTCGTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAA
CAAGATCGTCAACGTTCAATCTCAACTTGAGAAGTTGATTGGTCAGAACT
ACTATCTGAACAAGTCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGCA
TATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACCT
GGTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGCATCGACA
TCCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGGA
CGCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGCA
CGAGGATGACTGAATGCCGATTCCTGTGGATACTGCGAAATCCATCAACA
AGAAGCGCAAGAGAAAGCACGGTGCGCGCGCTGCGACCGACGCCGACGAT
GCTTCTCCGAAGCCCGCTGTCGACAATGGAGAGACGACCGAAGTGACGGA
GACACCTACGGAAAAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGA
AGGAAGAAAAGCCCAAGAAGCGCAAGGTAGATGACTCCAGCAACGAGGAT
GAGAATGACAGCGAGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGAAGA
TGATAACGAGGGCAAGGAGGATGGAAATGGTGCAGACCTTCCTTCTTTGG
ACGCTGTGCGTCTGCCTCAGACGGATGGCGAGCCGAAGAAGTTCACGGAA
TTGAACCTCTCTGAGAAGACGATGAAGGGTATTCAGGATATGGGCTTCGA
GACTATGACCGAGATTCAGCAACGTACTATTCCTCCGCTACTTGCTGGTC
GTGATGTCCTCGGTGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCGTTT
TTGATCCCTGCTGTGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAA
TGGTACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGCGCTGCAAA
TATTCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAACATATGGT
ATCGTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAGCTCACCAA
GGGTGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGATCATCTGC
AGAACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTGTTATTGAT
GAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATGCGTCAGAT
TGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTTCTCTGCCA
CCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGCGGCCTGGC
CCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAGCACAGTTGAGGG
TTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTTCCTGCTTC
TTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTGTCTTCTTC
TCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAACTACATCGA
CCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAAGCGGACCA
ACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGATTTGCACT
GACGTTGCTGCCAGAGGTTTGGATATTCCGGCTGTGGACTGGATTATCCA
GTTCGACCCTCCGGATGACACCAGGGATTACGTTCACCGTGTCGGTCGTA
CGGCTCGTGGTGTGAACGGAAAGGGACGCAGTTTGATGTTCTTGCAGCCT
TCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTCGTGTTCCCGTGGT
GGAATTCGACTTCCCGGCCAACAAGATCGTCAACGTTCAATCTCAACTTG
AGAAGTTGATTGGTCAGAACTACTATCTGAACAAGTCCGCCAAGGAAGGT
TACAGAGCCTATCTCCAGGCATATGCCTCGCACTCGCTCCGGTCCGTCTT
CGACGTGCACAAGCTTGACCTGGTCAAGATTGCCAAGGGATTCGGATTCT
CGACGCCGCCGCGCATCGACATCCAGCTGGGCTCCAGCCTGAGTCGGGAT
AAGAAGCAGCAGCAGCAAGGACGCCGAAACTACGGCAGCCAACCGAAGGG
GCTGAAGTTTAAGCGCAAGCACGAGGATGACTGAATGCCGATTCCTGTGG
ATACTGCGAAATCCATCAACAAGAAGCGCAAGAGAAAGCACGGTGCGCGC
GCTGCGACCGACGCCGACGATGCTTCTCCGAAGCCCGCTGTCGACAATGG
AGAGACGACCGAAGTGACGGAGACACCTACGGAAAAGAAGTCGAAGAAGA
AGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCCCAAGAAGCGCAAGGTA
GATGACTCCAGCAACGAGGATGAGAATGACAGCGAGGAAGAAGTCCGTGA
GGCCGATCCCGAAGATGAAGATGATAACGAGGGCAAGGAGGATGGAAATG
GTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCTGCCTCAGACGGATGGC
GAGCCGAAGAAGTTCACGGAATTGAACCTCTCTGAGAAGACGATGAAGGG
TATTCAGGATATGGGCTTCGAGACTATGACCGAGATTCAGCAACGTACTA
TTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGGTGCTGCAAAGACGGGT
TCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTGTGGAGATGTTGAGCGC
TCTGCGGTTTAAGCCTCGCAATGGTACTGGTGTTCTTGTTGTTTCCCCCA
CCAGAGAGTTGGCGCTGCAAATATTCGGTGTGGCCAGAGAGTTGATGGCG
CACCACTCGCAAACATATGGTATCGTTATCGGAGGTGCCAACCGCCGAGC
TGAGGCAGAGAAGCTCACCAAGGGTGTCAACCTGCTTATTGCCACCCCTG
GACGTTTGCTCGATCATCTGCAGAACACCCCTGGCTTTGTGTTCAAGAAC
CTGAAGACACTTGTTATTGATGAGGCGGACCGTATCCTGGAAGTCGGTTT
CGAGGACGAAATGCGTCAGATTGTCAAGATCCTGCCCTCCGAGGAGAGAC
AGACCATGCTGTTCTCTGCCACCCAGACCACGAAAGTCGAGGATTTGGCG
CGTATATCGCTGCGGCCTGGCCCCTTGTACATCAACGTTGACCACCGCAA
GGAGCACAGCACAGTTGAGGGTTTGGAACAGGGTTATGTCATCTGTGAGG
CTGACAAGCGCTTCCTGCTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAG
AAGAAGATCATTGTCTTCTTCTCCAGCTGTAACTGTGTGAAGTACCACGC
GGAGCTGCTCAACTACATCGACCTGCCGGTGCTTGAACTCCACGGCAAGC
AGAAGCAGCAGAAGCGGACCAACACATTCTTCGAGTTCTGCAATGCCAAG
CAGGGAACCCTGATTTGCACTGACGTTGCTGCCAGAGGTTTGGATATTCC
GGCTGTGGACTGGATTATCCAGTTCGACCCTCCGGATGACACCAGGGATT
ACGTTCACCGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGC
AGTTTGATGTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAA
GGAGGCTCGTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCG
TCAACGTTCAATCTCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTG
AACAAGTCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGCATATGCCTC
GCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACCTGGTCAAGA
TTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGCATCGACATCCAGCTG
GGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGGACGCCGAAA
CTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGCACGAGGATG
ACTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
| GO:0003676 | nucleic acid binding |
| GO:0003724 | RNA helicase activity |
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 | PF00270 |
| InterPro | IPR027417 |
| InterPro | IPR000629 |
| PFAM | PF00271 |
| InterPro | IPR044773 |
| InterPro | IPR014014 |
| PFAM | PF13959 |
| InterPro | IPR001650 |
| InterPro | IPR025313 |
| InterPro | IPR011545 |
| InterPro | IPR014001 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09261F73 |
| Product | ATP-dependent RNA helicase |
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 |
|---|
| MCQH01000053 | supercontig | MCQH01000053:722977..725040 + |
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