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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000199:546015..548173+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_008393-T1 ID=ATCC10864_008393-T1|Name=ATCC10864_008393-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2159bp|location=Sequence derived from alignment at MCQH01000199:546015..548173+ (Aspergillus niger ATCC 10864)
ATGACAGACCAACTTGGCGCAAGGACAGCCCCATTCTACCACATTCCCTC
GCGTCGCATTGTCAGCGTTGAGCACCCAGCCATTATCAGAAACCTCGACA
AGGCCGTCGACACGCTGAAGGGCGATGCGGGTATAACCAAAGTACGTTAA
TCCATCCCATTTATTACCGCTCAGGAAAACCTGACAAAGTACTTCAGATA
TTGCACCCCCCAAAGCCTGACAGCCCGGCCCATCTGCTTCTCCGGCCGGA
GGATGCCATGTCCAGGCCGCTTCAGTCGACCAGCTTACCGTCCAACAACA
TCCTTTTGAAGGTGACGGTACCAAAAAGAACAGGTCGCAAGCGAAAGAAG
GGGTCAAATGAGCCCTTCAGCGGTGTTGCTGTGTCTACAGTGCATACGGA
GCCACAACGGCGTAGTGCACGAGAACTGCAGCGGAGTCTCAGTGATAATG
TATCCAAGTATCAGGTTGAGCCAGTGGGCTTGGTGAACCGGACACATGTG
TTTCGAGGTAGGTCTACGGTCTACCTACATACATGTATCATTTTGCAATG
ATGCTAATACGAACAGGAATGCCGGACTTTGTCTTCTCTACCGGCTCCAG
TTCCTTTGCCAACCGGTTCCGGGAGCAGATATTGCCATTTGACTGTACGA
GTCCTGCCACCACATCACCCACTAACAGCAAACTAACTGGATACAGACGA
CAAAATGAAACAATTCGACCTCGAAATGAGCAAAGGCGCCATCACTGACG
TAGACATCATACCCCCACCATCCTTCAGCTTCGGAGACATCCCCTTCACC
TACATGTAAGTCCCATCCCCATCACCTTCCCATCCCAACATACAACTAAC
GACAAACCAAAGCTACCGCCAAAACCCCACCGTCAGACAAGCCATCGACA
ACTCGGGCAACATAACAACAGTCAACACACAACGAGTAGTCAAAGTACTA
ACCCACCTCGTATCCTACGACGTCGCCACAGTCCCGACCTCCCCTCGGGC
CAACTGTCCTCCCATCCACACCCTGGACAAAACCCTCCAAGAAACCATCA
GCGCCGTAGAATCCCTCTTCCAACAGCGCCCCGCCTGGACCCGACGAGGC
CTACGCAACTCCCTCCCAACAATCGAACAACGCTACGCCCTCCGCCACGC
AATCCCCTACGTCGGCTACATCTTCCGCTCAGGACCCTGGCGCGATGCCA
TAATCAAATACGGCCACGACCCACGCACCGACCCCTCCTACCGAATTTAC
CAAACAGCCATGTTCCGGATCCTACCACGCGAAGCCGAAGTCGCACGGGA
CGGCTACACAGGCCGTCGACACGCCGTGGCCCGCGCCGGCGAAGTACCCC
AATACCTGGACGAAACTCATCACCAACACCCAGATCAACCTACAGAAACA
CAACAACTCCCCACAACAACCCACCTCTTCACAGGGTGCTTGCCGCTCCC
GCGCGACGGGCGGATGTGGATGTTCTGCGACGTGACGGACCCAACACTCC
GGAGCATACTATTCCCATCTGATCCGCCACCGGCGGGGTTCCTGCGCGAG
GAATGCGATATCCTGACGGATGGATGGTTCGGGAACGGAACGCTAGCGAA
GACGAAGACGATTATGCGGGCGAAGGTTCTTGCGCTGTTGGATGATAAGA
TGCTGGATGATGAGGTCGAGTTTGCGAATATTCTGAGGTTGCCGGATCAT
GCGACGCCGGAGTCGGTCATGGTGGACTTTTGGCTGGATCCGGCGGTGGC
GTCGCAGAGGGAGATGATGATGGCGACGGAGGTGAGGGGGATTATTAAGG
GGGCACCGGCGTGGAAGGAGAGGGTTGGTGGTGGAAGTGGGAAGAAGGGG
GCGGGGAGGGATGAGGTTGGGGATGAGGGGGATAGGAAGGGGAAGAAGAG
GGCGGATCGGAGGGTGCAGTTTCAGGATGAAGTGGGTGGTGATGGTGATG
GTGGCGGGGAGATGTTGAGTGAGGGGGAGGAAGAGGCTTATGAGCAGGAA
GAGCTGGCGGAGGCTGTGGCGGAAGCGGCGGCGTCGGTTGGAGGAGAAGA
GGATGATGAGGATGAAGAAGAGGATGAGGAACAGTCTGATGATGGGGAAG
ATGAGGATACGGAGATGGGTGGGGTTGAGACTACAAGAGCTACGAGACGA
AGAGCTTAG back to topCoding sequence (CDS) from alignment at MCQH01000199:546015..548173+ >ATCC10864_008393-T1 ID=ATCC10864_008393-T1|Name=ATCC10864_008393-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9675bp|location=Sequence derived from alignment at MCQH01000199:546015..548173+ (Aspergillus niger ATCC 10864)
ATGACAGACCAACTTGGCGCAAGGACAGCCCCATTCTACCACATTCCCTC
GCGTCGCATTGTCAGCGTTGAGCACCCAGCCATTATCAGAAACCTCGACA
AGGCCGTCGACACGCTGAAGGGCGATGCGGGTATAACCAAAATATTGCAC
CCCCCAAAGCCTGACAGCCCGGCCCATCTGCTTCTCCGGCCGGAGGATGC
CATGTCCAGGCCGCTTCAGTCGACCAGCTTACCGTCCAACAACATCCTTT
TGAAGGTGACGGTACCAAAAAGAACAGGTCGCAAGCGAAAGAAGGGGTCA
AATGAGCCCTTCAGCGGTGTTGCTGTGTCTACAGTGCATACGGAGCCACA
ACGGCGTAGTGCACGAGAACTGCAGCGGAGTCTCAGTGATAATGTATCCA
AGTATCAGGTTGAGCCAGTGGGCTTGGTGAACCGGACACATGTGTTTCGA
GGAATGCCGGACTTTGTCTTCTCTACCGGCTCCAGTTCCTTTGCCAACCG
GTTCCGGGAGCAGATATTGCCATTTGACTACGACAAAATGAAACAATTCG
ACCTCGAAATGAGCAAAGGCGCCATCACTGACGTAGACATCATACCCCCA
CCATCCTTCAGCTTCGGAGACATCCCCTTCACCTACATCTACCGCCAAAA
CCCCACCGTCAGACAAGCCATCGACAACTCGGGCAACATAACAACAGTCA
ACACACAACGAGTAGTCAAAGTACTAACCCACCTCGTATCCTACGACGTC
GCCACAGTCCCGACCTCCCCTCGGGCCAACTGTCCTCCCATCCACACCCT
GGACAAAACCCTCCAAGAAACCATCAGCGCCGTAGAATCCCTCTTCCAAC
AGCGCCCCGCCTGGACCCGACGAGGCCTACGCAACTCCCTCCCAACAATC
GAACAACGCTACGCCCTCCGCCACGCAATCCCCTACGTCGGCTACATCTT
CCGCTCAGGACCCTGGCGCGATGCCATAATCAAATACGGCCACGACCCAC
GCACCGACCCCTCCTACCGAATTTACCAAACAGCCATGTTCCGGATCCTA
CCACGCGAAGCCGAAGTCGCACGGGACGGCTACACAGGCCGTCGACACGC
CGTGGCCCGCGCCGGCGAAGTACCCCAATACCTGGACGAAACTCATCACC
AACACCCAGATCAACCTACAGAAACACAACAACTCCCCACAACAACCCAC
CTCTTCACAGGGTGCTTGCCGCTCCCGCGCGACGGGCGGATGTGGATGTT
CTGCGACGTGACGGACCCAACACTCCGGAGCATACTATTCCCATCTGATC
CGCCACCGGCGGGGTTCCTGCGCGAGGAATGCGATATCCTGACGGATGGA
TGGTTCGGGAACGGAACGCTAGCGAAGACGAAGACGATTATGCGGGCGAA
GGTTCTTGCGCTGTTGGATGATAAGATGCTGGATGATGAGGTCGAGTTTG
CGAATATTCTGAGGTTGCCGGATCATGCGACGCCGGAGTCGGTCATGGTG
GACTTTTGGCTGGATCCGGCGGTGGCGTCGCAGAGGGAGATGATGATGGC
GACGGAGGTGAGGGGGATTATTAAGGGGGCACCGGCGTGGAAGGAGAGGG
TTGGTGGTGGAAGTGGGAAGAAGGGGGCGGGGAGGGATGAGGTTGGGGAT
GAGGGGGATAGGAAGGGGAAGAAGAGGGCGGATCGGAGGGTGCAGTTTCA
GGATGAAGTGGGTGGTGATGGTGATGGTGGCGGGGAGATGTTGAGTGAGG
GGGAGGAAGAGGCTTATGAGCAGGAAGAGCTGGCGGAGGCTGTGGCGGAA
GCGGCGGCGTCGGTTGGAGGAGAAGAGGATGATGAGGATGAAGAAGAGGA
TGAGGAACAGTCTGATGATGGGGAAGATGAGGATACGGAGATGGGTGGGG
TTGAGACTACAAGAGCTACGAGACGAAGAGCTTAGATGACAGACCAACTT
GGCGCAAGGACAGCCCCATTCTACCACATTCCCTCGCGTCGCATTGTCAG
CGTTGAGCACCCAGCCATTATCAGAAACCTCGACAAGGCCGTCGACACGC
TGAAGGGCGATGCGGGTATAACCAAAATATTGCACCCCCCAAAGCCTGAC
AGCCCGGCCCATCTGCTTCTCCGGCCGGAGGATGCCATGTCCAGGCCGCT
TCAGTCGACCAGCTTACCGTCCAACAACATCCTTTTGAAGGTGACGGTAC
CAAAAAGAACAGGTCGCAAGCGAAAGAAGGGGTCAAATGAGCCCTTCAGC
GGTGTTGCTGTGTCTACAGTGCATACGGAGCCACAACGGCGTAGTGCACG
AGAACTGCAGCGGAGTCTCAGTGATAATGTATCCAAGTATCAGGTTGAGC
CAGTGGGCTTGGTGAACCGGACACATGTGTTTCGAGGAATGCCGGACTTT
GTCTTCTCTACCGGCTCCAGTTCCTTTGCCAACCGGTTCCGGGAGCAGAT
ATTGCCATTTGACTACGACAAAATGAAACAATTCGACCTCGAAATGAGCA
AAGGCGCCATCACTGACGTAGACATCATACCCCCACCATCCTTCAGCTTC
GGAGACATCCCCTTCACCTACATCTACCGCCAAAACCCCACCGTCAGACA
AGCCATCGACAACTCGGGCAACATAACAACAGTCAACACACAACGAGTAG
TCAAAGTACTAACCCACCTCGTATCCTACGACGTCGCCACAGTCCCGACC
TCCCCTCGGGCCAACTGTCCTCCCATCCACACCCTGGACAAAACCCTCCA
AGAAACCATCAGCGCCGTAGAATCCCTCTTCCAACAGCGCCCCGCCTGGA
CCCGACGAGGCCTACGCAACTCCCTCCCAACAATCGAACAACGCTACGCC
CTCCGCCACGCAATCCCCTACGTCGGCTACATCTTCCGCTCAGGACCCTG
GCGCGATGCCATAATCAAATACGGCCACGACCCACGCACCGACCCCTCCT
ACCGAATTTACCAAACAGCCATGTTCCGGATCCTACCACGCGAAGCCGAA
GTCGCACGGGACGGCTACACAGGCCGTCGACACGCCGTGGCCCGCGCCGG
CGAAGTACCCCAATACCTGGACGAAACTCATCACCAACACCCAGATCAAC
CTACAGAAACACAACAACTCCCCACAACAACCCACCTCTTCACAGGGTGC
TTGCCGCTCCCGCGCGACGGGCGGATGTGGATGTTCTGCGACGTGACGGA
CCCAACACTCCGGAGCATACTATTCCCATCTGATCCGCCACCGGCGGGGT
TCCTGCGCGAGGAATGCGATATCCTGACGGATGGATGGTTCGGGAACGGA
ACGCTAGCGAAGACGAAGACGATTATGCGGGCGAAGGTTCTTGCGCTGTT
GGATGATAAGATGCTGGATGATGAGGTCGAGTTTGCGAATATTCTGAGGT
TGCCGGATCATGCGACGCCGGAGTCGGTCATGGTGGACTTTTGGCTGGAT
CCGGCGGTGGCGTCGCAGAGGGAGATGATGATGGCGACGGAGGTGAGGGG
GATTATTAAGGGGGCACCGGCGTGGAAGGAGAGGGTTGGTGGTGGAAGTG
GGAAGAAGGGGGCGGGGAGGGATGAGGTTGGGGATGAGGGGGATAGGAAG
GGGAAGAAGAGGGCGGATCGGAGGGTGCAGTTTCAGGATGAAGTGGGTGG
TGATGGTGATGGTGGCGGGGAGATGTTGAGTGAGGGGGAGGAAGAGGCTT
ATGAGCAGGAAGAGCTGGCGGAGGCTGTGGCGGAAGCGGCGGCGTCGGTT
GGAGGAGAAGAGGATGATGAGGATGAAGAAGAGGATGAGGAACAGTCTGA
TGATGGGGAAGATGAGGATACGGAGATGGGTGGGGTTGAGACTACAAGAG
CTACGAGACGAAGAGCTTAGATGACAGACCAACTTGGCGCAAGGACAGCC
CCATTCTACCACATTCCCTCGCGTCGCATTGTCAGCGTTGAGCACCCAGC
CATTATCAGAAACCTCGACAAGGCCGTCGACACGCTGAAGGGCGATGCGG
GTATAACCAAAATATTGCACCCCCCAAAGCCTGACAGCCCGGCCCATCTG
CTTCTCCGGCCGGAGGATGCCATGTCCAGGCCGCTTCAGTCGACCAGCTT
ACCGTCCAACAACATCCTTTTGAAGGTGACGGTACCAAAAAGAACAGGTC
GCAAGCGAAAGAAGGGGTCAAATGAGCCCTTCAGCGGTGTTGCTGTGTCT
ACAGTGCATACGGAGCCACAACGGCGTAGTGCACGAGAACTGCAGCGGAG
TCTCAGTGATAATGTATCCAAGTATCAGGTTGAGCCAGTGGGCTTGGTGA
ACCGGACACATGTGTTTCGAGGAATGCCGGACTTTGTCTTCTCTACCGGC
TCCAGTTCCTTTGCCAACCGGTTCCGGGAGCAGATATTGCCATTTGACTA
CGACAAAATGAAACAATTCGACCTCGAAATGAGCAAAGGCGCCATCACTG
ACGTAGACATCATACCCCCACCATCCTTCAGCTTCGGAGACATCCCCTTC
ACCTACATCTACCGCCAAAACCCCACCGTCAGACAAGCCATCGACAACTC
GGGCAACATAACAACAGTCAACACACAACGAGTAGTCAAAGTACTAACCC
ACCTCGTATCCTACGACGTCGCCACAGTCCCGACCTCCCCTCGGGCCAAC
TGTCCTCCCATCCACACCCTGGACAAAACCCTCCAAGAAACCATCAGCGC
CGTAGAATCCCTCTTCCAACAGCGCCCCGCCTGGACCCGACGAGGCCTAC
GCAACTCCCTCCCAACAATCGAACAACGCTACGCCCTCCGCCACGCAATC
CCCTACGTCGGCTACATCTTCCGCTCAGGACCCTGGCGCGATGCCATAAT
CAAATACGGCCACGACCCACGCACCGACCCCTCCTACCGAATTTACCAAA
CAGCCATGTTCCGGATCCTACCACGCGAAGCCGAAGTCGCACGGGACGGC
TACACAGGCCGTCGACACGCCGTGGCCCGCGCCGGCGAAGTACCCCAATA
CCTGGACGAAACTCATCACCAACACCCAGATCAACCTACAGAAACACAAC
AACTCCCCACAACAACCCACCTCTTCACAGGGTGCTTGCCGCTCCCGCGC
GACGGGCGGATGTGGATGTTCTGCGACGTGACGGACCCAACACTCCGGAG
CATACTATTCCCATCTGATCCGCCACCGGCGGGGTTCCTGCGCGAGGAAT
GCGATATCCTGACGGATGGATGGTTCGGGAACGGAACGCTAGCGAAGACG
AAGACGATTATGCGGGCGAAGGTTCTTGCGCTGTTGGATGATAAGATGCT
GGATGATGAGGTCGAGTTTGCGAATATTCTGAGGTTGCCGGATCATGCGA
CGCCGGAGTCGGTCATGGTGGACTTTTGGCTGGATCCGGCGGTGGCGTCG
CAGAGGGAGATGATGATGGCGACGGAGGTGAGGGGGATTATTAAGGGGGC
ACCGGCGTGGAAGGAGAGGGTTGGTGGTGGAAGTGGGAAGAAGGGGGCGG
GGAGGGATGAGGTTGGGGATGAGGGGGATAGGAAGGGGAAGAAGAGGGCG
GATCGGAGGGTGCAGTTTCAGGATGAAGTGGGTGGTGATGGTGATGGTGG
CGGGGAGATGTTGAGTGAGGGGGAGGAAGAGGCTTATGAGCAGGAAGAGC
TGGCGGAGGCTGTGGCGGAAGCGGCGGCGTCGGTTGGAGGAGAAGAGGAT
GATGAGGATGAAGAAGAGGATGAGGAACAGTCTGATGATGGGGAAGATGA
GGATACGGAGATGGGTGGGGTTGAGACTACAAGAGCTACGAGACGAAGAG
CTTAGATGACAGACCAACTTGGCGCAAGGACAGCCCCATTCTACCACATT
CCCTCGCGTCGCATTGTCAGCGTTGAGCACCCAGCCATTATCAGAAACCT
CGACAAGGCCGTCGACACGCTGAAGGGCGATGCGGGTATAACCAAAATAT
TGCACCCCCCAAAGCCTGACAGCCCGGCCCATCTGCTTCTCCGGCCGGAG
GATGCCATGTCCAGGCCGCTTCAGTCGACCAGCTTACCGTCCAACAACAT
CCTTTTGAAGGTGACGGTACCAAAAAGAACAGGTCGCAAGCGAAAGAAGG
GGTCAAATGAGCCCTTCAGCGGTGTTGCTGTGTCTACAGTGCATACGGAG
CCACAACGGCGTAGTGCACGAGAACTGCAGCGGAGTCTCAGTGATAATGT
ATCCAAGTATCAGGTTGAGCCAGTGGGCTTGGTGAACCGGACACATGTGT
TTCGAGGAATGCCGGACTTTGTCTTCTCTACCGGCTCCAGTTCCTTTGCC
AACCGGTTCCGGGAGCAGATATTGCCATTTGACTACGACAAAATGAAACA
ATTCGACCTCGAAATGAGCAAAGGCGCCATCACTGACGTAGACATCATAC
CCCCACCATCCTTCAGCTTCGGAGACATCCCCTTCACCTACATCTACCGC
CAAAACCCCACCGTCAGACAAGCCATCGACAACTCGGGCAACATAACAAC
AGTCAACACACAACGAGTAGTCAAAGTACTAACCCACCTCGTATCCTACG
ACGTCGCCACAGTCCCGACCTCCCCTCGGGCCAACTGTCCTCCCATCCAC
ACCCTGGACAAAACCCTCCAAGAAACCATCAGCGCCGTAGAATCCCTCTT
CCAACAGCGCCCCGCCTGGACCCGACGAGGCCTACGCAACTCCCTCCCAA
CAATCGAACAACGCTACGCCCTCCGCCACGCAATCCCCTACGTCGGCTAC
ATCTTCCGCTCAGGACCCTGGCGCGATGCCATAATCAAATACGGCCACGA
CCCACGCACCGACCCCTCCTACCGAATTTACCAAACAGCCATGTTCCGGA
TCCTACCACGCGAAGCCGAAGTCGCACGGGACGGCTACACAGGCCGTCGA
CACGCCGTGGCCCGCGCCGGCGAAGTACCCCAATACCTGGACGAAACTCA
TCACCAACACCCAGATCAACCTACAGAAACACAACAACTCCCCACAACAA
CCCACCTCTTCACAGGGTGCTTGCCGCTCCCGCGCGACGGGCGGATGTGG
ATGTTCTGCGACGTGACGGACCCAACACTCCGGAGCATACTATTCCCATC
TGATCCGCCACCGGCGGGGTTCCTGCGCGAGGAATGCGATATCCTGACGG
ATGGATGGTTCGGGAACGGAACGCTAGCGAAGACGAAGACGATTATGCGG
GCGAAGGTTCTTGCGCTGTTGGATGATAAGATGCTGGATGATGAGGTCGA
GTTTGCGAATATTCTGAGGTTGCCGGATCATGCGACGCCGGAGTCGGTCA
TGGTGGACTTTTGGCTGGATCCGGCGGTGGCGTCGCAGAGGGAGATGATG
ATGGCGACGGAGGTGAGGGGGATTATTAAGGGGGCACCGGCGTGGAAGGA
GAGGGTTGGTGGTGGAAGTGGGAAGAAGGGGGCGGGGAGGGATGAGGTTG
GGGATGAGGGGGATAGGAAGGGGAAGAAGAGGGCGGATCGGAGGGTGCAG
TTTCAGGATGAAGTGGGTGGTGATGGTGATGGTGGCGGGGAGATGTTGAG
TGAGGGGGAGGAAGAGGCTTATGAGCAGGAAGAGCTGGCGGAGGCTGTGG
CGGAAGCGGCGGCGTCGGTTGGAGGAGAAGAGGATGATGAGGATGAAGAA
GAGGATGAGGAACAGTCTGATGATGGGGAAGATGAGGATACGGAGATGGG
TGGGGTTGAGACTACAAGAGCTACGAGACGAAGAGCTTAGATGACAGACC
AACTTGGCGCAAGGACAGCCCCATTCTACCACATTCCCTCGCGTCGCATT
GTCAGCGTTGAGCACCCAGCCATTATCAGAAACCTCGACAAGGCCGTCGA
CACGCTGAAGGGCGATGCGGGTATAACCAAAATATTGCACCCCCCAAAGC
CTGACAGCCCGGCCCATCTGCTTCTCCGGCCGGAGGATGCCATGTCCAGG
CCGCTTCAGTCGACCAGCTTACCGTCCAACAACATCCTTTTGAAGGTGAC
GGTACCAAAAAGAACAGGTCGCAAGCGAAAGAAGGGGTCAAATGAGCCCT
TCAGCGGTGTTGCTGTGTCTACAGTGCATACGGAGCCACAACGGCGTAGT
GCACGAGAACTGCAGCGGAGTCTCAGTGATAATGTATCCAAGTATCAGGT
TGAGCCAGTGGGCTTGGTGAACCGGACACATGTGTTTCGAGGAATGCCGG
ACTTTGTCTTCTCTACCGGCTCCAGTTCCTTTGCCAACCGGTTCCGGGAG
CAGATATTGCCATTTGACTACGACAAAATGAAACAATTCGACCTCGAAAT
GAGCAAAGGCGCCATCACTGACGTAGACATCATACCCCCACCATCCTTCA
GCTTCGGAGACATCCCCTTCACCTACATCTACCGCCAAAACCCCACCGTC
AGACAAGCCATCGACAACTCGGGCAACATAACAACAGTCAACACACAACG
AGTAGTCAAAGTACTAACCCACCTCGTATCCTACGACGTCGCCACAGTCC
CGACCTCCCCTCGGGCCAACTGTCCTCCCATCCACACCCTGGACAAAACC
CTCCAAGAAACCATCAGCGCCGTAGAATCCCTCTTCCAACAGCGCCCCGC
CTGGACCCGACGAGGCCTACGCAACTCCCTCCCAACAATCGAACAACGCT
ACGCCCTCCGCCACGCAATCCCCTACGTCGGCTACATCTTCCGCTCAGGA
CCCTGGCGCGATGCCATAATCAAATACGGCCACGACCCACGCACCGACCC
CTCCTACCGAATTTACCAAACAGCCATGTTCCGGATCCTACCACGCGAAG
CCGAAGTCGCACGGGACGGCTACACAGGCCGTCGACACGCCGTGGCCCGC
GCCGGCGAAGTACCCCAATACCTGGACGAAACTCATCACCAACACCCAGA
TCAACCTACAGAAACACAACAACTCCCCACAACAACCCACCTCTTCACAG
GGTGCTTGCCGCTCCCGCGCGACGGGCGGATGTGGATGTTCTGCGACGTG
ACGGACCCAACACTCCGGAGCATACTATTCCCATCTGATCCGCCACCGGC
GGGGTTCCTGCGCGAGGAATGCGATATCCTGACGGATGGATGGTTCGGGA
ACGGAACGCTAGCGAAGACGAAGACGATTATGCGGGCGAAGGTTCTTGCG
CTGTTGGATGATAAGATGCTGGATGATGAGGTCGAGTTTGCGAATATTCT
GAGGTTGCCGGATCATGCGACGCCGGAGTCGGTCATGGTGGACTTTTGGC
TGGATCCGGCGGTGGCGTCGCAGAGGGAGATGATGATGGCGACGGAGGTG
AGGGGGATTATTAAGGGGGCACCGGCGTGGAAGGAGAGGGTTGGTGGTGG
AAGTGGGAAGAAGGGGGCGGGGAGGGATGAGGTTGGGGATGAGGGGGATA
GGAAGGGGAAGAAGAGGGCGGATCGGAGGGTGCAGTTTCAGGATGAAGTG
GGTGGTGATGGTGATGGTGGCGGGGAGATGTTGAGTGAGGGGGAGGAAGA
GGCTTATGAGCAGGAAGAGCTGGCGGAGGCTGTGGCGGAAGCGGCGGCGT
CGGTTGGAGGAGAAGAGGATGATGAGGATGAAGAAGAGGATGAGGAACAG
TCTGATGATGGGGAAGATGAGGATACGGAGATGGGTGGGGTTGAGACTAC
AAGAGCTACGAGACGAAGAGCTTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0000127 | transcription factor TFIIIC complex |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006384 | transcription initiation from RNA polymerase III promoter |
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 | PF09734 |
| InterPro | IPR041499 |
| PFAM | PF17682 |
| InterPro | IPR040454 |
| InterPro | IPR042536 |
| InterPro | IPR019136 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09263GSR |
| 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 |
|---|
| MCQH01000199 | supercontig | MCQH01000199:546015..548173 + |
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