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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:175265..177413- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_38620-T1 ID=ASPNIDRAFT_38620-T1|Name=ASPNIDRAFT_38620-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2149bp|location=Sequence derived from alignment at ACJE01000021.1:175265..177413- (Aspergillus niger ATCC 1015)
ATGGATGTCGGTTCATCCAGCGACGAAGAGGATGAGGAGAAGTCCGGGCG
TCCTTACAACGAGCTGCTACAACTGTTGAACACATCTACCGACTCCAAGG
GTCCGGCCCGCAAGAAGAGAAAGGTCGAACATAAGAATACAGAGACCATC
GAGGTCGTCCGTGAGGACCCTGTGGCGGAAGAGGACGAAGAAGCTCTCGG
GGAGGACGATCTAGAGCAGCAAGAGCCTTCGGATGAAGAGGACAATGGGA
ATCAAGAAGATGCTGGCGCACAGGATAGTGACGATGAAGACGGTATATTC
TTAAGCTGTTTATTCTTTTGGCCATTGCACTAATCTTCAAACAGACAATG
ATCCTTTCGACACGCACTTCACGAACCCGACGGAGGATGAGCTTGCTAAG
AAGATCAAGGCTATCGGGGAGAACAAGTGGAAGAACGCAAAGAAGGAACT
GCCAGAAGGTTTGAGGCTTGTGCGCGCTGTTCCAGATACTGGCGATGATG
CGTCCTGGCTGCCTCCAATGAAGCAGATCTCAAGCGTGAAGGTGAGCGTG
GCCGCCCCAGATTACTGAAACGGCCACTGATCTAGATCCGGTACAGCTTA
AGAGAAAGCTTAAAGAGCCAGCATCCGATAAATTCCCCCAAATCAGCGGA
CAGGCCCAGCATATTGCTCCGTACATCTTCGGCTACCAGGACGTCCTGTA
TGGAGCCCGGACGCCCTCCAACTCGGCCCAGATGCGCGACCTTCTGGCCC
TCCACGCCACCAACCACGTGCTGAAGACCCGCGATCGAGTGCTTAAGAAC
AACACACGCTTGGCCAAAGAGCAAGACTCCGACCTCGATGTCCGAGACCA
GGGCTTCACTCGGCCCAAGGTACTTTATCTCTTGCCTACCAAGCAGGCTT
GCGTGCGGGCCGTCGAGTCCATCACGCGCTTCTTTCAACCCGAGCAACAA
GAAAACAAGAAACGTCTCCTCGACACTTTTTCGGCAGCTGATGACCCGTC
ATGGGAGAGCAAGCCGGACGACTTCCGCGAGCTCTTCGGTGGCAATGACG
ACGATATGTTCCGTCTAGGTCTCAAGTTCACCCGCAAGACTGTCAAGTAT
TTTGCACAATTCTACACCTCTGATATCATCATGGCTAGTCCGCTGGGTCT
ACGCACCATCATGGACCAGGCAGAGTAAGTCGACCAACCTAACCCTCGAG
TCCAGAACATTCTATCTAACCCCCTCACAGTGTGAAGAAACGCGATCACG
ACTTCCTTTCGTCTATCGAAGTAGTAATCGTTGACCACGCGGATGCCTTG
CTCATGCAGAACTGGGATCACATCGACTACATCATGAAACACCTCAACCT
GCAGCCCCGAGAGGCACACGGGTGTGACTTCAGTCGTGTGCGAACATGGT
ATCTGGACAACAACGCGCGGTATGTGCGGCAGATGATTATGCTCACCTCA
TTCGTCACTCCGGAGATGAACTCGGTGTTCTCGACGCACATGCACAACAC
CTCGGGCAAAGTCAAGGCCACGCCGATCCACGCGGGGGCGATCACCGAGC
TCCCCCTCCCGGTGTCGGTCAGACAGACATTTACCCGCTTCGACTGTCTC
TCGCCGGCGAAAGACCCCGATGCGCGCTTCAAGCACTTCACCACGACAAT
CCTCTCGTCGCTAGTGCGTGACATTGCCTCCGGTCGCGGCAAGGCCAGCG
CTGGAGGAACCCTGATCTTCATCCCGTCGTACCTGGACTTTGTACGCGTG
CGTAATCACTTCGCCACGTCGCAGCAGACCACCAACGTCTCGTTTGGAGC
CATTTCCGAATACACCGAGCAGCGGGAGGCGTCGCGGGCTCGCTCATACT
TTATGAACGGGCGCCAGTCGGTGCTGCTGTACACGGAGCGTCTGCACCAC
TTCCGTCGGTACCAGCTCCGCGGGGTCAAGCGGATCATCATGTACGGAGT
GCCTGAGAACCCGGCATTCTATAGCGAGATTGTCGGGTTCCTGGGATTGG
ATCCAGCCGCGTTGGTGGAGGCGGCCGAGGGAGGCGTGCGGGCGTTGTTC
TCCAAATGGGATGCGCTGAAGCTGGAGCGGATTGTGGGCACGCAGCGAGT
GGGCAATATGATGCGGGAGAAGGGAGGAGATACTTTTACATTTATGTAA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:175265..177413- >ASPNIDRAFT_38620-T1 ID=ASPNIDRAFT_38620-T1|Name=ASPNIDRAFT_38620-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7944bp|location=Sequence derived from alignment at ACJE01000021.1:175265..177413- (Aspergillus niger ATCC 1015)
TGTGAAGAAACGCGATCACGACTTCCTTTCGTCTATCGAAGTAGTAATCG
TTGACCACGCGGATGCCTTGCTCATGCAGAACTGGGATCACATCGACTAC
ATCATGAAACACCTCAACCTGCAGCCCCGAGAGGCACACGGGTGTGACTT
CAGTCGTGTGCGAACATGGTATCTGGACAACAACGCGCGGTATGTGCGGC
AGATGATTATGCTCACCTCATTCGTCACTCCGGAGATGAACTCGGTGTTC
TCGACGCACATGCACAACACCTCGGGCAAAGTCAAGGCCACGCCGATCCA
CGCGGGGGCGATCACCGAGCTCCCCCTCCCGGTGTCGGTCAGACAGACAT
TTACCCGCTTCGACTGTCTCTCGCCGGCGAAAGACCCCGATGCGCGCTTC
AAGCACTTCACCACGACAATCCTCTCGTCGCTAGTGCGTGACATTGCCTC
CGGTCGCGGCAAGGCCAGCGCTGGAGGAACCCTGATCTTCATCCCGTCGT
ACCTGGACTTTGTACGCGTGCGTAATCACTTCGCCACGTCGCAGCAGACC
ACCAACGTCTCGTTTGGAGCCATTTCCGAATACACCGAGCAGCGGGAGGC
GTCGCGGGCTCGCTCATACTTTATGAACGGGCGCCAGTCGGTGCTGCTGT
ACACGGAGCGTCTGCACCACTTCCGTCGGTACCAGCTCCGCGGGGTCAAG
CGGATCATCATGTACGGAGTGCCTGAGAACCCGGCATTCTATAGCGAGAT
TGTCGGGTTCCTGGGATTGGATCCAGCCGCGTTGGTGGAGGCGGCCGAGG
GAGGCGTGCGGGCGTTGTTCTCCAAATGGGATGCGCTGAAGCTGGAGCGG
ATTGTGGGCACGCAGCGAGTGGGCAATATGATGCGGGAGAAGGGAGGAGA
TACTTTTACATTTATGTAACTTAAGAGAAAGCTTAAAGAGCCAGCATCCG
ATAAATTCCCCCAAATCAGCGGACAGGCCCAGCATATTGCTCCGTACATC
TTCGGCTACCAGGACGTCCTGTATGGAGCCCGGACGCCCTCCAACTCGGC
CCAGATGCGCGACCTTCTGGCCCTCCACGCCACCAACCACGTGCTGAAGA
CCCGCGATCGAGTGCTTAAGAACAACACACGCTTGGCCAAAGAGCAAGAC
TCCGACCTCGATGTCCGAGACCAGGGCTTCACTCGGCCCAAGGTACTTTA
TCTCTTGCCTACCAAGCAGGCTTGCGTGCGGGCCGTCGAGTCCATCACGC
GCTTCTTTCAACCCGAGCAACAAGAAAACAAGAAACGTCTCCTCGACACT
TTTTCGGCAGCTGATGACCCGTCATGGGAGAGCAAGCCGGACGACTTCCG
CGAGCTCTTCGGTGGCAATGACGACGATATGTTCCGTCTAGGTCTCAAGT
TCACCCGCAAGACTGTCAAGTATTTTGCACAATTCTACACCTCTGATATC
ATCATGGCTAGTCCGCTGGGTCTACGCACCATCATGGACCAGGCAGAACA
ATGATCCTTTCGACACGCACTTCACGAACCCGACGGAGGATGAGCTTGCT
AAGAAGATCAAGGCTATCGGGGAGAACAAGTGGAAGAACGCAAAGAAGGA
ACTGCCAGAAGGTTTGAGGCTTGTGCGCGCTGTTCCAGATACTGGCGATG
ATGCGTCCTGGCTGCCTCCAATGAAGCAGATCTCAAGCGTGAAGATGGAT
GTCGGTTCATCCAGCGACGAAGAGGATGAGGAGAAGTCCGGGCGTCCTTA
CAACGAGCTGCTACAACTGTTGAACACATCTACCGACTCCAAGGGTCCGG
CCCGCAAGAAGAGAAAGGTCGAACATAAGAATACAGAGACCATCGAGGTC
GTCCGTGAGGACCCTGTGGCGGAAGAGGACGAAGAAGCTCTCGGGGAGGA
CGATCTAGAGCAGCAAGAGCCTTCGGATGAAGAGGACAATGGGAATCAAG
AAGATGCTGGCGCACAGGATAGTGACGATGAAGACGTGTGAAGAAACGCG
ATCACGACTTCCTTTCGTCTATCGAAGTAGTAATCGTTGACCACGCGGAT
GCCTTGCTCATGCAGAACTGGGATCACATCGACTACATCATGAAACACCT
CAACCTGCAGCCCCGAGAGGCACACGGGTGTGACTTCAGTCGTGTGCGAA
CATGGTATCTGGACAACAACGCGCGGTATGTGCGGCAGATGATTATGCTC
ACCTCATTCGTCACTCCGGAGATGAACTCGGTGTTCTCGACGCACATGCA
CAACACCTCGGGCAAAGTCAAGGCCACGCCGATCCACGCGGGGGCGATCA
CCGAGCTCCCCCTCCCGGTGTCGGTCAGACAGACATTTACCCGCTTCGAC
TGTCTCTCGCCGGCGAAAGACCCCGATGCGCGCTTCAAGCACTTCACCAC
GACAATCCTCTCGTCGCTAGTGCGTGACATTGCCTCCGGTCGCGGCAAGG
CCAGCGCTGGAGGAACCCTGATCTTCATCCCGTCGTACCTGGACTTTGTA
CGCGTGCGTAATCACTTCGCCACGTCGCAGCAGACCACCAACGTCTCGTT
TGGAGCCATTTCCGAATACACCGAGCAGCGGGAGGCGTCGCGGGCTCGCT
CATACTTTATGAACGGGCGCCAGTCGGTGCTGCTGTACACGGAGCGTCTG
CACCACTTCCGTCGGTACCAGCTCCGCGGGGTCAAGCGGATCATCATGTA
CGGAGTGCCTGAGAACCCGGCATTCTATAGCGAGATTGTCGGGTTCCTGG
GATTGGATCCAGCCGCGTTGGTGGAGGCGGCCGAGGGAGGCGTGCGGGCG
TTGTTCTCCAAATGGGATGCGCTGAAGCTGGAGCGGATTGTGGGCACGCA
GCGAGTGGGCAATATGATGCGGGAGAAGGGAGGAGATACTTTTACATTTA
TGTAACTTAAGAGAAAGCTTAAAGAGCCAGCATCCGATAAATTCCCCCAA
ATCAGCGGACAGGCCCAGCATATTGCTCCGTACATCTTCGGCTACCAGGA
CGTCCTGTATGGAGCCCGGACGCCCTCCAACTCGGCCCAGATGCGCGACC
TTCTGGCCCTCCACGCCACCAACCACGTGCTGAAGACCCGCGATCGAGTG
CTTAAGAACAACACACGCTTGGCCAAAGAGCAAGACTCCGACCTCGATGT
CCGAGACCAGGGCTTCACTCGGCCCAAGGTACTTTATCTCTTGCCTACCA
AGCAGGCTTGCGTGCGGGCCGTCGAGTCCATCACGCGCTTCTTTCAACCC
GAGCAACAAGAAAACAAGAAACGTCTCCTCGACACTTTTTCGGCAGCTGA
TGACCCGTCATGGGAGAGCAAGCCGGACGACTTCCGCGAGCTCTTCGGTG
GCAATGACGACGATATGTTCCGTCTAGGTCTCAAGTTCACCCGCAAGACT
GTCAAGTATTTTGCACAATTCTACACCTCTGATATCATCATGGCTAGTCC
GCTGGGTCTACGCACCATCATGGACCAGGCAGAACAATGATCCTTTCGAC
ACGCACTTCACGAACCCGACGGAGGATGAGCTTGCTAAGAAGATCAAGGC
TATCGGGGAGAACAAGTGGAAGAACGCAAAGAAGGAACTGCCAGAAGGTT
TGAGGCTTGTGCGCGCTGTTCCAGATACTGGCGATGATGCGTCCTGGCTG
CCTCCAATGAAGCAGATCTCAAGCGTGAAGATGGATGTCGGTTCATCCAG
CGACGAAGAGGATGAGGAGAAGTCCGGGCGTCCTTACAACGAGCTGCTAC
AACTGTTGAACACATCTACCGACTCCAAGGGTCCGGCCCGCAAGAAGAGA
AAGGTCGAACATAAGAATACAGAGACCATCGAGGTCGTCCGTGAGGACCC
TGTGGCGGAAGAGGACGAAGAAGCTCTCGGGGAGGACGATCTAGAGCAGC
AAGAGCCTTCGGATGAAGAGGACAATGGGAATCAAGAAGATGCTGGCGCA
CAGGATAGTGACGATGAAGACGTGTGAAGAAACGCGATCACGACTTCCTT
TCGTCTATCGAAGTAGTAATCGTTGACCACGCGGATGCCTTGCTCATGCA
GAACTGGGATCACATCGACTACATCATGAAACACCTCAACCTGCAGCCCC
GAGAGGCACACGGGTGTGACTTCAGTCGTGTGCGAACATGGTATCTGGAC
AACAACGCGCGGTATGTGCGGCAGATGATTATGCTCACCTCATTCGTCAC
TCCGGAGATGAACTCGGTGTTCTCGACGCACATGCACAACACCTCGGGCA
AAGTCAAGGCCACGCCGATCCACGCGGGGGCGATCACCGAGCTCCCCCTC
CCGGTGTCGGTCAGACAGACATTTACCCGCTTCGACTGTCTCTCGCCGGC
GAAAGACCCCGATGCGCGCTTCAAGCACTTCACCACGACAATCCTCTCGT
CGCTAGTGCGTGACATTGCCTCCGGTCGCGGCAAGGCCAGCGCTGGAGGA
ACCCTGATCTTCATCCCGTCGTACCTGGACTTTGTACGCGTGCGTAATCA
CTTCGCCACGTCGCAGCAGACCACCAACGTCTCGTTTGGAGCCATTTCCG
AATACACCGAGCAGCGGGAGGCGTCGCGGGCTCGCTCATACTTTATGAAC
GGGCGCCAGTCGGTGCTGCTGTACACGGAGCGTCTGCACCACTTCCGTCG
GTACCAGCTCCGCGGGGTCAAGCGGATCATCATGTACGGAGTGCCTGAGA
ACCCGGCATTCTATAGCGAGATTGTCGGGTTCCTGGGATTGGATCCAGCC
GCGTTGGTGGAGGCGGCCGAGGGAGGCGTGCGGGCGTTGTTCTCCAAATG
GGATGCGCTGAAGCTGGAGCGGATTGTGGGCACGCAGCGAGTGGGCAATA
TGATGCGGGAGAAGGGAGGAGATACTTTTACATTTATGTAACTTAAGAGA
AAGCTTAAAGAGCCAGCATCCGATAAATTCCCCCAAATCAGCGGACAGGC
CCAGCATATTGCTCCGTACATCTTCGGCTACCAGGACGTCCTGTATGGAG
CCCGGACGCCCTCCAACTCGGCCCAGATGCGCGACCTTCTGGCCCTCCAC
GCCACCAACCACGTGCTGAAGACCCGCGATCGAGTGCTTAAGAACAACAC
ACGCTTGGCCAAAGAGCAAGACTCCGACCTCGATGTCCGAGACCAGGGCT
TCACTCGGCCCAAGGTACTTTATCTCTTGCCTACCAAGCAGGCTTGCGTG
CGGGCCGTCGAGTCCATCACGCGCTTCTTTCAACCCGAGCAACAAGAAAA
CAAGAAACGTCTCCTCGACACTTTTTCGGCAGCTGATGACCCGTCATGGG
AGAGCAAGCCGGACGACTTCCGCGAGCTCTTCGGTGGCAATGACGACGAT
ATGTTCCGTCTAGGTCTCAAGTTCACCCGCAAGACTGTCAAGTATTTTGC
ACAATTCTACACCTCTGATATCATCATGGCTAGTCCGCTGGGTCTACGCA
CCATCATGGACCAGGCAGAACAATGATCCTTTCGACACGCACTTCACGAA
CCCGACGGAGGATGAGCTTGCTAAGAAGATCAAGGCTATCGGGGAGAACA
AGTGGAAGAACGCAAAGAAGGAACTGCCAGAAGGTTTGAGGCTTGTGCGC
GCTGTTCCAGATACTGGCGATGATGCGTCCTGGCTGCCTCCAATGAAGCA
GATCTCAAGCGTGAAGATGGATGTCGGTTCATCCAGCGACGAAGAGGATG
AGGAGAAGTCCGGGCGTCCTTACAACGAGCTGCTACAACTGTTGAACACA
TCTACCGACTCCAAGGGTCCGGCCCGCAAGAAGAGAAAGGTCGAACATAA
GAATACAGAGACCATCGAGGTCGTCCGTGAGGACCCTGTGGCGGAAGAGG
ACGAAGAAGCTCTCGGGGAGGACGATCTAGAGCAGCAAGAGCCTTCGGAT
GAAGAGGACAATGGGAATCAAGAAGATGCTGGCGCACAGGATAGTGACGA
TGAAGACGTGTGAAGAAACGCGATCACGACTTCCTTTCGTCTATCGAAGT
AGTAATCGTTGACCACGCGGATGCCTTGCTCATGCAGAACTGGGATCACA
TCGACTACATCATGAAACACCTCAACCTGCAGCCCCGAGAGGCACACGGG
TGTGACTTCAGTCGTGTGCGAACATGGTATCTGGACAACAACGCGCGGTA
TGTGCGGCAGATGATTATGCTCACCTCATTCGTCACTCCGGAGATGAACT
CGGTGTTCTCGACGCACATGCACAACACCTCGGGCAAAGTCAAGGCCACG
CCGATCCACGCGGGGGCGATCACCGAGCTCCCCCTCCCGGTGTCGGTCAG
ACAGACATTTACCCGCTTCGACTGTCTCTCGCCGGCGAAAGACCCCGATG
CGCGCTTCAAGCACTTCACCACGACAATCCTCTCGTCGCTAGTGCGTGAC
ATTGCCTCCGGTCGCGGCAAGGCCAGCGCTGGAGGAACCCTGATCTTCAT
CCCGTCGTACCTGGACTTTGTACGCGTGCGTAATCACTTCGCCACGTCGC
AGCAGACCACCAACGTCTCGTTTGGAGCCATTTCCGAATACACCGAGCAG
CGGGAGGCGTCGCGGGCTCGCTCATACTTTATGAACGGGCGCCAGTCGGT
GCTGCTGTACACGGAGCGTCTGCACCACTTCCGTCGGTACCAGCTCCGCG
GGGTCAAGCGGATCATCATGTACGGAGTGCCTGAGAACCCGGCATTCTAT
AGCGAGATTGTCGGGTTCCTGGGATTGGATCCAGCCGCGTTGGTGGAGGC
GGCCGAGGGAGGCGTGCGGGCGTTGTTCTCCAAATGGGATGCGCTGAAGC
TGGAGCGGATTGTGGGCACGCAGCGAGTGGGCAATATGATGCGGGAGAAG
GGAGGAGATACTTTTACATTTATGTAACTTAAGAGAAAGCTTAAAGAGCC
AGCATCCGATAAATTCCCCCAAATCAGCGGACAGGCCCAGCATATTGCTC
CGTACATCTTCGGCTACCAGGACGTCCTGTATGGAGCCCGGACGCCCTCC
AACTCGGCCCAGATGCGCGACCTTCTGGCCCTCCACGCCACCAACCACGT
GCTGAAGACCCGCGATCGAGTGCTTAAGAACAACACACGCTTGGCCAAAG
AGCAAGACTCCGACCTCGATGTCCGAGACCAGGGCTTCACTCGGCCCAAG
GTACTTTATCTCTTGCCTACCAAGCAGGCTTGCGTGCGGGCCGTCGAGTC
CATCACGCGCTTCTTTCAACCCGAGCAACAAGAAAACAAGAAACGTCTCC
TCGACACTTTTTCGGCAGCTGATGACCCGTCATGGGAGAGCAAGCCGGAC
GACTTCCGCGAGCTCTTCGGTGGCAATGACGACGATATGTTCCGTCTAGG
TCTCAAGTTCACCCGCAAGACTGTCAAGTATTTTGCACAATTCTACACCT
CTGATATCATCATGGCTAGTCCGCTGGGTCTACGCACCATCATGGACCAG
GCAGAACAATGATCCTTTCGACACGCACTTCACGAACCCGACGGAGGATG
AGCTTGCTAAGAAGATCAAGGCTATCGGGGAGAACAAGTGGAAGAACGCA
AAGAAGGAACTGCCAGAAGGTTTGAGGCTTGTGCGCGCTGTTCCAGATAC
TGGCGATGATGCGTCCTGGCTGCCTCCAATGAAGCAGATCTCAAGCGTGA
AGATGGATGTCGGTTCATCCAGCGACGAAGAGGATGAGGAGAAGTCCGGG
CGTCCTTACAACGAGCTGCTACAACTGTTGAACACATCTACCGACTCCAA
GGGTCCGGCCCGCAAGAAGAGAAAGGTCGAACATAAGAATACAGAGACCA
TCGAGGTCGTCCGTGAGGACCCTGTGGCGGAAGAGGACGAAGAAGCTCTC
GGGGAGGACGATCTAGAGCAGCAAGAGCCTTCGGATGAAGAGGACAATGG
GAATCAAGAAGATGCTGGCGCACAGGATAGTGACGATGAAGACG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
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:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09261XZ6 |
| DBxref | InterPro:IPR010678 |
| DBxref | PFAM:PF06862 |
| Product | rRNA-binding ribosome biosynthesis protein utp25 |
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 |
|---|
| ACJE01000021.1 | supercontig | ACJE01000021.1:175265..177413 - |
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