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CAN33_4325-T1, CAN33_4325-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_4325-T1
Unique NameCAN33_4325-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:371433..373496-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_4325-T1 ID=CAN33_4325-T1|Name=CAN33_4325-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2064bp|location=Sequence derived from alignment at NKJJ01000019.1:371433..373496- (Aspergillus niger FDAARGOS_311)
ATGCCCGCGTAAGTGAGCTCGGTGACCCCATTTCTCCTCTCCCCTCGTCA
GTCTCCAGAGGTTAACCGCGTCTCTAGTGTTGGCGACCAGCACCGAGGGA
ACCCAGCGTCCATCATGATGCCCAACTCCACAGGGGCGATCACCGCAAAC
CCATTCGAAGAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGAAAT
CGCAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACATCT
CTTCCAGGCCTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCCGAT
AAATGCATCAACCTGGCTAACGAAGTTTTCGGGTTCAATGGCTGGTCAAG
CTCGATTCAGAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATACTG
GGAAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGGTGACTCTGAAAGAT
GGTACATATCACGAGGTAGGCATCACTGTATTGCAGCGAGCTTGCCCTAT
ATCTCAGCTAAGTCTCGAGTGGTATTAGGATATCGGTTACGGTCACATCG
AGAACTGTAAAGGGAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAGGGG
ACAACCGATGCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCTGGG
CAACTGTGTCTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAAAGA
CTGTTCCGGTATGTGACCGAGGTGTGGACAATCTTTTCACGACGACTGAC
ACGCTCTAGGCCAAATGGGATGTCGACGAACTGCACCGTCACCCAGACTT
TGTTCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATG
ATCTACCACCTCGGCCAACGGACGTTGGCAAGAGCAGTAGTATCGACGAT
TCGATGGCATTTGATGGCGACGGGGAGTTCGGAAGTAAGCAACAATGGCA
TGTCACGATCCCTTACAACCGCTAACCACCATCATAGGTGACCTATTTGA
TGAAGCCGACTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGTAC
TAGGACCAGAAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCCAAT
GTACCTCGACAGCCATTCAATAACAACGCCCGTGCACCGATGAGGCCCAA
CCCAGCCATGGTAACTCCATCTAAGCCGGAACGGCCCTTCAACCCAGCTC
CTGGTGCCAGACAAAATCCCGCTCCTCAGCCCTTTAACAGCAGACTCAAC
CCCTCCGCAGCCCAAAATCAGCAAGCACCTCAACGACAACCCATGGCCCC
TCAAGGGCCCCAGCAAAACCTCCCCAACAACCGAATGATCCCACCAGCAC
AAGCAGCAGCAGCCGCATCAACCACAGGTGGTGCCGTGCCCATCAAACGT
GAATTCGGGGCATCGACCATCAACGAACCTCCCAGACCCCAAGACACACT
GCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCC
TCCGCGACAACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCA
CACGCGGAGAGTCCCTCCATCCGCAAGACTGCAGGCATCGACCACAACAA
GAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCC
CAGCAACCAATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGAAT
CGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATGTC
CACATCATCTTACCGGCCCTTGACACGGCCAAATATCAATGCCCCGGGTG
CAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGAAC
GTGAACGGGAAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCC
GAGTGGCGGCAGCGGGCCTGCTCCACCGGGGGTCAGTGAGAATGACCCGA
AACGACCCAAGGTAAACCCGGGTTCTACTGCTGCGGCGGCGCCGCCGCAG
CAGCAGCAGCAGTGATGACCTGGTGTTGAAATAGAATATCGTTTATGATA
GGGTCTAGGTCTAG
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Coding sequence (CDS) from alignment at NKJJ01000019.1:371433..373496-

>CAN33_4325-T1 ID=CAN33_4325-T1|Name=CAN33_4325-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10899bp|location=Sequence derived from alignment at NKJJ01000019.1:371433..373496- (Aspergillus niger FDAARGOS_311)
GTCTAGGTGGTGCCGTGCCCATCAAACGTGAATTCGGGGCATCGACCATC
AACGAACCTCCCAGACCCCAAGACACACTGCCCGGCACGCCCTCCGCATC
ATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGACAACCCTAACGGGA
TCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGGAGAGTCCCTCCATC
CGCAAGACTGCAGGCATCGACCACAACAAGAGTCTTCCTGTCTCCAGGCC
CATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAACCAATAACACCCGAG
ACTTCGTCAACCCATCTCAAGATATGAATCGCAGGATCGGTGCCCCGGGC
ATGAACAGTCCCATGAACAGACCCATGTCCACATCATCTTACCGGCCCTT
GACACGGCCAAATATCAATGCCCCGGGTGCAGCTGCGGCCGCCAATCGTG
CAACTACCCCGGGTCTTGCACCGCAGAACGTGAACGGGAAACGACCCCCT
CTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTGC
TCCACCGGGGGTCAGTGAGAATGACCCGAAACGACCCAAGGTGACCTATT
TGATGAAGCCGACTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAG
TACTAGGACCAGAAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCC
AATGTACCTCGACAGCCATTCAATAACAACGCCCGTGCACCGATGAGGCC
CAACCCAGCCATGGTAACTCCATCTAAGCCGGAACGGCCCTTCAACCCAG
CTCCTGGCCAAATGGGATGTCGACGAACTGCACCGTCACCCAGACTTTGT
TCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATGATC
TACCACCTCGGCCAACGGACGTTGGCAAGAGCAGTAGTATCGACGATTCG
ATGGCATTTGATGGCGACGGGGAGTTCGGAAGATATCGGTTACGGTCACA
TCGAGAACTGTAAAGGGAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAG
GGGACAACCGATGCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCT
GGGCAACTGTGTCTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAA
AGACTGTTCCGTGTTGGCGACCAGCACCGAGGGAACCCAGCGTCCATCAT
GATGCCCAACTCCACAGGGGCGATCACCGCAAACCCATTCGAAGAGCCAC
AGCGACGGATCAACGAGTACACTGCCCAGGAAATCGCAACTTTGCAAGCT
CGTCTCGATAAGAAGCTCGGCCCCGAATACATCTCTTCCAGGCCTGGGGC
TGCGGGACAGAGAGTACACTACTTGTCGGCCGATAAATGCATCAACCTGG
CTAACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCAGAATATT
CAGATTGATTTCGTCGAGGAGAGTCCCAATACTGGGAAGATCAGCCTGGG
TCTCTCTGTTATTGTGAGGGTGACTCTGAAAGATGGTACATATCACGAGA
TGCCCGCGTCTAGGTGGTGCCGTGCCCATCAAACGTGAATTCGGGGCATC
GACCATCAACGAACCTCCCAGACCCCAAGACACACTGCCCGGCACGCCCT
CCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGACAACCCT
AACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGGAGAGTCC
CTCCATCCGCAAGACTGCAGGCATCGACCACAACAAGAGTCTTCCTGTCT
CCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAACCAATAAC
ACCCGAGACTTCGTCAACCCATCTCAAGATATGAATCGCAGGATCGGTGC
CCCGGGCATGAACAGTCCCATGAACAGACCCATGTCCACATCATCTTACC
GGCCCTTGACACGGCCAAATATCAATGCCCCGGGTGCAGCTGCGGCCGCC
AATCGTGCAACTACCCCGGGTCTTGCACCGCAGAACGTGAACGGGAAACG
ACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGCGGCAGCG
GGCCTGCTCCACCGGGGGTCAGTGAGAATGACCCGAAACGACCCAAGGTG
ACCTATTTGATGAAGCCGACTTCGGGGTAGGCGGAACAGGCAACCCAGAC
GAGGTAGTACTAGGACCAGAAACACAGAAGCAGCCACCGACGCCTCTAAA
TGGACCCAATGTACCTCGACAGCCATTCAATAACAACGCCCGTGCACCGA
TGAGGCCCAACCCAGCCATGGTAACTCCATCTAAGCCGGAACGGCCCTTC
AACCCAGCTCCTGGCCAAATGGGATGTCGACGAACTGCACCGTCACCCAG
ACTTTGTTCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGAC
GATGATCTACCACCTCGGCCAACGGACGTTGGCAAGAGCAGTAGTATCGA
CGATTCGATGGCATTTGATGGCGACGGGGAGTTCGGAAGATATCGGTTAC
GGTCACATCGAGAACTGTAAAGGGAAGGCTGCTGCTTTTGAGAAAGCTAA
GAAAGAGGGGACAACCGATGCTCTAAAGCGGGCTCTGAGGAACTTCGGCA
ATGTCCTGGGCAACTGTGTCTACGATAAGGACTATGTGTCGAAGGTCACC
AAAGTAAAGACTGTTCCGTGTTGGCGACCAGCACCGAGGGAACCCAGCGT
CCATCATGATGCCCAACTCCACAGGGGCGATCACCGCAAACCCATTCGAA
GAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGAAATCGCAACTTT
GCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACATCTCTTCCAGGC
CTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCCGATAAATGCATC
AACCTGGCTAACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCA
GAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATACTGGGAAGATCA
GCCTGGGTCTCTCTGTTATTGTGAGGGTGACTCTGAAAGATGGTACATAT
CACGAGATGCCCGCGTCTAGGTGGTGCCGTGCCCATCAAACGTGAATTCG
GGGCATCGACCATCAACGAACCTCCCAGACCCCAAGACACACTGCCCGGC
ACGCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGA
CAACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGG
AGAGTCCCTCCATCCGCAAGACTGCAGGCATCGACCACAACAAGAGTCTT
CCTGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAAC
CAATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGAATCGCAGGA
TCGGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATGTCCACATCA
TCTTACCGGCCCTTGACACGGCCAAATATCAATGCCCCGGGTGCAGCTGC
GGCCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGAACGTGAACG
GGAAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGC
GGCAGCGGGCCTGCTCCACCGGGGGTCAGTGAGAATGACCCGAAACGACC
CAAGGTGACCTATTTGATGAAGCCGACTTCGGGGTAGGCGGAACAGGCAA
CCCAGACGAGGTAGTACTAGGACCAGAAACACAGAAGCAGCCACCGACGC
CTCTAAATGGACCCAATGTACCTCGACAGCCATTCAATAACAACGCCCGT
GCACCGATGAGGCCCAACCCAGCCATGGTAACTCCATCTAAGCCGGAACG
GCCCTTCAACCCAGCTCCTGGCCAAATGGGATGTCGACGAACTGCACCGT
CACCCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCC
GGAAGACGATGATCTACCACCTCGGCCAACGGACGTTGGCAAGAGCAGTA
GTATCGACGATTCGATGGCATTTGATGGCGACGGGGAGTTCGGAAGATAT
CGGTTACGGTCACATCGAGAACTGTAAAGGGAAGGCTGCTGCTTTTGAGA
AAGCTAAGAAAGAGGGGACAACCGATGCTCTAAAGCGGGCTCTGAGGAAC
TTCGGCAATGTCCTGGGCAACTGTGTCTACGATAAGGACTATGTGTCGAA
GGTCACCAAAGTAAAGACTGTTCCGTGTTGGCGACCAGCACCGAGGGAAC
CCAGCGTCCATCATGATGCCCAACTCCACAGGGGCGATCACCGCAAACCC
ATTCGAAGAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGAAATCG
CAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACATCTCT
TCCAGGCCTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCCGATAA
ATGCATCAACCTGGCTAACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCT
CGATTCAGAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATACTGGG
AAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGGTGACTCTGAAAGATGG
TACATATCACGAGATGCCCGCGTCTAGGTGGTGCCGTGCCCATCAAACGT
GAATTCGGGGCATCGACCATCAACGAACCTCCCAGACCCCAAGACACACT
GCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCC
TCCGCGACAACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCA
CACGCGGAGAGTCCCTCCATCCGCAAGACTGCAGGCATCGACCACAACAA
GAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCC
CAGCAACCAATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGAAT
CGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATGTC
CACATCATCTTACCGGCCCTTGACACGGCCAAATATCAATGCCCCGGGTG
CAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGAAC
GTGAACGGGAAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCC
GAGTGGCGGCAGCGGGCCTGCTCCACCGGGGGTCAGTGAGAATGACCCGA
AACGACCCAAGGTGACCTATTTGATGAAGCCGACTTCGGGGTAGGCGGAA
CAGGCAACCCAGACGAGGTAGTACTAGGACCAGAAACACAGAAGCAGCCA
CCGACGCCTCTAAATGGACCCAATGTACCTCGACAGCCATTCAATAACAA
CGCCCGTGCACCGATGAGGCCCAACCCAGCCATGGTAACTCCATCTAAGC
CGGAACGGCCCTTCAACCCAGCTCCTGGCCAAATGGGATGTCGACGAACT
GCACCGTCACCCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAACCAAAGC
CCAGCCCGGAAGACGATGATCTACCACCTCGGCCAACGGACGTTGGCAAG
AGCAGTAGTATCGACGATTCGATGGCATTTGATGGCGACGGGGAGTTCGG
AAGATATCGGTTACGGTCACATCGAGAACTGTAAAGGGAAGGCTGCTGCT
TTTGAGAAAGCTAAGAAAGAGGGGACAACCGATGCTCTAAAGCGGGCTCT
GAGGAACTTCGGCAATGTCCTGGGCAACTGTGTCTACGATAAGGACTATG
TGTCGAAGGTCACCAAAGTAAAGACTGTTCCGTGTTGGCGACCAGCACCG
AGGGAACCCAGCGTCCATCATGATGCCCAACTCCACAGGGGCGATCACCG
CAAACCCATTCGAAGAGCCACAGCGACGGATCAACGAGTACACTGCCCAG
GAAATCGCAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATA
CATCTCTTCCAGGCCTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGG
CCGATAAATGCATCAACCTGGCTAACGAAGTTTTCGGGTTCAATGGCTGG
TCAAGCTCGATTCAGAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAA
TACTGGGAAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGGTGACTCTGA
AAGATGGTACATATCACGAGATGCCCGCGTCTAGGTGGTGCCGTGCCCAT
CAAACGTGAATTCGGGGCATCGACCATCAACGAACCTCCCAGACCCCAAG
ACACACTGCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTC
GACCTCCTCCGCGACAACCCTAACGGGATCCCATCCGGAGCCCCAGTCTT
CGACCCACACGCGGAGAGTCCCTCCATCCGCAAGACTGCAGGCATCGACC
ACAACAAGAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCC
GCCTCCCCAGCAACCAATAACACCCGAGACTTCGTCAACCCATCTCAAGA
TATGAATCGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATGAACAGAC
CCATGTCCACATCATCTTACCGGCCCTTGACACGGCCAAATATCAATGCC
CCGGGTGCAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTCTTGCACC
GCAGAACGTGAACGGGAAACGACCCCCTCTGTCTGATGTGACGAATGCCT
CGAACCCGAGTGGCGGCAGCGGGCCTGCTCCACCGGGGGTCAGTGAGAAT
GACCCGAAACGACCCAAGGTGACCTATTTGATGAAGCCGACTTCGGGGTA
GGCGGAACAGGCAACCCAGACGAGGTAGTACTAGGACCAGAAACACAGAA
GCAGCCACCGACGCCTCTAAATGGACCCAATGTACCTCGACAGCCATTCA
ATAACAACGCCCGTGCACCGATGAGGCCCAACCCAGCCATGGTAACTCCA
TCTAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGCCAAATGGGATGTCG
ACGAACTGCACCGTCACCCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAA
CCAAAGCCCAGCCCGGAAGACGATGATCTACCACCTCGGCCAACGGACGT
TGGCAAGAGCAGTAGTATCGACGATTCGATGGCATTTGATGGCGACGGGG
AGTTCGGAAGATATCGGTTACGGTCACATCGAGAACTGTAAAGGGAAGGC
TGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAACCGATGCTCTAAAGC
GGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACTGTGTCTACGATAAG
GACTATGTGTCGAAGGTCACCAAAGTAAAGACTGTTCCGTGTTGGCGACC
AGCACCGAGGGAACCCAGCGTCCATCATGATGCCCAACTCCACAGGGGCG
ATCACCGCAAACCCATTCGAAGAGCCACAGCGACGGATCAACGAGTACAC
TGCCCAGGAAATCGCAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGGCC
CCGAATACATCTCTTCCAGGCCTGGGGCTGCGGGACAGAGAGTACACTAC
TTGTCGGCCGATAAATGCATCAACCTGGCTAACGAAGTTTTCGGGTTCAA
TGGCTGGTCAAGCTCGATTCAGAATATTCAGATTGATTTCGTCGAGGAGA
GTCCCAATACTGGGAAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGGTG
ACTCTGAAAGATGGTACATATCACGAGATGCCCGCGTCTAGGTGGTGCCG
TGCCCATCAAACGTGAATTCGGGGCATCGACCATCAACGAACCTCCCAGA
CCCCAAGACACACTGCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCG
CGCAGTCGACCTCCTCCGCGACAACCCTAACGGGATCCCATCCGGAGCCC
CAGTCTTCGACCCACACGCGGAGAGTCCCTCCATCCGCAAGACTGCAGGC
ATCGACCACAACAAGAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGC
CGGCGCCGCCTCCCCAGCAACCAATAACACCCGAGACTTCGTCAACCCAT
CTCAAGATATGAATCGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATG
AACAGACCCATGTCCACATCATCTTACCGGCCCTTGACACGGCCAAATAT
CAATGCCCCGGGTGCAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTC
TTGCACCGCAGAACGTGAACGGGAAACGACCCCCTCTGTCTGATGTGACG
AATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTGCTCCACCGGGGGTCAG
TGAGAATGACCCGAAACGACCCAAGGTGACCTATTTGATGAAGCCGACTT
CGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGTACTAGGACCAGAAA
CACAGAAGCAGCCACCGACGCCTCTAAATGGACCCAATGTACCTCGACAG
CCATTCAATAACAACGCCCGTGCACCGATGAGGCCCAACCCAGCCATGGT
AACTCCATCTAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGCCAAATGG
GATGTCGACGAACTGCACCGTCACCCAGACTTTGTTCCCAGGAAAGAGCC
CGTAAAACCAAAGCCCAGCCCGGAAGACGATGATCTACCACCTCGGCCAA
CGGACGTTGGCAAGAGCAGTAGTATCGACGATTCGATGGCATTTGATGGC
GACGGGGAGTTCGGAAGATATCGGTTACGGTCACATCGAGAACTGTAAAG
GGAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAACCGATGCT
CTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACTGTGTCTA
CGATAAGGACTATGTGTCGAAGGTCACCAAAGTAAAGACTGTTCCGTGTT
GGCGACCAGCACCGAGGGAACCCAGCGTCCATCATGATGCCCAACTCCAC
AGGGGCGATCACCGCAAACCCATTCGAAGAGCCACAGCGACGGATCAACG
AGTACACTGCCCAGGAAATCGCAACTTTGCAAGCTCGTCTCGATAAGAAG
CTCGGCCCCGAATACATCTCTTCCAGGCCTGGGGCTGCGGGACAGAGAGT
ACACTACTTGTCGGCCGATAAATGCATCAACCTGGCTAACGAAGTTTTCG
GGTTCAATGGCTGGTCAAGCTCGATTCAGAATATTCAGATTGATTTCGTC
GAGGAGAGTCCCAATACTGGGAAGATCAGCCTGGGTCTCTCTGTTATTGT
GAGGGTGACTCTGAAAGATGGTACATATCACGAGATGCCCGCGTCTAGGT
GGTGCCGTGCCCATCAAACGTGAATTCGGGGCATCGACCATCAACGAACC
TCCCAGACCCCAAGACACACTGCCCGGCACGCCCTCCGCATCATTCTTCT
CAGCTCGCGCAGTCGACCTCCTCCGCGACAACCCTAACGGGATCCCATCC
GGAGCCCCAGTCTTCGACCCACACGCGGAGAGTCCCTCCATCCGCAAGAC
TGCAGGCATCGACCACAACAAGAGTCTTCCTGTCTCCAGGCCCATGCTCG
CCGGTGCCGGCGCCGCCTCCCCAGCAACCAATAACACCCGAGACTTCGTC
AACCCATCTCAAGATATGAATCGCAGGATCGGTGCCCCGGGCATGAACAG
TCCCATGAACAGACCCATGTCCACATCATCTTACCGGCCCTTGACACGGC
CAAATATCAATGCCCCGGGTGCAGCTGCGGCCGCCAATCGTGCAACTACC
CCGGGTCTTGCACCGCAGAACGTGAACGGGAAACGACCCCCTCTGTCTGA
TGTGACGAATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTGCTCCACCGG
GGGTCAGTGAGAATGACCCGAAACGACCCAAGGTGACCTATTTGATGAAG
CCGACTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGTACTAGGA
CCAGAAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCCAATGTACC
TCGACAGCCATTCAATAACAACGCCCGTGCACCGATGAGGCCCAACCCAG
CCATGGTAACTCCATCTAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGC
CAAATGGGATGTCGACGAACTGCACCGTCACCCAGACTTTGTTCCCAGGA
AAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATGATCTACCACCT
CGGCCAACGGACGTTGGCAAGAGCAGTAGTATCGACGATTCGATGGCATT
TGATGGCGACGGGGAGTTCGGAAGATATCGGTTACGGTCACATCGAGAAC
TGTAAAGGGAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAAC
CGATGCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACT
GTGTCTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAAAGACTGTT
CCGTGTTGGCGACCAGCACCGAGGGAACCCAGCGTCCATCATGATGCCCA
ACTCCACAGGGGCGATCACCGCAAACCCATTCGAAGAGCCACAGCGACGG
ATCAACGAGTACACTGCCCAGGAAATCGCAACTTTGCAAGCTCGTCTCGA
TAAGAAGCTCGGCCCCGAATACATCTCTTCCAGGCCTGGGGCTGCGGGAC
AGAGAGTACACTACTTGTCGGCCGATAAATGCATCAACCTGGCTAACGAA
GTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCAGAATATTCAGATTGA
TTTCGTCGAGGAGAGTCCCAATACTGGGAAGATCAGCCTGGGTCTCTCTG
TTATTGTGAGGGTGACTCTGAAAGATGGTACATATCACGAGATGCCCGC
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0005634nucleus
Vocabulary: Biological Process
TermDefinition
GO:0045002double-strand break repair via single-strand annealing
GO:0000730DNA recombinase assembly
GO:0000724double-strand break repair via homologous recombination
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
CAN33_4325CAN33_4325Aspergillus niger FDAARGOS_311gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
CAN33_4325-T1CAN33_4325-T1-proteinAspergillus niger FDAARGOS_311polypeptide


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CAN33_4325-T1.cdsCAN33_4325-T1.cdsAspergillus niger FDAARGOS_311CDS


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CAN33_4325-T1.exon7CAN33_4325-T1.exon7Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon6CAN33_4325-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon5CAN33_4325-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon4CAN33_4325-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon3CAN33_4325-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon2CAN33_4325-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_4325-T1.exon1CAN33_4325-T1.exon1Aspergillus niger FDAARGOS_311exon


Properties
Property NameValue
NoteBUSCO:EOG09261PJZ
DBxrefInterPro:IPR004585
DBxrefInterPro:IPR042525
DBxrefInterPro:IPR041247
DBxrefPFAM:PF04098
Productrecombination protein rad52 family protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger FDAARGOS_311 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
NKJJ01000019.1supercontigNKJJ01000019.1:371433..373496 -
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