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CAN33_44240-T1, CAN33_44240-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_44240-T1
Unique NameCAN33_44240-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000022.1:1223435..1225131+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_44240-T1 ID=CAN33_44240-T1|Name=CAN33_44240-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1697bp|location=Sequence derived from alignment at NKJJ01000022.1:1223435..1225131+ (Aspergillus niger FDAARGOS_311)
ATGCAGGTCAAAACAGCAACTTGTAAGGAAACTCTACTATGCAATGGTTA
AATCACATGCTGATATTAGACAGTGGAACATTTTGGCTCCGGTGAGCAGT
CCAAAAGCTACAGGGTGGCGAATGTGCACGATCAGCAACTTACTTATATC
AAGGGACAACTGCCAATGCTCTAAATGTATCCATCCAGACACAAGACAAC
GAACTGTTGATACGTTCGCGGTGAGTGGGTAAACTGATATCCTGATACGT
GCCGATTTACTGATCATTGTCCGATACAGATCCCTGATGATGTCCGTATC
AAGAACCTCAGATATGAAATTGAAGGTGTGGAAGTAGACTGTAAGCGGAT
GTTATCCCGTCACCTTGCAGGGGAGACTGACTTAGTAAAGGGTCGGACGG
GCATTGTGCCTATTATCCATTCTCGTGGCTCAAGAGCCATTCCAACAAGC
CTGTTACGAAGTTGGAATCAAACCCCGAATTGACTTTCCGGTACTTCAAC
CGTTGAGCTGCAGTGGCTGCCTTTGCGATATACTAACTCTGCTCAGAAAG
ATCAAGTCATACGTTCCGGGCAGAGACAGTACATTTCCAACATTTCCTTA
CTCAGATATCATGGCCGACGATGGTGCTCTGCGTGACTGGCTTGAAGGAA
TTGTAAGCTATGCCTCCATTACCAAGCAGAATATCTTGCTTATGTTGCGA
AGTACGACTGGGGATTTGCTTTTGTACAAGGAGTTCCTACCAACCCCGAA
TCAACCGAAGCTCTCCTAAAGAGGATTGCTTTCATCAGAAACACTCATTA
CGGTAAGGCAACATCATTGGCCTTTCCTGTGTGTCGCTTACTGATCCTTT
TCCGTTGGCGCAAGGTGGATTCTGGGATTTCACAGCCGACTTGACCTTCA
AGGATACCGCATACACGACGGAATTTCTCGGTGCACATACGGACAACACC
TATTTTACCGACCCTGCGAGGCTCCAGCTCTTCCACCTTCTATCCCATAC
CGATGGAGATGGCGGCGCCAGCCTGCTTGTTGACGGTTTCCGGGCTGCTT
CGATTCTCCGTGAAGAGAGCCCGCAAGACTTCGAGGTATTGATGTCGACG
AACCATCCTTACCACTCGAGTGGCAATGAGGACGTATGCGTGCAACCGGC
GGAGCAAGCTCCCGTTCTTAAGGTTCACCCTGAACTACAACGGCTATATC
AAATTCGCTGGAACAATTATGACAGAGCCGCCAAGAAGAACTGGAACTGG
GAGGACCAGGTAAAATGGTATACGGCAGCACGGCACTGGGACGAGATCAT
CCGTCGTAAAGACATGGAGATCTGGACACAGCTTGAACCAGGGACAGCCC
TCAGTAAGTGTTTGCAGGGAACGATGTTTGCGAGCAGGACTAATCTTCCC
TAAGTCTTTGACAACTGGAGAATGCTTCACGGTCGCTCGGAGTTTACGGG
CAAGCGCAGGATGTGCGGTGGCTATAGTCAGTACCCATTTCTTTTCTCAT
ATTTCTTTTTCCAGTCTGTTTTGCTGGTCTTCGGTTACCAGGCTTCTGGT
TATCATAACCCCACATACTAACTCTGGACAGTAAATAACGATGACTTCAT
TTCACGATACCGTTTACTCAAATTCGGTCGCGAGGAGGTACTAAGAAATA
TTGGCAATGATCAGTGGTCTCTGGAAAACCCCAACTACTACCTTTGA
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Coding sequence (CDS) from alignment at NKJJ01000022.1:1223435..1225131+

>CAN33_44240-T1 ID=CAN33_44240-T1|Name=CAN33_44240-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11160bp|location=Sequence derived from alignment at NKJJ01000022.1:1223435..1225131+ (Aspergillus niger FDAARGOS_311)
ATGCAGGTCAAAACAGCAACTTTGGAACATTTTGGCTCCGACACAAGACA
ACGAACTGTTGATACGTTCGCGATCCCTGATGATGTCCGTATCAAGAACC
TCAGATATGAAATTGAAGGTGTGGAAGTAGACTGGTCGGACGGGCATTGT
GCCTATTATCCATTCTCGTGGCTCAAGAGCCATTCCAACAAGCCTGTTAC
GAAGTTGGAATCAAACCCCGAATTGACTTTCCGAAAGATCAAGTCATACG
TTCCGGGCAGAGACAGTACATTTCCAACATTTCCTTACTCAGATATCATG
GCCGACGATGGTGCTCTGCGTGACTGGCTTGAAGGAATTTACGACTGGGG
ATTTGCTTTTGTACAAGGAGTTCCTACCAACCCCGAATCAACCGAAGCTC
TCCTAAAGAGGATTGCTTTCATCAGAAACACTCATTACGGTGGATTCTGG
GATTTCACAGCCGACTTGACCTTCAAGGATACCGCATACACGACGGAATT
TCTCGGTGCACATACGGACAACACCTATTTTACCGACCCTGCGAGGCTCC
AGCTCTTCCACCTTCTATCCCATACCGATGGAGATGGCGGCGCCAGCCTG
CTTGTTGACGGTTTCCGGGCTGCTTCGATTCTCCGTGAAGAGAGCCCGCA
AGACTTCGAGGTATTGATGTCGACGAACCATCCTTACCACTCGAGTGGCA
ATGAGGACGTATGCGTGCAACCGGCGGAGCAAGCTCCCGTTCTTAAGGTT
CACCCTGAACTACAACGGCTATATCAAATTCGCTGGAACAATTATGACAG
AGCCGCCAAGAAGAACTGGAACTGGGAGGACCAGGTAAAATGGTATACGG
CAGCACGGCACTGGGACGAGATCATCCGTCGTAAAGACATGGAGATCTGG
ACACAGCTTGAACCAGGGACAGCCCTCATCTTTGACAACTGGAGAATGCT
TCACGGTCGCTCGGAGTTTACGGGCAAGCGCAGGATGTGCGGTGGCTATA
TAAATAACGATGACTTCATTTCACGATACCGTTTACTCAAATTCGGTCGC
GAGGAGGTACTAAGAAATATTGGCAATGATCAGTGGTCTCTGGAAAACCC
CAACTACTACCTTTGAATGCAGGTCAAAACAGCAACTTTGGAACATTTTG
GCTCCGACACAAGACAACGAACTGTTGATACGTTCGCGATCCCTGATGAT
GTCCGTATCAAGAACCTCAGATATGAAATTGAAGGTGTGGAAGTAGACTG
GTCGGACGGGCATTGTGCCTATTATCCATTCTCGTGGCTCAAGAGCCATT
CCAACAAGCCTGTTACGAAGTTGGAATCAAACCCCGAATTGACTTTCCGA
AAGATCAAGTCATACGTTCCGGGCAGAGACAGTACATTTCCAACATTTCC
TTACTCAGATATCATGGCCGACGATGGTGCTCTGCGTGACTGGCTTGAAG
GAATTTACGACTGGGGATTTGCTTTTGTACAAGGAGTTCCTACCAACCCC
GAATCAACCGAAGCTCTCCTAAAGAGGATTGCTTTCATCAGAAACACTCA
TTACGGTGGATTCTGGGATTTCACAGCCGACTTGACCTTCAAGGATACCG
CATACACGACGGAATTTCTCGGTGCACATACGGACAACACCTATTTTACC
GACCCTGCGAGGCTCCAGCTCTTCCACCTTCTATCCCATACCGATGGAGA
TGGCGGCGCCAGCCTGCTTGTTGACGGTTTCCGGGCTGCTTCGATTCTCC
GTGAAGAGAGCCCGCAAGACTTCGAGGTATTGATGTCGACGAACCATCCT
TACCACTCGAGTGGCAATGAGGACGTATGCGTGCAACCGGCGGAGCAAGC
TCCCGTTCTTAAGGTTCACCCTGAACTACAACGGCTATATCAAATTCGCT
GGAACAATTATGACAGAGCCGCCAAGAAGAACTGGAACTGGGAGGACCAG
GTAAAATGGTATACGGCAGCACGGCACTGGGACGAGATCATCCGTCGTAA
AGACATGGAGATCTGGACACAGCTTGAACCAGGGACAGCCCTCATCTTTG
ACAACTGGAGAATGCTTCACGGTCGCTCGGAGTTTACGGGCAAGCGCAGG
ATGTGCGGTGGCTATATAAATAACGATGACTTCATTTCACGATACCGTTT
ACTCAAATTCGGTCGCGAGGAGGTACTAAGAAATATTGGCAATGATCAGT
GGTCTCTGGAAAACCCCAACTACTACCTTTGAATGCAGGTCAAAACAGCA
ACTTTGGAACATTTTGGCTCCGACACAAGACAACGAACTGTTGATACGTT
CGCGATCCCTGATGATGTCCGTATCAAGAACCTCAGATATGAAATTGAAG
GTGTGGAAGTAGACTGGTCGGACGGGCATTGTGCCTATTATCCATTCTCG
TGGCTCAAGAGCCATTCCAACAAGCCTGTTACGAAGTTGGAATCAAACCC
CGAATTGACTTTCCGAAAGATCAAGTCATACGTTCCGGGCAGAGACAGTA
CATTTCCAACATTTCCTTACTCAGATATCATGGCCGACGATGGTGCTCTG
CGTGACTGGCTTGAAGGAATTTACGACTGGGGATTTGCTTTTGTACAAGG
AGTTCCTACCAACCCCGAATCAACCGAAGCTCTCCTAAAGAGGATTGCTT
TCATCAGAAACACTCATTACGGTGGATTCTGGGATTTCACAGCCGACTTG
ACCTTCAAGGATACCGCATACACGACGGAATTTCTCGGTGCACATACGGA
CAACACCTATTTTACCGACCCTGCGAGGCTCCAGCTCTTCCACCTTCTAT
CCCATACCGATGGAGATGGCGGCGCCAGCCTGCTTGTTGACGGTTTCCGG
GCTGCTTCGATTCTCCGTGAAGAGAGCCCGCAAGACTTCGAGGTATTGAT
GTCGACGAACCATCCTTACCACTCGAGTGGCAATGAGGACGTATGCGTGC
AACCGGCGGAGCAAGCTCCCGTTCTTAAGGTTCACCCTGAACTACAACGG
CTATATCAAATTCGCTGGAACAATTATGACAGAGCCGCCAAGAAGAACTG
GAACTGGGAGGACCAGGTAAAATGGTATACGGCAGCACGGCACTGGGACG
AGATCATCCGTCGTAAAGACATGGAGATCTGGACACAGCTTGAACCAGGG
ACAGCCCTCATCTTTGACAACTGGAGAATGCTTCACGGTCGCTCGGAGTT
TACGGGCAAGCGCAGGATGTGCGGTGGCTATATAAATAACGATGACTTCA
TTTCACGATACCGTTTACTCAAATTCGGTCGCGAGGAGGTACTAAGAAAT
ATTGGCAATGATCAGTGGTCTCTGGAAAACCCCAACTACTACCTTTGAAT
GCAGGTCAAAACAGCAACTTTGGAACATTTTGGCTCCGACACAAGACAAC
GAACTGTTGATACGTTCGCGATCCCTGATGATGTCCGTATCAAGAACCTC
AGATATGAAATTGAAGGTGTGGAAGTAGACTGGTCGGACGGGCATTGTGC
CTATTATCCATTCTCGTGGCTCAAGAGCCATTCCAACAAGCCTGTTACGA
AGTTGGAATCAAACCCCGAATTGACTTTCCGAAAGATCAAGTCATACGTT
CCGGGCAGAGACAGTACATTTCCAACATTTCCTTACTCAGATATCATGGC
CGACGATGGTGCTCTGCGTGACTGGCTTGAAGGAATTTACGACTGGGGAT
TTGCTTTTGTACAAGGAGTTCCTACCAACCCCGAATCAACCGAAGCTCTC
CTAAAGAGGATTGCTTTCATCAGAAACACTCATTACGGTGGATTCTGGGA
TTTCACAGCCGACTTGACCTTCAAGGATACCGCATACACGACGGAATTTC
TCGGTGCACATACGGACAACACCTATTTTACCGACCCTGCGAGGCTCCAG
CTCTTCCACCTTCTATCCCATACCGATGGAGATGGCGGCGCCAGCCTGCT
TGTTGACGGTTTCCGGGCTGCTTCGATTCTCCGTGAAGAGAGCCCGCAAG
ACTTCGAGGTATTGATGTCGACGAACCATCCTTACCACTCGAGTGGCAAT
GAGGACGTATGCGTGCAACCGGCGGAGCAAGCTCCCGTTCTTAAGGTTCA
CCCTGAACTACAACGGCTATATCAAATTCGCTGGAACAATTATGACAGAG
CCGCCAAGAAGAACTGGAACTGGGAGGACCAGGTAAAATGGTATACGGCA
GCACGGCACTGGGACGAGATCATCCGTCGTAAAGACATGGAGATCTGGAC
ACAGCTTGAACCAGGGACAGCCCTCATCTTTGACAACTGGAGAATGCTTC
ACGGTCGCTCGGAGTTTACGGGCAAGCGCAGGATGTGCGGTGGCTATATA
AATAACGATGACTTCATTTCACGATACCGTTTACTCAAATTCGGTCGCGA
GGAGGTACTAAGAAATATTGGCAATGATCAGTGGTCTCTGGAAAACCCCA
ACTACTACCTTTGAATGCAGGTCAAAACAGCAACTTTGGAACATTTTGGC
TCCGACACAAGACAACGAACTGTTGATACGTTCGCGATCCCTGATGATGT
CCGTATCAAGAACCTCAGATATGAAATTGAAGGTGTGGAAGTAGACTGGT
CGGACGGGCATTGTGCCTATTATCCATTCTCGTGGCTCAAGAGCCATTCC
AACAAGCCTGTTACGAAGTTGGAATCAAACCCCGAATTGACTTTCCGAAA
GATCAAGTCATACGTTCCGGGCAGAGACAGTACATTTCCAACATTTCCTT
ACTCAGATATCATGGCCGACGATGGTGCTCTGCGTGACTGGCTTGAAGGA
ATTTACGACTGGGGATTTGCTTTTGTACAAGGAGTTCCTACCAACCCCGA
ATCAACCGAAGCTCTCCTAAAGAGGATTGCTTTCATCAGAAACACTCATT
ACGGTGGATTCTGGGATTTCACAGCCGACTTGACCTTCAAGGATACCGCA
TACACGACGGAATTTCTCGGTGCACATACGGACAACACCTATTTTACCGA
CCCTGCGAGGCTCCAGCTCTTCCACCTTCTATCCCATACCGATGGAGATG
GCGGCGCCAGCCTGCTTGTTGACGGTTTCCGGGCTGCTTCGATTCTCCGT
GAAGAGAGCCCGCAAGACTTCGAGGTATTGATGTCGACGAACCATCCTTA
CCACTCGAGTGGCAATGAGGACGTATGCGTGCAACCGGCGGAGCAAGCTC
CCGTTCTTAAGGTTCACCCTGAACTACAACGGCTATATCAAATTCGCTGG
AACAATTATGACAGAGCCGCCAAGAAGAACTGGAACTGGGAGGACCAGGT
AAAATGGTATACGGCAGCACGGCACTGGGACGAGATCATCCGTCGTAAAG
ACATGGAGATCTGGACACAGCTTGAACCAGGGACAGCCCTCATCTTTGAC
AACTGGAGAATGCTTCACGGTCGCTCGGAGTTTACGGGCAAGCGCAGGAT
GTGCGGTGGCTATATAAATAACGATGACTTCATTTCACGATACCGTTTAC
TCAAATTCGGTCGCGAGGAGGTACTAAGAAATATTGGCAATGATCAGTGG
TCTCTGGAAAACCCCAACTACTACCTTTGAATGCAGGTCAAAACAGCAAC
TTTGGAACATTTTGGCTCCGACACAAGACAACGAACTGTTGATACGTTCG
CGATCCCTGATGATGTCCGTATCAAGAACCTCAGATATGAAATTGAAGGT
GTGGAAGTAGACTGGTCGGACGGGCATTGTGCCTATTATCCATTCTCGTG
GCTCAAGAGCCATTCCAACAAGCCTGTTACGAAGTTGGAATCAAACCCCG
AATTGACTTTCCGAAAGATCAAGTCATACGTTCCGGGCAGAGACAGTACA
TTTCCAACATTTCCTTACTCAGATATCATGGCCGACGATGGTGCTCTGCG
TGACTGGCTTGAAGGAATTTACGACTGGGGATTTGCTTTTGTACAAGGAG
TTCCTACCAACCCCGAATCAACCGAAGCTCTCCTAAAGAGGATTGCTTTC
ATCAGAAACACTCATTACGGTGGATTCTGGGATTTCACAGCCGACTTGAC
CTTCAAGGATACCGCATACACGACGGAATTTCTCGGTGCACATACGGACA
ACACCTATTTTACCGACCCTGCGAGGCTCCAGCTCTTCCACCTTCTATCC
CATACCGATGGAGATGGCGGCGCCAGCCTGCTTGTTGACGGTTTCCGGGC
TGCTTCGATTCTCCGTGAAGAGAGCCCGCAAGACTTCGAGGTATTGATGT
CGACGAACCATCCTTACCACTCGAGTGGCAATGAGGACGTATGCGTGCAA
CCGGCGGAGCAAGCTCCCGTTCTTAAGGTTCACCCTGAACTACAACGGCT
ATATCAAATTCGCTGGAACAATTATGACAGAGCCGCCAAGAAGAACTGGA
ACTGGGAGGACCAGGTAAAATGGTATACGGCAGCACGGCACTGGGACGAG
ATCATCCGTCGTAAAGACATGGAGATCTGGACACAGCTTGAACCAGGGAC
AGCCCTCATCTTTGACAACTGGAGAATGCTTCACGGTCGCTCGGAGTTTA
CGGGCAAGCGCAGGATGTGCGGTGGCTATATAAATAACGATGACTTCATT
TCACGATACCGTTTACTCAAATTCGGTCGCGAGGAGGTACTAAGAAATAT
TGGCAATGATCAGTGGTCTCTGGAAAACCCCAACTACTACCTTTGAATGC
AGGTCAAAACAGCAACTTTGGAACATTTTGGCTCCGACACAAGACAACGA
ACTGTTGATACGTTCGCGATCCCTGATGATGTCCGTATCAAGAACCTCAG
ATATGAAATTGAAGGTGTGGAAGTAGACTGGTCGGACGGGCATTGTGCCT
ATTATCCATTCTCGTGGCTCAAGAGCCATTCCAACAAGCCTGTTACGAAG
TTGGAATCAAACCCCGAATTGACTTTCCGAAAGATCAAGTCATACGTTCC
GGGCAGAGACAGTACATTTCCAACATTTCCTTACTCAGATATCATGGCCG
ACGATGGTGCTCTGCGTGACTGGCTTGAAGGAATTTACGACTGGGGATTT
GCTTTTGTACAAGGAGTTCCTACCAACCCCGAATCAACCGAAGCTCTCCT
AAAGAGGATTGCTTTCATCAGAAACACTCATTACGGTGGATTCTGGGATT
TCACAGCCGACTTGACCTTCAAGGATACCGCATACACGACGGAATTTCTC
GGTGCACATACGGACAACACCTATTTTACCGACCCTGCGAGGCTCCAGCT
CTTCCACCTTCTATCCCATACCGATGGAGATGGCGGCGCCAGCCTGCTTG
TTGACGGTTTCCGGGCTGCTTCGATTCTCCGTGAAGAGAGCCCGCAAGAC
TTCGAGGTATTGATGTCGACGAACCATCCTTACCACTCGAGTGGCAATGA
GGACGTATGCGTGCAACCGGCGGAGCAAGCTCCCGTTCTTAAGGTTCACC
CTGAACTACAACGGCTATATCAAATTCGCTGGAACAATTATGACAGAGCC
GCCAAGAAGAACTGGAACTGGGAGGACCAGGTAAAATGGTATACGGCAGC
ACGGCACTGGGACGAGATCATCCGTCGTAAAGACATGGAGATCTGGACAC
AGCTTGAACCAGGGACAGCCCTCATCTTTGACAACTGGAGAATGCTTCAC
GGTCGCTCGGAGTTTACGGGCAAGCGCAGGATGTGCGGTGGCTATATAAA
TAACGATGACTTCATTTCACGATACCGTTTACTCAAATTCGGTCGCGAGG
AGGTACTAAGAAATATTGGCAATGATCAGTGGTCTCTGGAAAACCCCAAC
TACTACCTTTGAATGCAGGTCAAAACAGCAACTTTGGAACATTTTGGCTC
CGACACAAGACAACGAACTGTTGATACGTTCGCGATCCCTGATGATGTCC
GTATCAAGAACCTCAGATATGAAATTGAAGGTGTGGAAGTAGACTGGTCG
GACGGGCATTGTGCCTATTATCCATTCTCGTGGCTCAAGAGCCATTCCAA
CAAGCCTGTTACGAAGTTGGAATCAAACCCCGAATTGACTTTCCGAAAGA
TCAAGTCATACGTTCCGGGCAGAGACAGTACATTTCCAACATTTCCTTAC
TCAGATATCATGGCCGACGATGGTGCTCTGCGTGACTGGCTTGAAGGAAT
TTACGACTGGGGATTTGCTTTTGTACAAGGAGTTCCTACCAACCCCGAAT
CAACCGAAGCTCTCCTAAAGAGGATTGCTTTCATCAGAAACACTCATTAC
GGTGGATTCTGGGATTTCACAGCCGACTTGACCTTCAAGGATACCGCATA
CACGACGGAATTTCTCGGTGCACATACGGACAACACCTATTTTACCGACC
CTGCGAGGCTCCAGCTCTTCCACCTTCTATCCCATACCGATGGAGATGGC
GGCGCCAGCCTGCTTGTTGACGGTTTCCGGGCTGCTTCGATTCTCCGTGA
AGAGAGCCCGCAAGACTTCGAGGTATTGATGTCGACGAACCATCCTTACC
ACTCGAGTGGCAATGAGGACGTATGCGTGCAACCGGCGGAGCAAGCTCCC
GTTCTTAAGGTTCACCCTGAACTACAACGGCTATATCAAATTCGCTGGAA
CAATTATGACAGAGCCGCCAAGAAGAACTGGAACTGGGAGGACCAGGTAA
AATGGTATACGGCAGCACGGCACTGGGACGAGATCATCCGTCGTAAAGAC
ATGGAGATCTGGACACAGCTTGAACCAGGGACAGCCCTCATCTTTGACAA
CTGGAGAATGCTTCACGGTCGCTCGGAGTTTACGGGCAAGCGCAGGATGT
GCGGTGGCTATATAAATAACGATGACTTCATTTCACGATACCGTTTACTC
AAATTCGGTCGCGAGGAGGTACTAAGAAATATTGGCAATGATCAGTGGTC
TCTGGAAAACCCCAACTACTACCTTTGAATGCAGGTCAAAACAGCAACTT
TGGAACATTTTGGCTCCGACACAAGACAACGAACTGTTGATACGTTCGCG
ATCCCTGATGATGTCCGTATCAAGAACCTCAGATATGAAATTGAAGGTGT
GGAAGTAGACTGGTCGGACGGGCATTGTGCCTATTATCCATTCTCGTGGC
TCAAGAGCCATTCCAACAAGCCTGTTACGAAGTTGGAATCAAACCCCGAA
TTGACTTTCCGAAAGATCAAGTCATACGTTCCGGGCAGAGACAGTACATT
TCCAACATTTCCTTACTCAGATATCATGGCCGACGATGGTGCTCTGCGTG
ACTGGCTTGAAGGAATTTACGACTGGGGATTTGCTTTTGTACAAGGAGTT
CCTACCAACCCCGAATCAACCGAAGCTCTCCTAAAGAGGATTGCTTTCAT
CAGAAACACTCATTACGGTGGATTCTGGGATTTCACAGCCGACTTGACCT
TCAAGGATACCGCATACACGACGGAATTTCTCGGTGCACATACGGACAAC
ACCTATTTTACCGACCCTGCGAGGCTCCAGCTCTTCCACCTTCTATCCCA
TACCGATGGAGATGGCGGCGCCAGCCTGCTTGTTGACGGTTTCCGGGCTG
CTTCGATTCTCCGTGAAGAGAGCCCGCAAGACTTCGAGGTATTGATGTCG
ACGAACCATCCTTACCACTCGAGTGGCAATGAGGACGTATGCGTGCAACC
GGCGGAGCAAGCTCCCGTTCTTAAGGTTCACCCTGAACTACAACGGCTAT
ATCAAATTCGCTGGAACAATTATGACAGAGCCGCCAAGAAGAACTGGAAC
TGGGAGGACCAGGTAAAATGGTATACGGCAGCACGGCACTGGGACGAGAT
CATCCGTCGTAAAGACATGGAGATCTGGACACAGCTTGAACCAGGGACAG
CCCTCATCTTTGACAACTGGAGAATGCTTCACGGTCGCTCGGAGTTTACG
GGCAAGCGCAGGATGTGCGGTGGCTATATAAATAACGATGACTTCATTTC
ACGATACCGTTTACTCAAATTCGGTCGCGAGGAGGTACTAAGAAATATTG
GCAATGATCAGTGGTCTCTGGAAAACCCCAACTACTACCTTTGAATGCAG
GTCAAAACAGCAACTTTGGAACATTTTGGCTCCGACACAAGACAACGAAC
TGTTGATACGTTCGCGATCCCTGATGATGTCCGTATCAAGAACCTCAGAT
ATGAAATTGAAGGTGTGGAAGTAGACTGGTCGGACGGGCATTGTGCCTAT
TATCCATTCTCGTGGCTCAAGAGCCATTCCAACAAGCCTGTTACGAAGTT
GGAATCAAACCCCGAATTGACTTTCCGAAAGATCAAGTCATACGTTCCGG
GCAGAGACAGTACATTTCCAACATTTCCTTACTCAGATATCATGGCCGAC
GATGGTGCTCTGCGTGACTGGCTTGAAGGAATTTACGACTGGGGATTTGC
TTTTGTACAAGGAGTTCCTACCAACCCCGAATCAACCGAAGCTCTCCTAA
AGAGGATTGCTTTCATCAGAAACACTCATTACGGTGGATTCTGGGATTTC
ACAGCCGACTTGACCTTCAAGGATACCGCATACACGACGGAATTTCTCGG
TGCACATACGGACAACACCTATTTTACCGACCCTGCGAGGCTCCAGCTCT
TCCACCTTCTATCCCATACCGATGGAGATGGCGGCGCCAGCCTGCTTGTT
GACGGTTTCCGGGCTGCTTCGATTCTCCGTGAAGAGAGCCCGCAAGACTT
CGAGGTATTGATGTCGACGAACCATCCTTACCACTCGAGTGGCAATGAGG
ACGTATGCGTGCAACCGGCGGAGCAAGCTCCCGTTCTTAAGGTTCACCCT
GAACTACAACGGCTATATCAAATTCGCTGGAACAATTATGACAGAGCCGC
CAAGAAGAACTGGAACTGGGAGGACCAGGTAAAATGGTATACGGCAGCAC
GGCACTGGGACGAGATCATCCGTCGTAAAGACATGGAGATCTGGACACAG
CTTGAACCAGGGACAGCCCTCATCTTTGACAACTGGAGAATGCTTCACGG
TCGCTCGGAGTTTACGGGCAAGCGCAGGATGTGCGGTGGCTATATAAATA
ACGATGACTTCATTTCACGATACCGTTTACTCAAATTCGGTCGCGAGGAG
GTACTAAGAAATATTGGCAATGATCAGTGGTCTCTGGAAAACCCCAACTA
CTACCTTTGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
GO:0045329carnitine biosynthetic process
Vocabulary: Molecular Function
TermDefinition
GO:0016491oxidoreductase activity
GO:0005506iron ion binding
GO:0050353trimethyllysine dioxygenase activity
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_44240CAN33_44240Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_44240-T1CAN33_44240-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_44240-T1.exon1CAN33_44240-T1.exon1Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon2CAN33_44240-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon3CAN33_44240-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon4CAN33_44240-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon5CAN33_44240-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon6CAN33_44240-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon7CAN33_44240-T1.exon7Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon8CAN33_44240-T1.exon8Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon9CAN33_44240-T1.exon9Aspergillus niger FDAARGOS_311exon
CAN33_44240-T1.exon10CAN33_44240-T1.exon10Aspergillus niger FDAARGOS_311exon


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

Feature NameUnique NameSpeciesType
CAN33_44240-T1.cdsCAN33_44240-T1.cdsAspergillus niger FDAARGOS_311CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR003819
DBxrefInterPro:IPR042098
DBxrefInterPro:IPR038492
DBxrefInterPro:IPR012776
DBxrefPFAM:PF02668
Producttrimethyllysine dioxygenase
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
NKJJ01000022.1supercontigNKJJ01000022.1:1223435..1225131 +
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