CAN33_15495-T1, CAN33_15495-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_15495-T1
Unique Name	CAN33_15495-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000010.1:2124919..2127701+
coding sequence from alignment at NKJJ01000010.1:2124919..2127701+

mRNA from alignment at NKJJ01000010.1:2124919..2127701+

Legend: exonpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>CAN33_15495-T1 ID=CAN33_15495-T1|Name=CAN33_15495-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2783bp|location=Sequence derived from alignment at NKJJ01000010.1:2124919..2127701+ (Aspergillus niger FDAARGOS_311)
ATGGTCTTGCGAAAACGAGCTCCGCCACGCCTCAACAGCCTTCCTCAAGG
GAATGACCGTACTGGATCCCGCTTCACCAACTCCAAACTCTCCCCGACTT
CCAAATCCCTCTCATCCTCGTCGCCAAAACGCCTGACTCGCCCGCGACGG
GCTCAAAGCTCTCCTCAACCTCATCGGGTTGTTTCTCAGGAATCGGTCTT
TTCTCCCGATCTCAATACCTCACCAGCCTTTGACCTCATGCCGTTGGAAC
AGGCGCAGAGGTCGCCAATCCGGAATTCGGCCGGGGACGGGTCGAATCCG
TGGGCGGACGAGCTCACAGCGCGGTTCGGTTTGGATCACCAGGATTCGGT
GGCATCTCCTCGGCAAATAGCTAGTAGTCCTTCACAGGGTATGGGGATGG
TGAACGGAAACGCATCAGACCAAGTTCCATCTACCTCTTTTCCTGGTGTT
CAAGAGAGAGGTGCTGCGGAATGGCGACCCGACAGGGAGTACACGGGTCA
ATCACCGGTGCAGCTACAGTCGAACAACCCTTTTCTGAAACCGAGGTCGC
CGGAACCAAATCCATGGCAAGATCGCAATTCTCACACCTCATATGGGGAG
TCGTCCCAATTTCACGACGGTGCTAGTGGACACCTCGGACAAGGTATGCA
CTGTCCAACTGTCGTTGATCTAGCAGCCTAGGCTGACCCACTTAGACGAG
GGATACATCCCGATGACAGCGCGCTTATCGCTCTTTGATCAGCCCGAGGA
AGAGACTCCCTGGGTTGGTGAAGAGTCCACTGCGATGCAACCCCCCGCGT
CTTCGCAACCGTACGGATACCACGACCAGAGTCAATTATATGCTGGCCAA
GAAACTGGCATACATTATGGAACAACGAATGTGCCAGGTGCACCGTATAC
TAGTCAACAAACGTATCTCCAGCCAACCCCACAGTTACATGACGAGGGCA
GGGAATCCCCGGCGAGGAGTATGAGTACTCCGGCGACTATATCCAGCAAT
ACCACCGGCTCGTCTCACGTCTTGATTGAACTGGATGAAGCCCCTATTCC
GCCACCCAAAACAGATGCCCCTACCAAAGCGCCTCAAGGCTACAATCTTA
ACTCGCCAGAGGGTCCACAGGAAGAAATCTTGCGAGAGAAGCCTGGCGAC
GCTCCCCCCTTGCCCGATCGCTCGAAAGGCCCTGGTGCCGTCTATACTCA
TTCAGCATTCAGTGGACCAATGTCAGAAGCCGAAGCGAAGCGACAGCAAG
AACAGCGGTCGGAGACCTACTCGATCAGACACGTCAACTGGGCTGATAGC
ACCGGCAAGTTACGCGAGTCGCCTATCCTGGTACAGAATAAAAATGGACC
GTGTCCTCTTCTGGCACTGGTCAATGCTCTTGTGCTACGCTCTACAATCC
ACGACTCACAGCCGCCGATTGTGAGAGCTTTGCAGACTCGCGAACAAATC
TCGTTAGGGTTGCTGATTGAGGCACTCTTTGATGAATTGACCACACGGCT
GGGGCCCGATGACGAGTTTCCTGATATCGAAGCTCTCAGTCGGTTTCTGA
CTATGCTGCATACCGGCATGAATGTCAATCCGCAACTCACTTTGGTGAGT
AATTCGTACACATGTTAATGGACGCAGCAACTGACCAGAGCAGGAATCTA
ATGATGCGCTGGGTACTTTCCTTGAAACCGAAGATATCCGTTTCTATGGA
ACATTCGGAGTCCCCTTAGTTCACGGATGGCTTGCAGCCCCGTCAACAGA
GGCTGATGCAGCATTGGCCCGCGTGGGTCAGTATCACGAAGATATTCAGT
TGCTTCCTTTCCGGAAGCAAGATCTGGAAGACCGCGTTATGCGAGGCAAC
GCATTGACACCGGAGGAAGAACTCGTCATGAGTGATATCCAGACCATTCA
AAAGTTCACGGAGTTCGAGAACGCGACTCAACTGAGCACTTTCGGCTTGA
ATCATCTAGCGACGACATTGCAGCCCGGATCATTCTCGATCCTATTCCGC
AACGATCATTTCTCGACGCTGTACAAACATCCCCGACTCGATCAGCTCTT
TACGCTAGTTACCGATGCTGGTTATTCCAGCCACGCTGAGGTTGTATGGG
AGAGTCTTGTCGACGTCAATGGTTCAGAAGCTGGTTTCTTTTCCGGAGAC
TTTCGCCCTGTCAGCCATGACGCTCCTCCCCCTTCTGACCCATCGGGCCC
AAGAACATCGAGCAATACCGGCCTTGCTCCCGAGCCACATGAACAGCGTA
GCAGCACCATGACTCCCCAGGAACAGGCCGATGCAGACTACGCCTACGCG
CTCGCTCTCCAGTACCAGGAAGAAGAGCAACGAGCCAATGCCACGACCAA
TAGAGATTCGACCAACAGAAACCCTTCCCAGCGAGCTTCAGTCTCCCACC
CCCCATCATCGGGGCTAGCACCCGGGGCAGCATACACTCGCAACCGTTCA
TCAAGCGCTGTAAACCCCAGCAGTGCTTCATACGCCACAGTTGCATCTGG
AAACCGCTCCTCAAGGCAAAGTCAGCGTCCTGCCCGGTACTCCCAGTCCA
ACATACCAACCATCCGGCCGACGGATGACGACGACGTCCCCCCGCCTTCA
TATGAGCAGGCAGCGAGAAGTCCAGTATACCCGTCGCCCCAGCGGAGCCC
CAACTTCACAGACTCATCTAATGCGTCTCCGTACCAAAGAACCCAACAGG
GGAGACGACCTCCGGGTGTGCCTCTCACCACCGGACCCTCGGAACGCACA
AGAGACCGACCCAAAGACTGCATCGTGATGTGA

Coding sequence (CDS) from alignment at NKJJ01000010.1:2124919..2127701+

>CAN33_15495-T1 ID=CAN33_15495-T1|Name=CAN33_15495-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8046bp|location=Sequence derived from alignment at NKJJ01000010.1:2124919..2127701+ (Aspergillus niger FDAARGOS_311)
ATGGTCTTGCGAAAACGAGCTCCGCCACGCCTCAACAGCCTTCCTCAAGG
GAATGACCGTACTGGATCCCGCTTCACCAACTCCAAACTCTCCCCGACTT
CCAAATCCCTCTCATCCTCGTCGCCAAAACGCCTGACTCGCCCGCGACGG
GCTCAAAGCTCTCCTCAACCTCATCGGGTTGTTTCTCAGGAATCGGTCTT
TTCTCCCGATCTCAATACCTCACCAGCCTTTGACCTCATGCCGTTGGAAC
AGGCGCAGAGGTCGCCAATCCGGAATTCGGCCGGGGACGGGTCGAATCCG
TGGGCGGACGAGCTCACAGCGCGGTTCGGTTTGGATCACCAGGATTCGGT
GGCATCTCCTCGGCAAATAGCTAGTAGTCCTTCACAGGGTATGGGGATGG
TGAACGGAAACGCATCAGACCAAGTTCCATCTACCTCTTTTCCTGGTGTT
CAAGAGAGAGGTGCTGCGGAATGGCGACCCGACAGGGAGTACACGGGTCA
ATCACCGGTGCAGCTACAGTCGAACAACCCTTTTCTGAAACCGAGGTCGC
CGGAACCAAATCCATGGCAAGATCGCAATTCTCACACCTCATATGGGGAG
TCGTCCCAATTTCACGACGGTGCTAGTGGACACCTCGGACAAGACGAGGG
ATACATCCCGATGACAGCGCGCTTATCGCTCTTTGATCAGCCCGAGGAAG
AGACTCCCTGGGTTGGTGAAGAGTCCACTGCGATGCAACCCCCCGCGTCT
TCGCAACCGTACGGATACCACGACCAGAGTCAATTATATGCTGGCCAAGA
AACTGGCATACATTATGGAACAACGAATGTGCCAGGTGCACCGTATACTA
GTCAACAAACGTATCTCCAGCCAACCCCACAGTTACATGACGAGGGCAGG
GAATCCCCGGCGAGGAGTATGAGTACTCCGGCGACTATATCCAGCAATAC
CACCGGCTCGTCTCACGTCTTGATTGAACTGGATGAAGCCCCTATTCCGC
CACCCAAAACAGATGCCCCTACCAAAGCGCCTCAAGGCTACAATCTTAAC
TCGCCAGAGGGTCCACAGGAAGAAATCTTGCGAGAGAAGCCTGGCGACGC
TCCCCCCTTGCCCGATCGCTCGAAAGGCCCTGGTGCCGTCTATACTCATT
CAGCATTCAGTGGACCAATGTCAGAAGCCGAAGCGAAGCGACAGCAAGAA
CAGCGGTCGGAGACCTACTCGATCAGACACGTCAACTGGGCTGATAGCAC
CGGCAAGTTACGCGAGTCGCCTATCCTGGTACAGAATAAAAATGGACCGT
GTCCTCTTCTGGCACTGGTCAATGCTCTTGTGCTACGCTCTACAATCCAC
GACTCACAGCCGCCGATTGTGAGAGCTTTGCAGACTCGCGAACAAATCTC
GTTAGGGTTGCTGATTGAGGCACTCTTTGATGAATTGACCACACGGCTGG
GGCCCGATGACGAGTTTCCTGATATCGAAGCTCTCAGTCGGTTTCTGACT
ATGCTGCATACCGGCATGAATGTCAATCCGCAACTCACTTTGGAATCTAA
TGATGCGCTGGGTACTTTCCTTGAAACCGAAGATATCCGTTTCTATGGAA
CATTCGGAGTCCCCTTAGTTCACGGATGGCTTGCAGCCCCGTCAACAGAG
GCTGATGCAGCATTGGCCCGCGTGGGTCAGTATCACGAAGATATTCAGTT
GCTTCCTTTCCGGAAGCAAGATCTGGAAGACCGCGTTATGCGAGGCAACG
CATTGACACCGGAGGAAGAACTCGTCATGAGTGATATCCAGACCATTCAA
AAGTTCACGGAGTTCGAGAACGCGACTCAACTGAGCACTTTCGGCTTGAA
TCATCTAGCGACGACATTGCAGCCCGGATCATTCTCGATCCTATTCCGCA
ACGATCATTTCTCGACGCTGTACAAACATCCCCGACTCGATCAGCTCTTT
ACGCTAGTTACCGATGCTGGTTATTCCAGCCACGCTGAGGTTGTATGGGA
GAGTCTTGTCGACGTCAATGGTTCAGAAGCTGGTTTCTTTTCCGGAGACT
TTCGCCCTGTCAGCCATGACGCTCCTCCCCCTTCTGACCCATCGGGCCCA
AGAACATCGAGCAATACCGGCCTTGCTCCCGAGCCACATGAACAGCGTAG
CAGCACCATGACTCCCCAGGAACAGGCCGATGCAGACTACGCCTACGCGC
TCGCTCTCCAGTACCAGGAAGAAGAGCAACGAGCCAATGCCACGACCAAT
AGAGATTCGACCAACAGAAACCCTTCCCAGCGAGCTTCAGTCTCCCACCC
CCCATCATCGGGGCTAGCACCCGGGGCAGCATACACTCGCAACCGTTCAT
CAAGCGCTGTAAACCCCAGCAGTGCTTCATACGCCACAGTTGCATCTGGA
AACCGCTCCTCAAGGCAAAGTCAGCGTCCTGCCCGGTACTCCCAGTCCAA
CATACCAACCATCCGGCCGACGGATGACGACGACGTCCCCCCGCCTTCAT
ATGAGCAGGCAGCGAGAAGTCCAGTATACCCGTCGCCCCAGCGGAGCCCC
AACTTCACAGACTCATCTAATGCGTCTCCGTACCAAAGAACCCAACAGGG
GAGACGACCTCCGGGTGTGCCTCTCACCACCGGACCCTCGGAACGCACAA
GAGACCGACCCAAAGACTGCATCGTGATGTGAATGGTCTTGCGAAAACGA
GCTCCGCCACGCCTCAACAGCCTTCCTCAAGGGAATGACCGTACTGGATC
CCGCTTCACCAACTCCAAACTCTCCCCGACTTCCAAATCCCTCTCATCCT
CGTCGCCAAAACGCCTGACTCGCCCGCGACGGGCTCAAAGCTCTCCTCAA
CCTCATCGGGTTGTTTCTCAGGAATCGGTCTTTTCTCCCGATCTCAATAC
CTCACCAGCCTTTGACCTCATGCCGTTGGAACAGGCGCAGAGGTCGCCAA
TCCGGAATTCGGCCGGGGACGGGTCGAATCCGTGGGCGGACGAGCTCACA
GCGCGGTTCGGTTTGGATCACCAGGATTCGGTGGCATCTCCTCGGCAAAT
AGCTAGTAGTCCTTCACAGGGTATGGGGATGGTGAACGGAAACGCATCAG
ACCAAGTTCCATCTACCTCTTTTCCTGGTGTTCAAGAGAGAGGTGCTGCG
GAATGGCGACCCGACAGGGAGTACACGGGTCAATCACCGGTGCAGCTACA
GTCGAACAACCCTTTTCTGAAACCGAGGTCGCCGGAACCAAATCCATGGC
AAGATCGCAATTCTCACACCTCATATGGGGAGTCGTCCCAATTTCACGAC
GGTGCTAGTGGACACCTCGGACAAGACGAGGGATACATCCCGATGACAGC
GCGCTTATCGCTCTTTGATCAGCCCGAGGAAGAGACTCCCTGGGTTGGTG
AAGAGTCCACTGCGATGCAACCCCCCGCGTCTTCGCAACCGTACGGATAC
CACGACCAGAGTCAATTATATGCTGGCCAAGAAACTGGCATACATTATGG
AACAACGAATGTGCCAGGTGCACCGTATACTAGTCAACAAACGTATCTCC
AGCCAACCCCACAGTTACATGACGAGGGCAGGGAATCCCCGGCGAGGAGT
ATGAGTACTCCGGCGACTATATCCAGCAATACCACCGGCTCGTCTCACGT
CTTGATTGAACTGGATGAAGCCCCTATTCCGCCACCCAAAACAGATGCCC
CTACCAAAGCGCCTCAAGGCTACAATCTTAACTCGCCAGAGGGTCCACAG
GAAGAAATCTTGCGAGAGAAGCCTGGCGACGCTCCCCCCTTGCCCGATCG
CTCGAAAGGCCCTGGTGCCGTCTATACTCATTCAGCATTCAGTGGACCAA
TGTCAGAAGCCGAAGCGAAGCGACAGCAAGAACAGCGGTCGGAGACCTAC
TCGATCAGACACGTCAACTGGGCTGATAGCACCGGCAAGTTACGCGAGTC
GCCTATCCTGGTACAGAATAAAAATGGACCGTGTCCTCTTCTGGCACTGG
TCAATGCTCTTGTGCTACGCTCTACAATCCACGACTCACAGCCGCCGATT
GTGAGAGCTTTGCAGACTCGCGAACAAATCTCGTTAGGGTTGCTGATTGA
GGCACTCTTTGATGAATTGACCACACGGCTGGGGCCCGATGACGAGTTTC
CTGATATCGAAGCTCTCAGTCGGTTTCTGACTATGCTGCATACCGGCATG
AATGTCAATCCGCAACTCACTTTGGAATCTAATGATGCGCTGGGTACTTT
CCTTGAAACCGAAGATATCCGTTTCTATGGAACATTCGGAGTCCCCTTAG
TTCACGGATGGCTTGCAGCCCCGTCAACAGAGGCTGATGCAGCATTGGCC
CGCGTGGGTCAGTATCACGAAGATATTCAGTTGCTTCCTTTCCGGAAGCA
AGATCTGGAAGACCGCGTTATGCGAGGCAACGCATTGACACCGGAGGAAG
AACTCGTCATGAGTGATATCCAGACCATTCAAAAGTTCACGGAGTTCGAG
AACGCGACTCAACTGAGCACTTTCGGCTTGAATCATCTAGCGACGACATT
GCAGCCCGGATCATTCTCGATCCTATTCCGCAACGATCATTTCTCGACGC
TGTACAAACATCCCCGACTCGATCAGCTCTTTACGCTAGTTACCGATGCT
GGTTATTCCAGCCACGCTGAGGTTGTATGGGAGAGTCTTGTCGACGTCAA
TGGTTCAGAAGCTGGTTTCTTTTCCGGAGACTTTCGCCCTGTCAGCCATG
ACGCTCCTCCCCCTTCTGACCCATCGGGCCCAAGAACATCGAGCAATACC
GGCCTTGCTCCCGAGCCACATGAACAGCGTAGCAGCACCATGACTCCCCA
GGAACAGGCCGATGCAGACTACGCCTACGCGCTCGCTCTCCAGTACCAGG
AAGAAGAGCAACGAGCCAATGCCACGACCAATAGAGATTCGACCAACAGA
AACCCTTCCCAGCGAGCTTCAGTCTCCCACCCCCCATCATCGGGGCTAGC
ACCCGGGGCAGCATACACTCGCAACCGTTCATCAAGCGCTGTAAACCCCA
GCAGTGCTTCATACGCCACAGTTGCATCTGGAAACCGCTCCTCAAGGCAA
AGTCAGCGTCCTGCCCGGTACTCCCAGTCCAACATACCAACCATCCGGCC
GACGGATGACGACGACGTCCCCCCGCCTTCATATGAGCAGGCAGCGAGAA
GTCCAGTATACCCGTCGCCCCAGCGGAGCCCCAACTTCACAGACTCATCT
AATGCGTCTCCGTACCAAAGAACCCAACAGGGGAGACGACCTCCGGGTGT
GCCTCTCACCACCGGACCCTCGGAACGCACAAGAGACCGACCCAAAGACT
GCATCGTGATGTGAATGGTCTTGCGAAAACGAGCTCCGCCACGCCTCAAC
AGCCTTCCTCAAGGGAATGACCGTACTGGATCCCGCTTCACCAACTCCAA
ACTCTCCCCGACTTCCAAATCCCTCTCATCCTCGTCGCCAAAACGCCTGA
CTCGCCCGCGACGGGCTCAAAGCTCTCCTCAACCTCATCGGGTTGTTTCT
CAGGAATCGGTCTTTTCTCCCGATCTCAATACCTCACCAGCCTTTGACCT
CATGCCGTTGGAACAGGCGCAGAGGTCGCCAATCCGGAATTCGGCCGGGG
ACGGGTCGAATCCGTGGGCGGACGAGCTCACAGCGCGGTTCGGTTTGGAT
CACCAGGATTCGGTGGCATCTCCTCGGCAAATAGCTAGTAGTCCTTCACA
GGGTATGGGGATGGTGAACGGAAACGCATCAGACCAAGTTCCATCTACCT
CTTTTCCTGGTGTTCAAGAGAGAGGTGCTGCGGAATGGCGACCCGACAGG
GAGTACACGGGTCAATCACCGGTGCAGCTACAGTCGAACAACCCTTTTCT
GAAACCGAGGTCGCCGGAACCAAATCCATGGCAAGATCGCAATTCTCACA
CCTCATATGGGGAGTCGTCCCAATTTCACGACGGTGCTAGTGGACACCTC
GGACAAGACGAGGGATACATCCCGATGACAGCGCGCTTATCGCTCTTTGA
TCAGCCCGAGGAAGAGACTCCCTGGGTTGGTGAAGAGTCCACTGCGATGC
AACCCCCCGCGTCTTCGCAACCGTACGGATACCACGACCAGAGTCAATTA
TATGCTGGCCAAGAAACTGGCATACATTATGGAACAACGAATGTGCCAGG
TGCACCGTATACTAGTCAACAAACGTATCTCCAGCCAACCCCACAGTTAC
ATGACGAGGGCAGGGAATCCCCGGCGAGGAGTATGAGTACTCCGGCGACT
ATATCCAGCAATACCACCGGCTCGTCTCACGTCTTGATTGAACTGGATGA
AGCCCCTATTCCGCCACCCAAAACAGATGCCCCTACCAAAGCGCCTCAAG
GCTACAATCTTAACTCGCCAGAGGGTCCACAGGAAGAAATCTTGCGAGAG
AAGCCTGGCGACGCTCCCCCCTTGCCCGATCGCTCGAAAGGCCCTGGTGC
CGTCTATACTCATTCAGCATTCAGTGGACCAATGTCAGAAGCCGAAGCGA
AGCGACAGCAAGAACAGCGGTCGGAGACCTACTCGATCAGACACGTCAAC
TGGGCTGATAGCACCGGCAAGTTACGCGAGTCGCCTATCCTGGTACAGAA
TAAAAATGGACCGTGTCCTCTTCTGGCACTGGTCAATGCTCTTGTGCTAC
GCTCTACAATCCACGACTCACAGCCGCCGATTGTGAGAGCTTTGCAGACT
CGCGAACAAATCTCGTTAGGGTTGCTGATTGAGGCACTCTTTGATGAATT
GACCACACGGCTGGGGCCCGATGACGAGTTTCCTGATATCGAAGCTCTCA
GTCGGTTTCTGACTATGCTGCATACCGGCATGAATGTCAATCCGCAACTC
ACTTTGGAATCTAATGATGCGCTGGGTACTTTCCTTGAAACCGAAGATAT
CCGTTTCTATGGAACATTCGGAGTCCCCTTAGTTCACGGATGGCTTGCAG
CCCCGTCAACAGAGGCTGATGCAGCATTGGCCCGCGTGGGTCAGTATCAC
GAAGATATTCAGTTGCTTCCTTTCCGGAAGCAAGATCTGGAAGACCGCGT
TATGCGAGGCAACGCATTGACACCGGAGGAAGAACTCGTCATGAGTGATA
TCCAGACCATTCAAAAGTTCACGGAGTTCGAGAACGCGACTCAACTGAGC
ACTTTCGGCTTGAATCATCTAGCGACGACATTGCAGCCCGGATCATTCTC
GATCCTATTCCGCAACGATCATTTCTCGACGCTGTACAAACATCCCCGAC
TCGATCAGCTCTTTACGCTAGTTACCGATGCTGGTTATTCCAGCCACGCT
GAGGTTGTATGGGAGAGTCTTGTCGACGTCAATGGTTCAGAAGCTGGTTT
CTTTTCCGGAGACTTTCGCCCTGTCAGCCATGACGCTCCTCCCCCTTCTG
ACCCATCGGGCCCAAGAACATCGAGCAATACCGGCCTTGCTCCCGAGCCA
CATGAACAGCGTAGCAGCACCATGACTCCCCAGGAACAGGCCGATGCAGA
CTACGCCTACGCGCTCGCTCTCCAGTACCAGGAAGAAGAGCAACGAGCCA
ATGCCACGACCAATAGAGATTCGACCAACAGAAACCCTTCCCAGCGAGCT
TCAGTCTCCCACCCCCCATCATCGGGGCTAGCACCCGGGGCAGCATACAC
TCGCAACCGTTCATCAAGCGCTGTAAACCCCAGCAGTGCTTCATACGCCA
CAGTTGCATCTGGAAACCGCTCCTCAAGGCAAAGTCAGCGTCCTGCCCGG
TACTCCCAGTCCAACATACCAACCATCCGGCCGACGGATGACGACGACGT
CCCCCCGCCTTCATATGAGCAGGCAGCGAGAAGTCCAGTATACCCGTCGC
CCCAGCGGAGCCCCAACTTCACAGACTCATCTAATGCGTCTCCGTACCAA
AGAACCCAACAGGGGAGACGACCTCCGGGTGTGCCTCTCACCACCGGACC
CTCGGAACGCACAAGAGACCGACCCAAAGACTGCATCGTGATGTGA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Molecular Function**
Term	Definition
GO:1990380	Lys48-specific deubiquitinase activity
GO:0004843	thiol-dependent ubiquitin-specific protease activity

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_15495	CAN33_15495	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_15495-T1.exon1	CAN33_15495-T1.exon1	Aspergillus niger FDAARGOS_311	exon
CAN33_15495-T1.exon2	CAN33_15495-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_15495-T1.exon3	CAN33_15495-T1.exon3	Aspergillus niger FDAARGOS_311	exon

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


Feature Name	Unique Name	Species	Type
CAN33_15495-T1.cds	CAN33_15495-T1.cds	Aspergillus niger FDAARGOS_311	CDS

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


Feature Name	Unique Name	Species	Type
CAN33_15495-T1	CAN33_15495-T1-protein	Aspergillus niger FDAARGOS_311	polypeptide

Properties


Property Name	Value
Note	MEROPS:MER1054226
DBxref	InterPro:IPR033979
DBxref	PFAM:PF04424
Product	Protein of unknown function (DUF544) family protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger FDAARGOS_311 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
NKJJ01000010.1	supercontig	NKJJ01000010.1:2124919..2127701 +

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CAN33_15495-T1, CAN33_15495-T1 (mRNA) Aspergillus niger FDAARGOS_311