ATCC64974_28830-T1, ATCC64974_28830-T1 (mRNA) Aspergillus niger N402

Overview


Name	ATCC64974_28830-T1
Unique Name	ATCC64974_28830-T1
Type	mRNA
Organism	Aspergillus niger N402

Sequences

The following sequences are available for this feature:

mRNA from alignment at OGUI01000004.1:696934..698933+
coding sequence from alignment at OGUI01000004.1:696934..698933+

mRNA from alignment at OGUI01000004.1:696934..698933+

Legend: polypeptideexonCDS

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

>ATCC64974_28830-T1 ID=ATCC64974_28830-T1|Name=ATCC64974_28830-T1|organism=Aspergillus niger N402|type=mRNA|length=2000bp|location=Sequence derived from alignment at OGUI01000004.1:696934..698933+ (Aspergillus niger N402)
ATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAATC
GGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGCCA
AGCCCAACGTCGTCTTCATATTAACCGATGATCAAGACGCCCATCTCGCC
TCTTTGGATTACATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGAAC
ACACTATCGCAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCGTG
TGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAACGTCACGGATGTC
AATCCTCCGCATGGTGAGTGTACTGCACATCGCCACTTATATCGGGGAAT
ATTCTCATACGCTTTCAGGCGGCTATCCAAAATTTATCTCTCAAGGTCTA
AATGACAATTATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTA
CTACACTGGTAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCC
CCTTCCCAGCTGGGTTCACCGGCAACGTGAGTCATCCAGCAGACTTTCTA
TTCAGTCGGCACTCTAATCTGTCATGTAGGACTTCCTCCTCGATCCATTC
ACATACGACTACCTTAACAGTACCTTCCAACGAGACCACGAAATACCCCA
AAGCTACGAAGGCGAATACAGCACTGATGTCCTCGCACAAAAGGCATATC
GCCTCCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTT
GCTCCAATTGCACCGCATTGCAACGTTTTCATGAATGGAACTGGCTTAGA
CGCCAACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGCGACACG
AGCACCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCG
GAAATCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACAAAACGA
TACTAATGTTGACTACAACGATCATTTTTACCGCCAGCGTCTACGCACCC
TCCAGGCCGTTGACGAGCTGGTTGATGGCTTATTTACACGTTTGAAGGAA
TACAATATCCTTGACAATACATATATAGTCTATAGTAGTGACAATGGATA
CCACATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGATACGAGG
AAGACATCAATGTTCCTTTGATTATTCGTGGTCCCGATATCGCGCAGAAT
GTATCTACGGATATTGTCACCACGCATACGGATCTTGCTCCCACTTTTCT
CGAGCTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACCCTATTT
CGTTGACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAGGAACAT
GTCACGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTATATACGACTG
TGCGTACTCTACTCCTACACCCCACTCTTTGACCATGGCTGAGCTAATCT
TGATAATGAAAGTTGACCTATCGGCATACAACAACACATACAAAGCCCTC
CGCATCAAGGGAATTGGATATAATCTTTACTATTCCGTTTGGTGTAACAA
TGAGCATGAACTCTATGATATGACTGTATTGGCCCCTCCCAAACCCATTT
CTCTTGGGAAATCTGACCAAAGAGACAGACTGACCCTCATCAACTTCATA
ATCTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCATCTTA
AACGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTCTCGT
GCTCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCCTTGC
ATCCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCACTAC
GATCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACGAGTG
TGCGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCAGGGA
CAGATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGTTTAA

Coding sequence (CDS) from alignment at OGUI01000004.1:696934..698933+

>ATCC64974_28830-T1 ID=ATCC64974_28830-T1|Name=ATCC64974_28830-T1|organism=Aspergillus niger N402|type=CDS|length=8880bp|location=Sequence derived from alignment at OGUI01000004.1:696934..698933+ (Aspergillus niger N402)
ATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAATC
GGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGCCA
AGCCCAACGTCGTCTTCATATTAACCGATGATCAAGACGCCCATCTCGCC
TCTTTGGATTACATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGAAC
ACACTATCGCAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCGTG
TGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAACGTCACGGATGTC
AATCCTCCGCATGGCGGCTATCCAAAATTTATCTCTCAAGGTCTAAATGA
CAATTATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTACTACA
CTGGTAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCCCCTTC
CCAGCTGGGTTCACCGGCAACGACTTCCTCCTCGATCCATTCACATACGA
CTACCTTAACAGTACCTTCCAACGAGACCACGAAATACCCCAAAGCTACG
AAGGCGAATACAGCACTGATGTCCTCGCACAAAAGGCATATCGCCTCCTC
AACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTTGCTCCAAT
TGCACCGCATTGCAACGTTTTCATGAATGGAACTGGCTTAGACGCCAACC
CTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGCGACACGAGCACCTA
TTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCGGAAATCCC
TTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACAAAACGATACTAATG
TTGACTACAACGATCATTTTTACCGCCAGCGTCTACGCACCCTCCAGGCC
GTTGACGAGCTGGTTGATGGCTTATTTACACGTTTGAAGGAATACAATAT
CCTTGACAATACATATATAGTCTATAGTAGTGACAATGGATACCACATTG
GTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGATACGAGGAAGACATC
AATGTTCCTTTGATTATTCGTGGTCCCGATATCGCGCAGAATGTATCTAC
GGATATTGTCACCACGCATACGGATCTTGCTCCCACTTTTCTCGAGCTGC
TGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACCCTATTTCGTTGACG
AGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAGGAACATGTCACGGT
TGAATATTGGGGATATGCGGCGGGCGAGGGTATATACGACTTTGACCTAT
CGGCATACAACAACACATACAAAGCCCTCCGCATCAAGGGAATTGGATAT
AATCTTTACTATTCCGTTTGGTGTAACAATGAGCATGAACTCTATGATAT
GACTACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAACAAC
CCAGTGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGTCGTT
CAGCGACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCCAAGT
ATGCGTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATGACGT
TGAAAGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGAGCAG
ACGACGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAGATGC
GGAGGGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGAGATG
GTTTGCCGTGGTATGAGTGGGTTTAAATGCGACACCTGGTCTATTTGTTA
GCCCTGGCTGGGCTTACTACAAAATCGGTAGGGCAGCAGAAGCAGCAGCA
GCAGCAGCCGCTTTCTGCGACCGCCAAGCCCAACGTCGTCTTCATATTAA
CCGATGATCAAGACGCCCATCTCGCCTCTTTGGATTACATGCCTTATGTA
CGAAAGCACCTCCTAGACAAAGGAACACACTATCGCAGTCACTACTGTAC
AACCAGTGTCTGTTGTCCATCGCGTGTGACCCTTTGGACGGGAAAGCTGG
CCCACAATACGAACGTCACGGATGTCAATCCTCCGCATGGCGGCTATCCA
AAATTTATCTCTCAAGGTCTAAATGACAATTATTTCCCTGTTTGGCTGCA
GGAAGCGGGGTACAACACTTACTACACTGGTAAACTGTTCAACGTCCACA
CGGTCGACAACTACAACGCCCCCTTCCCAGCTGGGTTCACCGGCAACGAC
TTCCTCCTCGATCCATTCACATACGACTACCTTAACAGTACCTTCCAACG
AGACCACGAAATACCCCAAAGCTACGAAGGCGAATACAGCACTGATGTCC
TCGCACAAAAGGCATATCGCCTCCTCAACGAAGCAGTCACGGCCCAAAAG
CCCTTCTTTCTCACGGTTGCTCCAATTGCACCGCATTGCAACGTTTTCAT
GAATGGAACTGGCTTAGACGCCAACCCTAAATTCAGCTTCAGCGCACCTA
TCCCCGCGAAGCGACACGAGCACCTATTCCCAGATGTCAAAGTTCCCCGC
ACCCCCTCCTTCAATCCGGAAATCCCTTCAGGCGCCAACTGGATTAAGAC
TCTCAAGCGACAAAACGATACTAATGTTGACTACAACGATCATTTTTACC
GCCAGCGTCTACGCACCCTCCAGGCCGTTGACGAGCTGGTTGATGGCTTA
TTTACACGTTTGAAGGAATACAATATCCTTGACAATACATATATAGTCTA
TAGTAGTGACAATGGATACCACATTGGTCAACACCGACTTCAGCCAGGCA
AGTCGTGTGGATACGAGGAAGACATCAATGTTCCTTTGATTATTCGTGGT
CCCGATATCGCGCAGAATGTATCTACGGATATTGTCACCACGCATACGGA
TCTTGCTCCCACTTTTCTCGAGCTGCTGGGTATTCCCCTTCGAGAGGACT
TCGATGGCAACCCTATTTCGTTGACGAGGAGCCAGATCGAGAGGGCCCAA
GAAGAGAGACAGGAACATGTCACGGTTGAATATTGGGGATATGCGGCGGG
CGAGGGTATATACGACTTTGACCTATCGGCATACAACAACACATACAAAG
CCCTCCGCATCAAGGGAATTGGATATAATCTTTACTATTCCGTTTGGTGT
AACAATGAGCATGAACTCTATGATATGACTACTGACCCTCATCAACTTCA
TAATCTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCATCT
TAAACGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTCTC
GTGCTCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCCTT
GCATCCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCACT
ACGATCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACGAG
TGTGCGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCAGG
GACAGATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGTTT
AAATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAA
TCGGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGC
CAAGCCCAACGTCGTCTTCATATTAACCGATGATCAAGACGCCCATCTCG
CCTCTTTGGATTACATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGA
ACACACTATCGCAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCG
TGTGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAACGTCACGGATG
TCAATCCTCCGCATGGCGGCTATCCAAAATTTATCTCTCAAGGTCTAAAT
GACAATTATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTACTA
CACTGGTAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCCCCT
TCCCAGCTGGGTTCACCGGCAACGACTTCCTCCTCGATCCATTCACATAC
GACTACCTTAACAGTACCTTCCAACGAGACCACGAAATACCCCAAAGCTA
CGAAGGCGAATACAGCACTGATGTCCTCGCACAAAAGGCATATCGCCTCC
TCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTTGCTCCA
ATTGCACCGCATTGCAACGTTTTCATGAATGGAACTGGCTTAGACGCCAA
CCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGCGACACGAGCACC
TATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCGGAAATC
CCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACAAAACGATACTAA
TGTTGACTACAACGATCATTTTTACCGCCAGCGTCTACGCACCCTCCAGG
CCGTTGACGAGCTGGTTGATGGCTTATTTACACGTTTGAAGGAATACAAT
ATCCTTGACAATACATATATAGTCTATAGTAGTGACAATGGATACCACAT
TGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGATACGAGGAAGACA
TCAATGTTCCTTTGATTATTCGTGGTCCCGATATCGCGCAGAATGTATCT
ACGGATATTGTCACCACGCATACGGATCTTGCTCCCACTTTTCTCGAGCT
GCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACCCTATTTCGTTGA
CGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAGGAACATGTCACG
GTTGAATATTGGGGATATGCGGCGGGCGAGGGTATATACGACTTTGACCT
ATCGGCATACAACAACACATACAAAGCCCTCCGCATCAAGGGAATTGGAT
ATAATCTTTACTATTCCGTTTGGTGTAACAATGAGCATGAACTCTATGAT
ATGACTACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAACA
ACCCAGTGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGTCG
TTCAGCGACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCCAA
GTATGCGTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATGAC
GTTGAAAGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGAGC
AGACGACGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAGAT
GCGGAGGGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGAGA
TGGTTTGCCGTGGTATGAGTGGGTTTAAATGCGACACCTGGTCTATTTGT
TAGCCCTGGCTGGGCTTACTACAAAATCGGTAGGGCAGCAGAAGCAGCAG
CAGCAGCAGCCGCTTTCTGCGACCGCCAAGCCCAACGTCGTCTTCATATT
AACCGATGATCAAGACGCCCATCTCGCCTCTTTGGATTACATGCCTTATG
TACGAAAGCACCTCCTAGACAAAGGAACACACTATCGCAGTCACTACTGT
ACAACCAGTGTCTGTTGTCCATCGCGTGTGACCCTTTGGACGGGAAAGCT
GGCCCACAATACGAACGTCACGGATGTCAATCCTCCGCATGGCGGCTATC
CAAAATTTATCTCTCAAGGTCTAAATGACAATTATTTCCCTGTTTGGCTG
CAGGAAGCGGGGTACAACACTTACTACACTGGTAAACTGTTCAACGTCCA
CACGGTCGACAACTACAACGCCCCCTTCCCAGCTGGGTTCACCGGCAACG
ACTTCCTCCTCGATCCATTCACATACGACTACCTTAACAGTACCTTCCAA
CGAGACCACGAAATACCCCAAAGCTACGAAGGCGAATACAGCACTGATGT
CCTCGCACAAAAGGCATATCGCCTCCTCAACGAAGCAGTCACGGCCCAAA
AGCCCTTCTTTCTCACGGTTGCTCCAATTGCACCGCATTGCAACGTTTTC
ATGAATGGAACTGGCTTAGACGCCAACCCTAAATTCAGCTTCAGCGCACC
TATCCCCGCGAAGCGACACGAGCACCTATTCCCAGATGTCAAAGTTCCCC
GCACCCCCTCCTTCAATCCGGAAATCCCTTCAGGCGCCAACTGGATTAAG
ACTCTCAAGCGACAAAACGATACTAATGTTGACTACAACGATCATTTTTA
CCGCCAGCGTCTACGCACCCTCCAGGCCGTTGACGAGCTGGTTGATGGCT
TATTTACACGTTTGAAGGAATACAATATCCTTGACAATACATATATAGTC
TATAGTAGTGACAATGGATACCACATTGGTCAACACCGACTTCAGCCAGG
CAAGTCGTGTGGATACGAGGAAGACATCAATGTTCCTTTGATTATTCGTG
GTCCCGATATCGCGCAGAATGTATCTACGGATATTGTCACCACGCATACG
GATCTTGCTCCCACTTTTCTCGAGCTGCTGGGTATTCCCCTTCGAGAGGA
CTTCGATGGCAACCCTATTTCGTTGACGAGGAGCCAGATCGAGAGGGCCC
AAGAAGAGAGACAGGAACATGTCACGGTTGAATATTGGGGATATGCGGCG
GGCGAGGGTATATACGACTTTGACCTATCGGCATACAACAACACATACAA
AGCCCTCCGCATCAAGGGAATTGGATATAATCTTTACTATTCCGTTTGGT
GTAACAATGAGCATGAACTCTATGATATGACTACTGACCCTCATCAACTT
CATAATCTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCAT
CTTAAACGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTC
TCGTGCTCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCC
TTGCATCCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCA
CTACGATCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACG
AGTGTGCGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCA
GGGACAGATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGT
TTAAATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAA
AATCGGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACC
GCCAAGCCCAACGTCGTCTTCATATTAACCGATGATCAAGACGCCCATCT
CGCCTCTTTGGATTACATGCCTTATGTACGAAAGCACCTCCTAGACAAAG
GAACACACTATCGCAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCG
CGTGTGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAACGTCACGGA
TGTCAATCCTCCGCATGGCGGCTATCCAAAATTTATCTCTCAAGGTCTAA
ATGACAATTATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTAC
TACACTGGTAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCCC
CTTCCCAGCTGGGTTCACCGGCAACGACTTCCTCCTCGATCCATTCACAT
ACGACTACCTTAACAGTACCTTCCAACGAGACCACGAAATACCCCAAAGC
TACGAAGGCGAATACAGCACTGATGTCCTCGCACAAAAGGCATATCGCCT
CCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTTGCTC
CAATTGCACCGCATTGCAACGTTTTCATGAATGGAACTGGCTTAGACGCC
AACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGCGACACGAGCA
CCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCGGAAA
TCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACAAAACGATACT
AATGTTGACTACAACGATCATTTTTACCGCCAGCGTCTACGCACCCTCCA
GGCCGTTGACGAGCTGGTTGATGGCTTATTTACACGTTTGAAGGAATACA
ATATCCTTGACAATACATATATAGTCTATAGTAGTGACAATGGATACCAC
ATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGATACGAGGAAGA
CATCAATGTTCCTTTGATTATTCGTGGTCCCGATATCGCGCAGAATGTAT
CTACGGATATTGTCACCACGCATACGGATCTTGCTCCCACTTTTCTCGAG
CTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACCCTATTTCGTT
GACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAGGAACATGTCA
CGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTATATACGACTTTGAC
CTATCGGCATACAACAACACATACAAAGCCCTCCGCATCAAGGGAATTGG
ATATAATCTTTACTATTCCGTTTGGTGTAACAATGAGCATGAACTCTATG
ATATGACTACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAA
CAACCCAGTGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGT
CGTTCAGCGACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCC
AAGTATGCGTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATG
ACGTTGAAAGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGA
GCAGACGACGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAG
ATGCGGAGGGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGA
GATGGTTTGCCGTGGTATGAGTGGGTTTAA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0018958	phenol-containing compound metabolic process

Vocabulary: **Molecular Function**
Term	Definition
GO:0008484	sulfuric ester hydrolase activity
GO:0003824	catalytic activity
GO:0004065	arylsulfatase activity

Relationships

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


Feature Name	Unique Name	Species	Type
ATCC64974_28830	ATCC64974_28830	Aspergillus niger N402	gene

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


Feature Name	Unique Name	Species	Type
ATCC64974_28830-T1	ATCC64974_28830-T1-protein	Aspergillus niger N402	polypeptide

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


Feature Name	Unique Name	Species	Type
ATCC64974_28830-T1.exon1	ATCC64974_28830-T1.exon1	Aspergillus niger N402	exon
ATCC64974_28830-T1.exon2	ATCC64974_28830-T1.exon2	Aspergillus niger N402	exon
ATCC64974_28830-T1.exon3	ATCC64974_28830-T1.exon3	Aspergillus niger N402	exon
ATCC64974_28830-T1.exon4	ATCC64974_28830-T1.exon4	Aspergillus niger N402	exon
ATCC64974_28830-T1.exon5	ATCC64974_28830-T1.exon5	Aspergillus niger N402	exon

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


Feature Name	Unique Name	Species	Type
ATCC64974_28830-T1.cds	ATCC64974_28830-T1.cds	Aspergillus niger N402	CDS

Properties


Property Name	Value
Note	antiSMASH:Cluster_10000041.2
Note	EggNog:ENOG41
Note	SECRETED:SignalP(1-19)
DBxref	InterPro:IPR024607
DBxref	InterPro:IPR000917
DBxref	InterPro:IPR017850
DBxref	InterPro:IPR012083
DBxref	PFAM:PF00884
Product	hypothetical protein

Analyses

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


Analysis Name	Date Performed
Aspergillus niger N402 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
OGUI01000004.1	supercontig	OGUI01000004.1:696934..698933 +

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ATCC64974_28830-T1, ATCC64974_28830-T1 (mRNA) Aspergillus niger N402

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ATCC64974_28830-T1, ATCC64974_28830-T1 (mRNA) Aspergillus niger N402