CAN33_26520-T1, CAN33_26520-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_26520-T1
Unique Name	CAN33_26520-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000002.1:3059443..3061545-
coding sequence from alignment at NKJJ01000002.1:3059443..3061545-

mRNA from alignment at NKJJ01000002.1:3059443..3061545-

Legend: polypeptideCDSexon

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

>CAN33_26520-T1 ID=CAN33_26520-T1|Name=CAN33_26520-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2103bp|location=Sequence derived from alignment at NKJJ01000002.1:3059443..3061545- (Aspergillus niger FDAARGOS_311)
ATGTCTGTAATCATCCACCTGGACCGGCCACATAAGCATTTCACCAATCT
CGACTACCTCACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGCAA
TCGGAGGCATTCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGGCA
GGTCCGAAAAATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAAAT
CGAGGTTCACAAGGTGCGAATTCTGAGGCATTTCCCTCTGGCCTTTTCCT
CTGTTTCCATCCGAGACGCGAAACAAAACATTTGTGTGATGCCCTTCAAT
GCAAGCGATACTGACCAGCTGGTGTAGATCCTGTACAAAGTCGAAACGGT
TTTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGACAGGGCTTATA
CATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTAAGGTCAGTATG
GCTCGCAGAGTATCACCCGTGACATACAGAACTTATAGTGGCTGTTCAGT
TCCCATTCAACAATTCCTGCAGCATACACAATAGCATGCTTACGAACCTG
AACATCACGGGTCTGAGAGTGGAAATGGCCAGAGACACCGCTCGCCATGT
GAAAAAGACGCTCCCTCCATCTCTAAGTGGCTTCCCGGGCATGGCCGACA
TCAAATACTATGTGAAAGCGACGGTTATTCGTCCACAGTTCTACAAGGAG
AACATCAGGGCGGTATGTTGATTTTTTTTTACGAGCGATCGCTGCGATAA
GACGATAATCCGCAGCATTCCATGCTGATAATTGGCTTCTAGATCACCAA
CCTAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAACCCGAGCGAAG
AAACTTATGCAAGACGACAACACCAGTTCACAAATGCCCCGAATGTGTCC
AAAAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGCTCCGGGATGC
CGCGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTACCTAACCCGT
CAATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCTCGTCAAGAAA
CTGTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATACAGGTTGAGCT
GATTTCTTACACAAACATTATTGCTCATGACTTACGGCGCACCGAAAGCG
GCACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACCTCTGGGAAGA
GGCGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTGGTTTATGGAA
TGGCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAGACCTGCAATG
TCTCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGACTCATGGAAGT
GTTGGCAACATGAAGGTGAGTTCTTGGCTGCACATTTCTGGACGCTTTGC
TCACAACCAGTAGCCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGA
AAGTTTACTCCGGAATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCG
GCCAACGGGCAGGCTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATC
GATGGATAGTAGTACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCAC
CTATGCCTGCCAACCCTGAGGACGGCTACGACGATGCACCTCCCAGTTAC
GAAGATGCCATGGCTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGA
GTATAACCCACCAGATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTG
ATCCGCGATCTCCAGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGC
AATCAGGAAGCGATGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAG
TCCGCCAGAGTCCCGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTC
AACAAAGCGTGCTCAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGAT
AGCCCTCCCGAATATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCA
TAGCCAGGTTAATCGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACC
TGGGCGTTCCCAGCAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACG
TGA

Coding sequence (CDS) from alignment at NKJJ01000002.1:3059443..3061545-

>CAN33_26520-T1 ID=CAN33_26520-T1|Name=CAN33_26520-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9015bp|location=Sequence derived from alignment at NKJJ01000002.1:3059443..3061545- (Aspergillus niger FDAARGOS_311)
CCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGAAAGTTTACTCCGG
AATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCGGCCAACGGGCAGG
CTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATCGATGGATAGTAGT
ACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCACCTATGCCTGCCAA
CCCTGAGGACGGCTACGACGATGCACCTCCCAGTTACGAAGATGCCATGG
CTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGAGTATAACCCACCA
GATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTGATCCGCGATCTCC
AGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGCAATCAGGAAGCGA
TGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAGTCCGCCAGAGTCC
CGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTCAACAAAGCGTGCT
CAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGATAGCCCTCCCGAAT
ATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCATAGCCAGGTTAAT
CGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACCTGGGCGTTCCCAG
CAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACGTGAATCACCAACC
TAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAACCCGAGCGAAGAA
ACTTATGCAAGACGACAACACCAGTTCACAAATGCCCCGAATGTGTCCAA
AAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGCTCCGGGATGCCG
CGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTACCTAACCCGTCA
ATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCTCGTCAAGAAACT
GTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATACAGGTTGAGCTGA
TTTCTTACACAAACATTATTGCTCATGACTTACGGCGCACCGAAAGCGGC
ACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACCTCTGGGAAGAGG
CGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTGGTTTATGGAATG
GCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAGACCTGCAATGTC
TCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGACTCATGGAAGTGT
TGGCAACATGAAGTTCCCATTCAACAATTCCTGCAGCATACACAATAGCA
TGCTTACGAACCTGAACATCACGGGTCTGAGAGTGGAAATGGCCAGAGAC
ACCGCTCGCCATGTGAAAAAGACGCTCCCTCCATCTCTAAGTGGCTTCCC
GGGCATGGCCGACATCAAATACTATGTGAAAGCGACGGTTATTCGTCCAC
AGTTCTACAAGGAGAACATCAGGGCGATCCTGTACAAAGTCGAAACGGTT
TTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGACAGGGCTTATAC
ATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTAAGATGTCTGTAA
TCATCCACCTGGACCGGCCACATAAGCATTTCACCAATCTCGACTACCTC
ACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGCAATCGGAGGCAT
TCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGGCAGGTCCGAAAA
ATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAAATCGAGGTTCAC
AAGCCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGAAAGTTTACTC
CGGAATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCGGCCAACGGGC
AGGCTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATCGATGGATAGT
AGTACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCACCTATGCCTGC
CAACCCTGAGGACGGCTACGACGATGCACCTCCCAGTTACGAAGATGCCA
TGGCTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGAGTATAACCCA
CCAGATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTGATCCGCGATC
TCCAGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGCAATCAGGAAG
CGATGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAGTCCGCCAGAG
TCCCGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTCAACAAAGCGT
GCTCAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGATAGCCCTCCCG
AATATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCATAGCCAGGTT
AATCGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACCTGGGCGTTCC
CAGCAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACGTGAATCACCA
ACCTAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAACCCGAGCGAA
GAAACTTATGCAAGACGACAACACCAGTTCACAAATGCCCCGAATGTGTC
CAAAAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGCTCCGGGATG
CCGCGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTACCTAACCCG
TCAATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCTCGTCAAGAA
ACTGTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATACAGGTTGAGC
TGATTTCTTACACAAACATTATTGCTCATGACTTACGGCGCACCGAAAGC
GGCACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACCTCTGGGAAG
AGGCGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTGGTTTATGGA
ATGGCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAGACCTGCAAT
GTCTCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGACTCATGGAAG
TGTTGGCAACATGAAGTTCCCATTCAACAATTCCTGCAGCATACACAATA
GCATGCTTACGAACCTGAACATCACGGGTCTGAGAGTGGAAATGGCCAGA
GACACCGCTCGCCATGTGAAAAAGACGCTCCCTCCATCTCTAAGTGGCTT
CCCGGGCATGGCCGACATCAAATACTATGTGAAAGCGACGGTTATTCGTC
CACAGTTCTACAAGGAGAACATCAGGGCGATCCTGTACAAAGTCGAAACG
GTTTTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGACAGGGCTTA
TACATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTAAGATGTCTG
TAATCATCCACCTGGACCGGCCACATAAGCATTTCACCAATCTCGACTAC
CTCACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGCAATCGGAGG
CATTCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGGCAGGTCCGA
AAAATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAAATCGAGGTT
CACAAGCCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGAAAGTTTA
CTCCGGAATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCGGCCAACG
GGCAGGCTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATCGATGGAT
AGTAGTACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCACCTATGCC
TGCCAACCCTGAGGACGGCTACGACGATGCACCTCCCAGTTACGAAGATG
CCATGGCTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGAGTATAAC
CCACCAGATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTGATCCGCG
ATCTCCAGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGCAATCAGG
AAGCGATGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAGTCCGCCA
GAGTCCCGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTCAACAAAG
CGTGCTCAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGATAGCCCTC
CCGAATATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCATAGCCAG
GTTAATCGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACCTGGGCGT
TCCCAGCAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACGTGAATCA
CCAACCTAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAACCCGAGC
GAAGAAACTTATGCAAGACGACAACACCAGTTCACAAATGCCCCGAATGT
GTCCAAAAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGCTCCGGG
ATGCCGCGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTACCTAAC
CCGTCAATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCTCGTCAA
GAAACTGTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATACAGGTTG
AGCTGATTTCTTACACAAACATTATTGCTCATGACTTACGGCGCACCGAA
AGCGGCACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACCTCTGGG
AAGAGGCGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTGGTTTAT
GGAATGGCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAGACCTGC
AATGTCTCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGACTCATGG
AAGTGTTGGCAACATGAAGTTCCCATTCAACAATTCCTGCAGCATACACA
ATAGCATGCTTACGAACCTGAACATCACGGGTCTGAGAGTGGAAATGGCC
AGAGACACCGCTCGCCATGTGAAAAAGACGCTCCCTCCATCTCTAAGTGG
CTTCCCGGGCATGGCCGACATCAAATACTATGTGAAAGCGACGGTTATTC
GTCCACAGTTCTACAAGGAGAACATCAGGGCGATCCTGTACAAAGTCGAA
ACGGTTTTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGACAGGGC
TTATACATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTAAGATGT
CTGTAATCATCCACCTGGACCGGCCACATAAGCATTTCACCAATCTCGAC
TACCTCACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGCAATCGG
AGGCATTCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGGCAGGTC
CGAAAAATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAAATCGAG
GTTCACAAGCCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGAAAGT
TTACTCCGGAATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCGGCCA
ACGGGCAGGCTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATCGATG
GATAGTAGTACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCACCTAT
GCCTGCCAACCCTGAGGACGGCTACGACGATGCACCTCCCAGTTACGAAG
ATGCCATGGCTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGAGTAT
AACCCACCAGATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTGATCC
GCGATCTCCAGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGCAATC
AGGAAGCGATGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAGTCCG
CCAGAGTCCCGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTCAACA
AAGCGTGCTCAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGATAGCC
CTCCCGAATATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCATAGC
CAGGTTAATCGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACCTGGG
CGTTCCCAGCAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACGTGAA
TCACCAACCTAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAACCCG
AGCGAAGAAACTTATGCAAGACGACAACACCAGTTCACAAATGCCCCGAA
TGTGTCCAAAAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGCTCC
GGGATGCCGCGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTACCT
AACCCGTCAATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCTCGT
CAAGAAACTGTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATACAGG
TTGAGCTGATTTCTTACACAAACATTATTGCTCATGACTTACGGCGCACC
GAAAGCGGCACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACCTCT
GGGAAGAGGCGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTGGTT
TATGGAATGGCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAGACC
TGCAATGTCTCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGACTCA
TGGAAGTGTTGGCAACATGAAGTTCCCATTCAACAATTCCTGCAGCATAC
ACAATAGCATGCTTACGAACCTGAACATCACGGGTCTGAGAGTGGAAATG
GCCAGAGACACCGCTCGCCATGTGAAAAAGACGCTCCCTCCATCTCTAAG
TGGCTTCCCGGGCATGGCCGACATCAAATACTATGTGAAAGCGACGGTTA
TTCGTCCACAGTTCTACAAGGAGAACATCAGGGCGATCCTGTACAAAGTC
GAAACGGTTTTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGACAG
GGCTTATACATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTAAGA
TGTCTGTAATCATCCACCTGGACCGGCCACATAAGCATTTCACCAATCTC
GACTACCTCACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGCAAT
CGGAGGCATTCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGGCAG
GTCCGAAAAATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAAATC
GAGGTTCACAAGCCTCAACTTATCGTTCTTCCGCTGCGGATGCCCGTGAA
AGTTTACTCCGGAATTGCTCCCCCGAAAGCACTTCTGGATGCCATGGCGG
CCAACGGGCAGGCTAAGCCAGCGGCTAGCCCTACAAGTCCCACCGGATCG
ATGGATAGTAGTACACGCCCCCCAATGCCGCCTCGGCCTGCTAGACCACC
TATGCCTGCCAACCCTGAGGACGGCTACGACGATGCACCTCCCAGTTACG
AAGATGCCATGGCTGAAACTCTCAGCCCTGTGGATGGCCCCCGTCGAGAG
TATAACCCACCAGATGCCTCTTCCGAAAGATCTGTTGAACCTGGAGCTGA
TCCGCGATCTCCAGTTGGAAAGGAACCTGAGGCGTCTGCACCCTACAGCA
ATCAGGAAGCGATGTCCTCGTCGGAGACACTCGATATGCTTCCCGAAAGT
CCGCCAGAGTCCCGTTCTGGTTCGCCCCCAAATTCTCCCGTTGCGCGTCA
ACAAAGCGTGCTCAAAATCCACAAGGCTCCCCTTCTCCTAGAGGAGGATA
GCCCTCCCGAATATCAGACGATTGCAGCTGGCAAGCTTCAACCATCCCAT
AGCCAGGTTAATCGTGTTCCGTCCCAGCCGGGGGCCAGGCCCATGAACCT
GGGCGTTCCCAGCAGGAAGCCAGTTCCCCGGAGTCCAAGTAGGCAAACGT
GAATCACCAACCTAAACTTCCTTCCCATCGAGCCTCCCAGGACAGGCAAC
CCGAGCGAAGAAACTTATGCAAGACGACAACACCAGTTCACAAATGCCCC
GAATGTGTCCAAAAAAAGAAGCCTATTCTCGAAGATGTCGAGCAGTTCGC
TCCGGGATGCCGCGGGCGGTTCCCCTCGCGTATCCGCTGACCTGCGGCTA
CCTAACCCGTCAATCCTGACCTGCAATGAGCCTATACCAATGCGTGTTCT
CGTCAAGAAACTGTCAGAGTCTTATGAGACCATTTTCTTGCAGATGATAC
AGGTTGAGCTGATTTCTTACACAAACATTATTGCTCATGACTTACGGCGC
ACCGAAAGCGGCACCTGGGTCATACTAAGTCAGAGTAATATGGCTGTACC
TCTGGGAAGAGGCGGAGACCCAGCGGACTCGGAGTGGACGATCGACGCTG
GTTTATGGAATGGCATACCTCTGCCCAGCACGGTAGCGCCGTCATTCGAG
ACCTGCAATGTCTCACGGACGTACGAGCTCGAAGTTCGAGTGGGCCTGAC
TCATGGAAGTGTTGGCAACATGAAGTTCCCATTCAACAATTCCTGCAGCA
TACACAATAGCATGCTTACGAACCTGAACATCACGGGTCTGAGAGTGGAA
ATGGCCAGAGACACCGCTCGCCATGTGAAAAAGACGCTCCCTCCATCTCT
AAGTGGCTTCCCGGGCATGGCCGACATCAAATACTATGTGAAAGCGACGG
TTATTCGTCCACAGTTCTACAAGGAGAACATCAGGGCGATCCTGTACAAA
GTCGAAACGGTTTTCCCCACTGCAGCGGTATTCAATGCAGAGACCCCAGA
CAGGGCTTATACATTTGCAAGAGGGACGTACGAGTATCCGTTCAAGTTTA
AGATGTCTGTAATCATCCACCTGGACCGGCCACATAAGCATTTCACCAAT
CTCGACTACCTCACGGGAAAGGTGGTACTACAATTACACTCTGAAGCTGC
AATCGGAGGCATTCAAGTAAAATTAGAAGGCGAAAGTCGGACGCGCCTGG
CAGGTCCGAAAAATCCACATAATGAGCAGTCGGATAAGAAACGTACCGAA
ATCGAGGTTCACAAG

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_26520	CAN33_26520	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_26520-T1	CAN33_26520-T1-protein	Aspergillus niger FDAARGOS_311	polypeptide

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


Feature Name	Unique Name	Species	Type
CAN33_26520-T1.cds	CAN33_26520-T1.cds	Aspergillus niger FDAARGOS_311	CDS

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


Feature Name	Unique Name	Species	Type
CAN33_26520-T1.exon5	CAN33_26520-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_26520-T1.exon4	CAN33_26520-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_26520-T1.exon3	CAN33_26520-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_26520-T1.exon2	CAN33_26520-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_26520-T1.exon1	CAN33_26520-T1.exon1	Aspergillus niger FDAARGOS_311	exon

Properties


Property Name	Value
Note	EggNog:ENOG41
DBxref	InterPro:IPR011021
DBxref	PFAM:PF00339
Product	Arrestin (or S-antigen) N-terminal domain 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
NKJJ01000002.1	supercontig	NKJJ01000002.1:3059443..3061545 -

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CAN33_26520-T1, CAN33_26520-T1 (mRNA) Aspergillus niger FDAARGOS_311