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CAN33_52465-T1, CAN33_52465-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_52465-T1
Unique NameCAN33_52465-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000020.1:1505296..1508957-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_52465-T1 ID=CAN33_52465-T1|Name=CAN33_52465-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3662bp|location=Sequence derived from alignment at NKJJ01000020.1:1505296..1508957- (Aspergillus niger FDAARGOS_311)
ATGTCGCCGACGGCAGCAGACACCAACTCTCGAGTTCCTGCTGGACAGGA
CTCGAGACTCCTCAGAAGCATATTCTTTGTCAGCAACATTCATTGCTCCT
CTTGCGTCGCATACATCAATGAAGTCCTATCAGACATTGATGGGGTGAGG
GATATCGATGTGTCGGTTCTTACCCACGAAGTACGCGTCTTTCACAGCAC
AGAAACCGACCCGTCACGCCTTGCTTCGGCTTTGGTTGAAGCTGCCTTTG
AGGTTCACCATGTCACTACATATGAACCGAGAGGATCAGTCATCTCGGAA
CTTGATACGACTTCATGGCTACCCCGCGACTCAGTCCTCTTCTCGACCCA
GCCTAACATCAATCGAGTTCCAGCTTTGGGAAGCAGACATGTCGACAACT
GCGACGCTTGCAGGAAAGAAGAACTGGATAGCCTCGCGGCCGGCGAAGAT
TTGGCAGATGCTGCTCGCCGCCCTCGGGACCGCTATAGTGGTCTTCGAAC
GGGTGGTAAGCCCGGTCCATCCCAATCAGAAGTGCAAAGTCTAGTAGCCC
GGGAATCAGTTGAAGATGTTACACCCGTGGAGTCGCCCAAGACGCCTCAC
CATCCAGAAGAGAAGGAAAGGTTTAATGCACGTGTGAGCATTGGTGGGAT
GAGCTGTGCTTCATGCGCCAACAGCATCACAAACGAAGTGAAAGAGTTGG
ATTTCGTTGAGGACATCACCGTCAACCTCCTTACCAACAGTGCTACTGTT
GTCTTTACTGGTCCGCAGTCAAACATCGACAAGGTTGTCGAGCAGATTGA
GGATATCGGTTTCGAAGCGTCGCTTGATGAGGTCAATATGATCAAAACAG
CTCCCGCACGCAAGGAGGCCCCTTCGACATTCGTCGCTGAACTTGCTATT
GGCGGCATGACGTGCGGTTCGTGCTCCGGAGCGGTTACGCGAGGGCTGGA
GGAGCTTCCTTTCGTTACTACTGTTTCGATCAACCTCTTGACCCATAGCG
GAAGAGTCGAGTTTGAGGGCCGCGACCATATTGACGAGATTGTGGAAAAG
ATTGAAGACCTCGGCTATGATGCTTCGGTCGACAATGTGACAGCCCTGGT
GGCAGATAGTCATGACGAGCCTCTGGAAGAGAGGACACTGTCCATCCGTG
TGGATGGTATGTTCTGCCATCACTGCCCGGACAAAGTTGTCAAGTCCTTG
GAAGCTTTCCCGGATGTTAAGGTCGAAGGCAACCTGTCCGTTAAGAATCC
GATTCTTGCGGTTACGTACACACCAAAACCCCCCTCTCTCACAGTGAGAA
GTATACTTCGGACAATCGAATCAGCTCACGATGCTTTCACTGCCACCGTT
TATCGTCCTCCAAGCGTCGAAGATCGGTCCCGAGCTATGCAGCGCCACGA
AAGACGCCGACTGTTCACCCGATTTATTTTTGTTTTGCTTGTGGCAATTC
CCACGTTTATACTGGGTATTGTATTCATGAGCTTGGTGTCATCCAACAAC
AAGGTTCGCAAGTTTTTGGAACAACCGATGTGGGCCGGAGATGCCTCGCG
CCTCGAATGGGCCCTCTTTATCATGACAACCCCGGTTATGTTCTACGGCG
CTGATATCTTCCACGTGCGGGCGATGAAAGAAATCTACTCGCTTTGGCGT
CCTGGAAGTCGTGCACCGCTCCTGCGCAGGTTCTACCGGTTTGGAAGCAT
GAACCTCCTCATCTCCGCCGGAACGACCGTAGCCTACGTCTCGTCTCTGG
CTGTTCTTATTATGGACGCCGCTATGGGCTCAGCGTCCAACACACATAGC
TCAACATATTTCGACACAGTTGTGTTTCTCACCATGTTTATTCTCGCCGG
GCGGTTCATGGAAGCGTACAGCAAAGCGAAGACCGGGGATGCGGTCGCAT
CTCTTGGAAAGTTGCGCCCGACAGAGGCTTTGCTGAGAATCAGCGCAAGT
GACGCAGACCAACCCGGTGACGAAAACACACATGCAGAAGATGGCTACGA
GCGGATCAATATTGACCTGCTAGAAATTGGCGATGTGGTTAGCATACCTC
ATGGCGCCTCGCCACCTGCCGACGGTGTTGTCGTTGGGTCTGCTTCATAC
CAGTTCGATGAAAGCTCGTTGACGGGAGAGTCAAAACCCGTCCACAAGTC
AGCAGGTGATCAAGTTTACACGGGTTCCGTGAACGTCGGTCAACCCGTCG
AGGTCAAGGTCACTGCAATCGGGGGCTCCTCGATGTTGGATCAGATCATC
TCCGTGGTGCGGGAAGGTCAGAGTAGACGTGCGCCGCTGGAACGGGTTGC
AGATCTACTCACTTCCCACTTTGTTCCGATCATCACGCTGATCGCCATCC
TGACTTTCGTCATCTGGCTTGCTCTCGGTCTGTCAGGGACACTGCCTGAC
GATTACCTTGACGTTGCACGCGGCGGCTGGACATTCTGGGCTCTGGAATT
TGCAATCGCTGTGTTCGTCGTGGCTTGCCCCTGTGGTCTCGCACTCGCCG
CTCCCACGGCACTTTTCGTGGGCGGTGGACTAGCTGCTAAGCAGGGTATC
TTAGTCAAAGGAGGAGGTGAGGCGTTCCAAGAAGCGAGCCGGCTCGACGC
CATCGTGTTCGACAAGACAGGAACTCTCACAGAGGGCGGCAGCCTGCAGG
TATCCGAACACGAAGCCCTCATTTCGGACACCGACGTGATACAGGTGGCT
TGGACACTCGCCCGAAAGCTCGAAGAAAGCAGCAATCATCCAATCGCTCG
AGCCATCTCGGCTTTCTGCAAGGAAAAGCCCTCGGTCACGATTACCAGCG
CCGACATCGAAGAAAGATCCGGTCAAGGTATGAAAGGCACGTTCGCTGTA
TCAATGCCGAATCCCAATGAGAAATCCAACACGCCCACTCAATACGAGGC
TGCCATCGGCAACCAACGTCTCCTACACAGCCTAGCAACCTCAGACTACG
ACGAAAGCCACTTATCCAAAACCCTCTCGAAGTACCAAGCTGCCGGTAAA
TCCACCGCGATCCTATCTCTCCGTTCCCAGAACGAACCCTCCTTCACCCC
CGCCATCGTCTTCGCCATCTCCGACACCATTCGACCCGACACCGTCGAAG
TCATCTCCAAGCTCCAAAAGCGCAAAGTCAATGTATATATGTGCACCGGC
GACAACCAGACAACCGCGCACGCCGTCGCCGACATGGTAGGCATTCCGCG
CTCCAACGTCATGGCAAACGTAATGCCAGCAGGCAAAGCCGATTTCGTGC
GTCAAATCCAAGACAGCAACAACAACTTCACCCCGCAGACCGACTCCGAA
GCAGAAAGCCAGCGAGCCCCCACCAACAACCGTTCCATCGTCGCCTTCGT
CGGCGACGGCGTCAACGACTCCCCCGCCCTCGCCGCAGCAGACGTGAGCA
TCGCCATGGCGTCGGGATCCGATGTCGCCATGAACTCCGCAAGCTTCATC
CTCCTCAACTCGGAGCTCGACACCATCTTGCAACTTGTCTTGCTTAGCCG
CCGTGTCTTCAACCGCGTCAAGCTGAACTTCGGTTGGGCGTTGGTCTATA
ATTGCTGCTTGGTGCCTGTCGCTGCTGGTGTCTTCTATCCGATTGTTAGT
GGGCATAAGCAGGAGATGGTGGGTGGGGAACTTGTGGTAACTGATACGCA
TTGGAGGTTTAG
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Coding sequence (CDS) from alignment at NKJJ01000020.1:1505296..1508957-

>CAN33_52465-T1 ID=CAN33_52465-T1|Name=CAN33_52465-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7200bp|location=Sequence derived from alignment at NKJJ01000020.1:1505296..1508957- (Aspergillus niger FDAARGOS_311)
GTTTAGATGTCGCCGACGGCAGCAGACACCAACTCTCGAGTTCCTGCTGG
ACAGGACTCGAGACTCCTCAGAAGCATATTCTTTGTCAGCAACATTCATT
GCTCCTCTTGCGTCGCATACATCAATGAAGTCCTATCAGACATTGATGGG
GTGAGGGATATCGATGTGTCGGTTCTTACCCACGAAGTACGCGTCTTTCA
CAGCACAGAAACCGACCCGTCACGCCTTGCTTCGGCTTTGGTTGAAGCTG
CCTTTGAGGTTCACCATGTCACTACATATGAACCGAGAGGATCAGTCATC
TCGGAACTTGATACGACTTCATGGCTACCCCGCGACTCAGTCCTCTTCTC
GACCCAGCCTAACATCAATCGAGTTCCAGCTTTGGGAAGCAGACATGTCG
ACAACTGCGACGCTTGCAGGAAAGAAGAACTGGATAGCCTCGCGGCCGGC
GAAGATTTGGCAGATGCTGCTCGCCGCCCTCGGGACCGCTATAGTGGTCT
TCGAACGGGTGGTAAGCCCGGTCCATCCCAATCAGAAGTGCAAAGTCTAG
TAGCCCGGGAATCAGTTGAAGATGTTACACCCGTGGAGTCGCCCAAGACG
CCTCACCATCCAGAAGAGAAGGAAAGGTTTAATGCACGTGTGAGCATTGG
TGGGATGAGCTGTGCTTCATGCGCCAACAGCATCACAAACGAAGTGAAAG
AGTTGGATTTCGTTGAGGACATCACCGTCAACCTCCTTACCAACAGTGCT
ACTGTTGTCTTTACTGGTCCGCAGTCAAACATCGACAAGGTTGTCGAGCA
GATTGAGGATATCGGTTTCGAAGCGTCGCTTGATGAGGTCAATATGATCA
AAACAGCTCCCGCACGCAAGGAGGCCCCTTCGACATTCGTCGCTGAACTT
GCTATTGGCGGCATGACGTGCGGTTCGTGCTCCGGAGCGGTTACGCGAGG
GCTGGAGGAGCTTCCTTTCGTTACTACTGTTTCGATCAACCTCTTGACCC
ATAGCGGAAGAGTCGAGTTTGAGGGCCGCGACCATATTGACGAGATTGTG
GAAAAGATTGAAGACCTCGGCTATGATGCTTCGGTCGACAATGTGACAGC
CCTGGTGGCAGATAGTCATGACGAGCCTCTGGAAGAGAGGACACTGTCCA
TCCGTGTGGATGGTATGTTCTGCCATCACTGCCCGGACAAAGTTGTCAAG
TCCTTGGAAGCTTTCCCGGATGTTAAGGTCGAAGGCAACCTGTCCGTTAA
GAATCCGATTCTTGCGGTTACGTACACACCAAAACCCCCCTCTCTCACAG
TGAGAAGTATACTTCGGACAATCGAATCAGCTCACGATGCTTTCACTGCC
ACCGTTTATCGTCCTCCAAGCGTCGAAGATCGGTCCCGAGCTATGCAGCG
CCACGAAAGACGCCGACTGTTCACCCGATTTATTTTTGTTTTGCTTGTGG
CAATTCCCACGTTTATACTGGGTATTGTATTCATGAGCTTGGTGTCATCC
AACAACAAGGTTCGCAAGTTTTTGGAACAACCGATGTGGGCCGGAGATGC
CTCGCGCCTCGAATGGGCCCTCTTTATCATGACAACCCCGGTTATGTTCT
ACGGCGCTGATATCTTCCACGTGCGGGCGATGAAAGAAATCTACTCGCTT
TGGCGTCCTGGAAGTCGTGCACCGCTCCTGCGCAGGTTCTACCGGTTTGG
AAGCATGAACCTCCTCATCTCCGCCGGAACGACCGTAGCCTACGTCTCGT
CTCTGGCTGTTCTTATTATGGACGCCGCTATGGGCTCAGCGTCCAACACA
CATAGCTCAACATATTTCGACACAGTTGTGTTTCTCACCATGTTTATTCT
CGCCGGGCGGTTCATGGAAGCGTACAGCAAAGCGAAGACCGGGGATGCGG
TCGCATCTCTTGGAAAGTTGCGCCCGACAGAGGCTTTGCTGAGAATCAGC
GCAAGTGACGCAGACCAACCCGGTGACGAAAACACACATGCAGAAGATGG
CTACGAGCGGATCAATATTGACCTGCTAGAAATTGGCGATGTGGTTAGCA
TACCTCATGGCGCCTCGCCACCTGCCGACGGTGTTGTCGTTGGGTCTGCT
TCATACCAGTTCGATGAAAGCTCGTTGACGGGAGAGTCAAAACCCGTCCA
CAAGTCAGCAGGTGATCAAGTTTACACGGGTTCCGTGAACGTCGGTCAAC
CCGTCGAGGTCAAGGTCACTGCAATCGGGGGCTCCTCGATGTTGGATCAG
ATCATCTCCGTGGTGCGGGAAGGTCAGAGTAGACGTGCGCCGCTGGAACG
GGTTGCAGATCTACTCACTTCCCACTTTGTTCCGATCATCACGCTGATCG
CCATCCTGACTTTCGTCATCTGGCTTGCTCTCGGTCTGTCAGGGACACTG
CCTGACGATTACCTTGACGTTGCACGCGGCGGCTGGACATTCTGGGCTCT
GGAATTTGCAATCGCTGTGTTCGTCGTGGCTTGCCCCTGTGGTCTCGCAC
TCGCCGCTCCCACGGCACTTTTCGTGGGCGGTGGACTAGCTGCTAAGCAG
GGTATCTTAGTCAAAGGAGGAGGTGAGGCGTTCCAAGAAGCGAGCCGGCT
CGACGCCATCGTGTTCGACAAGACAGGAACTCTCACAGAGGGCGGCAGCC
TGCAGGTATCCGAACACGAAGCCCTCATTTCGGACACCGACGTGATACAG
GTGGCTTGGACACTCGCCCGAAAGCTCGAAGAAAGCAGCAATCATCCAAT
CGCTCGAGCCATCTCGGCTTTCTGCAAGGAAAAGCCCTCGGTCACGATTA
CCAGCGCCGACATCGAAGAAAGATCCGGTCAAGGTATGAAAGGCACGTTC
GCTGTATCAATGCCGAATCCCAATGAGAAATCCAACACGCCCACTCAATA
CGAGGCTGCCATCGGCAACCAACGTCTCCTACACAGCCTAGCAACCTCAG
ACTACGACGAAAGCCACTTATCCAAAACCCTCTCGAAGTACCAAGCTGCC
GGTAAATCCACCGCGATCCTATCTCTCCGTTCCCAGAACGAACCCTCCTT
CACCCCCGCCATCGTCTTCGCCATCTCCGACACCATTCGACCCGACACCG
TCGAAGTCATCTCCAAGCTCCAAAAGCGCAAAGTCAATGTATATATGTGC
ACCGGCGACAACCAGACAACCGCGCACGCCGTCGCCGACATGGTAGGCAT
TCCGCGCTCCAACGTCATGGCAAACGTAATGCCAGCAGGCAAAGCCGATT
TCGTGCGTCAAATCCAAGACAGCAACAACAACTTCACCCCGCAGACCGAC
TCCGAAGCAGAAAGCCAGCGAGCCCCCACCAACAACCGTTCCATCGTCGC
CTTCGTCGGCGACGGCGTCAACGACTCCCCCGCCCTCGCCGCAGCAGACG
TGAGCATCGCCATGGCGTCGGGATCCGATGTCGCCATGAACTCCGCAAGC
TTCATCCTCCTCAACTCGGAGCTCGACACCATCTTGCAACTTGTCTTGCT
TAGCCGCCGTGTCTTCAACCGCGTCAAGCTGAACTTCGGTTGGGCGTTGG
TCTATAATTGCTGCTTGGTGCCTGTCGCTGCTGGTGTCTTCTATCCGATT
GTTTAGATGTCGCCGACGGCAGCAGACACCAACTCTCGAGTTCCTGCTGG
ACAGGACTCGAGACTCCTCAGAAGCATATTCTTTGTCAGCAACATTCATT
GCTCCTCTTGCGTCGCATACATCAATGAAGTCCTATCAGACATTGATGGG
GTGAGGGATATCGATGTGTCGGTTCTTACCCACGAAGTACGCGTCTTTCA
CAGCACAGAAACCGACCCGTCACGCCTTGCTTCGGCTTTGGTTGAAGCTG
CCTTTGAGGTTCACCATGTCACTACATATGAACCGAGAGGATCAGTCATC
TCGGAACTTGATACGACTTCATGGCTACCCCGCGACTCAGTCCTCTTCTC
GACCCAGCCTAACATCAATCGAGTTCCAGCTTTGGGAAGCAGACATGTCG
ACAACTGCGACGCTTGCAGGAAAGAAGAACTGGATAGCCTCGCGGCCGGC
GAAGATTTGGCAGATGCTGCTCGCCGCCCTCGGGACCGCTATAGTGGTCT
TCGAACGGGTGGTAAGCCCGGTCCATCCCAATCAGAAGTGCAAAGTCTAG
TAGCCCGGGAATCAGTTGAAGATGTTACACCCGTGGAGTCGCCCAAGACG
CCTCACCATCCAGAAGAGAAGGAAAGGTTTAATGCACGTGTGAGCATTGG
TGGGATGAGCTGTGCTTCATGCGCCAACAGCATCACAAACGAAGTGAAAG
AGTTGGATTTCGTTGAGGACATCACCGTCAACCTCCTTACCAACAGTGCT
ACTGTTGTCTTTACTGGTCCGCAGTCAAACATCGACAAGGTTGTCGAGCA
GATTGAGGATATCGGTTTCGAAGCGTCGCTTGATGAGGTCAATATGATCA
AAACAGCTCCCGCACGCAAGGAGGCCCCTTCGACATTCGTCGCTGAACTT
GCTATTGGCGGCATGACGTGCGGTTCGTGCTCCGGAGCGGTTACGCGAGG
GCTGGAGGAGCTTCCTTTCGTTACTACTGTTTCGATCAACCTCTTGACCC
ATAGCGGAAGAGTCGAGTTTGAGGGCCGCGACCATATTGACGAGATTGTG
GAAAAGATTGAAGACCTCGGCTATGATGCTTCGGTCGACAATGTGACAGC
CCTGGTGGCAGATAGTCATGACGAGCCTCTGGAAGAGAGGACACTGTCCA
TCCGTGTGGATGGTATGTTCTGCCATCACTGCCCGGACAAAGTTGTCAAG
TCCTTGGAAGCTTTCCCGGATGTTAAGGTCGAAGGCAACCTGTCCGTTAA
GAATCCGATTCTTGCGGTTACGTACACACCAAAACCCCCCTCTCTCACAG
TGAGAAGTATACTTCGGACAATCGAATCAGCTCACGATGCTTTCACTGCC
ACCGTTTATCGTCCTCCAAGCGTCGAAGATCGGTCCCGAGCTATGCAGCG
CCACGAAAGACGCCGACTGTTCACCCGATTTATTTTTGTTTTGCTTGTGG
CAATTCCCACGTTTATACTGGGTATTGTATTCATGAGCTTGGTGTCATCC
AACAACAAGGTTCGCAAGTTTTTGGAACAACCGATGTGGGCCGGAGATGC
CTCGCGCCTCGAATGGGCCCTCTTTATCATGACAACCCCGGTTATGTTCT
ACGGCGCTGATATCTTCCACGTGCGGGCGATGAAAGAAATCTACTCGCTT
TGGCGTCCTGGAAGTCGTGCACCGCTCCTGCGCAGGTTCTACCGGTTTGG
AAGCATGAACCTCCTCATCTCCGCCGGAACGACCGTAGCCTACGTCTCGT
CTCTGGCTGTTCTTATTATGGACGCCGCTATGGGCTCAGCGTCCAACACA
CATAGCTCAACATATTTCGACACAGTTGTGTTTCTCACCATGTTTATTCT
CGCCGGGCGGTTCATGGAAGCGTACAGCAAAGCGAAGACCGGGGATGCGG
TCGCATCTCTTGGAAAGTTGCGCCCGACAGAGGCTTTGCTGAGAATCAGC
GCAAGTGACGCAGACCAACCCGGTGACGAAAACACACATGCAGAAGATGG
CTACGAGCGGATCAATATTGACCTGCTAGAAATTGGCGATGTGGTTAGCA
TACCTCATGGCGCCTCGCCACCTGCCGACGGTGTTGTCGTTGGGTCTGCT
TCATACCAGTTCGATGAAAGCTCGTTGACGGGAGAGTCAAAACCCGTCCA
CAAGTCAGCAGGTGATCAAGTTTACACGGGTTCCGTGAACGTCGGTCAAC
CCGTCGAGGTCAAGGTCACTGCAATCGGGGGCTCCTCGATGTTGGATCAG
ATCATCTCCGTGGTGCGGGAAGGTCAGAGTAGACGTGCGCCGCTGGAACG
GGTTGCAGATCTACTCACTTCCCACTTTGTTCCGATCATCACGCTGATCG
CCATCCTGACTTTCGTCATCTGGCTTGCTCTCGGTCTGTCAGGGACACTG
CCTGACGATTACCTTGACGTTGCACGCGGCGGCTGGACATTCTGGGCTCT
GGAATTTGCAATCGCTGTGTTCGTCGTGGCTTGCCCCTGTGGTCTCGCAC
TCGCCGCTCCCACGGCACTTTTCGTGGGCGGTGGACTAGCTGCTAAGCAG
GGTATCTTAGTCAAAGGAGGAGGTGAGGCGTTCCAAGAAGCGAGCCGGCT
CGACGCCATCGTGTTCGACAAGACAGGAACTCTCACAGAGGGCGGCAGCC
TGCAGGTATCCGAACACGAAGCCCTCATTTCGGACACCGACGTGATACAG
GTGGCTTGGACACTCGCCCGAAAGCTCGAAGAAAGCAGCAATCATCCAAT
CGCTCGAGCCATCTCGGCTTTCTGCAAGGAAAAGCCCTCGGTCACGATTA
CCAGCGCCGACATCGAAGAAAGATCCGGTCAAGGTATGAAAGGCACGTTC
GCTGTATCAATGCCGAATCCCAATGAGAAATCCAACACGCCCACTCAATA
CGAGGCTGCCATCGGCAACCAACGTCTCCTACACAGCCTAGCAACCTCAG
ACTACGACGAAAGCCACTTATCCAAAACCCTCTCGAAGTACCAAGCTGCC
GGTAAATCCACCGCGATCCTATCTCTCCGTTCCCAGAACGAACCCTCCTT
CACCCCCGCCATCGTCTTCGCCATCTCCGACACCATTCGACCCGACACCG
TCGAAGTCATCTCCAAGCTCCAAAAGCGCAAAGTCAATGTATATATGTGC
ACCGGCGACAACCAGACAACCGCGCACGCCGTCGCCGACATGGTAGGCAT
TCCGCGCTCCAACGTCATGGCAAACGTAATGCCAGCAGGCAAAGCCGATT
TCGTGCGTCAAATCCAAGACAGCAACAACAACTTCACCCCGCAGACCGAC
TCCGAAGCAGAAAGCCAGCGAGCCCCCACCAACAACCGTTCCATCGTCGC
CTTCGTCGGCGACGGCGTCAACGACTCCCCCGCCCTCGCCGCAGCAGACG
TGAGCATCGCCATGGCGTCGGGATCCGATGTCGCCATGAACTCCGCAAGC
TTCATCCTCCTCAACTCGGAGCTCGACACCATCTTGCAACTTGTCTTGCT
TAGCCGCCGTGTCTTCAACCGCGTCAAGCTGAACTTCGGTTGGGCGTTGG
TCTATAATTGCTGCTTGGTGCCTGTCGCTGCTGGTGTCTTCTATCCGATT
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0016021integral component of membrane
Vocabulary: Biological Process
TermDefinition
GO:0030001metal ion transport
GO:0006812cation transport
Vocabulary: Molecular Function
TermDefinition
GO:0046872metal ion binding
GO:0005507copper ion binding
GO:0019829ATPase-coupled cation transmembrane transporter activity
GO:0000166nucleotide binding
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_52465CAN33_52465Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_52465-T1CAN33_52465-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_52465-T1.cdsCAN33_52465-T1.cdsAspergillus niger FDAARGOS_311CDS


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

Feature NameUnique NameSpeciesType
CAN33_52465-T1.exon2CAN33_52465-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_52465-T1.exon1CAN33_52465-T1.exon1Aspergillus niger FDAARGOS_311exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036412
DBxrefInterPro:IPR036163
DBxrefInterPro:IPR008250
DBxrefInterPro:IPR023298
DBxrefInterPro:IPR017969
DBxrefInterPro:IPR018303
DBxrefInterPro:IPR006121
DBxrefInterPro:IPR006122
DBxrefInterPro:IPR027256
DBxrefInterPro:IPR023214
DBxrefInterPro:IPR023299
DBxrefInterPro:IPR001757
DBxrefPFAM:PF00702
DBxrefPFAM:PF00403
DBxrefPFAM:PF00122
Productheavy metal translocating P-type ATPase 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
NKJJ01000020.1supercontigNKJJ01000020.1:1505296..1508957 -
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