You are here

Home

ASPNIDRAFT_188549-T1, ASPNIDRAFT_188549-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_188549-T1
Unique NameASPNIDRAFT_188549-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000001.1:983340..985262+

Legend: exonpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_188549-T1 ID=ASPNIDRAFT_188549-T1|Name=ASPNIDRAFT_188549-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1923bp|location=Sequence derived from alignment at ACJE01000001.1:983340..985262+ (Aspergillus niger ATCC 1015)
ATGGCTGCTGTGCCGCAAAGGACGCTTAACTGGCTGTACAGTGTCCTTAT
CAGGGTAGCTAAAAACCAAACACGGACTCCTAGAATAGGACCACTGACAG
AAATAGGACCACTACGATCCCCGACAAACCTACCAGGACCCCAACCGCAC
CTACTATGATGTAGCTAATGTGCTCGGTCAATACCCTTCGCTGGGCCCCA
GGACTGAAGTCTACAGTATGCCATCTTGCTGCGACCTTACTGCGATCTTA
CTGACCGATTCTTTTCTTCAAACTTCTAGCATACGAGAACGGTTTCTCCG
CCCTCCTCCTCCAACTGACCGGCACGTTGCCCGTGACGTTTCGCGGCACT
GTTTACAAGTTTCCCATCACACTATGGATCCCAAATACATACCCCAGAGA
ACCGCCATTGGTTTATGTAACACCGACGCAAGACATGGCCGTTCGTGTGG
GCCAGCATGTCACTTTGGAAGGGAGGGTGTACCATCACTACCTGGCACAC
TGGGCTGAAGCGTGGGAGGTTAGTCAATGTGACTCGCAATGCGCATCTCG
TTATCGCTGACACCTAAGCTTAGCGATCATCTCTTATTGATTTCCTGATG
ATACTTCGTGAGGTTTTCGCCAAGGAGCCGCCGGTGAGATATAAACAGCA
ACAGCCTGTACAGCCGCGACCGCCTCCGCCAGCGCAGGTACAGGCGCAAG
CACCTCCTCTACCTCCTCTGCCTCCGGAGCTTGATACCTCAATTAATCGG
CCCTCTTCTACCCATAGCGCTCCGAATGCTTCTCCGCAAGTACCTGCTCA
GGTGCCACCACCGCCGCCTCCAAAACCCGGGCAGACACCTGAGCCACAAT
CACAGGGCACTCCGTCATCAGGGAGATACTCGTCTCCCCCTCCGCTGCCT
CCACTGCCACCAAAGGAGCATGATTCCAGGAGAATACCGATGCAACCACA
GACAGGCATTGGCAACCCTATGAACAGGCCCCAGTACCTACCGGATCGCA
GTCAAGTTCCTGTAGTAGCATCAGGACAGTATCAGTTGCCCCAACAACCG
CAGCACGTCTCTCAGTCGACACCGGCATACCAGACTGGCCCAGCGCAGTT
TCAATCACCGAACGGTGTCCCTGTTACTCGCCCAGATGACCCCAGTCGTG
GGCTTCCGCAACGGAACTCTTACCACCCCGTACAACAAGCCCCTCCTGCA
GCCTACCAGAGACCTCCGCCACAGCAGGTCCCACCGCAAGGTTCACCCCA
TGTTGGACTTCAGCAAGCACAGCAACCAGCTCCACGTCCCAAGTCAGAGA
CGCAAGATCTTCTTACCTCTCCGTTTGAGCTCGAGCTCCCCTCGTTCGCA
CCCACCGGCCCGGCGCCCCCAATTCCACCCAACCCCGAGAAGGACGCCCT
ACTGCGGGCCGTCTCTAAGACTCTAGCTGAAACACTGCAAGCAAACGTCG
CACAGTCCGAGACTGCTGCTCAATCTTTGATTTCTCAATCCCACTCGCTG
CATGCGGCAATTGCGACGCTTCAAGGCGAAGTATCGTCGCTCAACACGCT
CAACGCGACTCTTCAATCGAACACCACGACTCTGCAGCAATCTCTCATGC
GCGCCGACGGCGTCATCGCCGATGCGCAAAGCCGTATATCATCCTCGGCC
CCGTCATCCAGCACTGATCCCGTTACTTCGGGTCTCCCACCAATCGACGA
AGTTCTCGTTGCCCCAACCGTGGTCGGTAAACAATTGTACGACTTGGTTG
CTGAGGAACGCGGTATTCAGCAGGCAATCTATGCCCTCCAAGCTGCGCTG
GTTAAGGGTGTCATTGGGGTTGAGACCTGGTCACGTCACACGCGTGGACT
TGCGCGAGAAGCGTTCTTGAAACGTGCATTGATACGGAAGATCGGGAAAG
GCATGGGATTGGAAGTGCATTGA
back to top

Coding sequence (CDS) from alignment at ACJE01000001.1:983340..985262+

>ASPNIDRAFT_188549-T1 ID=ASPNIDRAFT_188549-T1|Name=ASPNIDRAFT_188549-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7008bp|location=Sequence derived from alignment at ACJE01000001.1:983340..985262+ (Aspergillus niger ATCC 1015)
ATGGCTGCTGTGCCGCAAAGGACGCTTAACTGGCTGTACAGTGTCCTTAT
CAGGGACCACTACGATCCCCGACAAACCTACCAGGACCCCAACCGCACCT
ACTATGATGTAGCTAATGTGCTCGGTCAATACCCTTCGCTGGGCCCCAGG
ACTGAAGTCTACACATACGAGAACGGTTTCTCCGCCCTCCTCCTCCAACT
GACCGGCACGTTGCCCGTGACGTTTCGCGGCACTGTTTACAAGTTTCCCA
TCACACTATGGATCCCAAATACATACCCCAGAGAACCGCCATTGGTTTAT
GTAACACCGACGCAAGACATGGCCGTTCGTGTGGGCCAGCATGTCACTTT
GGAAGGGAGGGTGTACCATCACTACCTGGCACACTGGGCTGAAGCGTGGG
AGCGATCATCTCTTATTGATTTCCTGATGATACTTCGTGAGGTTTTCGCC
AAGGAGCCGCCGGTGAGATATAAACAGCAACAGCCTGTACAGCCGCGACC
GCCTCCGCCAGCGCAGGTACAGGCGCAAGCACCTCCTCTACCTCCTCTGC
CTCCGGAGCTTGATACCTCAATTAATCGGCCCTCTTCTACCCATAGCGCT
CCGAATGCTTCTCCGCAAGTACCTGCTCAGGTGCCACCACCGCCGCCTCC
AAAACCCGGGCAGACACCTGAGCCACAATCACAGGGCACTCCGTCATCAG
GGAGATACTCGTCTCCCCCTCCGCTGCCTCCACTGCCACCAAAGGAGCAT
GATTCCAGGAGAATACCGATGCAACCACAGACAGGCATTGGCAACCCTAT
GAACAGGCCCCAGTACCTACCGGATCGCAGTCAAGTTCCTGTAGTAGCAT
CAGGACAGTATCAGTTGCCCCAACAACCGCAGCACGTCTCTCAGTCGACA
CCGGCATACCAGACTGGCCCAGCGCAGTTTCAATCACCGAACGGTGTCCC
TGTTACTCGCCCAGATGACCCCAGTCGTGGGCTTCCGCAACGGAACTCTT
ACCACCCCGTACAACAAGCCCCTCCTGCAGCCTACCAGAGACCTCCGCCA
CAGCAGGTCCCACCGCAAGGTTCACCCCATGTTGGACTTCAGCAAGCACA
GCAACCAGCTCCACGTCCCAAGTCAGAGACGCAAGATCTTCTTACCTCTC
CGTTTGAGCTCGAGCTCCCCTCGTTCGCACCCACCGGCCCGGCGCCCCCA
ATTCCACCCAACCCCGAGAAGGACGCCCTACTGCGGGCCGTCTCTAAGAC
TCTAGCTGAAACACTGCAAGCAAACGTCGCACAGTCCGAGACTGCTGCTC
AATCTTTGATTTCTCAATCCCACTCGCTGCATGCGGCAATTGCGACGCTT
CAAGGCGAAGTATCGTCGCTCAACACGCTCAACGCGACTCTTCAATCGAA
CACCACGACTCTGCAGCAATCTCTCATGCGCGCCGACGGCGTCATCGCCG
ATGCGCAAAGCCGTATATCATCCTCGGCCCCGTCATCCAGCACTGATCCC
GTTACTTCGGGTCTCCCACCAATCGACGAAGTTCTCGTTGCCCCAACCGT
GGTCGGTAAACAATTGTACGACTTGGTTGCTGAGGAACGCGGTATTCAGC
AGGCAATCTATGCCCTCCAAGCTGCGCTGGTTAAGGGTGTCATTGGGGTT
GAGACCTGGTCACGTCACACGCGTGGACTTGCGCGAGAAGCGTTCTTGAA
ACGTGCATTGATACGGAAGATCGGGAAAGGCATGGGATTGGAAGTGCATT
GAATGGCTGCTGTGCCGCAAAGGACGCTTAACTGGCTGTACAGTGTCCTT
ATCAGGGACCACTACGATCCCCGACAAACCTACCAGGACCCCAACCGCAC
CTACTATGATGTAGCTAATGTGCTCGGTCAATACCCTTCGCTGGGCCCCA
GGACTGAAGTCTACACATACGAGAACGGTTTCTCCGCCCTCCTCCTCCAA
CTGACCGGCACGTTGCCCGTGACGTTTCGCGGCACTGTTTACAAGTTTCC
CATCACACTATGGATCCCAAATACATACCCCAGAGAACCGCCATTGGTTT
ATGTAACACCGACGCAAGACATGGCCGTTCGTGTGGGCCAGCATGTCACT
TTGGAAGGGAGGGTGTACCATCACTACCTGGCACACTGGGCTGAAGCGTG
GGAGCGATCATCTCTTATTGATTTCCTGATGATACTTCGTGAGGTTTTCG
CCAAGGAGCCGCCGGTGAGATATAAACAGCAACAGCCTGTACAGCCGCGA
CCGCCTCCGCCAGCGCAGGTACAGGCGCAAGCACCTCCTCTACCTCCTCT
GCCTCCGGAGCTTGATACCTCAATTAATCGGCCCTCTTCTACCCATAGCG
CTCCGAATGCTTCTCCGCAAGTACCTGCTCAGGTGCCACCACCGCCGCCT
CCAAAACCCGGGCAGACACCTGAGCCACAATCACAGGGCACTCCGTCATC
AGGGAGATACTCGTCTCCCCCTCCGCTGCCTCCACTGCCACCAAAGGAGC
ATGATTCCAGGAGAATACCGATGCAACCACAGACAGGCATTGGCAACCCT
ATGAACAGGCCCCAGTACCTACCGGATCGCAGTCAAGTTCCTGTAGTAGC
ATCAGGACAGTATCAGTTGCCCCAACAACCGCAGCACGTCTCTCAGTCGA
CACCGGCATACCAGACTGGCCCAGCGCAGTTTCAATCACCGAACGGTGTC
CCTGTTACTCGCCCAGATGACCCCAGTCGTGGGCTTCCGCAACGGAACTC
TTACCACCCCGTACAACAAGCCCCTCCTGCAGCCTACCAGAGACCTCCGC
CACAGCAGGTCCCACCGCAAGGTTCACCCCATGTTGGACTTCAGCAAGCA
CAGCAACCAGCTCCACGTCCCAAGTCAGAGACGCAAGATCTTCTTACCTC
TCCGTTTGAGCTCGAGCTCCCCTCGTTCGCACCCACCGGCCCGGCGCCCC
CAATTCCACCCAACCCCGAGAAGGACGCCCTACTGCGGGCCGTCTCTAAG
ACTCTAGCTGAAACACTGCAAGCAAACGTCGCACAGTCCGAGACTGCTGC
TCAATCTTTGATTTCTCAATCCCACTCGCTGCATGCGGCAATTGCGACGC
TTCAAGGCGAAGTATCGTCGCTCAACACGCTCAACGCGACTCTTCAATCG
AACACCACGACTCTGCAGCAATCTCTCATGCGCGCCGACGGCGTCATCGC
CGATGCGCAAAGCCGTATATCATCCTCGGCCCCGTCATCCAGCACTGATC
CCGTTACTTCGGGTCTCCCACCAATCGACGAAGTTCTCGTTGCCCCAACC
GTGGTCGGTAAACAATTGTACGACTTGGTTGCTGAGGAACGCGGTATTCA
GCAGGCAATCTATGCCCTCCAAGCTGCGCTGGTTAAGGGTGTCATTGGGG
TTGAGACCTGGTCACGTCACACGCGTGGACTTGCGCGAGAAGCGTTCTTG
AAACGTGCATTGATACGGAAGATCGGGAAAGGCATGGGATTGGAAGTGCA
TTGAATGGCTGCTGTGCCGCAAAGGACGCTTAACTGGCTGTACAGTGTCC
TTATCAGGGACCACTACGATCCCCGACAAACCTACCAGGACCCCAACCGC
ACCTACTATGATGTAGCTAATGTGCTCGGTCAATACCCTTCGCTGGGCCC
CAGGACTGAAGTCTACACATACGAGAACGGTTTCTCCGCCCTCCTCCTCC
AACTGACCGGCACGTTGCCCGTGACGTTTCGCGGCACTGTTTACAAGTTT
CCCATCACACTATGGATCCCAAATACATACCCCAGAGAACCGCCATTGGT
TTATGTAACACCGACGCAAGACATGGCCGTTCGTGTGGGCCAGCATGTCA
CTTTGGAAGGGAGGGTGTACCATCACTACCTGGCACACTGGGCTGAAGCG
TGGGAGCGATCATCTCTTATTGATTTCCTGATGATACTTCGTGAGGTTTT
CGCCAAGGAGCCGCCGGTGAGATATAAACAGCAACAGCCTGTACAGCCGC
GACCGCCTCCGCCAGCGCAGGTACAGGCGCAAGCACCTCCTCTACCTCCT
CTGCCTCCGGAGCTTGATACCTCAATTAATCGGCCCTCTTCTACCCATAG
CGCTCCGAATGCTTCTCCGCAAGTACCTGCTCAGGTGCCACCACCGCCGC
CTCCAAAACCCGGGCAGACACCTGAGCCACAATCACAGGGCACTCCGTCA
TCAGGGAGATACTCGTCTCCCCCTCCGCTGCCTCCACTGCCACCAAAGGA
GCATGATTCCAGGAGAATACCGATGCAACCACAGACAGGCATTGGCAACC
CTATGAACAGGCCCCAGTACCTACCGGATCGCAGTCAAGTTCCTGTAGTA
GCATCAGGACAGTATCAGTTGCCCCAACAACCGCAGCACGTCTCTCAGTC
GACACCGGCATACCAGACTGGCCCAGCGCAGTTTCAATCACCGAACGGTG
TCCCTGTTACTCGCCCAGATGACCCCAGTCGTGGGCTTCCGCAACGGAAC
TCTTACCACCCCGTACAACAAGCCCCTCCTGCAGCCTACCAGAGACCTCC
GCCACAGCAGGTCCCACCGCAAGGTTCACCCCATGTTGGACTTCAGCAAG
CACAGCAACCAGCTCCACGTCCCAAGTCAGAGACGCAAGATCTTCTTACC
TCTCCGTTTGAGCTCGAGCTCCCCTCGTTCGCACCCACCGGCCCGGCGCC
CCCAATTCCACCCAACCCCGAGAAGGACGCCCTACTGCGGGCCGTCTCTA
AGACTCTAGCTGAAACACTGCAAGCAAACGTCGCACAGTCCGAGACTGCT
GCTCAATCTTTGATTTCTCAATCCCACTCGCTGCATGCGGCAATTGCGAC
GCTTCAAGGCGAAGTATCGTCGCTCAACACGCTCAACGCGACTCTTCAAT
CGAACACCACGACTCTGCAGCAATCTCTCATGCGCGCCGACGGCGTCATC
GCCGATGCGCAAAGCCGTATATCATCCTCGGCCCCGTCATCCAGCACTGA
TCCCGTTACTTCGGGTCTCCCACCAATCGACGAAGTTCTCGTTGCCCCAA
CCGTGGTCGGTAAACAATTGTACGACTTGGTTGCTGAGGAACGCGGTATT
CAGCAGGCAATCTATGCCCTCCAAGCTGCGCTGGTTAAGGGTGTCATTGG
GGTTGAGACCTGGTCACGTCACACGCGTGGACTTGCGCGAGAAGCGTTCT
TGAAACGTGCATTGATACGGAAGATCGGGAAAGGCATGGGATTGGAAGTG
CATTGAATGGCTGCTGTGCCGCAAAGGACGCTTAACTGGCTGTACAGTGT
CCTTATCAGGGACCACTACGATCCCCGACAAACCTACCAGGACCCCAACC
GCACCTACTATGATGTAGCTAATGTGCTCGGTCAATACCCTTCGCTGGGC
CCCAGGACTGAAGTCTACACATACGAGAACGGTTTCTCCGCCCTCCTCCT
CCAACTGACCGGCACGTTGCCCGTGACGTTTCGCGGCACTGTTTACAAGT
TTCCCATCACACTATGGATCCCAAATACATACCCCAGAGAACCGCCATTG
GTTTATGTAACACCGACGCAAGACATGGCCGTTCGTGTGGGCCAGCATGT
CACTTTGGAAGGGAGGGTGTACCATCACTACCTGGCACACTGGGCTGAAG
CGTGGGAGCGATCATCTCTTATTGATTTCCTGATGATACTTCGTGAGGTT
TTCGCCAAGGAGCCGCCGGTGAGATATAAACAGCAACAGCCTGTACAGCC
GCGACCGCCTCCGCCAGCGCAGGTACAGGCGCAAGCACCTCCTCTACCTC
CTCTGCCTCCGGAGCTTGATACCTCAATTAATCGGCCCTCTTCTACCCAT
AGCGCTCCGAATGCTTCTCCGCAAGTACCTGCTCAGGTGCCACCACCGCC
GCCTCCAAAACCCGGGCAGACACCTGAGCCACAATCACAGGGCACTCCGT
CATCAGGGAGATACTCGTCTCCCCCTCCGCTGCCTCCACTGCCACCAAAG
GAGCATGATTCCAGGAGAATACCGATGCAACCACAGACAGGCATTGGCAA
CCCTATGAACAGGCCCCAGTACCTACCGGATCGCAGTCAAGTTCCTGTAG
TAGCATCAGGACAGTATCAGTTGCCCCAACAACCGCAGCACGTCTCTCAG
TCGACACCGGCATACCAGACTGGCCCAGCGCAGTTTCAATCACCGAACGG
TGTCCCTGTTACTCGCCCAGATGACCCCAGTCGTGGGCTTCCGCAACGGA
ACTCTTACCACCCCGTACAACAAGCCCCTCCTGCAGCCTACCAGAGACCT
CCGCCACAGCAGGTCCCACCGCAAGGTTCACCCCATGTTGGACTTCAGCA
AGCACAGCAACCAGCTCCACGTCCCAAGTCAGAGACGCAAGATCTTCTTA
CCTCTCCGTTTGAGCTCGAGCTCCCCTCGTTCGCACCCACCGGCCCGGCG
CCCCCAATTCCACCCAACCCCGAGAAGGACGCCCTACTGCGGGCCGTCTC
TAAGACTCTAGCTGAAACACTGCAAGCAAACGTCGCACAGTCCGAGACTG
CTGCTCAATCTTTGATTTCTCAATCCCACTCGCTGCATGCGGCAATTGCG
ACGCTTCAAGGCGAAGTATCGTCGCTCAACACGCTCAACGCGACTCTTCA
ATCGAACACCACGACTCTGCAGCAATCTCTCATGCGCGCCGACGGCGTCA
TCGCCGATGCGCAAAGCCGTATATCATCCTCGGCCCCGTCATCCAGCACT
GATCCCGTTACTTCGGGTCTCCCACCAATCGACGAAGTTCTCGTTGCCCC
AACCGTGGTCGGTAAACAATTGTACGACTTGGTTGCTGAGGAACGCGGTA
TTCAGCAGGCAATCTATGCCCTCCAAGCTGCGCTGGTTAAGGGTGTCATT
GGGGTTGAGACCTGGTCACGTCACACGCGTGGACTTGCGCGAGAAGCGTT
CTTGAAACGTGCATTGATACGGAAGATCGGGAAAGGCATGGGATTGGAAG
TGCATTGA
back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0006464cellular protein modification process
GO:0015031protein transport
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_188549ASPNIDRAFT_188549Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_188549-T1.exon1ASPNIDRAFT_188549-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_188549-T1.exon2ASPNIDRAFT_188549-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_188549-T1.exon3ASPNIDRAFT_188549-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_188549-T1.exon4ASPNIDRAFT_188549-T1.exon4Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_188549-T1.cdsASPNIDRAFT_188549-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_188549-T1ASPNIDRAFT_188549-T1-proteinAspergillus niger ATCC 1015polypeptide


Properties
Property NameValue
DBxrefInterPro:IPR037202
DBxrefInterPro:IPR016135
DBxrefInterPro:IPR017916
DBxrefInterPro:IPR008883
DBxrefPFAM:PF09454
DBxrefPFAM:PF05743
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 1015 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ACJE01000001.1supercontigACJE01000001.1:983340..985262 +
Powered by Drupal