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ASPNIDRAFT_208323-T1, ASPNIDRAFT_208323-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_208323-T1
Unique NameASPNIDRAFT_208323-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000021.1:502519..504512+

Legend: five_prime_UTRexonpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_208323-T1 ID=ASPNIDRAFT_208323-T1|Name=ASPNIDRAFT_208323-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1994bp|location=Sequence derived from alignment at ACJE01000021.1:502519..504512+ (Aspergillus niger ATCC 1015)
GTCGGTTGCCTGTGCGCGTGCTGTCTTCCTATTTCGTTACGAGAAGAAGA
GCATGCGGCTGTTGTTCTCGCCATGCCGAGTCTCGACATCCCCGGGGAAT
TCCTCCGACATGCTGTTCTAGATACAGTTGTCCCGCATGCTTCAGATGCC
GACCTAGAGGCGGCTCTGACGTCGGCTCTAGAAAAAGGCGCAGAGGACCT
CACTTCTGTGTTGTCGCTCATACCGCAGCGTTCTCTCCTGTTCTTCGGTA
CGCTACGACCTGCTGGCCGGATCGAGCTCTATCTCTTACTCATATGTAGC
GTGATACAGATGAGTTCTGCACCGTTCGCGTTGTCTTACGACTATCCAAT
TGCTCTCCACCTAGCCTGAAACAGTATCTTCCGCACCTCGAAGTCCGACT
CGATGCCTTTGCCATTGATCCCGCCGAGACAGTCGCGGAGAACCCGACCC
CGACTCGGGACCTTATATTTTCAGGGGTTGTAGATTCACAGGAGCCATTG
GTGGTGGTCAATGAGTTTGAGGGAGACACAGGTGGGGGCAACCACGTATA
TGTGATCTGGAGTGTCAAGGCATTCTTGAGTAAGGACTCCGTCCTTGTTC
CGGCATCCTGTCGTGCTGATAAACCTCAGAGCGCCCTCGCATACGCATTC
AACACCCTTCCCTCCTCTTCATCGCCTCTGCTAGCCTCAACCCAGCTGAA
ACCCGACAGCAAGAGCCTCGGGGAGACGACTACCTCCCGCCCCTGATCCC
CGCGTCAACAAACATTCTACAGCCGCTGTCGAGTGATAAGTCCTTGGATC
AGAAAGATCCATTCCTCCCCGCATCTAGGCTCCTGCGAGTTGTACCGGCG
AAATACAGTGAAGACCCCATATATAATGTCCAGCAACATTCCGGCCACCC
CATACGCATAGTGCCTGCTGCCAGTGCAAGGATACGTTATTCTCGGCTGA
ATGCCTATAGTGGACGGCCTACCACTGTTGCAAGCCTTGATTTTGAGGTG
ACACCATTCCTTAATTGCGATGTCACATTTGACAAGGCAGAGCTTAGCAT
GTCGGATGGGACGATAGAAACCCTTACAGATGCACCAGGACTGCTGCCGC
CCATCCGTTGCCAGCCGCGAGATGATATCACCCTTGTATACAAGTTAACG
CCCGACTATGCGCCGGACCCAAATCCATCGACAACTGTGATGGTCAGTGT
ACTGGATATCTCGCTAGAAGCAATAATCCACCTGTCGGACAATTGTAACC
CGCGGATATTGATGCAATGGAGAACCAACGTTGATTTCTCCATGGTCCTC
AACCCAACTTTTGGTGGACCTAGCCAGGCTCTACAACGAAACAACCGCCC
CGCGAGTCTTCCAATGACACCTAACCAAAGCAACGCCGCAGCGGGGACCG
CTACACCTAATCGAAGCTCTCTGAGAGAGCGGGCATACTCAACAGCAGGC
CTTGGTGTATCCGTTTCGTTCAGTGGCCCTCCACATGTCGAAGTAGGAAA
ACCCTTTGCTTGGAGTATCTTCATCGTGAACCGATCTTCCGGTTCCCGCA
AATTCTCAATAGTTGCAATCCCTCGCCGGAAGAAGCTGGACCCACGGGGG
CATACCGTGCGACCCTCTTCTTCATCTGCGACGAGCCGGAAAGATGCTCA
GGTCGCAGAAGCTGTAACCGATGATAACATTGTCCATGCACTCCAGAAGA
GTGTAGTTGGCCAGGAAGCAGAACTCGTTTCTCTAAGTACCGACGTTCGG
GCTGGGTGGGTAGCCCCTTCACTCTTCCCTTTTCCTTTGCCCCAGCTGAT
CATATAATAGTCCCCTTTTGCCTGGCACCTGTTTTTCTACGGAACTGAAA
TTGCTTCCATTGGCGGTGGGGGCACTTCGTCTGGAAGCTGTACGTCTGGT
GGATGTAAATACGAACGAGACGATTGATATTAAAGATCTCCCGGACATCC
ATTCCTTTGAAAGGAAAGGTCGACCGATTGAGGTGGTCAGTTGA
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Coding sequence (CDS) from alignment at ACJE01000021.1:502519..504512+

>ASPNIDRAFT_208323-T1 ID=ASPNIDRAFT_208323-T1|Name=ASPNIDRAFT_208323-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7020bp|location=Sequence derived from alignment at ACJE01000021.1:502519..504512+ (Aspergillus niger ATCC 1015)
ATGCCGAGTCTCGACATCCCCGGGGAATTCCTCCGACATGCTGTTCTAGA
TACAGTTGTCCCGCATGCTTCAGATGCCGACCTAGAGGCGGCTCTGACGT
CGGCTCTAGAAAAAGGCGCAGAGGACCTCACTTCTGTGTTGTCGCTCATA
CCGCAGCGTTCTCTCCTGTTCTTCGATGAGTTCTGCACCGTTCGCGTTGT
CTTACGACTATCCAATTGCTCTCCACCTAGCCTGAAACAGTATCTTCCGC
ACCTCGAAGTCCGACTCGATGCCTTTGCCATTGATCCCGCCGAGACAGTC
GCGGAGAACCCGACCCCGACTCGGGACCTTATATTTTCAGGGGTTGTAGA
TTCACAGGAGCCATTGGTGGTGGTCAATGAGTTTGAGGGAGACACAGGTG
GGGGCAACCACGTATATGTGATCTGGAGTGTCAAGGCATTCTTGAAGCGC
CCTCGCATACGCATTCAACACCCTTCCCTCCTCTTCATCGCCTCTGCTAG
CCTCAACCCAGCTGAAACCCGACAGCAAGAGCCTCGGGGAGACGACTACC
TCCCGCCCCTGATCCCCGCGTCAACAAACATTCTACAGCCGCTGTCGAGT
GATAAGTCCTTGGATCAGAAAGATCCATTCCTCCCCGCATCTAGGCTCCT
GCGAGTTGTACCGGCGAAATACAGTGAAGACCCCATATATAATGTCCAGC
AACATTCCGGCCACCCCATACGCATAGTGCCTGCTGCCAGTGCAAGGATA
CGTTATTCTCGGCTGAATGCCTATAGTGGACGGCCTACCACTGTTGCAAG
CCTTGATTTTGAGGTGACACCATTCCTTAATTGCGATGTCACATTTGACA
AGGCAGAGCTTAGCATGTCGGATGGGACGATAGAAACCCTTACAGATGCA
CCAGGACTGCTGCCGCCCATCCGTTGCCAGCCGCGAGATGATATCACCCT
TGTATACAAGTTAACGCCCGACTATGCGCCGGACCCAAATCCATCGACAA
CTGTGATGGTCAGTGTACTGGATATCTCGCTAGAAGCAATAATCCACCTG
TCGGACAATTGTAACCCGCGGATATTGATGCAATGGAGAACCAACGTTGA
TTTCTCCATGGTCCTCAACCCAACTTTTGGTGGACCTAGCCAGGCTCTAC
AACGAAACAACCGCCCCGCGAGTCTTCCAATGACACCTAACCAAAGCAAC
GCCGCAGCGGGGACCGCTACACCTAATCGAAGCTCTCTGAGAGAGCGGGC
ATACTCAACAGCAGGCCTTGGTGTATCCGTTTCGTTCAGTGGCCCTCCAC
ATGTCGAAGTAGGAAAACCCTTTGCTTGGAGTATCTTCATCGTGAACCGA
TCTTCCGGTTCCCGCAAATTCTCAATAGTTGCAATCCCTCGCCGGAAGAA
GCTGGACCCACGGGGGCATACCGTGCGACCCTCTTCTTCATCTGCGACGA
GCCGGAAAGATGCTCAGGTCGCAGAAGCTGTAACCGATGATAACATTGTC
CATGCACTCCAGAAGAGTGTAGTTGGCCAGGAAGCAGAACTCGTTTCTCT
AAGTACCGACGTTCGGGCTGGTCCCCTTTTGCCTGGCACCTGTTTTTCTA
CGGAACTGAAATTGCTTCCATTGGCGGTGGGGGCACTTCGTCTGGAAGCT
GTACGTCTGGTGGATGTAAATACGAACGAGACGATTGATATTAAAGATCT
CCCGGACATCCATTCCTTTGAAAGGAAAGGTCGACCGATTGAGGTGGTCA
GTTGAATGCCGAGTCTCGACATCCCCGGGGAATTCCTCCGACATGCTGTT
CTAGATACAGTTGTCCCGCATGCTTCAGATGCCGACCTAGAGGCGGCTCT
GACGTCGGCTCTAGAAAAAGGCGCAGAGGACCTCACTTCTGTGTTGTCGC
TCATACCGCAGCGTTCTCTCCTGTTCTTCGATGAGTTCTGCACCGTTCGC
GTTGTCTTACGACTATCCAATTGCTCTCCACCTAGCCTGAAACAGTATCT
TCCGCACCTCGAAGTCCGACTCGATGCCTTTGCCATTGATCCCGCCGAGA
CAGTCGCGGAGAACCCGACCCCGACTCGGGACCTTATATTTTCAGGGGTT
GTAGATTCACAGGAGCCATTGGTGGTGGTCAATGAGTTTGAGGGAGACAC
AGGTGGGGGCAACCACGTATATGTGATCTGGAGTGTCAAGGCATTCTTGA
AGCGCCCTCGCATACGCATTCAACACCCTTCCCTCCTCTTCATCGCCTCT
GCTAGCCTCAACCCAGCTGAAACCCGACAGCAAGAGCCTCGGGGAGACGA
CTACCTCCCGCCCCTGATCCCCGCGTCAACAAACATTCTACAGCCGCTGT
CGAGTGATAAGTCCTTGGATCAGAAAGATCCATTCCTCCCCGCATCTAGG
CTCCTGCGAGTTGTACCGGCGAAATACAGTGAAGACCCCATATATAATGT
CCAGCAACATTCCGGCCACCCCATACGCATAGTGCCTGCTGCCAGTGCAA
GGATACGTTATTCTCGGCTGAATGCCTATAGTGGACGGCCTACCACTGTT
GCAAGCCTTGATTTTGAGGTGACACCATTCCTTAATTGCGATGTCACATT
TGACAAGGCAGAGCTTAGCATGTCGGATGGGACGATAGAAACCCTTACAG
ATGCACCAGGACTGCTGCCGCCCATCCGTTGCCAGCCGCGAGATGATATC
ACCCTTGTATACAAGTTAACGCCCGACTATGCGCCGGACCCAAATCCATC
GACAACTGTGATGGTCAGTGTACTGGATATCTCGCTAGAAGCAATAATCC
ACCTGTCGGACAATTGTAACCCGCGGATATTGATGCAATGGAGAACCAAC
GTTGATTTCTCCATGGTCCTCAACCCAACTTTTGGTGGACCTAGCCAGGC
TCTACAACGAAACAACCGCCCCGCGAGTCTTCCAATGACACCTAACCAAA
GCAACGCCGCAGCGGGGACCGCTACACCTAATCGAAGCTCTCTGAGAGAG
CGGGCATACTCAACAGCAGGCCTTGGTGTATCCGTTTCGTTCAGTGGCCC
TCCACATGTCGAAGTAGGAAAACCCTTTGCTTGGAGTATCTTCATCGTGA
ACCGATCTTCCGGTTCCCGCAAATTCTCAATAGTTGCAATCCCTCGCCGG
AAGAAGCTGGACCCACGGGGGCATACCGTGCGACCCTCTTCTTCATCTGC
GACGAGCCGGAAAGATGCTCAGGTCGCAGAAGCTGTAACCGATGATAACA
TTGTCCATGCACTCCAGAAGAGTGTAGTTGGCCAGGAAGCAGAACTCGTT
TCTCTAAGTACCGACGTTCGGGCTGGTCCCCTTTTGCCTGGCACCTGTTT
TTCTACGGAACTGAAATTGCTTCCATTGGCGGTGGGGGCACTTCGTCTGG
AAGCTGTACGTCTGGTGGATGTAAATACGAACGAGACGATTGATATTAAA
GATCTCCCGGACATCCATTCCTTTGAAAGGAAAGGTCGACCGATTGAGGT
GGTCAGTTGAATGCCGAGTCTCGACATCCCCGGGGAATTCCTCCGACATG
CTGTTCTAGATACAGTTGTCCCGCATGCTTCAGATGCCGACCTAGAGGCG
GCTCTGACGTCGGCTCTAGAAAAAGGCGCAGAGGACCTCACTTCTGTGTT
GTCGCTCATACCGCAGCGTTCTCTCCTGTTCTTCGATGAGTTCTGCACCG
TTCGCGTTGTCTTACGACTATCCAATTGCTCTCCACCTAGCCTGAAACAG
TATCTTCCGCACCTCGAAGTCCGACTCGATGCCTTTGCCATTGATCCCGC
CGAGACAGTCGCGGAGAACCCGACCCCGACTCGGGACCTTATATTTTCAG
GGGTTGTAGATTCACAGGAGCCATTGGTGGTGGTCAATGAGTTTGAGGGA
GACACAGGTGGGGGCAACCACGTATATGTGATCTGGAGTGTCAAGGCATT
CTTGAAGCGCCCTCGCATACGCATTCAACACCCTTCCCTCCTCTTCATCG
CCTCTGCTAGCCTCAACCCAGCTGAAACCCGACAGCAAGAGCCTCGGGGA
GACGACTACCTCCCGCCCCTGATCCCCGCGTCAACAAACATTCTACAGCC
GCTGTCGAGTGATAAGTCCTTGGATCAGAAAGATCCATTCCTCCCCGCAT
CTAGGCTCCTGCGAGTTGTACCGGCGAAATACAGTGAAGACCCCATATAT
AATGTCCAGCAACATTCCGGCCACCCCATACGCATAGTGCCTGCTGCCAG
TGCAAGGATACGTTATTCTCGGCTGAATGCCTATAGTGGACGGCCTACCA
CTGTTGCAAGCCTTGATTTTGAGGTGACACCATTCCTTAATTGCGATGTC
ACATTTGACAAGGCAGAGCTTAGCATGTCGGATGGGACGATAGAAACCCT
TACAGATGCACCAGGACTGCTGCCGCCCATCCGTTGCCAGCCGCGAGATG
ATATCACCCTTGTATACAAGTTAACGCCCGACTATGCGCCGGACCCAAAT
CCATCGACAACTGTGATGGTCAGTGTACTGGATATCTCGCTAGAAGCAAT
AATCCACCTGTCGGACAATTGTAACCCGCGGATATTGATGCAATGGAGAA
CCAACGTTGATTTCTCCATGGTCCTCAACCCAACTTTTGGTGGACCTAGC
CAGGCTCTACAACGAAACAACCGCCCCGCGAGTCTTCCAATGACACCTAA
CCAAAGCAACGCCGCAGCGGGGACCGCTACACCTAATCGAAGCTCTCTGA
GAGAGCGGGCATACTCAACAGCAGGCCTTGGTGTATCCGTTTCGTTCAGT
GGCCCTCCACATGTCGAAGTAGGAAAACCCTTTGCTTGGAGTATCTTCAT
CGTGAACCGATCTTCCGGTTCCCGCAAATTCTCAATAGTTGCAATCCCTC
GCCGGAAGAAGCTGGACCCACGGGGGCATACCGTGCGACCCTCTTCTTCA
TCTGCGACGAGCCGGAAAGATGCTCAGGTCGCAGAAGCTGTAACCGATGA
TAACATTGTCCATGCACTCCAGAAGAGTGTAGTTGGCCAGGAAGCAGAAC
TCGTTTCTCTAAGTACCGACGTTCGGGCTGGTCCCCTTTTGCCTGGCACC
TGTTTTTCTACGGAACTGAAATTGCTTCCATTGGCGGTGGGGGCACTTCG
TCTGGAAGCTGTACGTCTGGTGGATGTAAATACGAACGAGACGATTGATA
TTAAAGATCTCCCGGACATCCATTCCTTTGAAAGGAAAGGTCGACCGATT
GAGGTGGTCAGTTGAATGCCGAGTCTCGACATCCCCGGGGAATTCCTCCG
ACATGCTGTTCTAGATACAGTTGTCCCGCATGCTTCAGATGCCGACCTAG
AGGCGGCTCTGACGTCGGCTCTAGAAAAAGGCGCAGAGGACCTCACTTCT
GTGTTGTCGCTCATACCGCAGCGTTCTCTCCTGTTCTTCGATGAGTTCTG
CACCGTTCGCGTTGTCTTACGACTATCCAATTGCTCTCCACCTAGCCTGA
AACAGTATCTTCCGCACCTCGAAGTCCGACTCGATGCCTTTGCCATTGAT
CCCGCCGAGACAGTCGCGGAGAACCCGACCCCGACTCGGGACCTTATATT
TTCAGGGGTTGTAGATTCACAGGAGCCATTGGTGGTGGTCAATGAGTTTG
AGGGAGACACAGGTGGGGGCAACCACGTATATGTGATCTGGAGTGTCAAG
GCATTCTTGAAGCGCCCTCGCATACGCATTCAACACCCTTCCCTCCTCTT
CATCGCCTCTGCTAGCCTCAACCCAGCTGAAACCCGACAGCAAGAGCCTC
GGGGAGACGACTACCTCCCGCCCCTGATCCCCGCGTCAACAAACATTCTA
CAGCCGCTGTCGAGTGATAAGTCCTTGGATCAGAAAGATCCATTCCTCCC
CGCATCTAGGCTCCTGCGAGTTGTACCGGCGAAATACAGTGAAGACCCCA
TATATAATGTCCAGCAACATTCCGGCCACCCCATACGCATAGTGCCTGCT
GCCAGTGCAAGGATACGTTATTCTCGGCTGAATGCCTATAGTGGACGGCC
TACCACTGTTGCAAGCCTTGATTTTGAGGTGACACCATTCCTTAATTGCG
ATGTCACATTTGACAAGGCAGAGCTTAGCATGTCGGATGGGACGATAGAA
ACCCTTACAGATGCACCAGGACTGCTGCCGCCCATCCGTTGCCAGCCGCG
AGATGATATCACCCTTGTATACAAGTTAACGCCCGACTATGCGCCGGACC
CAAATCCATCGACAACTGTGATGGTCAGTGTACTGGATATCTCGCTAGAA
GCAATAATCCACCTGTCGGACAATTGTAACCCGCGGATATTGATGCAATG
GAGAACCAACGTTGATTTCTCCATGGTCCTCAACCCAACTTTTGGTGGAC
CTAGCCAGGCTCTACAACGAAACAACCGCCCCGCGAGTCTTCCAATGACA
CCTAACCAAAGCAACGCCGCAGCGGGGACCGCTACACCTAATCGAAGCTC
TCTGAGAGAGCGGGCATACTCAACAGCAGGCCTTGGTGTATCCGTTTCGT
TCAGTGGCCCTCCACATGTCGAAGTAGGAAAACCCTTTGCTTGGAGTATC
TTCATCGTGAACCGATCTTCCGGTTCCCGCAAATTCTCAATAGTTGCAAT
CCCTCGCCGGAAGAAGCTGGACCCACGGGGGCATACCGTGCGACCCTCTT
CTTCATCTGCGACGAGCCGGAAAGATGCTCAGGTCGCAGAAGCTGTAACC
GATGATAACATTGTCCATGCACTCCAGAAGAGTGTAGTTGGCCAGGAAGC
AGAACTCGTTTCTCTAAGTACCGACGTTCGGGCTGGTCCCCTTTTGCCTG
GCACCTGTTTTTCTACGGAACTGAAATTGCTTCCATTGGCGGTGGGGGCA
CTTCGTCTGGAAGCTGTACGTCTGGTGGATGTAAATACGAACGAGACGAT
TGATATTAAAGATCTCCCGGACATCCATTCCTTTGAAAGGAAAGGTCGAC
CGATTGAGGTGGTCAGTTGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:1990071TRAPPII protein complex
Vocabulary: Biological Process
TermDefinition
GO:0006891intra-Golgi vesicle-mediated transport
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_208323ASPNIDRAFT_208323Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_208323-T1ASPNIDRAFT_208323-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_208323-T1.utr5p1ASPNIDRAFT_208323-T1.utr5p1Aspergillus niger ATCC 1015five_prime_UTR


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_208323-T1.exon1ASPNIDRAFT_208323-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_208323-T1.exon2ASPNIDRAFT_208323-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_208323-T1.exon3ASPNIDRAFT_208323-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_208323-T1.exon4ASPNIDRAFT_208323-T1.exon4Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_208323-T1.cdsASPNIDRAFT_208323-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
NoteantiSMASH:Cluster_10000211.1
DBxrefInterPro:IPR024662
DBxrefPFAM:PF12735
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
ACJE01000021.1supercontigACJE01000021.1:502519..504512 +
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