ASPNIDRAFT_45425-T1, ASPNIDRAFT_45425-T1 (mRNA) Aspergillus niger ATCC 1015

Overview


Name	ASPNIDRAFT_45425-T1
Unique Name	ASPNIDRAFT_45425-T1
Type	mRNA
Organism	Aspergillus niger ATCC 1015

Sequences

The following sequences are available for this feature:

mRNA from alignment at ACJE01000016.1:1279288..1282112-
coding sequence from alignment at ACJE01000016.1:1279288..1282112-

mRNA from alignment at ACJE01000016.1:1279288..1282112-

Legend: polypeptideCDSexon

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

>ASPNIDRAFT_45425-T1 ID=ASPNIDRAFT_45425-T1|Name=ASPNIDRAFT_45425-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2825bp|location=Sequence derived from alignment at ACJE01000016.1:1279288..1282112- (Aspergillus niger ATCC 1015)
ATGGGCCCATCAGGAAGCAAAAGATGGCATCTCCCACTCTTCTTCCTCTG
GATTCTGTATACTTACCCCACCACCTCTACATATCCCAGCTCAATTGACC
ATACTAACCACCATCCAGCTTCCTCCACACTACAGGCCTATACCTCTTCA
CCAAAGGCTTCCTCCTAACACGCCAAACCCTCGACTCGAGAAGCAATTGC
TCCCACCCTCCCATTCCCATTACCAACACCAGCACCACCTGCTGGACTAC
ACCCACCTTCACCAAAGCCATCATCCTCCTCATCGACGCCCTCCGCTACG
ATTTCACCATCCCCACCACCTCCCCCTCCAACGAAACATACCACAACGCC
CTCACCATCCTCCACACCACAGCCCTCCACACCCCCCACAATGCCCTTCT
CTACCCCTTCATCGCTGATCCTCCTACCACTACCCTCCAGCGTCTGAAAG
CCCTCACGACCGGCACTCTGCCCACTTTCATCGAAGCGGGGTCCAACTTC
GCCGGATCAGCAATCACAGAGGATAATTTGATATCTCAGCTTCATGACGC
AGGGAAACGTCTCGTCTTGTTGGGCGATGACACATGGGTGAAACTTTTCC
CGGGACAATTTGATACAGGGCTATCACGCCCGTATAGCTCGTTCCTGGTG
GAGGATTTACATACTGTTGATGATGGGGTATATGGGCATCTTCTACCTTT
ACTACGAAGTAGAGATACAAAGGGAAACGAGGAGTGGGACGTGATAATCG
CCCATTTTCTAGGCGTCGATCACGTCGGGCATCGGTTTGGACCGGGGCAT
CCGGAAATGAGGGATAAACTGGTCCAGATGAATGTGATTATTAGGGAAGT
CATAGAGGAAATTGATGATGAGACGTTGCTGATTGTCATGGGGGATCACG
GGATGGATGAGAATGGGAATCATGGGGGTGAGACGGCGGATGAGGTACGG
GCTGCGCTGTGGATGTATACGACTAGGGAGGTTTTGGGGTTCGTTGATGG
TGATGCTGCTGCTACTGGTGTCGTGGGGAGAGATACGCCGCAGGTGGATT
TAGTGCCGACGTTGGCATTGCTGATGGGCGTGCCGGTGCCGTTTAATAAC
CTGGGTCGGCCGATTGAGGAGGTGTTTGCTGGGAGAGAGGGGAGGGATTG
GGGACGCTTGGTGGAGGTTAATGCTTTGGTTGTGGCACAAATCCAGAGGT
TCACGAGGGAATATGAGAGGTATGGAGGGGAGGGGGTGGTTGAGTGGGAT
AGATGGTATGAGGTTGATGTGGACTTTGGGGACGAGATGGCGTTGAGAGA
ATTCTATCAGAGGTCGAGGAGATATCAAGAGAGGATGCTAGAGGGGTATA
AGCGTATATGGGCTCAGTTTGATCCGCTGAGGATGATTGAGGGCTTGGTG
GTTCTACTGCTGGGGGTTGTGAGTCTGCTATGCTTTCAGGTGAGTGGAGG
CTGGCCTGGTTTAGAGCAGAGGTCTGCGATGGTAGTGGGAACCATGACGG
GGATTGTTGCCGTGGCTGGTCATGTTGCCTTGGCAGACACTGGTCGTGGT
TCTGTCCTTGATGGTGTGATCCTGGGTGCTGCTCTGGGCAGTATTGTGTG
GAATATGTGGCAGACTGATTTGAGTGTTGTGCAGTGCCTTCCGGGGGGAG
TCTGGGGCTGGCAGTCTGTGATGTTCACCCTACTTCTCGGCATTGGATTT
GCCTCGAACTCTTACACCATCTGGGAGGACCGTGTGGTGTTGCTCTTTCT
GTCGACATTCGGGCTATGTACTCTTGGCACGTCAGACCGGATACATCAGG
CAAACGGGATACGTGAAACGGCTTTTTCAGTTATTTTCACGCTGCTGAGC
CGAGTCGCCTCTCTCAGCCGGGCTTGTCGTGAAGAGCAACTGCCAATCTG
CAGAACGTCATTCTATCGTCTGGAGAGCAGCTCGATATGGCAGCTATCAA
GCCCGGTCATTACCGCTGTAGCCGTGGTATACATTACTCGAATGGCTCTG
CAAGACAACACGGCTAGAAACCTGTTTTGGTTCGGACTCGGCATACCAAG
TGCACTGCTGCTCAACACCGTCTTCAATATCCTAGAAACAGCAAGTAACA
ACGGCTGGCTGGTGGACTTCCTTAGCGACGGCACCTCCAAAACTGTGCGC
ATGACTGTTGCACGAATGGTGCTGGCCATTGTCTTCATCGGGTTAGCAAC
TGCGTTTACAACCACTCCAAGACATAGGTCACTCGAACGGCCGCTCATCT
TCACAACAGCAGTGGTCCTCGCAGGCATTCTCTCAAGCACCCCAGCAGGC
GGATTGTCCTTGGCAATCCTTTACTACCAGCTCATCAGTCTACGGCATCT
CGTCCCCAATAACAGCTCCATCAAACCCACCATCGCAGCGCTCCTCGGAA
CTTTACACTTTTTCAGCACCGGTCACAACGCCACCTTATCCAGCATCCAA
TGGAAGTCAGCCTACATCCCATTCCGGGATACGCAGTTTCCCTGGTCACC
ATTGCTGGTGATCATCAATACATTTGCCGCGCCAATCGTTGCAGCATGCG
CCGTGCCTCTTCTTCATTCGGGGGAAAAACAGAGCCAAGCACGCTTTCTG
GCCATTCATAGCACTGTATACACTGCCTGGGCTGCCTTTACAGCATTATG
GGCGTGTATCCTCCGCCGTCATCTGATGCTCTTTGCGATATTCTGTCCGA
GATTCCTGATGGCTGGTGGGCTATTGGTCATTGTTGATGTGCTTGCTTTG
ATTAATTCGGTATTACTGGCTACTAAGCCTGGGATCACACTCAGGGAGAA
GACTCATATAAACAGCTCGATTTAG

Coding sequence (CDS) from alignment at ACJE01000016.1:1279288..1282112-

>ASPNIDRAFT_45425-T1 ID=ASPNIDRAFT_45425-T1|Name=ASPNIDRAFT_45425-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8226bp|location=Sequence derived from alignment at ACJE01000016.1:1279288..1282112- (Aspergillus niger ATCC 1015)
GTGAGTGGAGGCTGGCCTGGTTTAGAGCAGAGGTCTGCGATGGTAGTGGG
AACCATGACGGGGATTGTTGCCGTGGCTGGTCATGTTGCCTTGGCAGACA
CTGGTCGTGGTTCTGTCCTTGATGGTGTGATCCTGGGTGCTGCTCTGGGC
AGTATTGTGTGGAATATGTGGCAGACTGATTTGAGTGTTGTGCAGTGCCT
TCCGGGGGGAGTCTGGGGCTGGCAGTCTGTGATGTTCACCCTACTTCTCG
GCATTGGATTTGCCTCGAACTCTTACACCATCTGGGAGGACCGTGTGGTG
TTGCTCTTTCTGTCGACATTCGGGCTATGTACTCTTGGCACGTCAGACCG
GATACATCAGGCAAACGGGATACGTGAAACGGCTTTTTCAGTTATTTTCA
CGCTGCTGAGCCGAGTCGCCTCTCTCAGCCGGGCTTGTCGTGAAGAGCAA
CTGCCAATCTGCAGAACGTCATTCTATCGTCTGGAGAGCAGCTCGATATG
GCAGCTATCAAGCCCGGTCATTACCGCTGTAGCCGTGGTATACATTACTC
GAATGGCTCTGCAAGACAACACGGCTAGAAACCTGTTTTGGTTCGGACTC
GGCATACCAAGTGCACTGCTGCTCAACACCGTCTTCAATATCCTAGAAAC
AGCAAGTAACAACGGCTGGCTGGTGGACTTCCTTAGCGACGGCACCTCCA
AAACTGTGCGCATGACTGTTGCACGAATGGTGCTGGCCATTGTCTTCATC
GGGTTAGCAACTGCGTTTACAACCACTCCAAGACATAGGTCACTCGAACG
GCCGCTCATCTTCACAACAGCAGTGGTCCTCGCAGGCATTCTCTCAAGCA
CCCCAGCAGGCGGATTGTCCTTGGCAATCCTTTACTACCAGCTCATCAGT
CTACGGCATCTCGTCCCCAATAACAGCTCCATCAAACCCACCATCGCAGC
GCTCCTCGGAACTTTACACTTTTTCAGCACCGGTCACAACGCCACCTTAT
CCAGCATCCAATGGAAGTCAGCCTACATCCCATTCCGGGATACGCAGTTT
CCCTGGTCACCATTGCTGGTGATCATCAATACATTTGCCGCGCCAATCGT
TGCAGCATGCGCCGTGCCTCTTCTTCATTCGGGGGAAAAACAGAGCCAAG
CACGCTTTCTGGCCATTCATAGCACTGTATACACTGCCTGGGCTGCCTTT
ACAGCATTATGGGCGTGTATCCTCCGCCGTCATCTGATGCTCTTTGCGAT
ATTCTGTCCGAGATTCCTGATGGCTGGTGGGCTATTGGTCATTGTTGATG
TGCTTGCTTTGATTAATTCGGTATTACTGGCTACTAAGCCTGGGATCACA
CTCAGGGAGAAGACTCATATAAACAGCTCGATTTAGCTTCCTCCACACTA
CAGGCCTATACCTCTTCACCAAAGGCTTCCTCCTAACACGCCAAACCCTC
GACTCGAGAAGCAATTGCTCCCACCCTCCCATTCCCATTACCAACACCAG
CACCACCTGCTGGACTACACCCACCTTCACCAAAGCCATCATCCTCCTCA
TCGACGCCCTCCGCTACGATTTCACCATCCCCACCACCTCCCCCTCCAAC
GAAACATACCACAACGCCCTCACCATCCTCCACACCACAGCCCTCCACAC
CCCCCACAATGCCCTTCTCTACCCCTTCATCGCTGATCCTCCTACCACTA
CCCTCCAGCGTCTGAAAGCCCTCACGACCGGCACTCTGCCCACTTTCATC
GAAGCGGGGTCCAACTTCGCCGGATCAGCAATCACAGAGGATAATTTGAT
ATCTCAGCTTCATGACGCAGGGAAACGTCTCGTCTTGTTGGGCGATGACA
CATGGGTGAAACTTTTCCCGGGACAATTTGATACAGGGCTATCACGCCCG
TATAGCTCGTTCCTGGTGGAGGATTTACATACTGTTGATGATGGGGTATA
TGGGCATCTTCTACCTTTACTACGAAGTAGAGATACAAAGGGAAACGAGG
AGTGGGACGTGATAATCGCCCATTTTCTAGGCGTCGATCACGTCGGGCAT
CGGTTTGGACCGGGGCATCCGGAAATGAGGGATAAACTGGTCCAGATGAA
TGTGATTATTAGGGAAGTCATAGAGGAAATTGATGATGAGACGTTGCTGA
TTGTCATGGGGGATCACGGGATGGATGAGAATGGGAATCATGGGGGTGAG
ACGGCGGATGAGGTACGGGCTGCGCTGTGGATGTATACGACTAGGGAGGT
TTTGGGGTTCGTTGATGGTGATGCTGCTGCTACTGGTGTCGTGGGGAGAG
ATACGCCGCAGGTGGATTTAGTGCCGACGTTGGCATTGCTGATGGGCGTG
CCGGTGCCGTTTAATAACCTGGGTCGGCCGATTGAGGAGGTGTTTGCTGG
GAGAGAGGGGAGGGATTGGGGACGCTTGGTGGAGGTTAATGCTTTGGTTG
TGGCACAAATCCAGAGGTTCACGAGGGAATATGAGAGGTATGGAGGGGAG
GGGGTGGTTGAGTGGGATAGATGGTATGAGGTTGATGTGGACTTTGGGGA
CGAGATGGCGTTGAGAGAATTCTATCAGAGGTCGAGGAGATATCAAGAGA
GGATGCTAGAGGGGTATAAGCGTATATGGGCTCAGTTTGATCCGCTGAGG
ATGATTGAGGGCTTGGTGGTTCTACTGCTGGGGGTTATGGGCCCATCAGG
AAGCAAAAGATGGCATCTCCCACTCTTCTTCCTCTGGATTCTGTGAGTGG
AGGCTGGCCTGGTTTAGAGCAGAGGTCTGCGATGGTAGTGGGAACCATGA
CGGGGATTGTTGCCGTGGCTGGTCATGTTGCCTTGGCAGACACTGGTCGT
GGTTCTGTCCTTGATGGTGTGATCCTGGGTGCTGCTCTGGGCAGTATTGT
GTGGAATATGTGGCAGACTGATTTGAGTGTTGTGCAGTGCCTTCCGGGGG
GAGTCTGGGGCTGGCAGTCTGTGATGTTCACCCTACTTCTCGGCATTGGA
TTTGCCTCGAACTCTTACACCATCTGGGAGGACCGTGTGGTGTTGCTCTT
TCTGTCGACATTCGGGCTATGTACTCTTGGCACGTCAGACCGGATACATC
AGGCAAACGGGATACGTGAAACGGCTTTTTCAGTTATTTTCACGCTGCTG
AGCCGAGTCGCCTCTCTCAGCCGGGCTTGTCGTGAAGAGCAACTGCCAAT
CTGCAGAACGTCATTCTATCGTCTGGAGAGCAGCTCGATATGGCAGCTAT
CAAGCCCGGTCATTACCGCTGTAGCCGTGGTATACATTACTCGAATGGCT
CTGCAAGACAACACGGCTAGAAACCTGTTTTGGTTCGGACTCGGCATACC
AAGTGCACTGCTGCTCAACACCGTCTTCAATATCCTAGAAACAGCAAGTA
ACAACGGCTGGCTGGTGGACTTCCTTAGCGACGGCACCTCCAAAACTGTG
CGCATGACTGTTGCACGAATGGTGCTGGCCATTGTCTTCATCGGGTTAGC
AACTGCGTTTACAACCACTCCAAGACATAGGTCACTCGAACGGCCGCTCA
TCTTCACAACAGCAGTGGTCCTCGCAGGCATTCTCTCAAGCACCCCAGCA
GGCGGATTGTCCTTGGCAATCCTTTACTACCAGCTCATCAGTCTACGGCA
TCTCGTCCCCAATAACAGCTCCATCAAACCCACCATCGCAGCGCTCCTCG
GAACTTTACACTTTTTCAGCACCGGTCACAACGCCACCTTATCCAGCATC
CAATGGAAGTCAGCCTACATCCCATTCCGGGATACGCAGTTTCCCTGGTC
ACCATTGCTGGTGATCATCAATACATTTGCCGCGCCAATCGTTGCAGCAT
GCGCCGTGCCTCTTCTTCATTCGGGGGAAAAACAGAGCCAAGCACGCTTT
CTGGCCATTCATAGCACTGTATACACTGCCTGGGCTGCCTTTACAGCATT
ATGGGCGTGTATCCTCCGCCGTCATCTGATGCTCTTTGCGATATTCTGTC
CGAGATTCCTGATGGCTGGTGGGCTATTGGTCATTGTTGATGTGCTTGCT
TTGATTAATTCGGTATTACTGGCTACTAAGCCTGGGATCACACTCAGGGA
GAAGACTCATATAAACAGCTCGATTTAGCTTCCTCCACACTACAGGCCTA
TACCTCTTCACCAAAGGCTTCCTCCTAACACGCCAAACCCTCGACTCGAG
AAGCAATTGCTCCCACCCTCCCATTCCCATTACCAACACCAGCACCACCT
GCTGGACTACACCCACCTTCACCAAAGCCATCATCCTCCTCATCGACGCC
CTCCGCTACGATTTCACCATCCCCACCACCTCCCCCTCCAACGAAACATA
CCACAACGCCCTCACCATCCTCCACACCACAGCCCTCCACACCCCCCACA
ATGCCCTTCTCTACCCCTTCATCGCTGATCCTCCTACCACTACCCTCCAG
CGTCTGAAAGCCCTCACGACCGGCACTCTGCCCACTTTCATCGAAGCGGG
GTCCAACTTCGCCGGATCAGCAATCACAGAGGATAATTTGATATCTCAGC
TTCATGACGCAGGGAAACGTCTCGTCTTGTTGGGCGATGACACATGGGTG
AAACTTTTCCCGGGACAATTTGATACAGGGCTATCACGCCCGTATAGCTC
GTTCCTGGTGGAGGATTTACATACTGTTGATGATGGGGTATATGGGCATC
TTCTACCTTTACTACGAAGTAGAGATACAAAGGGAAACGAGGAGTGGGAC
GTGATAATCGCCCATTTTCTAGGCGTCGATCACGTCGGGCATCGGTTTGG
ACCGGGGCATCCGGAAATGAGGGATAAACTGGTCCAGATGAATGTGATTA
TTAGGGAAGTCATAGAGGAAATTGATGATGAGACGTTGCTGATTGTCATG
GGGGATCACGGGATGGATGAGAATGGGAATCATGGGGGTGAGACGGCGGA
TGAGGTACGGGCTGCGCTGTGGATGTATACGACTAGGGAGGTTTTGGGGT
TCGTTGATGGTGATGCTGCTGCTACTGGTGTCGTGGGGAGAGATACGCCG
CAGGTGGATTTAGTGCCGACGTTGGCATTGCTGATGGGCGTGCCGGTGCC
GTTTAATAACCTGGGTCGGCCGATTGAGGAGGTGTTTGCTGGGAGAGAGG
GGAGGGATTGGGGACGCTTGGTGGAGGTTAATGCTTTGGTTGTGGCACAA
ATCCAGAGGTTCACGAGGGAATATGAGAGGTATGGAGGGGAGGGGGTGGT
TGAGTGGGATAGATGGTATGAGGTTGATGTGGACTTTGGGGACGAGATGG
CGTTGAGAGAATTCTATCAGAGGTCGAGGAGATATCAAGAGAGGATGCTA
GAGGGGTATAAGCGTATATGGGCTCAGTTTGATCCGCTGAGGATGATTGA
GGGCTTGGTGGTTCTACTGCTGGGGGTTATGGGCCCATCAGGAAGCAAAA
GATGGCATCTCCCACTCTTCTTCCTCTGGATTCTGTGAGTGGAGGCTGGC
CTGGTTTAGAGCAGAGGTCTGCGATGGTAGTGGGAACCATGACGGGGATT
GTTGCCGTGGCTGGTCATGTTGCCTTGGCAGACACTGGTCGTGGTTCTGT
CCTTGATGGTGTGATCCTGGGTGCTGCTCTGGGCAGTATTGTGTGGAATA
TGTGGCAGACTGATTTGAGTGTTGTGCAGTGCCTTCCGGGGGGAGTCTGG
GGCTGGCAGTCTGTGATGTTCACCCTACTTCTCGGCATTGGATTTGCCTC
GAACTCTTACACCATCTGGGAGGACCGTGTGGTGTTGCTCTTTCTGTCGA
CATTCGGGCTATGTACTCTTGGCACGTCAGACCGGATACATCAGGCAAAC
GGGATACGTGAAACGGCTTTTTCAGTTATTTTCACGCTGCTGAGCCGAGT
CGCCTCTCTCAGCCGGGCTTGTCGTGAAGAGCAACTGCCAATCTGCAGAA
CGTCATTCTATCGTCTGGAGAGCAGCTCGATATGGCAGCTATCAAGCCCG
GTCATTACCGCTGTAGCCGTGGTATACATTACTCGAATGGCTCTGCAAGA
CAACACGGCTAGAAACCTGTTTTGGTTCGGACTCGGCATACCAAGTGCAC
TGCTGCTCAACACCGTCTTCAATATCCTAGAAACAGCAAGTAACAACGGC
TGGCTGGTGGACTTCCTTAGCGACGGCACCTCCAAAACTGTGCGCATGAC
TGTTGCACGAATGGTGCTGGCCATTGTCTTCATCGGGTTAGCAACTGCGT
TTACAACCACTCCAAGACATAGGTCACTCGAACGGCCGCTCATCTTCACA
ACAGCAGTGGTCCTCGCAGGCATTCTCTCAAGCACCCCAGCAGGCGGATT
GTCCTTGGCAATCCTTTACTACCAGCTCATCAGTCTACGGCATCTCGTCC
CCAATAACAGCTCCATCAAACCCACCATCGCAGCGCTCCTCGGAACTTTA
CACTTTTTCAGCACCGGTCACAACGCCACCTTATCCAGCATCCAATGGAA
GTCAGCCTACATCCCATTCCGGGATACGCAGTTTCCCTGGTCACCATTGC
TGGTGATCATCAATACATTTGCCGCGCCAATCGTTGCAGCATGCGCCGTG
CCTCTTCTTCATTCGGGGGAAAAACAGAGCCAAGCACGCTTTCTGGCCAT
TCATAGCACTGTATACACTGCCTGGGCTGCCTTTACAGCATTATGGGCGT
GTATCCTCCGCCGTCATCTGATGCTCTTTGCGATATTCTGTCCGAGATTC
CTGATGGCTGGTGGGCTATTGGTCATTGTTGATGTGCTTGCTTTGATTAA
TTCGGTATTACTGGCTACTAAGCCTGGGATCACACTCAGGGAGAAGACTC
ATATAAACAGCTCGATTTAGCTTCCTCCACACTACAGGCCTATACCTCTT
CACCAAAGGCTTCCTCCTAACACGCCAAACCCTCGACTCGAGAAGCAATT
GCTCCCACCCTCCCATTCCCATTACCAACACCAGCACCACCTGCTGGACT
ACACCCACCTTCACCAAAGCCATCATCCTCCTCATCGACGCCCTCCGCTA
CGATTTCACCATCCCCACCACCTCCCCCTCCAACGAAACATACCACAACG
CCCTCACCATCCTCCACACCACAGCCCTCCACACCCCCCACAATGCCCTT
CTCTACCCCTTCATCGCTGATCCTCCTACCACTACCCTCCAGCGTCTGAA
AGCCCTCACGACCGGCACTCTGCCCACTTTCATCGAAGCGGGGTCCAACT
TCGCCGGATCAGCAATCACAGAGGATAATTTGATATCTCAGCTTCATGAC
GCAGGGAAACGTCTCGTCTTGTTGGGCGATGACACATGGGTGAAACTTTT
CCCGGGACAATTTGATACAGGGCTATCACGCCCGTATAGCTCGTTCCTGG
TGGAGGATTTACATACTGTTGATGATGGGGTATATGGGCATCTTCTACCT
TTACTACGAAGTAGAGATACAAAGGGAAACGAGGAGTGGGACGTGATAAT
CGCCCATTTTCTAGGCGTCGATCACGTCGGGCATCGGTTTGGACCGGGGC
ATCCGGAAATGAGGGATAAACTGGTCCAGATGAATGTGATTATTAGGGAA
GTCATAGAGGAAATTGATGATGAGACGTTGCTGATTGTCATGGGGGATCA
CGGGATGGATGAGAATGGGAATCATGGGGGTGAGACGGCGGATGAGGTAC
GGGCTGCGCTGTGGATGTATACGACTAGGGAGGTTTTGGGGTTCGTTGAT
GGTGATGCTGCTGCTACTGGTGTCGTGGGGAGAGATACGCCGCAGGTGGA
TTTAGTGCCGACGTTGGCATTGCTGATGGGCGTGCCGGTGCCGTTTAATA
ACCTGGGTCGGCCGATTGAGGAGGTGTTTGCTGGGAGAGAGGGGAGGGAT
TGGGGACGCTTGGTGGAGGTTAATGCTTTGGTTGTGGCACAAATCCAGAG
GTTCACGAGGGAATATGAGAGGTATGGAGGGGAGGGGGTGGTTGAGTGGG
ATAGATGGTATGAGGTTGATGTGGACTTTGGGGACGAGATGGCGTTGAGA
GAATTCTATCAGAGGTCGAGGAGATATCAAGAGAGGATGCTAGAGGGGTA
TAAGCGTATATGGGCTCAGTTTGATCCGCTGAGGATGATTGAGGGCTTGG
TGGTTCTACTGCTGGGGGTTATGGGCCCATCAGGAAGCAAAAGATGGCAT
CTCCCACTCTTCTTCCTCTGGATTCT

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0006506	GPI anchor biosynthetic process

Vocabulary: **Molecular Function**
Term	Definition
GO:0051377	mannose-ethanolamine phosphotransferase activity
GO:0003824	catalytic activity

Relationships

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_45425	ASPNIDRAFT_45425	Aspergillus niger ATCC 1015	gene

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_45425-T1	ASPNIDRAFT_45425-T1-protein	Aspergillus niger ATCC 1015	polypeptide

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_45425-T1.cds	ASPNIDRAFT_45425-T1.cds	Aspergillus niger ATCC 1015	CDS

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_45425-T1.exon3	ASPNIDRAFT_45425-T1.exon3	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_45425-T1.exon2	ASPNIDRAFT_45425-T1.exon2	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_45425-T1.exon1	ASPNIDRAFT_45425-T1.exon1	Aspergillus niger ATCC 1015	exon

Properties


Property Name	Value
DBxref	InterPro:IPR037675
DBxref	InterPro:IPR002591
DBxref	InterPro:IPR017850
Product	hypothetical protein

Analyses

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


Analysis Name	Date Performed
Aspergillus niger ATCC 1015 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
ACJE01000016.1	supercontig	ACJE01000016.1:1279288..1282112 -

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ASPNIDRAFT_45425-T1, ASPNIDRAFT_45425-T1 (mRNA) Aspergillus niger ATCC 1015

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ASPNIDRAFT_45425-T1, ASPNIDRAFT_45425-T1 (mRNA) Aspergillus niger ATCC 1015