ASPNIDRAFT_47151-T1, ASPNIDRAFT_47151-T1 (mRNA) Aspergillus niger ATCC 1015

Overview


Name	ASPNIDRAFT_47151-T1
Unique Name	ASPNIDRAFT_47151-T1
Type	mRNA
Organism	Aspergillus niger ATCC 1015

Sequences

The following sequences are available for this feature:

mRNA from alignment at ACJE01000010.1:3139535..3141404+
coding sequence from alignment at ACJE01000010.1:3139535..3141404+

mRNA from alignment at ACJE01000010.1:3139535..3141404+

Legend: polypeptideexonCDS

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

>ASPNIDRAFT_47151-T1 ID=ASPNIDRAFT_47151-T1|Name=ASPNIDRAFT_47151-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1870bp|location=Sequence derived from alignment at ACJE01000010.1:3139535..3141404+ (Aspergillus niger ATCC 1015)
ATGGCTACCGAAATCTCCAAGATCAAGGTCAAGAACCCCGTCGTTGAGCT
CGACGGTGATGAGGTATGTCTGATGTGAACTTTCCATGTTTTGGCTTCCC
ACCCCTCTCCTTTATATGTCCAATTCTGCATCTCGGCCCTGCCCCTCGTC
GGGATGCACATTTTCGTCATGGCGCATTCTAGACGCGGGGAATTACGGCG
GCTGCCGCCTGGGTCCCTGACAGCCAAGCGTCAATCATTCGGCGATCCAG
GGCTCAATTGCAGCGCAGGAGGTAGTTTTGACATGTGCTAACGTTGGCGT
TTACTAGATGACCCGTATCATCTGGCAGGAGATCAGAGAAAAGGTATGTA
GTTGGCCCTCGGCTGCCCCGCCATGCATCAGCTCCAGATGCATTCCTCCC
GTTCTCTCCCGCATCTTCACACGCTAACTCGGCCCCGCTTCTATAGTTGA
TTCTGCCGTAAGTCGATGTCTTCCGATTCTTGACTCATCCATCCAGCCGA
CTAAGACATTACTGCCTAGTTTCCTTGACGTCGACCTCAAGTACTATGAC
CTGGTAGGCTTCTTTGTGGCAAGAATTGGTGTTCTGGGGGGAGACTGACA
GACATTGCAGGGTCTCGAATACCGTGACCAGACCGATGACCAGGTCACCG
TTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGTGTCAAGTGCGCC
ACCATCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAAGCTGAAGAAGAG
TACGCATACCGATCGGCATGTGAAAGAGGAGTCAATGTTAACCCTTGCTT
CCAGTGTGGCTGTCCCCCAACGGTACCATCCGTAACATCCTGTTCGTATC
CCTTGCCGCAATCCTTGTTATTCAGTTCAGTTTGCTAATCAACTCTGCAG
CGGCGGTACCGTCTTCCGTGAGCCCATTATCATCCCCACCATCCCCCGTC
TCGTCCCCGGCTGGAACAAGCCCATCATCATCGGTCGTCACGCTTTCGGT
GACCAGTACCGTGCCACCGACCGTGTCATCCCCGGTCCCGGCAAGCTCGA
GCTTGTCTACACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTACG
ACTTCCAGGGTGGTGGTGTTGCCCAGACCCAGTACAACACCGATGAGTCG
ATCCGTGGCTTTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGTCT
CCCTCTGTACATGAGCACCAAGAACACCATCCTCAAGCGCTACGATGGTC
GCTTCAAGGACATCTTCCAGGAGATCTACGAGAGCACCTACCAGAAGGAC
TTTGAGGCCAAGAACCTCTGGTACGAGCACCGTCTCATTGACGACATGGT
TGCCCAGATGATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAGTA
TGTCTTTCCCTCTTAAATGCAACTGAACGTTAGCTAACTGATCAGACTAC
GACGGTGATGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGG
TCTGATGACCTCGACTCTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTG
AGGCTGCCCACGGTACCGTGACCCGTCACTACCGCGAGCACCAGAAGGGC
CGCGAGACCTCCACCAACCCCATTGCCTCCATCTTCGCCTGGACCCGCGG
TCTGGTGCAGCGTGGCAAGCTCGACGAGACTCCCGATGTTGTTACCTTTG
CTGAGGAGCTTGAGCGTGCTTGCATTGACGTTGTCAACGAGGAGGGCATC
ATGACCAAGGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTG
GGTTACTACCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCA
ACCTCAAGTCCCGCCTCTAA

Coding sequence (CDS) from alignment at ACJE01000010.1:3139535..3141404+

>ASPNIDRAFT_47151-T1 ID=ASPNIDRAFT_47151-T1|Name=ASPNIDRAFT_47151-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8778bp|location=Sequence derived from alignment at ACJE01000010.1:3139535..3141404+ (Aspergillus niger ATCC 1015)
ATGGCTACCGAAATCTCCAAGATCAAGGTCAAGAACCCCGTCGTTGAGCT
CGACGGTGATGAGATGACCCGTATCATCTGGCAGGAGATCAGAGAAAAGC
CGACTAAGACATTACTGCCTAGTTTCCTTGACGTCGACCTCAAGTACTAT
GACCTGGGTCTCGAATACCGTGACCAGACCGATGACCAGGTCACCGTTGA
GGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGTGTCAAGTGCGCCACCA
TCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAAGCTGAAGAAGATGTGG
CTGTCCCCCAACGGTACCATCCGTAACATCCTCGGCGGTACCGTCTTCCG
TGAGCCCATTATCATCCCCACCATCCCCCGTCTCGTCCCCGGCTGGAACA
AGCCCATCATCATCGGTCGTCACGCTTTCGGTGACCAGTACCGTGCCACC
GACCGTGTCATCCCCGGTCCCGGCAAGCTCGAGCTTGTCTACACCCCCGC
CAATGGCGAGCCCGAGACCGTCCAGGTCTACGACTTCCAGGGTGGTGGTG
TTGCCCAGACCCAGTACAACACCGATGAGTCGATCCGTGGCTTTGCCCAC
GCCAGTTTCCAGATGGCCCTGCTCAAGGGTCTCCCTCTGTACATGAGCAC
CAAGAACACCATCCTCAAGCGCTACGATGGTCGCTTCAAGGACATCTTCC
AGGAGATCTACGAGAGCACCTACCAGAAGGACTTTGAGGCCAAGAACCTC
TGGTACGAGCACCGTCTCATTGACGACATGGTTGCCCAGATGATCAAGAG
TGAGGGTGGATTCGTCATGGCCCTGAAGAACTACGACGGTGATGTCCAGT
CCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGGTCTGATGACCTCGACT
CTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTGAGGCTGCCCACGGTAC
CGTGACCCGTCACTACCGCGAGCACCAGAAGGGCCGCGAGACCTCCACCA
ACCCCATTGCCTCCATCTTCGCCTGGACCCGCGGTCTGGTGCAGCGTGGC
AAGCTCGACGAGACTCCCGATGTTGTTACCTTTGCTGAGGAGCTTGAGCG
TGCTTGCATTGACGTTGTCAACGAGGAGGGCATCATGACCAAGGATCTGG
CTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTGGGTTACTACCCGCGAG
TACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCAACCTCAAGTCCCGCCT
CTAAATGGCTACCGAAATCTCCAAGATCAAGGTCAAGAACCCCGTCGTTG
AGCTCGACGGTGATGAGATGACCCGTATCATCTGGCAGGAGATCAGAGAA
AAGCCGACTAAGACATTACTGCCTAGTTTCCTTGACGTCGACCTCAAGTA
CTATGACCTGGGTCTCGAATACCGTGACCAGACCGATGACCAGGTCACCG
TTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGTGTCAAGTGCGCC
ACCATCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAAGCTGAAGAAGAT
GTGGCTGTCCCCCAACGGTACCATCCGTAACATCCTCGGCGGTACCGTCT
TCCGTGAGCCCATTATCATCCCCACCATCCCCCGTCTCGTCCCCGGCTGG
AACAAGCCCATCATCATCGGTCGTCACGCTTTCGGTGACCAGTACCGTGC
CACCGACCGTGTCATCCCCGGTCCCGGCAAGCTCGAGCTTGTCTACACCC
CCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTACGACTTCCAGGGTGGT
GGTGTTGCCCAGACCCAGTACAACACCGATGAGTCGATCCGTGGCTTTGC
CCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGTCTCCCTCTGTACATGA
GCACCAAGAACACCATCCTCAAGCGCTACGATGGTCGCTTCAAGGACATC
TTCCAGGAGATCTACGAGAGCACCTACCAGAAGGACTTTGAGGCCAAGAA
CCTCTGGTACGAGCACCGTCTCATTGACGACATGGTTGCCCAGATGATCA
AGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAACTACGACGGTGATGTC
CAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGGTCTGATGACCTC
GACTCTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTGAGGCTGCCCACG
GTACCGTGACCCGTCACTACCGCGAGCACCAGAAGGGCCGCGAGACCTCC
ACCAACCCCATTGCCTCCATCTTCGCCTGGACCCGCGGTCTGGTGCAGCG
TGGCAAGCTCGACGAGACTCCCGATGTTGTTACCTTTGCTGAGGAGCTTG
AGCGTGCTTGCATTGACGTTGTCAACGAGGAGGGCATCATGACCAAGGAT
CTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTGGGTTACTACCCG
CGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCAACCTCAAGTCCC
GCCTCTAAATGGCTACCGAAATCTCCAAGATCAAGGTCAAGAACCCCGTC
GTTGAGCTCGACGGTGATGAGATGACCCGTATCATCTGGCAGGAGATCAG
AGAAAAGCCGACTAAGACATTACTGCCTAGTTTCCTTGACGTCGACCTCA
AGTACTATGACCTGGGTCTCGAATACCGTGACCAGACCGATGACCAGGTC
ACCGTTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGTGTCAAGTG
CGCCACCATCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAAGCTGAAGA
AGATGTGGCTGTCCCCCAACGGTACCATCCGTAACATCCTCGGCGGTACC
GTCTTCCGTGAGCCCATTATCATCCCCACCATCCCCCGTCTCGTCCCCGG
CTGGAACAAGCCCATCATCATCGGTCGTCACGCTTTCGGTGACCAGTACC
GTGCCACCGACCGTGTCATCCCCGGTCCCGGCAAGCTCGAGCTTGTCTAC
ACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTACGACTTCCAGGG
TGGTGGTGTTGCCCAGACCCAGTACAACACCGATGAGTCGATCCGTGGCT
TTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGTCTCCCTCTGTAC
ATGAGCACCAAGAACACCATCCTCAAGCGCTACGATGGTCGCTTCAAGGA
CATCTTCCAGGAGATCTACGAGAGCACCTACCAGAAGGACTTTGAGGCCA
AGAACCTCTGGTACGAGCACCGTCTCATTGACGACATGGTTGCCCAGATG
ATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAACTACGACGGTGA
TGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGGTCTGATGA
CCTCGACTCTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTGAGGCTGCC
CACGGTACCGTGACCCGTCACTACCGCGAGCACCAGAAGGGCCGCGAGAC
CTCCACCAACCCCATTGCCTCCATCTTCGCCTGGACCCGCGGTCTGGTGC
AGCGTGGCAAGCTCGACGAGACTCCCGATGTTGTTACCTTTGCTGAGGAG
CTTGAGCGTGCTTGCATTGACGTTGTCAACGAGGAGGGCATCATGACCAA
GGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTGGGTTACTA
CCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCAACCTCAAG
TCCCGCCTCTAAATGGCTACCGAAATCTCCAAGATCAAGGTCAAGAACCC
CGTCGTTGAGCTCGACGGTGATGAGATGACCCGTATCATCTGGCAGGAGA
TCAGAGAAAAGCCGACTAAGACATTACTGCCTAGTTTCCTTGACGTCGAC
CTCAAGTACTATGACCTGGGTCTCGAATACCGTGACCAGACCGATGACCA
GGTCACCGTTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGTGTCA
AGTGCGCCACCATCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAAGCTG
AAGAAGATGTGGCTGTCCCCCAACGGTACCATCCGTAACATCCTCGGCGG
TACCGTCTTCCGTGAGCCCATTATCATCCCCACCATCCCCCGTCTCGTCC
CCGGCTGGAACAAGCCCATCATCATCGGTCGTCACGCTTTCGGTGACCAG
TACCGTGCCACCGACCGTGTCATCCCCGGTCCCGGCAAGCTCGAGCTTGT
CTACACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTACGACTTCC
AGGGTGGTGGTGTTGCCCAGACCCAGTACAACACCGATGAGTCGATCCGT
GGCTTTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGTCTCCCTCT
GTACATGAGCACCAAGAACACCATCCTCAAGCGCTACGATGGTCGCTTCA
AGGACATCTTCCAGGAGATCTACGAGAGCACCTACCAGAAGGACTTTGAG
GCCAAGAACCTCTGGTACGAGCACCGTCTCATTGACGACATGGTTGCCCA
GATGATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAACTACGACG
GTGATGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGGTCTG
ATGACCTCGACTCTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTGAGGC
TGCCCACGGTACCGTGACCCGTCACTACCGCGAGCACCAGAAGGGCCGCG
AGACCTCCACCAACCCCATTGCCTCCATCTTCGCCTGGACCCGCGGTCTG
GTGCAGCGTGGCAAGCTCGACGAGACTCCCGATGTTGTTACCTTTGCTGA
GGAGCTTGAGCGTGCTTGCATTGACGTTGTCAACGAGGAGGGCATCATGA
CCAAGGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTGGGTT
ACTACCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCAACCT
CAAGTCCCGCCTCTAAATGGCTACCGAAATCTCCAAGATCAAGGTCAAGA
ACCCCGTCGTTGAGCTCGACGGTGATGAGATGACCCGTATCATCTGGCAG
GAGATCAGAGAAAAGCCGACTAAGACATTACTGCCTAGTTTCCTTGACGT
CGACCTCAAGTACTATGACCTGGGTCTCGAATACCGTGACCAGACCGATG
ACCAGGTCACCGTTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGTCGGT
GTCAAGTGCGCCACCATCACTCCCGATGAGGCTCGTGTTGAGGAGTTCAA
GCTGAAGAAGATGTGGCTGTCCCCCAACGGTACCATCCGTAACATCCTCG
GCGGTACCGTCTTCCGTGAGCCCATTATCATCCCCACCATCCCCCGTCTC
GTCCCCGGCTGGAACAAGCCCATCATCATCGGTCGTCACGCTTTCGGTGA
CCAGTACCGTGCCACCGACCGTGTCATCCCCGGTCCCGGCAAGCTCGAGC
TTGTCTACACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTACGAC
TTCCAGGGTGGTGGTGTTGCCCAGACCCAGTACAACACCGATGAGTCGAT
CCGTGGCTTTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGTCTCC
CTCTGTACATGAGCACCAAGAACACCATCCTCAAGCGCTACGATGGTCGC
TTCAAGGACATCTTCCAGGAGATCTACGAGAGCACCTACCAGAAGGACTT
TGAGGCCAAGAACCTCTGGTACGAGCACCGTCTCATTGACGACATGGTTG
CCCAGATGATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAACTAC
GACGGTGATGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCCTTGG
TCTGATGACCTCGACTCTGGTCACCCCTACTGGCGAGGCCTTCGAGTCTG
AGGCTGCCCACGGTACCGTGACCCGTCACTACCGCGAGCACCAGAAGGGC
CGCGAGACCTCCACCAACCCCATTGCCTCCATCTTCGCCTGGACCCGCGG
TCTGGTGCAGCGTGGCAAGCTCGACGAGACTCCCGATGTTGTTACCTTTG
CTGAGGAGCTTGAGCGTGCTTGCATTGACGTTGTCAACGAGGAGGGCATC
ATGACCAAGGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGGCCTG
GGTTACTACCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAGGCCA
ACCTCAAGTCCCGCCTCTAAATGGCTACCGAAATCTCCAAGATCAAGGTC
AAGAACCCCGTCGTTGAGCTCGACGGTGATGAGATGACCCGTATCATCTG
GCAGGAGATCAGAGAAAAGCCGACTAAGACATTACTGCCTAGTTTCCTTG
ACGTCGACCTCAAGTACTATGACCTGGGTCTCGAATACCGTGACCAGACC
GATGACCAGGTCACCGTTGAGGCTGCCGAGGCTATCAAGAAGTATGGTGT
CGGTGTCAAGTGCGCCACCATCACTCCCGATGAGGCTCGTGTTGAGGAGT
TCAAGCTGAAGAAGATGTGGCTGTCCCCCAACGGTACCATCCGTAACATC
CTCGGCGGTACCGTCTTCCGTGAGCCCATTATCATCCCCACCATCCCCCG
TCTCGTCCCCGGCTGGAACAAGCCCATCATCATCGGTCGTCACGCTTTCG
GTGACCAGTACCGTGCCACCGACCGTGTCATCCCCGGTCCCGGCAAGCTC
GAGCTTGTCTACACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGGTCTA
CGACTTCCAGGGTGGTGGTGTTGCCCAGACCCAGTACAACACCGATGAGT
CGATCCGTGGCTTTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAAGGGT
CTCCCTCTGTACATGAGCACCAAGAACACCATCCTCAAGCGCTACGATGG
TCGCTTCAAGGACATCTTCCAGGAGATCTACGAGAGCACCTACCAGAAGG
ACTTTGAGGCCAAGAACCTCTGGTACGAGCACCGTCTCATTGACGACATG
GTTGCCCAGATGATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGAAGAA
CTACGACGGTGATGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGCTCCC
TTGGTCTGATGACCTCGACTCTGGTCACCCCTACTGGCGAGGCCTTCGAG
TCTGAGGCTGCCCACGGTACCGTGACCCGTCACTACCGCGAGCACCAGAA
GGGCCGCGAGACCTCCACCAACCCCATTGCCTCCATCTTCGCCTGGACCC
GCGGTCTGGTGCAGCGTGGCAAGCTCGACGAGACTCCCGATGTTGTTACC
TTTGCTGAGGAGCTTGAGCGTGCTTGCATTGACGTTGTCAACGAGGAGGG
CATCATGACCAAGGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGTGAGG
CCTGGGTTACTACCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACTCAAG
GCCAACCTCAAGTCCCGCCTCTAAATGGCTACCGAAATCTCCAAGATCAA
GGTCAAGAACCCCGTCGTTGAGCTCGACGGTGATGAGATGACCCGTATCA
TCTGGCAGGAGATCAGAGAAAAGCCGACTAAGACATTACTGCCTAGTTTC
CTTGACGTCGACCTCAAGTACTATGACCTGGGTCTCGAATACCGTGACCA
GACCGATGACCAGGTCACCGTTGAGGCTGCCGAGGCTATCAAGAAGTATG
GTGTCGGTGTCAAGTGCGCCACCATCACTCCCGATGAGGCTCGTGTTGAG
GAGTTCAAGCTGAAGAAGATGTGGCTGTCCCCCAACGGTACCATCCGTAA
CATCCTCGGCGGTACCGTCTTCCGTGAGCCCATTATCATCCCCACCATCC
CCCGTCTCGTCCCCGGCTGGAACAAGCCCATCATCATCGGTCGTCACGCT
TTCGGTGACCAGTACCGTGCCACCGACCGTGTCATCCCCGGTCCCGGCAA
GCTCGAGCTTGTCTACACCCCCGCCAATGGCGAGCCCGAGACCGTCCAGG
TCTACGACTTCCAGGGTGGTGGTGTTGCCCAGACCCAGTACAACACCGAT
GAGTCGATCCGTGGCTTTGCCCACGCCAGTTTCCAGATGGCCCTGCTCAA
GGGTCTCCCTCTGTACATGAGCACCAAGAACACCATCCTCAAGCGCTACG
ATGGTCGCTTCAAGGACATCTTCCAGGAGATCTACGAGAGCACCTACCAG
AAGGACTTTGAGGCCAAGAACCTCTGGTACGAGCACCGTCTCATTGACGA
CATGGTTGCCCAGATGATCAAGAGTGAGGGTGGATTCGTCATGGCCCTGA
AGAACTACGACGGTGATGTCCAGTCCGACATTGTCGCCCAGGGTTTCGGC
TCCCTTGGTCTGATGACCTCGACTCTGGTCACCCCTACTGGCGAGGCCTT
CGAGTCTGAGGCTGCCCACGGTACCGTGACCCGTCACTACCGCGAGCACC
AGAAGGGCCGCGAGACCTCCACCAACCCCATTGCCTCCATCTTCGCCTGG
ACCCGCGGTCTGGTGCAGCGTGGCAAGCTCGACGAGACTCCCGATGTTGT
TACCTTTGCTGAGGAGCTTGAGCGTGCTTGCATTGACGTTGTCAACGAGG
AGGGCATCATGACCAAGGATCTGGCTCTGGCCTGCGGCCGCAAGGAGCGT
GAGGCCTGGGTTACTACCCGCGAGTACCTGGCTGCCGTTGAGCGCAGACT
CAAGGCCAACCTCAAGTCCCGCCTCTAA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Molecular Function**
Term	Definition
GO:0000287	magnesium ion binding
GO:0051287	NAD binding
GO:0004450	isocitrate dehydrogenase (NADP+) activity
GO:0016616	oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor

Vocabulary: **Biological Process**
Term	Definition
GO:0006102	isocitrate metabolic process
GO:0055114	oxidation-reduction process

Relationships

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_47151	ASPNIDRAFT_47151	Aspergillus niger ATCC 1015	gene

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_47151-T1	ASPNIDRAFT_47151-T1-protein	Aspergillus niger ATCC 1015	polypeptide

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_47151-T1.exon1	ASPNIDRAFT_47151-T1.exon1	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon2	ASPNIDRAFT_47151-T1.exon2	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon3	ASPNIDRAFT_47151-T1.exon3	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon4	ASPNIDRAFT_47151-T1.exon4	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon5	ASPNIDRAFT_47151-T1.exon5	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon6	ASPNIDRAFT_47151-T1.exon6	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_47151-T1.exon7	ASPNIDRAFT_47151-T1.exon7	Aspergillus niger ATCC 1015	exon

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_47151-T1.cds	ASPNIDRAFT_47151-T1.cds	Aspergillus niger ATCC 1015	CDS

Properties


Property Name	Value
DBxref	InterPro:IPR019818
DBxref	InterPro:IPR004790
DBxref	InterPro:IPR024084
DBxref	PFAM:PF00180
Product	NADP-dependent isocitrate dehydrogenase precursor

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
ACJE01000010.1	supercontig	ACJE01000010.1:3139535..3141404 +

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ASPNIDRAFT_47151-T1, ASPNIDRAFT_47151-T1 (mRNA) Aspergillus niger ATCC 1015

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ASPNIDRAFT_47151-T1, ASPNIDRAFT_47151-T1 (mRNA) Aspergillus niger ATCC 1015