ATCC10864_005372-T1, ATCC10864_005372-T1 (mRNA) Aspergillus niger ATCC 10864

Overview


Name	ATCC10864_005372-T1
Unique Name	ATCC10864_005372-T1
Type	mRNA
Organism	Aspergillus niger ATCC 10864

Sequences

The following sequences are available for this feature:

mRNA from alignment at MCQH01000142:120226..123864-
coding sequence from alignment at MCQH01000142:120226..123864-

mRNA from alignment at MCQH01000142:120226..123864-

Legend: polypeptideCDSexon

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

>ATCC10864_005372-T1 ID=ATCC10864_005372-T1|Name=ATCC10864_005372-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=3639bp|location=Sequence derived from alignment at MCQH01000142:120226..123864- (Aspergillus niger ATCC 10864)
ATGGCTGCTCCCCGCCAGCCCGAGGAGGCGGTCGATGACACCGAGTTCAT
CGATGACCACCATGACCAGCACCGGGACTCTGTCCACACCCGTCTGCGTG
CCAATTCGGCCATCATGCAGTTCCAAAAGATCCTTGTTGCCAACCGTGGT
GAAATCCCCATTCGTATCTTCCGGACGGCTCACGAGCTGTCCCTGCAGAC
TGTCGCCGTCTACTCCCATGAGGACCGTCTCTCCATGCACCGTCAGAAGG
CCGACGAGGCCTACATGATTGGCAAGCGCGGTCAATATACACCGGTCGGG
GCCTACTTGGCCATTGACGAGATCGTCAAGATTGCTCTGGAGCATGGTGT
ACACCTGATCCACCCGGGTTACGGTTTCCTGTCCGAGAACGCCGAGTTTG
CCCGCAAGGTGGAGCAGTCCGGCATGGTTTTCGTCGGCCCTACCCCCCAG
ACCATCGAGAGCCTCGGTGACAAGGTCTCCGCCCGTCAGCTGGCTATCCG
CTGCGATGTGCCCGTCGTGCCCGGTACCCCGGGCCCTGTCGAGCGCTACG
AGGAGGTCAAGGCCTTCACCGACACCTACGGCTTCCCCATCATCATCAAG
GCCGCCTTTGGTGGTGGTGGTCGTGGTATGCGTGTCGTTCGCGACCAGGC
CGAACTGCGTGACTCCTTCGAGCGTGCCACCTCCGAGGCCCGCTCTGCCT
TTGGCAACGGCACCGTCTTCGTCGAGCGCTTCCTCGACCGCCCCAAGCAC
ATCGAAGTCCAGCTGCTGGGTGACAACCACGGCAACGTCGTCCACCTGTT
CGAGCGTGACTGCTCCGTCCAACGTCGCCACCAGAAGGTCGTTGAAATTG
CCCCGGCCAAGGACCTGCCTGCCGATGTCCGTGACCGCATCCTGGCTGAT
GCTGTCAAGCTGGCCAAGTCGGTCAACTACCGCAACGCCGGTACTGCAGA
GTTCCTGGTTGACCAGCAGAACCGTTACTACTTCATTGAGATCAACCCCC
GTATCCAGGTCGAGCACACTATCACCGAAGAGATCACGGGTATCGATATT
GTTGCTGCTCAGATCCAGATTGCGGCCGGTGCTACCCTGGAACAGCTGGG
TCTGACCCAGGACCGCATCTCCACTCGTGGATTCGCCATTCAGTGCCGTA
TCACCACCGAGGACCCCTCCAAGGGCTTCTCCCCCGACACCGGTAAGATC
GAGGTCTACCGCTCCGCCGGTGGTAACGGTGTCCGTCTGGATGGTGGAAA
CGGTTTCGCCGGTGCCATCATCACCCCTCACTACGACTCCATGTTGGTCA
AGTGTACCTGCCGTGGTTCCACCTATGAGATCGCTCGCCGCAAGGTCGTT
CGTGCTTTGGTCGAGTTCCGTATCCGTGGTGTCAAGACCAACATTCCTTT
CCTCACCTCTCTTCTGAGTCACCCTGTGTTCGTGGATGGTACCTGCTGGA
CCACGTTCATTGATGACACTCCCGAGCTGTTCGCCCTTGTCGGCAGTCAG
AACCGTGCCCAGAAGCTGCTGGCTTACCTGGGTGATGTGGCTGTCAACGG
CAGCAGCATCAAGGGCCAGATCGGCGAGCCCAAGCTCAAGGGCGATATCA
TCAAGCCCGTTCTGCATGACGCTGCCGGCAAGCCCCTCGACGTCTCTGTC
CCCGCCACCAAGGGATGGAAGCAGATCCTGGACAGTGAGGGTCCCGAGGC
TTTTGCCCGCGCTGTGCGTGCCAACAAGGGCTGCTTGATCATGGATACTA
CCTGGCGTGATGCCCACCAGTCGCTGCTGGCCACTCGTGTGCGTACCATT
GACCTCCTGAACATCGCCCACGAGACGAGCCACGCCCTCGCCAACGCCTA
CAGTTTGGAATGCTGGGGTGGTGCCACCTTCGATGTCGCCATGCGCTTCC
TGTACGAGGACCCCTGGGACCGTCTTCGCAAGCTGCGCAAGGCCGTTCCC
AACATCCCCTTCCAGATGTTGCTCCGTGGTGCCAACGGTGTTGCTTACTC
CTCCCTCCCTGACAACGCCATCTACCACTTCTGTAAGCAGGCCAAGAAGT
GCGGTGTCGACATCTTCCGTGTCTTCGATGCTCTCAACGACGTTGACCAG
CTCGAGGTCGGTATCAAGGCTGTCCACGCTGCCGAGGGTGTTGTTGAGGC
TACTATTTGCTACAGTGGTGATATGCTCAACCCCAGCAAGAAGTACAACC
TGCCTTACTACCTCGACCTTGTTGATAAGGTGGTCCAGTTCAAGCCCCAC
GTCTTGGGTATCAAGGACATGGCTGGTGTGCTGAAGCCCCAGGCTGCTCG
TCTGCTGATCGGTTCCATCCGCGAGCGCTACCCCGACCTCCCCATCCACG
TGCACACCCACGACTCTGCTGGTACCGGTGTGGCTTCCATGATTGCTTGC
GCTCAGGCCGGTGCTGATGCCGTTGATGCTGCCACGGACAGCCTTTCCGG
TATGACCTCCCAGCCCAGCATTGGTGCTATCCTCGCTTCCCTCGAGGGAA
CTGAGCACGACCCCGGCCTCAACTCGGCCCAGGTTCGCGCCCTTGACACC
TACTGGGCGCAGCTGCGTCTCCTCTACTCGCCCTTCGAGGCAGGTCTGAC
TGGTCCCGACCCCGAGGTTTACGAGCATGAGATCCCTGGTGGTCAATTGA
CCAACCTGATCTTCCAGGCCAGCCAGCTTGGTCTGGGCCAGCAGTGGGCG
GAGACGAAGAAGGCTTACGAGTCTGCCAACGATCTTTTGGGCGATGTCGT
CAAGGTCACCCCCACTTCCAAGGTGGTCGGTGATTTGGCTCAGTTCATGG
TCTCCAACAAGTTGACTGCTGAAGATGTGATTGCTCGCGCCGGCGAGCTT
GACTTCCCCGGTTCCGTTCTGGAGTTCCTCGAGGGTCTCATGGGCCAGCC
CTACGGTGGGTTCCCCGAGCCTCTGCGCTCTCGCGCTCTGCGTGACCGTC
GCAAGCTCGACAAGCGCCCTGGTCTGTACCTGGAGCCCCTTGACCTGGCC
AAGATCAAGAGCCAGATCCGGGAGAACTATGGCGCAGCTACCGAGTACGA
TGTGGCCAGCTATGCCATGTACCCCAAGGTCTTCGAGGATTACAAGAAGT
TTGTCGCCAAGTTCGGTGATTTGTCCGTCCTGCCCACCCGTTACTTCTTG
GCCAAGCCCGAGATCGGCGAGGAATTCCACGTCGAGCTGGAGAAGGGTAA
GGTGCTGATCCTGAAGTTGTTGGCCATTGGTCCCCTCTCCGAGCAGACCG
GCCAGCGTGAGGTCTTCTACGAAGTCAACGGTGAGGTTCGCCAGGTTAGT
GTGGACGACAAGAAGGCGTCCGTCGAGAACACCGCCCGCCCCAAGGCCGA
GCTGGGTGACAGCAGCCAGGTTGGTGCTCCTATGAGCGGTGTGGTTGTCG
AGATCCGCGTCCACGACGGCCTGGAAGTCAAGAAGGGTGACCCCATTGCC
GTCCTGAGCGCCATGAAGATGGTATGTATAACCCCAAAAACTATCAACCA
AAACTCCTGACCGGCTGCTAACATCTGTTAGGAAATGGTTATCTCTGCTC
CCCACAGTGGCAAGGTCTCCAGCTTGCTGGTCAAGGAAGGTGACTCGGTG
GATGGCCAGGATCTTGTCTGCAAGATCGTCAAGGCCTAG

Coding sequence (CDS) from alignment at MCQH01000142:120226..123864-

>ATCC10864_005372-T1 ID=ATCC10864_005372-T1|Name=ATCC10864_005372-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=7158bp|location=Sequence derived from alignment at MCQH01000142:120226..123864- (Aspergillus niger ATCC 10864)
GAAATGGTTATCTCTGCTCCCCACAGTGGCAAGGTCTCCAGCTTGCTGGT
CAAGGAAGGTGACTCGGTGGATGGCCAGGATCTTGTCTGCAAGATCGTCA
AGGCCTAGATGGCTGCTCCCCGCCAGCCCGAGGAGGCGGTCGATGACACC
GAGTTCATCGATGACCACCATGACCAGCACCGGGACTCTGTCCACACCCG
TCTGCGTGCCAATTCGGCCATCATGCAGTTCCAAAAGATCCTTGTTGCCA
ACCGTGGTGAAATCCCCATTCGTATCTTCCGGACGGCTCACGAGCTGTCC
CTGCAGACTGTCGCCGTCTACTCCCATGAGGACCGTCTCTCCATGCACCG
TCAGAAGGCCGACGAGGCCTACATGATTGGCAAGCGCGGTCAATATACAC
CGGTCGGGGCCTACTTGGCCATTGACGAGATCGTCAAGATTGCTCTGGAG
CATGGTGTACACCTGATCCACCCGGGTTACGGTTTCCTGTCCGAGAACGC
CGAGTTTGCCCGCAAGGTGGAGCAGTCCGGCATGGTTTTCGTCGGCCCTA
CCCCCCAGACCATCGAGAGCCTCGGTGACAAGGTCTCCGCCCGTCAGCTG
GCTATCCGCTGCGATGTGCCCGTCGTGCCCGGTACCCCGGGCCCTGTCGA
GCGCTACGAGGAGGTCAAGGCCTTCACCGACACCTACGGCTTCCCCATCA
TCATCAAGGCCGCCTTTGGTGGTGGTGGTCGTGGTATGCGTGTCGTTCGC
GACCAGGCCGAACTGCGTGACTCCTTCGAGCGTGCCACCTCCGAGGCCCG
CTCTGCCTTTGGCAACGGCACCGTCTTCGTCGAGCGCTTCCTCGACCGCC
CCAAGCACATCGAAGTCCAGCTGCTGGGTGACAACCACGGCAACGTCGTC
CACCTGTTCGAGCGTGACTGCTCCGTCCAACGTCGCCACCAGAAGGTCGT
TGAAATTGCCCCGGCCAAGGACCTGCCTGCCGATGTCCGTGACCGCATCC
TGGCTGATGCTGTCAAGCTGGCCAAGTCGGTCAACTACCGCAACGCCGGT
ACTGCAGAGTTCCTGGTTGACCAGCAGAACCGTTACTACTTCATTGAGAT
CAACCCCCGTATCCAGGTCGAGCACACTATCACCGAAGAGATCACGGGTA
TCGATATTGTTGCTGCTCAGATCCAGATTGCGGCCGGTGCTACCCTGGAA
CAGCTGGGTCTGACCCAGGACCGCATCTCCACTCGTGGATTCGCCATTCA
GTGCCGTATCACCACCGAGGACCCCTCCAAGGGCTTCTCCCCCGACACCG
GTAAGATCGAGGTCTACCGCTCCGCCGGTGGTAACGGTGTCCGTCTGGAT
GGTGGAAACGGTTTCGCCGGTGCCATCATCACCCCTCACTACGACTCCAT
GTTGGTCAAGTGTACCTGCCGTGGTTCCACCTATGAGATCGCTCGCCGCA
AGGTCGTTCGTGCTTTGGTCGAGTTCCGTATCCGTGGTGTCAAGACCAAC
ATTCCTTTCCTCACCTCTCTTCTGAGTCACCCTGTGTTCGTGGATGGTAC
CTGCTGGACCACGTTCATTGATGACACTCCCGAGCTGTTCGCCCTTGTCG
GCAGTCAGAACCGTGCCCAGAAGCTGCTGGCTTACCTGGGTGATGTGGCT
GTCAACGGCAGCAGCATCAAGGGCCAGATCGGCGAGCCCAAGCTCAAGGG
CGATATCATCAAGCCCGTTCTGCATGACGCTGCCGGCAAGCCCCTCGACG
TCTCTGTCCCCGCCACCAAGGGATGGAAGCAGATCCTGGACAGTGAGGGT
CCCGAGGCTTTTGCCCGCGCTGTGCGTGCCAACAAGGGCTGCTTGATCAT
GGATACTACCTGGCGTGATGCCCACCAGTCGCTGCTGGCCACTCGTGTGC
GTACCATTGACCTCCTGAACATCGCCCACGAGACGAGCCACGCCCTCGCC
AACGCCTACAGTTTGGAATGCTGGGGTGGTGCCACCTTCGATGTCGCCAT
GCGCTTCCTGTACGAGGACCCCTGGGACCGTCTTCGCAAGCTGCGCAAGG
CCGTTCCCAACATCCCCTTCCAGATGTTGCTCCGTGGTGCCAACGGTGTT
GCTTACTCCTCCCTCCCTGACAACGCCATCTACCACTTCTGTAAGCAGGC
CAAGAAGTGCGGTGTCGACATCTTCCGTGTCTTCGATGCTCTCAACGACG
TTGACCAGCTCGAGGTCGGTATCAAGGCTGTCCACGCTGCCGAGGGTGTT
GTTGAGGCTACTATTTGCTACAGTGGTGATATGCTCAACCCCAGCAAGAA
GTACAACCTGCCTTACTACCTCGACCTTGTTGATAAGGTGGTCCAGTTCA
AGCCCCACGTCTTGGGTATCAAGGACATGGCTGGTGTGCTGAAGCCCCAG
GCTGCTCGTCTGCTGATCGGTTCCATCCGCGAGCGCTACCCCGACCTCCC
CATCCACGTGCACACCCACGACTCTGCTGGTACCGGTGTGGCTTCCATGA
TTGCTTGCGCTCAGGCCGGTGCTGATGCCGTTGATGCTGCCACGGACAGC
CTTTCCGGTATGACCTCCCAGCCCAGCATTGGTGCTATCCTCGCTTCCCT
CGAGGGAACTGAGCACGACCCCGGCCTCAACTCGGCCCAGGTTCGCGCCC
TTGACACCTACTGGGCGCAGCTGCGTCTCCTCTACTCGCCCTTCGAGGCA
GGTCTGACTGGTCCCGACCCCGAGGTTTACGAGCATGAGATCCCTGGTGG
TCAATTGACCAACCTGATCTTCCAGGCCAGCCAGCTTGGTCTGGGCCAGC
AGTGGGCGGAGACGAAGAAGGCTTACGAGTCTGCCAACGATCTTTTGGGC
GATGTCGTCAAGGTCACCCCCACTTCCAAGGTGGTCGGTGATTTGGCTCA
GTTCATGGTCTCCAACAAGTTGACTGCTGAAGATGTGATTGCTCGCGCCG
GCGAGCTTGACTTCCCCGGTTCCGTTCTGGAGTTCCTCGAGGGTCTCATG
GGCCAGCCCTACGGTGGGTTCCCCGAGCCTCTGCGCTCTCGCGCTCTGCG
TGACCGTCGCAAGCTCGACAAGCGCCCTGGTCTGTACCTGGAGCCCCTTG
ACCTGGCCAAGATCAAGAGCCAGATCCGGGAGAACTATGGCGCAGCTACC
GAGTACGATGTGGCCAGCTATGCCATGTACCCCAAGGTCTTCGAGGATTA
CAAGAAGTTTGTCGCCAAGTTCGGTGATTTGTCCGTCCTGCCCACCCGTT
ACTTCTTGGCCAAGCCCGAGATCGGCGAGGAATTCCACGTCGAGCTGGAG
AAGGGTAAGGTGCTGATCCTGAAGTTGTTGGCCATTGGTCCCCTCTCCGA
GCAGACCGGCCAGCGTGAGGTCTTCTACGAAGTCAACGGTGAGGTTCGCC
AGGTTAGTGTGGACGACAAGAAGGCGTCCGTCGAGAACACCGCCCGCCCC
AAGGCCGAGCTGGGTGACAGCAGCCAGGTTGGTGCTCCTATGAGCGGTGT
GGTTGTCGAGATCCGCGTCCACGACGGCCTGGAAGTCAAGAAGGGTGACC
CCATTGCCGTCCTGAGCGCCATGAAGATGGAAATGGTTATCTCTGCTCCC
CACAGTGGCAAGGTCTCCAGCTTGCTGGTCAAGGAAGGTGACTCGGTGGA
TGGCCAGGATCTTGTCTGCAAGATCGTCAAGGCCTAGATGGCTGCTCCCC
GCCAGCCCGAGGAGGCGGTCGATGACACCGAGTTCATCGATGACCACCAT
GACCAGCACCGGGACTCTGTCCACACCCGTCTGCGTGCCAATTCGGCCAT
CATGCAGTTCCAAAAGATCCTTGTTGCCAACCGTGGTGAAATCCCCATTC
GTATCTTCCGGACGGCTCACGAGCTGTCCCTGCAGACTGTCGCCGTCTAC
TCCCATGAGGACCGTCTCTCCATGCACCGTCAGAAGGCCGACGAGGCCTA
CATGATTGGCAAGCGCGGTCAATATACACCGGTCGGGGCCTACTTGGCCA
TTGACGAGATCGTCAAGATTGCTCTGGAGCATGGTGTACACCTGATCCAC
CCGGGTTACGGTTTCCTGTCCGAGAACGCCGAGTTTGCCCGCAAGGTGGA
GCAGTCCGGCATGGTTTTCGTCGGCCCTACCCCCCAGACCATCGAGAGCC
TCGGTGACAAGGTCTCCGCCCGTCAGCTGGCTATCCGCTGCGATGTGCCC
GTCGTGCCCGGTACCCCGGGCCCTGTCGAGCGCTACGAGGAGGTCAAGGC
CTTCACCGACACCTACGGCTTCCCCATCATCATCAAGGCCGCCTTTGGTG
GTGGTGGTCGTGGTATGCGTGTCGTTCGCGACCAGGCCGAACTGCGTGAC
TCCTTCGAGCGTGCCACCTCCGAGGCCCGCTCTGCCTTTGGCAACGGCAC
CGTCTTCGTCGAGCGCTTCCTCGACCGCCCCAAGCACATCGAAGTCCAGC
TGCTGGGTGACAACCACGGCAACGTCGTCCACCTGTTCGAGCGTGACTGC
TCCGTCCAACGTCGCCACCAGAAGGTCGTTGAAATTGCCCCGGCCAAGGA
CCTGCCTGCCGATGTCCGTGACCGCATCCTGGCTGATGCTGTCAAGCTGG
CCAAGTCGGTCAACTACCGCAACGCCGGTACTGCAGAGTTCCTGGTTGAC
CAGCAGAACCGTTACTACTTCATTGAGATCAACCCCCGTATCCAGGTCGA
GCACACTATCACCGAAGAGATCACGGGTATCGATATTGTTGCTGCTCAGA
TCCAGATTGCGGCCGGTGCTACCCTGGAACAGCTGGGTCTGACCCAGGAC
CGCATCTCCACTCGTGGATTCGCCATTCAGTGCCGTATCACCACCGAGGA
CCCCTCCAAGGGCTTCTCCCCCGACACCGGTAAGATCGAGGTCTACCGCT
CCGCCGGTGGTAACGGTGTCCGTCTGGATGGTGGAAACGGTTTCGCCGGT
GCCATCATCACCCCTCACTACGACTCCATGTTGGTCAAGTGTACCTGCCG
TGGTTCCACCTATGAGATCGCTCGCCGCAAGGTCGTTCGTGCTTTGGTCG
AGTTCCGTATCCGTGGTGTCAAGACCAACATTCCTTTCCTCACCTCTCTT
CTGAGTCACCCTGTGTTCGTGGATGGTACCTGCTGGACCACGTTCATTGA
TGACACTCCCGAGCTGTTCGCCCTTGTCGGCAGTCAGAACCGTGCCCAGA
AGCTGCTGGCTTACCTGGGTGATGTGGCTGTCAACGGCAGCAGCATCAAG
GGCCAGATCGGCGAGCCCAAGCTCAAGGGCGATATCATCAAGCCCGTTCT
GCATGACGCTGCCGGCAAGCCCCTCGACGTCTCTGTCCCCGCCACCAAGG
GATGGAAGCAGATCCTGGACAGTGAGGGTCCCGAGGCTTTTGCCCGCGCT
GTGCGTGCCAACAAGGGCTGCTTGATCATGGATACTACCTGGCGTGATGC
CCACCAGTCGCTGCTGGCCACTCGTGTGCGTACCATTGACCTCCTGAACA
TCGCCCACGAGACGAGCCACGCCCTCGCCAACGCCTACAGTTTGGAATGC
TGGGGTGGTGCCACCTTCGATGTCGCCATGCGCTTCCTGTACGAGGACCC
CTGGGACCGTCTTCGCAAGCTGCGCAAGGCCGTTCCCAACATCCCCTTCC
AGATGTTGCTCCGTGGTGCCAACGGTGTTGCTTACTCCTCCCTCCCTGAC
AACGCCATCTACCACTTCTGTAAGCAGGCCAAGAAGTGCGGTGTCGACAT
CTTCCGTGTCTTCGATGCTCTCAACGACGTTGACCAGCTCGAGGTCGGTA
TCAAGGCTGTCCACGCTGCCGAGGGTGTTGTTGAGGCTACTATTTGCTAC
AGTGGTGATATGCTCAACCCCAGCAAGAAGTACAACCTGCCTTACTACCT
CGACCTTGTTGATAAGGTGGTCCAGTTCAAGCCCCACGTCTTGGGTATCA
AGGACATGGCTGGTGTGCTGAAGCCCCAGGCTGCTCGTCTGCTGATCGGT
TCCATCCGCGAGCGCTACCCCGACCTCCCCATCCACGTGCACACCCACGA
CTCTGCTGGTACCGGTGTGGCTTCCATGATTGCTTGCGCTCAGGCCGGTG
CTGATGCCGTTGATGCTGCCACGGACAGCCTTTCCGGTATGACCTCCCAG
CCCAGCATTGGTGCTATCCTCGCTTCCCTCGAGGGAACTGAGCACGACCC
CGGCCTCAACTCGGCCCAGGTTCGCGCCCTTGACACCTACTGGGCGCAGC
TGCGTCTCCTCTACTCGCCCTTCGAGGCAGGTCTGACTGGTCCCGACCCC
GAGGTTTACGAGCATGAGATCCCTGGTGGTCAATTGACCAACCTGATCTT
CCAGGCCAGCCAGCTTGGTCTGGGCCAGCAGTGGGCGGAGACGAAGAAGG
CTTACGAGTCTGCCAACGATCTTTTGGGCGATGTCGTCAAGGTCACCCCC
ACTTCCAAGGTGGTCGGTGATTTGGCTCAGTTCATGGTCTCCAACAAGTT
GACTGCTGAAGATGTGATTGCTCGCGCCGGCGAGCTTGACTTCCCCGGTT
CCGTTCTGGAGTTCCTCGAGGGTCTCATGGGCCAGCCCTACGGTGGGTTC
CCCGAGCCTCTGCGCTCTCGCGCTCTGCGTGACCGTCGCAAGCTCGACAA
GCGCCCTGGTCTGTACCTGGAGCCCCTTGACCTGGCCAAGATCAAGAGCC
AGATCCGGGAGAACTATGGCGCAGCTACCGAGTACGATGTGGCCAGCTAT
GCCATGTACCCCAAGGTCTTCGAGGATTACAAGAAGTTTGTCGCCAAGTT
CGGTGATTTGTCCGTCCTGCCCACCCGTTACTTCTTGGCCAAGCCCGAGA
TCGGCGAGGAATTCCACGTCGAGCTGGAGAAGGGTAAGGTGCTGATCCTG
AAGTTGTTGGCCATTGGTCCCCTCTCCGAGCAGACCGGCCAGCGTGAGGT
CTTCTACGAAGTCAACGGTGAGGTTCGCCAGGTTAGTGTGGACGACAAGA
AGGCGTCCGTCGAGAACACCGCCCGCCCCAAGGCCGAGCTGGGTGACAGC
AGCCAGGTTGGTGCTCCTATGAGCGGTGTGGTTGTCGAGATCCGCGTCCA
CGACGGCCTGGAAGTCAAGAAGGGTGACCCCATTGCCGTCCTGAGCGCCA
TGAAGATG

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0006090	pyruvate metabolic process
GO:0006094	gluconeogenesis

Vocabulary: **Molecular Function**
Term	Definition
GO:0003824	catalytic activity
GO:0009374	biotin binding
GO:0004736	pyruvate carboxylase activity
GO:0046872	metal ion binding
GO:0005524	ATP binding

Relationships

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


Feature Name	Unique Name	Species	Type
ATCC10864_005372	ATCC10864_005372	Aspergillus niger ATCC 10864	gene

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


Feature Name	Unique Name	Species	Type
ATCC10864_005372-T1	ATCC10864_005372-T1-protein	Aspergillus niger ATCC 10864	polypeptide

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


Feature Name	Unique Name	Species	Type
ATCC10864_005372-T1.cds	ATCC10864_005372-T1.cds	Aspergillus niger ATCC 10864	CDS

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


Feature Name	Unique Name	Species	Type
ATCC10864_005372-T1.exon2	ATCC10864_005372-T1.exon2	Aspergillus niger ATCC 10864	exon
ATCC10864_005372-T1.exon1	ATCC10864_005372-T1.exon1	Aspergillus niger ATCC 10864	exon

Cross References

External references for this mRNA


Database	Accession
PFAM	PF00364
PFAM	PF13533
PFAM	PF02786
InterPro	IPR003379
InterPro	IPR005930
PFAM	PF00682
InterPro	IPR005482
PFAM	PF02222
PFAM	PF02785
InterPro	IPR011764
PFAM	PF00289
InterPro	IPR011761
InterPro	IPR013785
InterPro	IPR011054
InterPro	IPR016185
InterPro	IPR000891
InterPro	IPR000089
InterPro	IPR011053
InterPro	IPR005479
InterPro	IPR005481
PFAM	PF02436
InterPro	IPR001882
PFAM	PF07478

Properties


Property Name	Value
Product	hypothetical protein

Analyses

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


Analysis Name	Date Performed
Aspergillus niger ATCC 10864 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
MCQH01000142	supercontig	MCQH01000142:120226..123864 -

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ATCC10864_005372-T1, ATCC10864_005372-T1 (mRNA) Aspergillus niger ATCC 10864

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ATCC10864_005372-T1, ATCC10864_005372-T1 (mRNA) Aspergillus niger ATCC 10864