KYF_003853-T1, KYF_003853-T1 (mRNA) Aspergillus niger KYF3

Overview


Name	KYF_003853-T1
Unique Name	KYF_003853-T1
Type	mRNA
Organism	Aspergillus niger KYF3

Sequences

The following sequences are available for this feature:

mRNA from alignment at ch3:2812072..2814298+
coding sequence from alignment at ch3:2812072..2814298+

mRNA from alignment at ch3:2812072..2814298+

Legend: polypeptideexonCDS

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

>KYF_003853-T1 ID=KYF_003853-T1|Name=KYF_003853-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2227bp|location=Sequence derived from alignment at ch3:2812072..2814298+ (Aspergillus niger KYF3)
ATGGCCTCACAAGACACCGTAAGTCCCCAACAACAAGTGAAACCAGCCTC
AATCCTTCGAACAACCTACCAAAACTAATACCCATCTACATCAGATTCTC
CAAACCAACGCCCAATCAGCCCGGGAATACATCCTCTCTCAACCCAGCGA
TGCCCTAACCAACAACCCCTGGGCCGTCTACCAGGCCCTGGACCTCTACA
GCCGCACAGCGCGTCTCATGAACTTCAAACAAGCCAAGCTCAACGTCGCC
AAAGAAGCCCTCACATCCATGGAAACCCCACCAAAGGTGGTCATCGAATT
CGGCACCTACATCGGGTGCTCCGCCATCGCATGGGCCGCCATTCTCCGCG
ACCTGCACGGTCCCTTCGCCGAGGGTCTGCACATCTACACATTCGAGGTC
AGCGAGACGGTGGCCGACGTAGCGAGGGATTTGATCCGCGTGGCGGGCGT
TGAGGACATCGTGCATGTGATGGTGGGGCCTGCGTCGGAGTCATTGGCGA
AGTTGGTTGAGGAAGGGAAGATTGTGAAGGGAGGAGTCGATATGGCTTTC
TTTGACCATTGGGAGAAGTTTTATCTGTGTGATCTGAAGCTGTGTGAGGA
TCTGGGCCTCTTTAGGGTCGGGTCGAGTGTTATTGCTGATAATACTGATA
TTCCGGGGGCACCGGATTATTTGGAGTATTTGAGGGCTGGGGGCCGTGGG
GGTGAGGGGTCCGTGAAGTATGTGACGAAGTCGGTGCAGTCGGAGCATAT
TGTTGAGAGGAGACCGGTAAGTTTGATCCATGTCTTGTGTTGTTACTTTG
CTTGGGTTGTGGATGTTGGCTGATCTTGACGGATTGGATTGTGCAGAATA
TAGTGGAGGTGTCTACTGTTGTGGCGGCTCCTTGAGGGGTCTTAGTCTGA
CTCTGGAGAGAGGATGAAATATTGGATATGATGTTAACGGACTCTAAGAT
TCATTGTATGACAGTTTTTGTATGCTGCGTTGTTTTCGAAGCTTGATATC
ATTCCTTGAAATAGCAGGTTGATCTTTGAACTTGAATTTTTTGGTATTTT
TGGTATATACTGTGGATTATGGAAGTAGAAGTAAAGTCAGCCTCTACCGG
CACAATACTCAAAAAACCATAAATATGGGCATCGAAATCCAGAACGTCTT
TTCAACCTGTTTAGCTGCGAAACCATTACTGCCATCTAAAAGTAGAGATT
AATCTATGGATATTAAACCCACCATTGGCTATCACCCCGTACTCCAGGGC
GGTGAAGACAAAACCACCCCGAACAGCTGGGTGCAGTATAGACACCCAAC
CAACAGCGGCGCACTCCGCAATGTCTCCGGCAAAGACGCCCATGCTATGA
TGACACCAACAACAATTACGATGTGAATGCGCAAACACGCGAACAATCTC
CCTTTACAGTCACCATATCTATCAACGACAAGCGAATTCAAGTGATGCTG
GACTCCCCAACAACCTGAATCCCAGCTCAAAAAGGACAACAATACTGTCC
GACTCCGACCTTTAATCACCATCACCAACCCCCTCCTCCGCAATGTACGT
CGCAACCGAACTTCCTTTAGCAAAATGCACACCTAACAATCCCCATATAG
GGCCGTATTCTCCCTCATAATAATCAATAAAGCCGGTGGGCTAGTCTACC
AGCGCGAATTCCAGCCAGGACTGCGCAAACTCTCGACAAACGACTACCTC
GTCCTGGCGGGCACGTTTCACGGGTACGCACTCAGCTCCCTATCTCTCCC
CTAATACATCAATTCCTAAGTCTCACATACTAACCACCTTATTCATTGCT
CAGTGTCCACGCTATCACCCGCTCTATTACCCCCAAGCTCCCCCTTGCCC
CCGCCGCAGCACTTGCAACAACACCCACCACCGCGACCACACCCTCCCCC
AGTAATGTCGTTTCTCCCTCCGCCACATCATCAACCCCTACCTCTTCTAC
AGCCTCATACTCGTACCCGAACCCGGGTGTACCGGCGACCGGTCTCGAGT
GCCTAGAAACGGACAAGTTCCGATTAACGTGCTTTCAGACGTTAACGGGC
ACCAAGTTCCTACTGTTTACGGATCCGCTGATGGCGAATATCGATGTCGT
TATGAAGAAGATATATGAGCTGTATGCGGACTTTGTTATGAAGAATCCGT
TTTATCAGTTAGAGATGCCGGTTCGGTGTGAGGCGTTTGATCGGAATTTG
CAGGGTTGGTTGAGGGGGAGGACTTGA

Coding sequence (CDS) from alignment at ch3:2812072..2814298+

>KYF_003853-T1 ID=KYF_003853-T1|Name=KYF_003853-T1|organism=Aspergillus niger KYF3|type=CDS|length=6810bp|location=Sequence derived from alignment at ch3:2812072..2814298+ (Aspergillus niger KYF3)
ATGGCCTCACAAGACACCATTCTCCAAACCAACGCCCAATCAGCCCGGGA
ATACATCCTCTCTCAACCCAGCGATGCCCTAACCAACAACCCCTGGGCCG
TCTACCAGGCCCTGGACCTCTACAGCCGCACAGCGCGTCTCATGAACTTC
AAACAAGCCAAGCTCAACGTCGCCAAAGAAGCCCTCACATCCATGGAAAC
CCCACCAAAGGTGGTCATCGAATTCGGCACCTACATCGGGTGCTCCGCCA
TCGCATGGGCCGCCATTCTCCGCGACCTGCACGGTCCCTTCGCCGAGGGT
CTGCACATCTACACATTCGAGGTCAGCGAGACGGTGGCCGACGTAGCGAG
GGATTTGATCCGCGTGGCGGGCGTTGAGGACATCGTGCATGTGATGGTGG
GGCCTGCGTCGGAGTCATTGGCGAAGTTGGTTGAGGAAGGGAAGATTGTG
AAGGGAGGAGTCGATATGGCTTTCTTTGACCATTGGGAGAAGTTTTATCT
GTGTGATCTGAAGCTGTGTGAGGATCTGGGCCTCTTTAGGGTCGGGTCGA
GTGTTATTGCTGATAATACTGATATTCCGGGGGCACCGGATTATTTGGAG
TATTTGAGGGCTGGGGGCCGTGGGGGTGAGGGGTCCGTGAAGTATGTGAC
GAAGTCGGTGCAGTCGGAGCATATTGTTGAGAGGAGACCGGGCGGTGAAG
ACAAAACCACCCCGAACAGCTGGGTGCAGTATAGACACCCAACCAACAGC
GGCGCACTCCGCAATGTCTCCGGCAAAGACGCCCATGCTATGATGACACC
AACAACAATTACGATGGCCGTATTCTCCCTCATAATAATCAATAAAGCCG
GTGGGCTAGTCTACCAGCGCGAATTCCAGCCAGGACTGCGCAAACTCTCG
ACAAACGACTACCTCGTCCTGGCGGGCACGTTTCACGGTGTCCACGCTAT
CACCCGCTCTATTACCCCCAAGCTCCCCCTTGCCCCCGCCGCAGCACTTG
CAACAACACCCACCACCGCGACCACACCCTCCCCCAGTAATGTCGTTTCT
CCCTCCGCCACATCATCAACCCCTACCTCTTCTACAGCCTCATACTCGTA
CCCGAACCCGGGTGTACCGGCGACCGGTCTCGAGTGCCTAGAAACGGACA
AGTTCCGATTAACGTGCTTTCAGACGTTAACGGGCACCAAGTTCCTACTG
TTTACGGATCCGCTGATGGCGAATATCGATGTCGTTATGAAGAAGATATA
TGAGCTGTATGCGGACTTTGTTATGAAGAATCCGTTTTATCAGTTAGAGA
TGCCGGTTCGGTGTGAGGCGTTTGATCGGAATTTGCAGGGTTGGTTGAGG
GGGAGGACTTGAATGGCCTCACAAGACACCATTCTCCAAACCAACGCCCA
ATCAGCCCGGGAATACATCCTCTCTCAACCCAGCGATGCCCTAACCAACA
ACCCCTGGGCCGTCTACCAGGCCCTGGACCTCTACAGCCGCACAGCGCGT
CTCATGAACTTCAAACAAGCCAAGCTCAACGTCGCCAAAGAAGCCCTCAC
ATCCATGGAAACCCCACCAAAGGTGGTCATCGAATTCGGCACCTACATCG
GGTGCTCCGCCATCGCATGGGCCGCCATTCTCCGCGACCTGCACGGTCCC
TTCGCCGAGGGTCTGCACATCTACACATTCGAGGTCAGCGAGACGGTGGC
CGACGTAGCGAGGGATTTGATCCGCGTGGCGGGCGTTGAGGACATCGTGC
ATGTGATGGTGGGGCCTGCGTCGGAGTCATTGGCGAAGTTGGTTGAGGAA
GGGAAGATTGTGAAGGGAGGAGTCGATATGGCTTTCTTTGACCATTGGGA
GAAGTTTTATCTGTGTGATCTGAAGCTGTGTGAGGATCTGGGCCTCTTTA
GGGTCGGGTCGAGTGTTATTGCTGATAATACTGATATTCCGGGGGCACCG
GATTATTTGGAGTATTTGAGGGCTGGGGGCCGTGGGGGTGAGGGGTCCGT
GAAGTATGTGACGAAGTCGGTGCAGTCGGAGCATATTGTTGAGAGGAGAC
CGGGCGGTGAAGACAAAACCACCCCGAACAGCTGGGTGCAGTATAGACAC
CCAACCAACAGCGGCGCACTCCGCAATGTCTCCGGCAAAGACGCCCATGC
TATGATGACACCAACAACAATTACGATGGCCGTATTCTCCCTCATAATAA
TCAATAAAGCCGGTGGGCTAGTCTACCAGCGCGAATTCCAGCCAGGACTG
CGCAAACTCTCGACAAACGACTACCTCGTCCTGGCGGGCACGTTTCACGG
TGTCCACGCTATCACCCGCTCTATTACCCCCAAGCTCCCCCTTGCCCCCG
CCGCAGCACTTGCAACAACACCCACCACCGCGACCACACCCTCCCCCAGT
AATGTCGTTTCTCCCTCCGCCACATCATCAACCCCTACCTCTTCTACAGC
CTCATACTCGTACCCGAACCCGGGTGTACCGGCGACCGGTCTCGAGTGCC
TAGAAACGGACAAGTTCCGATTAACGTGCTTTCAGACGTTAACGGGCACC
AAGTTCCTACTGTTTACGGATCCGCTGATGGCGAATATCGATGTCGTTAT
GAAGAAGATATATGAGCTGTATGCGGACTTTGTTATGAAGAATCCGTTTT
ATCAGTTAGAGATGCCGGTTCGGTGTGAGGCGTTTGATCGGAATTTGCAG
GGTTGGTTGAGGGGGAGGACTTGAATGGCCTCACAAGACACCATTCTCCA
AACCAACGCCCAATCAGCCCGGGAATACATCCTCTCTCAACCCAGCGATG
CCCTAACCAACAACCCCTGGGCCGTCTACCAGGCCCTGGACCTCTACAGC
CGCACAGCGCGTCTCATGAACTTCAAACAAGCCAAGCTCAACGTCGCCAA
AGAAGCCCTCACATCCATGGAAACCCCACCAAAGGTGGTCATCGAATTCG
GCACCTACATCGGGTGCTCCGCCATCGCATGGGCCGCCATTCTCCGCGAC
CTGCACGGTCCCTTCGCCGAGGGTCTGCACATCTACACATTCGAGGTCAG
CGAGACGGTGGCCGACGTAGCGAGGGATTTGATCCGCGTGGCGGGCGTTG
AGGACATCGTGCATGTGATGGTGGGGCCTGCGTCGGAGTCATTGGCGAAG
TTGGTTGAGGAAGGGAAGATTGTGAAGGGAGGAGTCGATATGGCTTTCTT
TGACCATTGGGAGAAGTTTTATCTGTGTGATCTGAAGCTGTGTGAGGATC
TGGGCCTCTTTAGGGTCGGGTCGAGTGTTATTGCTGATAATACTGATATT
CCGGGGGCACCGGATTATTTGGAGTATTTGAGGGCTGGGGGCCGTGGGGG
TGAGGGGTCCGTGAAGTATGTGACGAAGTCGGTGCAGTCGGAGCATATTG
TTGAGAGGAGACCGGGCGGTGAAGACAAAACCACCCCGAACAGCTGGGTG
CAGTATAGACACCCAACCAACAGCGGCGCACTCCGCAATGTCTCCGGCAA
AGACGCCCATGCTATGATGACACCAACAACAATTACGATGGCCGTATTCT
CCCTCATAATAATCAATAAAGCCGGTGGGCTAGTCTACCAGCGCGAATTC
CAGCCAGGACTGCGCAAACTCTCGACAAACGACTACCTCGTCCTGGCGGG
CACGTTTCACGGTGTCCACGCTATCACCCGCTCTATTACCCCCAAGCTCC
CCCTTGCCCCCGCCGCAGCACTTGCAACAACACCCACCACCGCGACCACA
CCCTCCCCCAGTAATGTCGTTTCTCCCTCCGCCACATCATCAACCCCTAC
CTCTTCTACAGCCTCATACTCGTACCCGAACCCGGGTGTACCGGCGACCG
GTCTCGAGTGCCTAGAAACGGACAAGTTCCGATTAACGTGCTTTCAGACG
TTAACGGGCACCAAGTTCCTACTGTTTACGGATCCGCTGATGGCGAATAT
CGATGTCGTTATGAAGAAGATATATGAGCTGTATGCGGACTTTGTTATGA
AGAATCCGTTTTATCAGTTAGAGATGCCGGTTCGGTGTGAGGCGTTTGAT
CGGAATTTGCAGGGTTGGTTGAGGGGGAGGACTTGAATGGCCTCACAAGA
CACCATTCTCCAAACCAACGCCCAATCAGCCCGGGAATACATCCTCTCTC
AACCCAGCGATGCCCTAACCAACAACCCCTGGGCCGTCTACCAGGCCCTG
GACCTCTACAGCCGCACAGCGCGTCTCATGAACTTCAAACAAGCCAAGCT
CAACGTCGCCAAAGAAGCCCTCACATCCATGGAAACCCCACCAAAGGTGG
TCATCGAATTCGGCACCTACATCGGGTGCTCCGCCATCGCATGGGCCGCC
ATTCTCCGCGACCTGCACGGTCCCTTCGCCGAGGGTCTGCACATCTACAC
ATTCGAGGTCAGCGAGACGGTGGCCGACGTAGCGAGGGATTTGATCCGCG
TGGCGGGCGTTGAGGACATCGTGCATGTGATGGTGGGGCCTGCGTCGGAG
TCATTGGCGAAGTTGGTTGAGGAAGGGAAGATTGTGAAGGGAGGAGTCGA
TATGGCTTTCTTTGACCATTGGGAGAAGTTTTATCTGTGTGATCTGAAGC
TGTGTGAGGATCTGGGCCTCTTTAGGGTCGGGTCGAGTGTTATTGCTGAT
AATACTGATATTCCGGGGGCACCGGATTATTTGGAGTATTTGAGGGCTGG
GGGCCGTGGGGGTGAGGGGTCCGTGAAGTATGTGACGAAGTCGGTGCAGT
CGGAGCATATTGTTGAGAGGAGACCGGGCGGTGAAGACAAAACCACCCCG
AACAGCTGGGTGCAGTATAGACACCCAACCAACAGCGGCGCACTCCGCAA
TGTCTCCGGCAAAGACGCCCATGCTATGATGACACCAACAACAATTACGA
TGGCCGTATTCTCCCTCATAATAATCAATAAAGCCGGTGGGCTAGTCTAC
CAGCGCGAATTCCAGCCAGGACTGCGCAAACTCTCGACAAACGACTACCT
CGTCCTGGCGGGCACGTTTCACGGTGTCCACGCTATCACCCGCTCTATTA
CCCCCAAGCTCCCCCTTGCCCCCGCCGCAGCACTTGCAACAACACCCACC
ACCGCGACCACACCCTCCCCCAGTAATGTCGTTTCTCCCTCCGCCACATC
ATCAACCCCTACCTCTTCTACAGCCTCATACTCGTACCCGAACCCGGGTG
TACCGGCGACCGGTCTCGAGTGCCTAGAAACGGACAAGTTCCGATTAACG
TGCTTTCAGACGTTAACGGGCACCAAGTTCCTACTGTTTACGGATCCGCT
GATGGCGAATATCGATGTCGTTATGAAGAAGATATATGAGCTGTATGCGG
ACTTTGTTATGAAGAATCCGTTTTATCAGTTAGAGATGCCGGTTCGGTGT
GAGGCGTTTGATCGGAATTTGCAGGGTTGGTTGAGGGGGAGGACTTGAAT
GGCCTCACAAGACACCATTCTCCAAACCAACGCCCAATCAGCCCGGGAAT
ACATCCTCTCTCAACCCAGCGATGCCCTAACCAACAACCCCTGGGCCGTC
TACCAGGCCCTGGACCTCTACAGCCGCACAGCGCGTCTCATGAACTTCAA
ACAAGCCAAGCTCAACGTCGCCAAAGAAGCCCTCACATCCATGGAAACCC
CACCAAAGGTGGTCATCGAATTCGGCACCTACATCGGGTGCTCCGCCATC
GCATGGGCCGCCATTCTCCGCGACCTGCACGGTCCCTTCGCCGAGGGTCT
GCACATCTACACATTCGAGGTCAGCGAGACGGTGGCCGACGTAGCGAGGG
ATTTGATCCGCGTGGCGGGCGTTGAGGACATCGTGCATGTGATGGTGGGG
CCTGCGTCGGAGTCATTGGCGAAGTTGGTTGAGGAAGGGAAGATTGTGAA
GGGAGGAGTCGATATGGCTTTCTTTGACCATTGGGAGAAGTTTTATCTGT
GTGATCTGAAGCTGTGTGAGGATCTGGGCCTCTTTAGGGTCGGGTCGAGT
GTTATTGCTGATAATACTGATATTCCGGGGGCACCGGATTATTTGGAGTA
TTTGAGGGCTGGGGGCCGTGGGGGTGAGGGGTCCGTGAAGTATGTGACGA
AGTCGGTGCAGTCGGAGCATATTGTTGAGAGGAGACCGGGCGGTGAAGAC
AAAACCACCCCGAACAGCTGGGTGCAGTATAGACACCCAACCAACAGCGG
CGCACTCCGCAATGTCTCCGGCAAAGACGCCCATGCTATGATGACACCAA
CAACAATTACGATGGCCGTATTCTCCCTCATAATAATCAATAAAGCCGGT
GGGCTAGTCTACCAGCGCGAATTCCAGCCAGGACTGCGCAAACTCTCGAC
AAACGACTACCTCGTCCTGGCGGGCACGTTTCACGGTGTCCACGCTATCA
CCCGCTCTATTACCCCCAAGCTCCCCCTTGCCCCCGCCGCAGCACTTGCA
ACAACACCCACCACCGCGACCACACCCTCCCCCAGTAATGTCGTTTCTCC
CTCCGCCACATCATCAACCCCTACCTCTTCTACAGCCTCATACTCGTACC
CGAACCCGGGTGTACCGGCGACCGGTCTCGAGTGCCTAGAAACGGACAAG
TTCCGATTAACGTGCTTTCAGACGTTAACGGGCACCAAGTTCCTACTGTT
TACGGATCCGCTGATGGCGAATATCGATGTCGTTATGAAGAAGATATATG
AGCTGTATGCGGACTTTGTTATGAAGAATCCGTTTTATCAGTTAGAGATG
CCGGTTCGGTGTGAGGCGTTTGATCGGAATTTGCAGGGTTGGTTGAGGGG
GAGGACTTGA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Cellular Component**
Term	Definition
GO:0030008	TRAPP complex

Vocabulary: **Molecular Function**
Term	Definition
GO:0008171	O-methyltransferase activity

Vocabulary: **Biological Process**
Term	Definition
GO:0016192	vesicle-mediated transport

Relationships

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


Feature Name	Unique Name	Species	Type
KYF_003853	KYF_003853	Aspergillus niger KYF3	gene

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


Feature Name	Unique Name	Species	Type
KYF_003853-T1	KYF_003853-T1-protein	Aspergillus niger KYF3	polypeptide

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


Feature Name	Unique Name	Species	Type
KYF_003853-T1.exon1	KYF_003853-T1.exon1	Aspergillus niger KYF3	exon
KYF_003853-T1.exon2	KYF_003853-T1.exon2	Aspergillus niger KYF3	exon
KYF_003853-T1.exon3	KYF_003853-T1.exon3	Aspergillus niger KYF3	exon
KYF_003853-T1.exon4	KYF_003853-T1.exon4	Aspergillus niger KYF3	exon
KYF_003853-T1.exon5	KYF_003853-T1.exon5	Aspergillus niger KYF3	exon

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


Feature Name	Unique Name	Species	Type
KYF_003853-T1.cds	KYF_003853-T1.cds	Aspergillus niger KYF3	CDS

Properties


Property Name	Value
Note	BUSCO:EOG09265822
DBxref	InterPro:IPR029063
DBxref	InterPro:IPR011012
DBxref	InterPro:IPR002935
DBxref	InterPro:IPR007233
DBxref	PFAM:PF01596
DBxref	PFAM:PF13578
Product	hypothetical protein

Analyses

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


Analysis Name	Date Performed
Whole Genome Assembly and Annotation of Aspergillus Aspergillus niger KYF3	2020-10-09

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
ch3	supercontig	ch3:2812072..2814298 +

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KYF_003853-T1, KYF_003853-T1 (mRNA) Aspergillus niger KYF3

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KYF_003853-T1, KYF_003853-T1 (mRNA) Aspergillus niger KYF3