KYF_002342-T1, KYF_002342-T1 (mRNA) Aspergillus niger KYF3

Overview


Name	KYF_002342-T1
Unique Name	KYF_002342-T1
Type	mRNA
Organism	Aspergillus niger KYF3

Sequences

The following sequences are available for this feature:

mRNA from alignment at ch2:3175328..3177370-
coding sequence from alignment at ch2:3175328..3177370-

mRNA from alignment at ch2:3175328..3177370-

Legend: polypeptideCDSexon

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

>KYF_002342-T1 ID=KYF_002342-T1|Name=KYF_002342-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2043bp|location=Sequence derived from alignment at ch2:3175328..3177370- (Aspergillus niger KYF3)
ATGTGGAACTCCCGCAAGGTGGGAATCCTCGGTGGAGGCCAATTGGGCCG
TATGCTGGTCGAATCGGCCAACCGCCTCAACATCCAGTGCAACGTCCTTG
ATGCGGAGAACTCCCCGGCTAAGCAGATTAGCTCCCACGATGACCATGTC
ACCGGCTCCTTCAAGGAGCGCGAAGCCGTCCGCGAATTGGCGAAGAACTG
CGACGTCGTGACCGCCGAGATTGAGCACGTCGACACCTATGCCCTGGAGG
AGATCGCCTCCCAGGTCCGCATCGAGCCCAGTTGGCAGGCCATCCGCACC
ATCCAGAACAAGTACAACCAGAAGGAACATCTCCGCAAATATGGCATCCC
CATGGCTGAGCACCGCGAGCTCGCTGAGAATACCCCCGAGGCATTGGCCA
AGGTTGGCGAGGAGCTTGGCTACCCCTTGATGCTGAAGTCGAAGACCATG
GCCTACGATGGACGTGGTGAGTCACCGGTGTTGCGCCAATTGCTGTTCTT
TACTATCCACCAGCAACCACCACTAACTTAGTCCCTCAATCACCAGGAAA
CTTCCATGTGCGCGGTGCTCACGATATCCCCGAAGCCCTTGAGTTCCTCA
AGGGTCGTCCTCTGTATGCCGAGAAATGGGCCTACTTCAAGATGGTATAT
ACCCCTCCACCCTCCACGCCAAATGACCCACATCACCATCTAACACCCAT
ACCCCAGGAACTCGCCGTGATGGTCGTGAAGACCAAGGACGAAGTCCTCT
CCTACCCCACCGTTGAAACCGTCCAAGAAGACTCCATCTGCAAGCTCGTC
TACGCCCCCGCCCGCAACGTCTCCGATGCCATCAACCGCAAAGCGCAAGA
ACTCGCCCGGAAAGCCGTCTCCGCCTTCGAAGGCAAGGGTGTCTTCGGCG
TGGAGATGTTCCTCCTGGAAGACGACAGCCTTCTCCTCTGCGAGATCGCC
AGCCGTATCCACAACTCCGGTCACTACACCATCGAAGGCTGCCCCATGTC
TCAATTCGAAGCCCACATCCGCGCCATCCTCGACCTCCCCATCCCCCCTC
AGAGCCTCGAAATCCGCCAACCCTCCATCATGTTGAACATCATCGGCGGC
TCCGCCCCAGACACCCATCTCAAGGCTGCCGAAAGCGCCCTCTCCATCCC
TAACGCCAGCATCCACCTCTACAGCAAGGGCGCCGCCAAACCCGGCCGCA
AGATGGGCCACGTCACCGTCACTGCCCCGACCATGCACGAAGCCGAATCC
CACATCCAGCCCCTCATCGACGTTGTCGACGACATCCGCTCCCAGCGCAG
CGACGTCCGCTCCAAGCCCCAAAAGTCCGGCGTCTCCAAGCCCGCCCCCT
CCGTCGCGGTCATCATGGGCTCCGACAGTGACCTCAAGACCCTGGTTCCC
GGTCTCAAGCTCCTGCGGGACTACTTCGGCGTTGAGCCCGACGTGGAAAT
CACTTCCGCTCATCGCACCCCCACCTACATGGCCGAGTACTCTGCCAATG
CTGCGGCCCGTGGCATCAAGGTCATCATTGCTGCCGCAGGAGGTGCTGCT
CACCTCCCCGGTATGTCGGCTGCTCATACCGCGCTGCCGGTGATCGGTGT
CCCAGTTAAGGGTAGCTCTTTGGATGGTGTTGATAGTTTGTACAGCATTG
TGCAGATGCCTAGGGGTGAGTCTTCTCCATATTCTTTTCTTCCTTGTTCA
TCACCTAGATCCTGTTTCCGTCTTCCTTCACATGCACTGTCGCTACATGC
ATGCATACATGCACGTATGATGACGGTCTCACACATTCTTTCCTGCATAT
CATGTACCAAGTTACGTTACATCCGAGCTGACAACATGTTTCACAGGTGT
ACCTGTCGCCACCGTCGGCATCAACAACAGCATCAATGCTGCCCTCCTGG
CTGCTCGTATCCTCGGTGCTTTCGATCCGGCTATCCAGCGCAAGGTTGAG
GCTTATGCGGAGAGCGCTCGGGCTGAGAACATGGAGCTGAAGGGTACTAA
GCTGCGCGAGCTCGGTTGGGAGAAGTATTTTGAGCAAATGTAA

Coding sequence (CDS) from alignment at ch2:3175328..3177370-

>KYF_002342-T1 ID=KYF_002342-T1|Name=KYF_002342-T1|organism=Aspergillus niger KYF3|type=CDS|length=6876bp|location=Sequence derived from alignment at ch2:3175328..3177370- (Aspergillus niger KYF3)
GTGTACCTGTCGCCACCGTCGGCATCAACAACAGCATCAATGCTGCCCTC
CTGGCTGCTCGTATCCTCGGTGCTTTCGATCCGGCTATCCAGCGCAAGGT
TGAGGCTTATGCGGAGAGCGCTCGGGCTGAGAACATGGAGCTGAAGGGTA
CTAAGCTGCGCGAGCTCGGTTGGGAGAAGTATTTTGAGCAAATGTAAGAA
CTCGCCGTGATGGTCGTGAAGACCAAGGACGAAGTCCTCTCCTACCCCAC
CGTTGAAACCGTCCAAGAAGACTCCATCTGCAAGCTCGTCTACGCCCCCG
CCCGCAACGTCTCCGATGCCATCAACCGCAAAGCGCAAGAACTCGCCCGG
AAAGCCGTCTCCGCCTTCGAAGGCAAGGGTGTCTTCGGCGTGGAGATGTT
CCTCCTGGAAGACGACAGCCTTCTCCTCTGCGAGATCGCCAGCCGTATCC
ACAACTCCGGTCACTACACCATCGAAGGCTGCCCCATGTCTCAATTCGAA
GCCCACATCCGCGCCATCCTCGACCTCCCCATCCCCCCTCAGAGCCTCGA
AATCCGCCAACCCTCCATCATGTTGAACATCATCGGCGGCTCCGCCCCAG
ACACCCATCTCAAGGCTGCCGAAAGCGCCCTCTCCATCCCTAACGCCAGC
ATCCACCTCTACAGCAAGGGCGCCGCCAAACCCGGCCGCAAGATGGGCCA
CGTCACCGTCACTGCCCCGACCATGCACGAAGCCGAATCCCACATCCAGC
CCCTCATCGACGTTGTCGACGACATCCGCTCCCAGCGCAGCGACGTCCGC
TCCAAGCCCCAAAAGTCCGGCGTCTCCAAGCCCGCCCCCTCCGTCGCGGT
CATCATGGGCTCCGACAGTGACCTCAAGACCCTGGTTCCCGGTCTCAAGC
TCCTGCGGGACTACTTCGGCGTTGAGCCCGACGTGGAAATCACTTCCGCT
CATCGCACCCCCACCTACATGGCCGAGTACTCTGCCAATGCTGCGGCCCG
TGGCATCAAGGTCATCATTGCTGCCGCAGGAGGTGCTGCTCACCTCCCCG
GTATGTCGGCTGCTCATACCGCGCTGCCGGTGATCGGTGTCCCAGTTAAG
GGTAGCTCTTTGGATGGTGTTGATAGTTTGTACAGCATTGTGCAGATGCC
TAGGGGAAACTTCCATGTGCGCGGTGCTCACGATATCCCCGAAGCCCTTG
AGTTCCTCAAGGGTCGTCCTCTGTATGCCGAGAAATGGGCCTACTTCAAG
ATGATGTGGAACTCCCGCAAGGTGGGAATCCTCGGTGGAGGCCAATTGGG
CCGTATGCTGGTCGAATCGGCCAACCGCCTCAACATCCAGTGCAACGTCC
TTGATGCGGAGAACTCCCCGGCTAAGCAGATTAGCTCCCACGATGACCAT
GTCACCGGCTCCTTCAAGGAGCGCGAAGCCGTCCGCGAATTGGCGAAGAA
CTGCGACGTCGTGACCGCCGAGATTGAGCACGTCGACACCTATGCCCTGG
AGGAGATCGCCTCCCAGGTCCGCATCGAGCCCAGTTGGCAGGCCATCCGC
ACCATCCAGAACAAGTACAACCAGAAGGAACATCTCCGCAAATATGGCAT
CCCCATGGCTGAGCACCGCGAGCTCGCTGAGAATACCCCCGAGGCATTGG
CCAAGGTTGGCGAGGAGCTTGGCTACCCCTTGATGCTGAAGTCGAAGACC
ATGGCCTACGATGGACGTGGTGTACCTGTCGCCACCGTCGGCATCAACAA
CAGCATCAATGCTGCCCTCCTGGCTGCTCGTATCCTCGGTGCTTTCGATC
CGGCTATCCAGCGCAAGGTTGAGGCTTATGCGGAGAGCGCTCGGGCTGAG
AACATGGAGCTGAAGGGTACTAAGCTGCGCGAGCTCGGTTGGGAGAAGTA
TTTTGAGCAAATGTAAGAACTCGCCGTGATGGTCGTGAAGACCAAGGACG
AAGTCCTCTCCTACCCCACCGTTGAAACCGTCCAAGAAGACTCCATCTGC
AAGCTCGTCTACGCCCCCGCCCGCAACGTCTCCGATGCCATCAACCGCAA
AGCGCAAGAACTCGCCCGGAAAGCCGTCTCCGCCTTCGAAGGCAAGGGTG
TCTTCGGCGTGGAGATGTTCCTCCTGGAAGACGACAGCCTTCTCCTCTGC
GAGATCGCCAGCCGTATCCACAACTCCGGTCACTACACCATCGAAGGCTG
CCCCATGTCTCAATTCGAAGCCCACATCCGCGCCATCCTCGACCTCCCCA
TCCCCCCTCAGAGCCTCGAAATCCGCCAACCCTCCATCATGTTGAACATC
ATCGGCGGCTCCGCCCCAGACACCCATCTCAAGGCTGCCGAAAGCGCCCT
CTCCATCCCTAACGCCAGCATCCACCTCTACAGCAAGGGCGCCGCCAAAC
CCGGCCGCAAGATGGGCCACGTCACCGTCACTGCCCCGACCATGCACGAA
GCCGAATCCCACATCCAGCCCCTCATCGACGTTGTCGACGACATCCGCTC
CCAGCGCAGCGACGTCCGCTCCAAGCCCCAAAAGTCCGGCGTCTCCAAGC
CCGCCCCCTCCGTCGCGGTCATCATGGGCTCCGACAGTGACCTCAAGACC
CTGGTTCCCGGTCTCAAGCTCCTGCGGGACTACTTCGGCGTTGAGCCCGA
CGTGGAAATCACTTCCGCTCATCGCACCCCCACCTACATGGCCGAGTACT
CTGCCAATGCTGCGGCCCGTGGCATCAAGGTCATCATTGCTGCCGCAGGA
GGTGCTGCTCACCTCCCCGGTATGTCGGCTGCTCATACCGCGCTGCCGGT
GATCGGTGTCCCAGTTAAGGGTAGCTCTTTGGATGGTGTTGATAGTTTGT
ACAGCATTGTGCAGATGCCTAGGGGAAACTTCCATGTGCGCGGTGCTCAC
GATATCCCCGAAGCCCTTGAGTTCCTCAAGGGTCGTCCTCTGTATGCCGA
GAAATGGGCCTACTTCAAGATGATGTGGAACTCCCGCAAGGTGGGAATCC
TCGGTGGAGGCCAATTGGGCCGTATGCTGGTCGAATCGGCCAACCGCCTC
AACATCCAGTGCAACGTCCTTGATGCGGAGAACTCCCCGGCTAAGCAGAT
TAGCTCCCACGATGACCATGTCACCGGCTCCTTCAAGGAGCGCGAAGCCG
TCCGCGAATTGGCGAAGAACTGCGACGTCGTGACCGCCGAGATTGAGCAC
GTCGACACCTATGCCCTGGAGGAGATCGCCTCCCAGGTCCGCATCGAGCC
CAGTTGGCAGGCCATCCGCACCATCCAGAACAAGTACAACCAGAAGGAAC
ATCTCCGCAAATATGGCATCCCCATGGCTGAGCACCGCGAGCTCGCTGAG
AATACCCCCGAGGCATTGGCCAAGGTTGGCGAGGAGCTTGGCTACCCCTT
GATGCTGAAGTCGAAGACCATGGCCTACGATGGACGTGGTGTACCTGTCG
CCACCGTCGGCATCAACAACAGCATCAATGCTGCCCTCCTGGCTGCTCGT
ATCCTCGGTGCTTTCGATCCGGCTATCCAGCGCAAGGTTGAGGCTTATGC
GGAGAGCGCTCGGGCTGAGAACATGGAGCTGAAGGGTACTAAGCTGCGCG
AGCTCGGTTGGGAGAAGTATTTTGAGCAAATGTAAGAACTCGCCGTGATG
GTCGTGAAGACCAAGGACGAAGTCCTCTCCTACCCCACCGTTGAAACCGT
CCAAGAAGACTCCATCTGCAAGCTCGTCTACGCCCCCGCCCGCAACGTCT
CCGATGCCATCAACCGCAAAGCGCAAGAACTCGCCCGGAAAGCCGTCTCC
GCCTTCGAAGGCAAGGGTGTCTTCGGCGTGGAGATGTTCCTCCTGGAAGA
CGACAGCCTTCTCCTCTGCGAGATCGCCAGCCGTATCCACAACTCCGGTC
ACTACACCATCGAAGGCTGCCCCATGTCTCAATTCGAAGCCCACATCCGC
GCCATCCTCGACCTCCCCATCCCCCCTCAGAGCCTCGAAATCCGCCAACC
CTCCATCATGTTGAACATCATCGGCGGCTCCGCCCCAGACACCCATCTCA
AGGCTGCCGAAAGCGCCCTCTCCATCCCTAACGCCAGCATCCACCTCTAC
AGCAAGGGCGCCGCCAAACCCGGCCGCAAGATGGGCCACGTCACCGTCAC
TGCCCCGACCATGCACGAAGCCGAATCCCACATCCAGCCCCTCATCGACG
TTGTCGACGACATCCGCTCCCAGCGCAGCGACGTCCGCTCCAAGCCCCAA
AAGTCCGGCGTCTCCAAGCCCGCCCCCTCCGTCGCGGTCATCATGGGCTC
CGACAGTGACCTCAAGACCCTGGTTCCCGGTCTCAAGCTCCTGCGGGACT
ACTTCGGCGTTGAGCCCGACGTGGAAATCACTTCCGCTCATCGCACCCCC
ACCTACATGGCCGAGTACTCTGCCAATGCTGCGGCCCGTGGCATCAAGGT
CATCATTGCTGCCGCAGGAGGTGCTGCTCACCTCCCCGGTATGTCGGCTG
CTCATACCGCGCTGCCGGTGATCGGTGTCCCAGTTAAGGGTAGCTCTTTG
GATGGTGTTGATAGTTTGTACAGCATTGTGCAGATGCCTAGGGGAAACTT
CCATGTGCGCGGTGCTCACGATATCCCCGAAGCCCTTGAGTTCCTCAAGG
GTCGTCCTCTGTATGCCGAGAAATGGGCCTACTTCAAGATGATGTGGAAC
TCCCGCAAGGTGGGAATCCTCGGTGGAGGCCAATTGGGCCGTATGCTGGT
CGAATCGGCCAACCGCCTCAACATCCAGTGCAACGTCCTTGATGCGGAGA
ACTCCCCGGCTAAGCAGATTAGCTCCCACGATGACCATGTCACCGGCTCC
TTCAAGGAGCGCGAAGCCGTCCGCGAATTGGCGAAGAACTGCGACGTCGT
GACCGCCGAGATTGAGCACGTCGACACCTATGCCCTGGAGGAGATCGCCT
CCCAGGTCCGCATCGAGCCCAGTTGGCAGGCCATCCGCACCATCCAGAAC
AAGTACAACCAGAAGGAACATCTCCGCAAATATGGCATCCCCATGGCTGA
GCACCGCGAGCTCGCTGAGAATACCCCCGAGGCATTGGCCAAGGTTGGCG
AGGAGCTTGGCTACCCCTTGATGCTGAAGTCGAAGACCATGGCCTACGAT
GGACGTGGTGTACCTGTCGCCACCGTCGGCATCAACAACAGCATCAATGC
TGCCCTCCTGGCTGCTCGTATCCTCGGTGCTTTCGATCCGGCTATCCAGC
GCAAGGTTGAGGCTTATGCGGAGAGCGCTCGGGCTGAGAACATGGAGCTG
AAGGGTACTAAGCTGCGCGAGCTCGGTTGGGAGAAGTATTTTGAGCAAAT
GTAAGAACTCGCCGTGATGGTCGTGAAGACCAAGGACGAAGTCCTCTCCT
ACCCCACCGTTGAAACCGTCCAAGAAGACTCCATCTGCAAGCTCGTCTAC
GCCCCCGCCCGCAACGTCTCCGATGCCATCAACCGCAAAGCGCAAGAACT
CGCCCGGAAAGCCGTCTCCGCCTTCGAAGGCAAGGGTGTCTTCGGCGTGG
AGATGTTCCTCCTGGAAGACGACAGCCTTCTCCTCTGCGAGATCGCCAGC
CGTATCCACAACTCCGGTCACTACACCATCGAAGGCTGCCCCATGTCTCA
ATTCGAAGCCCACATCCGCGCCATCCTCGACCTCCCCATCCCCCCTCAGA
GCCTCGAAATCCGCCAACCCTCCATCATGTTGAACATCATCGGCGGCTCC
GCCCCAGACACCCATCTCAAGGCTGCCGAAAGCGCCCTCTCCATCCCTAA
CGCCAGCATCCACCTCTACAGCAAGGGCGCCGCCAAACCCGGCCGCAAGA
TGGGCCACGTCACCGTCACTGCCCCGACCATGCACGAAGCCGAATCCCAC
ATCCAGCCCCTCATCGACGTTGTCGACGACATCCGCTCCCAGCGCAGCGA
CGTCCGCTCCAAGCCCCAAAAGTCCGGCGTCTCCAAGCCCGCCCCCTCCG
TCGCGGTCATCATGGGCTCCGACAGTGACCTCAAGACCCTGGTTCCCGGT
CTCAAGCTCCTGCGGGACTACTTCGGCGTTGAGCCCGACGTGGAAATCAC
TTCCGCTCATCGCACCCCCACCTACATGGCCGAGTACTCTGCCAATGCTG
CGGCCCGTGGCATCAAGGTCATCATTGCTGCCGCAGGAGGTGCTGCTCAC
CTCCCCGGTATGTCGGCTGCTCATACCGCGCTGCCGGTGATCGGTGTCCC
AGTTAAGGGTAGCTCTTTGGATGGTGTTGATAGTTTGTACAGCATTGTGC
AGATGCCTAGGGGAAACTTCCATGTGCGCGGTGCTCACGATATCCCCGAA
GCCCTTGAGTTCCTCAAGGGTCGTCCTCTGTATGCCGAGAAATGGGCCTA
CTTCAAGATGATGTGGAACTCCCGCAAGGTGGGAATCCTCGGTGGAGGCC
AATTGGGCCGTATGCTGGTCGAATCGGCCAACCGCCTCAACATCCAGTGC
AACGTCCTTGATGCGGAGAACTCCCCGGCTAAGCAGATTAGCTCCCACGA
TGACCATGTCACCGGCTCCTTCAAGGAGCGCGAAGCCGTCCGCGAATTGG
CGAAGAACTGCGACGTCGTGACCGCCGAGATTGAGCACGTCGACACCTAT
GCCCTGGAGGAGATCGCCTCCCAGGTCCGCATCGAGCCCAGTTGGCAGGC
CATCCGCACCATCCAGAACAAGTACAACCAGAAGGAACATCTCCGCAAAT
ATGGCATCCCCATGGCTGAGCACCGCGAGCTCGCTGAGAATACCCCCGAG
GCATTGGCCAAGGTTGGCGAGGAGCTTGGCTACCCCTTGATGCTGAAGTC
GAAGACCATGGCCTACGATGGACGTG

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Molecular Function**
Term	Definition
GO:0046872	metal ion binding
GO:0005524	ATP binding
GO:0004638	phosphoribosylaminoimidazole carboxylase activity

Vocabulary: **Biological Process**
Term	Definition
GO:0006189	'de novo' IMP biosynthetic process

Relationships

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


Feature Name	Unique Name	Species	Type
KYF_002342	KYF_002342	Aspergillus niger KYF3	gene

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


Feature Name	Unique Name	Species	Type
KYF_002342-T1	KYF_002342-T1-protein	Aspergillus niger KYF3	polypeptide

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


Feature Name	Unique Name	Species	Type
KYF_002342-T1.cds	KYF_002342-T1.cds	Aspergillus niger KYF3	CDS

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


Feature Name	Unique Name	Species	Type
KYF_002342-T1.exon4	KYF_002342-T1.exon4	Aspergillus niger KYF3	exon
KYF_002342-T1.exon3	KYF_002342-T1.exon3	Aspergillus niger KYF3	exon
KYF_002342-T1.exon2	KYF_002342-T1.exon2	Aspergillus niger KYF3	exon
KYF_002342-T1.exon1	KYF_002342-T1.exon1	Aspergillus niger KYF3	exon

Properties


Property Name	Value
Note	BUSCO:EOG09261D4D
DBxref	InterPro:IPR011054
DBxref	InterPro:IPR016185
DBxref	InterPro:IPR011761
DBxref	InterPro:IPR033747
DBxref	InterPro:IPR013815
DBxref	InterPro:IPR016301
DBxref	InterPro:IPR005875
DBxref	InterPro:IPR003135
DBxref	InterPro:IPR040686
DBxref	InterPro:IPR035893
DBxref	InterPro:IPR000031
DBxref	PFAM:PF17769
DBxref	PFAM:PF02786
DBxref	PFAM:PF02222
DBxref	PFAM:PF00731
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
ch2	supercontig	ch2:3175328..3177370 -

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KYF_002342-T1, KYF_002342-T1 (mRNA) Aspergillus niger KYF3