ATCC64974_90400-T1, ATCC64974_90400-T1 (mRNA) Aspergillus niger N402

Overview


Name	ATCC64974_90400-T1
Unique Name	ATCC64974_90400-T1
Type	mRNA
Organism	Aspergillus niger N402

Sequences

The following sequences are available for this feature:

mRNA from alignment at OGUI01000016.1:1151211..1153889-
coding sequence from alignment at OGUI01000016.1:1151211..1153889-

mRNA from alignment at OGUI01000016.1:1151211..1153889-

Legend: polypeptideCDSexon

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

>ATCC64974_90400-T1 ID=ATCC64974_90400-T1|Name=ATCC64974_90400-T1|organism=Aspergillus niger N402|type=mRNA|length=2679bp|location=Sequence derived from alignment at OGUI01000016.1:1151211..1153889- (Aspergillus niger N402)
ATGAATCACGATAGTTTCTCCTCCCTAAAATTTCGACGGTCGTCTAGCAA
GCTTCACAAGGATCCTCCGAGTTTCAGCTCCCGCATCCTCAAGAGCCAGC
AGAGCAACACGTCACTAAAGCGGCACCCTTCAGCGCCCGTCTACCCCCGT
TCCTCCACCGGTGGGAGTCGTGAGCACTCGCGGACAAGGTCCAACGCCTA
CGGATCTTCTTCATCCTCCCTCGAGCAGAATAGTGGCGGCCCGTCTCCGG
TGCTCGCTGGCAACCAACCTGGATACTTCTCGAACACCTCCAACCCCTCC
AAATCCCGCCCTCCCCACTCGGGTCGATTCTCTCTCACCGAGCAAAGTTC
AGATGAATTGATCGGACCCCCGTTTGACAGCCGGGGCATGCTCAGTTCAT
TGCAGGAAAATACCACCGAGACCGTTCCCCAAAAACCCCCCAACCTCCGA
TCGGCCACCAGCCCGGACTCCCGAGGATTGAGACAGTCTGCTAGCTTCAC
GGCTCTACAGAACCGGATGGAGACATTCGTGCACAGGACGACTGACAATG
ATCGCCCGGCGAATCCAAAACGTTTATCCGATGAGGGTGGTGGTGGTGTT
GGCTCGCGGCCATTTGGCACGGGCAGGAGCAAAAAGAGCAGTTTCTCCAG
CTTCGTCAATAGCATGTTAGGCTCCCCCCGAGGCATCAAGATCTCCGCCC
CGGAGAACCCCGTGCACGTTACGCACGTTGGCTATGACAATCAGACCGGT
CAGTTCACTGGCCTCCCGAAGGAATGGCAGCGGCTGCTGCAAGAAAACGG
TATCTCGAAAAAGGAGCAGGAGGAACACCCGCAGACGATGGTTGATATTA
TGAGGTTCTACGAGAAGAATGCTCAAGGCGATGACGAAGTGTGGCACAAA
TTTGACCACGCTTATCCTCAGCCGCAGTCGGTTTCCAGCCCGATTTCCGG
AGGACAGACTAATGCTGTCGGCGCCGGGTCTTACGGCCCTACCTCAGCTC
GGACTTCTCCCCCGACGAGTCCTCGCTTTCCACAGAATCATGAGGGTAGC
TTCGAAAACCCACGTGCGCCGCCTCCTATTCCTCGTGGGCCTTCTGCGGC
CACCCCAGCGGTAGGTGGCTTTGTCCCCAATCGAGCACCACCAAAACCTC
CGACCCCTGCCAATATCACCCCGTCTCGGCCTGCACCACAGCCACCAACC
GCGGGATCATACAGTGCCGCGCCCGCACGTCCACCCCAAGAGGCCTATTC
TCCTCCGCAGTTCGACACGCCTCCCATTCCGGAAACGGAGCCCCTGCAGT
CTGAACCTAAGCCTCAGTTGAGCAGATCAAACTCCAGAGCCAATGGTACC
CCCGTACCATGGCAGTCACACAATGTTCCTACGCCGGCTCAGTACCAACA
AAAGCAAGAGCAAGCAATGGCCGCCGCCCAGCAGGCAATTGCGACCATCC
AACTCGACCGTAGCCGCAGTCAGCGTCAACAGCAGCCTACTCGCCAGGAA
CAGAAGCAACCTTCGGTGCAGAGCCCACCCCACCATGTCTCCCCGGTGGA
TGAGGCTGCACGCGCCGCTCCTGCCGCTCGCCCCCGGCAGCGACCTCGTC
AGAGTAATGCGATGGATATAAGGTCGCGACTACTTGCCATCTGTACGCCC
GGGGACCCTACTAGGCTATACCATCATCTCAACAAGATCGGCCAGGGTGC
GTCTGGTGGTGTCTTCACTGCCTACGAGAACAACACCAACAAGTGTGTTG
CTATCAAGCAAATGAACCTGGACTTGCAACCCAAGAAGGATCTGATCATC
AATGAGATTTTGGTCATGAAGGACAGCAAGCACAAGAACATTGTCAACTT
CTTAGACAGCTACCTCCATGGTCTGGACCTCTGGGTAGTGATGGAGTACA
TGGAGGGTGGCAGTTTGACTGATGTGGTTACTTTCAACATTATGAGTGAA
GGGCAAATTGCTGCTGTCTGCAGAGAGGTAAGCTTACTGCATCTTTCTCC
TTAATGTATCTCGCATCTCCTAACCTTTACTAGACTTTGAGTGGTTTACA
GCATCTTCACTCGAAAGGTGTCATTCACCGTGACATCAAGTCGGACAACA
TTCTTCTCTCAATGGAGGGCAACATCAAACTCAGTAAGCTACCTTTCGCG
ATGGCCCCCAATGTTCATTTTCTGACATCCTGTAGCCGACTTTGGTTTCT
GTGCCCAAATCAACGACTCGCATAACAAGCGAAACACCATGGTCGGTACA
CCGTATTGGATGGCCCCCGAAGTCGTTACTCGAAAGGAGTATGGCCGCAA
GGTTGATATCTGGAGTTTGGGTATCATGGCCATCGAGATGATCGAGGGTG
AGCCTCCTTATCTTACGGAATCGCCCCTGAGGGCTCTGTACTTGATTGCC
ACCAACGGCACGCCTACAATCAAGGATGAGCACAACTTGTCGCCCGTCTT
CCGTGATTTCCTGCACCTTGCTCTCAAGGTGGATCCTGAGAAGCGAGCCT
CGGCACATGACTTGCTCAAGGTATGTTCACGTCAATCAAGCTCATTGTGA
AATAATAACTAACTGCTCGATTAGCATCCGTTTATGTCGCTTTGCGCGCC
CCTGAATCATCTCTCGCCCCTTGTCAAGGCTGCGCGGGCTAGCAGAGCCC
AGGAAAAAGCTCAAAAGGGAGGCGCCTAG

Coding sequence (CDS) from alignment at OGUI01000016.1:1151211..1153889-

>ATCC64974_90400-T1 ID=ATCC64974_90400-T1|Name=ATCC64974_90400-T1|organism=Aspergillus niger N402|type=CDS|length=10068bp|location=Sequence derived from alignment at OGUI01000016.1:1151211..1153889- (Aspergillus niger N402)
CATCCGTTTATGTCGCTTTGCGCGCCCCTGAATCATCTCTCGCCCCTTGT
CAAGGCTGCGCGGGCTAGCAGAGCCCAGGAAAAAGCTCAAAAGGGAGGCG
CCTAGCCGACTTTGGTTTCTGTGCCCAAATCAACGACTCGCATAACAAGC
GAAACACCATGGTCGGTACACCGTATTGGATGGCCCCCGAAGTCGTTACT
CGAAAGGAGTATGGCCGCAAGGTTGATATCTGGAGTTTGGGTATCATGGC
CATCGAGATGATCGAGGGTGAGCCTCCTTATCTTACGGAATCGCCCCTGA
GGGCTCTGTACTTGATTGCCACCAACGGCACGCCTACAATCAAGGATGAG
CACAACTTGTCGCCCGTCTTCCGTGATTTCCTGCACCTTGCTCTCAAGGT
GGATCCTGAGAAGCGAGCCTCGGCACATGACTTGCTCAAGACTTTGAGTG
GTTTACAGCATCTTCACTCGAAAGGTGTCATTCACCGTGACATCAAGTCG
GACAACATTCTTCTCTCAATGGAGGGCAACATCAAACTCAATGAATCACG
ATAGTTTCTCCTCCCTAAAATTTCGACGGTCGTCTAGCAAGCTTCACAAG
GATCCTCCGAGTTTCAGCTCCCGCATCCTCAAGAGCCAGCAGAGCAACAC
GTCACTAAAGCGGCACCCTTCAGCGCCCGTCTACCCCCGTTCCTCCACCG
GTGGGAGTCGTGAGCACTCGCGGACAAGGTCCAACGCCTACGGATCTTCT
TCATCCTCCCTCGAGCAGAATAGTGGCGGCCCGTCTCCGGTGCTCGCTGG
CAACCAACCTGGATACTTCTCGAACACCTCCAACCCCTCCAAATCCCGCC
CTCCCCACTCGGGTCGATTCTCTCTCACCGAGCAAAGTTCAGATGAATTG
ATCGGACCCCCGTTTGACAGCCGGGGCATGCTCAGTTCATTGCAGGAAAA
TACCACCGAGACCGTTCCCCAAAAACCCCCCAACCTCCGATCGGCCACCA
GCCCGGACTCCCGAGGATTGAGACAGTCTGCTAGCTTCACGGCTCTACAG
AACCGGATGGAGACATTCGTGCACAGGACGACTGACAATGATCGCCCGGC
GAATCCAAAACGTTTATCCGATGAGGGTGGTGGTGGTGTTGGCTCGCGGC
CATTTGGCACGGGCAGGAGCAAAAAGAGCAGTTTCTCCAGCTTCGTCAAT
AGCATGTTAGGCTCCCCCCGAGGCATCAAGATCTCCGCCCCGGAGAACCC
CGTGCACGTTACGCACGTTGGCTATGACAATCAGACCGGTCAGTTCACTG
GCCTCCCGAAGGAATGGCAGCGGCTGCTGCAAGAAAACGGTATCTCGAAA
AAGGAGCAGGAGGAACACCCGCAGACGATGGTTGATATTATGAGGTTCTA
CGAGAAGAATGCTCAAGGCGATGACGAAGTGTGGCACAAATTTGACCACG
CTTATCCTCAGCCGCAGTCGGTTTCCAGCCCGATTTCCGGAGGACAGACT
AATGCTGTCGGCGCCGGGTCTTACGGCCCTACCTCAGCTCGGACTTCTCC
CCCGACGAGTCCTCGCTTTCCACAGAATCATGAGGGTAGCTTCGAAAACC
CACGTGCGCCGCCTCCTATTCCTCGTGGGCCTTCTGCGGCCACCCCAGCG
GTAGGTGGCTTTGTCCCCAATCGAGCACCACCAAAACCTCCGACCCCTGC
CAATATCACCCCGTCTCGGCCTGCACCACAGCCACCAACCGCGGGATCAT
ACAGTGCCGCGCCCGCACGTCCACCCCAAGAGGCCTATTCTCCTCCGCAG
TTCGACACGCCTCCCATTCCGGAAACGGAGCCCCTGCAGTCTGAACCTAA
GCCTCAGTTGAGCAGATCAAACTCCAGAGCCAATGGTACCCCCGTACCAT
GGCAGTCACACAATGTTCCTACGCCGGCTCAGTACCAACAAAAGCAAGAG
CAAGCAATGGCCGCCGCCCAGCAGGCAATTGCGACCATCCAACTCGACCG
TAGCCGCAGTCAGCGTCAACAGCAGCCTACTCGCCAGGAACAGAAGCAAC
CTTCGGTGCAGAGCCCACCCCACCATGTCTCCCCGGTGGATGAGGCTGCA
CGCGCCGCTCCTGCCGCTCGCCCCCGGCAGCGACCTCGTCAGAGTAATGC
GATGGATATAAGGTCGCGACTACTTGCCATCTGTACGCCCGGGGACCCTA
CTAGGCTATACCATCATCTCAACAAGATCGGCCAGGGTGCGTCTGGTGGT
GTCTTCACTGCCTACGAGAACAACACCAACAAGTGTGTTGCTATCAAGCA
AATGAACCTGGACTTGCAACCCAAGAAGGATCTGATCATCAATGAGATTT
TGGTCATGAAGGACAGCAAGCACAAGAACATTGTCAACTTCTTAGACAGC
TACCTCCATGGTCTGGACCTCTGGGTAGTGATGGAGTACATGGAGGGTGG
CAGTTTGACTGATGTGGTTACTTTCAACATTATGAGTGAAGGGCAAATTG
CTGCTGTCTGCAGAGAGCATCCGTTTATGTCGCTTTGCGCGCCCCTGAAT
CATCTCTCGCCCCTTGTCAAGGCTGCGCGGGCTAGCAGAGCCCAGGAAAA
AGCTCAAAAGGGAGGCGCCTAGCCGACTTTGGTTTCTGTGCCCAAATCAA
CGACTCGCATAACAAGCGAAACACCATGGTCGGTACACCGTATTGGATGG
CCCCCGAAGTCGTTACTCGAAAGGAGTATGGCCGCAAGGTTGATATCTGG
AGTTTGGGTATCATGGCCATCGAGATGATCGAGGGTGAGCCTCCTTATCT
TACGGAATCGCCCCTGAGGGCTCTGTACTTGATTGCCACCAACGGCACGC
CTACAATCAAGGATGAGCACAACTTGTCGCCCGTCTTCCGTGATTTCCTG
CACCTTGCTCTCAAGGTGGATCCTGAGAAGCGAGCCTCGGCACATGACTT
GCTCAAGACTTTGAGTGGTTTACAGCATCTTCACTCGAAAGGTGTCATTC
ACCGTGACATCAAGTCGGACAACATTCTTCTCTCAATGGAGGGCAACATC
AAACTCAATGAATCACGATAGTTTCTCCTCCCTAAAATTTCGACGGTCGT
CTAGCAAGCTTCACAAGGATCCTCCGAGTTTCAGCTCCCGCATCCTCAAG
AGCCAGCAGAGCAACACGTCACTAAAGCGGCACCCTTCAGCGCCCGTCTA
CCCCCGTTCCTCCACCGGTGGGAGTCGTGAGCACTCGCGGACAAGGTCCA
ACGCCTACGGATCTTCTTCATCCTCCCTCGAGCAGAATAGTGGCGGCCCG
TCTCCGGTGCTCGCTGGCAACCAACCTGGATACTTCTCGAACACCTCCAA
CCCCTCCAAATCCCGCCCTCCCCACTCGGGTCGATTCTCTCTCACCGAGC
AAAGTTCAGATGAATTGATCGGACCCCCGTTTGACAGCCGGGGCATGCTC
AGTTCATTGCAGGAAAATACCACCGAGACCGTTCCCCAAAAACCCCCCAA
CCTCCGATCGGCCACCAGCCCGGACTCCCGAGGATTGAGACAGTCTGCTA
GCTTCACGGCTCTACAGAACCGGATGGAGACATTCGTGCACAGGACGACT
GACAATGATCGCCCGGCGAATCCAAAACGTTTATCCGATGAGGGTGGTGG
TGGTGTTGGCTCGCGGCCATTTGGCACGGGCAGGAGCAAAAAGAGCAGTT
TCTCCAGCTTCGTCAATAGCATGTTAGGCTCCCCCCGAGGCATCAAGATC
TCCGCCCCGGAGAACCCCGTGCACGTTACGCACGTTGGCTATGACAATCA
GACCGGTCAGTTCACTGGCCTCCCGAAGGAATGGCAGCGGCTGCTGCAAG
AAAACGGTATCTCGAAAAAGGAGCAGGAGGAACACCCGCAGACGATGGTT
GATATTATGAGGTTCTACGAGAAGAATGCTCAAGGCGATGACGAAGTGTG
GCACAAATTTGACCACGCTTATCCTCAGCCGCAGTCGGTTTCCAGCCCGA
TTTCCGGAGGACAGACTAATGCTGTCGGCGCCGGGTCTTACGGCCCTACC
TCAGCTCGGACTTCTCCCCCGACGAGTCCTCGCTTTCCACAGAATCATGA
GGGTAGCTTCGAAAACCCACGTGCGCCGCCTCCTATTCCTCGTGGGCCTT
CTGCGGCCACCCCAGCGGTAGGTGGCTTTGTCCCCAATCGAGCACCACCA
AAACCTCCGACCCCTGCCAATATCACCCCGTCTCGGCCTGCACCACAGCC
ACCAACCGCGGGATCATACAGTGCCGCGCCCGCACGTCCACCCCAAGAGG
CCTATTCTCCTCCGCAGTTCGACACGCCTCCCATTCCGGAAACGGAGCCC
CTGCAGTCTGAACCTAAGCCTCAGTTGAGCAGATCAAACTCCAGAGCCAA
TGGTACCCCCGTACCATGGCAGTCACACAATGTTCCTACGCCGGCTCAGT
ACCAACAAAAGCAAGAGCAAGCAATGGCCGCCGCCCAGCAGGCAATTGCG
ACCATCCAACTCGACCGTAGCCGCAGTCAGCGTCAACAGCAGCCTACTCG
CCAGGAACAGAAGCAACCTTCGGTGCAGAGCCCACCCCACCATGTCTCCC
CGGTGGATGAGGCTGCACGCGCCGCTCCTGCCGCTCGCCCCCGGCAGCGA
CCTCGTCAGAGTAATGCGATGGATATAAGGTCGCGACTACTTGCCATCTG
TACGCCCGGGGACCCTACTAGGCTATACCATCATCTCAACAAGATCGGCC
AGGGTGCGTCTGGTGGTGTCTTCACTGCCTACGAGAACAACACCAACAAG
TGTGTTGCTATCAAGCAAATGAACCTGGACTTGCAACCCAAGAAGGATCT
GATCATCAATGAGATTTTGGTCATGAAGGACAGCAAGCACAAGAACATTG
TCAACTTCTTAGACAGCTACCTCCATGGTCTGGACCTCTGGGTAGTGATG
GAGTACATGGAGGGTGGCAGTTTGACTGATGTGGTTACTTTCAACATTAT
GAGTGAAGGGCAAATTGCTGCTGTCTGCAGAGAGCATCCGTTTATGTCGC
TTTGCGCGCCCCTGAATCATCTCTCGCCCCTTGTCAAGGCTGCGCGGGCT
AGCAGAGCCCAGGAAAAAGCTCAAAAGGGAGGCGCCTAGCCGACTTTGGT
TTCTGTGCCCAAATCAACGACTCGCATAACAAGCGAAACACCATGGTCGG
TACACCGTATTGGATGGCCCCCGAAGTCGTTACTCGAAAGGAGTATGGCC
GCAAGGTTGATATCTGGAGTTTGGGTATCATGGCCATCGAGATGATCGAG
GGTGAGCCTCCTTATCTTACGGAATCGCCCCTGAGGGCTCTGTACTTGAT
TGCCACCAACGGCACGCCTACAATCAAGGATGAGCACAACTTGTCGCCCG
TCTTCCGTGATTTCCTGCACCTTGCTCTCAAGGTGGATCCTGAGAAGCGA
GCCTCGGCACATGACTTGCTCAAGACTTTGAGTGGTTTACAGCATCTTCA
CTCGAAAGGTGTCATTCACCGTGACATCAAGTCGGACAACATTCTTCTCT
CAATGGAGGGCAACATCAAACTCAATGAATCACGATAGTTTCTCCTCCCT
AAAATTTCGACGGTCGTCTAGCAAGCTTCACAAGGATCCTCCGAGTTTCA
GCTCCCGCATCCTCAAGAGCCAGCAGAGCAACACGTCACTAAAGCGGCAC
CCTTCAGCGCCCGTCTACCCCCGTTCCTCCACCGGTGGGAGTCGTGAGCA
CTCGCGGACAAGGTCCAACGCCTACGGATCTTCTTCATCCTCCCTCGAGC
AGAATAGTGGCGGCCCGTCTCCGGTGCTCGCTGGCAACCAACCTGGATAC
TTCTCGAACACCTCCAACCCCTCCAAATCCCGCCCTCCCCACTCGGGTCG
ATTCTCTCTCACCGAGCAAAGTTCAGATGAATTGATCGGACCCCCGTTTG
ACAGCCGGGGCATGCTCAGTTCATTGCAGGAAAATACCACCGAGACCGTT
CCCCAAAAACCCCCCAACCTCCGATCGGCCACCAGCCCGGACTCCCGAGG
ATTGAGACAGTCTGCTAGCTTCACGGCTCTACAGAACCGGATGGAGACAT
TCGTGCACAGGACGACTGACAATGATCGCCCGGCGAATCCAAAACGTTTA
TCCGATGAGGGTGGTGGTGGTGTTGGCTCGCGGCCATTTGGCACGGGCAG
GAGCAAAAAGAGCAGTTTCTCCAGCTTCGTCAATAGCATGTTAGGCTCCC
CCCGAGGCATCAAGATCTCCGCCCCGGAGAACCCCGTGCACGTTACGCAC
GTTGGCTATGACAATCAGACCGGTCAGTTCACTGGCCTCCCGAAGGAATG
GCAGCGGCTGCTGCAAGAAAACGGTATCTCGAAAAAGGAGCAGGAGGAAC
ACCCGCAGACGATGGTTGATATTATGAGGTTCTACGAGAAGAATGCTCAA
GGCGATGACGAAGTGTGGCACAAATTTGACCACGCTTATCCTCAGCCGCA
GTCGGTTTCCAGCCCGATTTCCGGAGGACAGACTAATGCTGTCGGCGCCG
GGTCTTACGGCCCTACCTCAGCTCGGACTTCTCCCCCGACGAGTCCTCGC
TTTCCACAGAATCATGAGGGTAGCTTCGAAAACCCACGTGCGCCGCCTCC
TATTCCTCGTGGGCCTTCTGCGGCCACCCCAGCGGTAGGTGGCTTTGTCC
CCAATCGAGCACCACCAAAACCTCCGACCCCTGCCAATATCACCCCGTCT
CGGCCTGCACCACAGCCACCAACCGCGGGATCATACAGTGCCGCGCCCGC
ACGTCCACCCCAAGAGGCCTATTCTCCTCCGCAGTTCGACACGCCTCCCA
TTCCGGAAACGGAGCCCCTGCAGTCTGAACCTAAGCCTCAGTTGAGCAGA
TCAAACTCCAGAGCCAATGGTACCCCCGTACCATGGCAGTCACACAATGT
TCCTACGCCGGCTCAGTACCAACAAAAGCAAGAGCAAGCAATGGCCGCCG
CCCAGCAGGCAATTGCGACCATCCAACTCGACCGTAGCCGCAGTCAGCGT
CAACAGCAGCCTACTCGCCAGGAACAGAAGCAACCTTCGGTGCAGAGCCC
ACCCCACCATGTCTCCCCGGTGGATGAGGCTGCACGCGCCGCTCCTGCCG
CTCGCCCCCGGCAGCGACCTCGTCAGAGTAATGCGATGGATATAAGGTCG
CGACTACTTGCCATCTGTACGCCCGGGGACCCTACTAGGCTATACCATCA
TCTCAACAAGATCGGCCAGGGTGCGTCTGGTGGTGTCTTCACTGCCTACG
AGAACAACACCAACAAGTGTGTTGCTATCAAGCAAATGAACCTGGACTTG
CAACCCAAGAAGGATCTGATCATCAATGAGATTTTGGTCATGAAGGACAG
CAAGCACAAGAACATTGTCAACTTCTTAGACAGCTACCTCCATGGTCTGG
ACCTCTGGGTAGTGATGGAGTACATGGAGGGTGGCAGTTTGACTGATGTG
GTTACTTTCAACATTATGAGTGAAGGGCAAATTGCTGCTGTCTGCAGAGA
GCATCCGTTTATGTCGCTTTGCGCGCCCCTGAATCATCTCTCGCCCCTTG
TCAAGGCTGCGCGGGCTAGCAGAGCCCAGGAAAAAGCTCAAAAGGGAGGC
GCCTAGCCGACTTTGGTTTCTGTGCCCAAATCAACGACTCGCATAACAAG
CGAAACACCATGGTCGGTACACCGTATTGGATGGCCCCCGAAGTCGTTAC
TCGAAAGGAGTATGGCCGCAAGGTTGATATCTGGAGTTTGGGTATCATGG
CCATCGAGATGATCGAGGGTGAGCCTCCTTATCTTACGGAATCGCCCCTG
AGGGCTCTGTACTTGATTGCCACCAACGGCACGCCTACAATCAAGGATGA
GCACAACTTGTCGCCCGTCTTCCGTGATTTCCTGCACCTTGCTCTCAAGG
TGGATCCTGAGAAGCGAGCCTCGGCACATGACTTGCTCAAGACTTTGAGT
GGTTTACAGCATCTTCACTCGAAAGGTGTCATTCACCGTGACATCAAGTC
GGACAACATTCTTCTCTCAATGGAGGGCAACATCAAACTCAATGAATCAC
GATAGTTTCTCCTCCCTAAAATTTCGACGGTCGTCTAGCAAGCTTCACAA
GGATCCTCCGAGTTTCAGCTCCCGCATCCTCAAGAGCCAGCAGAGCAACA
CGTCACTAAAGCGGCACCCTTCAGCGCCCGTCTACCCCCGTTCCTCCACC
GGTGGGAGTCGTGAGCACTCGCGGACAAGGTCCAACGCCTACGGATCTTC
TTCATCCTCCCTCGAGCAGAATAGTGGCGGCCCGTCTCCGGTGCTCGCTG
GCAACCAACCTGGATACTTCTCGAACACCTCCAACCCCTCCAAATCCCGC
CCTCCCCACTCGGGTCGATTCTCTCTCACCGAGCAAAGTTCAGATGAATT
GATCGGACCCCCGTTTGACAGCCGGGGCATGCTCAGTTCATTGCAGGAAA
ATACCACCGAGACCGTTCCCCAAAAACCCCCCAACCTCCGATCGGCCACC
AGCCCGGACTCCCGAGGATTGAGACAGTCTGCTAGCTTCACGGCTCTACA
GAACCGGATGGAGACATTCGTGCACAGGACGACTGACAATGATCGCCCGG
CGAATCCAAAACGTTTATCCGATGAGGGTGGTGGTGGTGTTGGCTCGCGG
CCATTTGGCACGGGCAGGAGCAAAAAGAGCAGTTTCTCCAGCTTCGTCAA
TAGCATGTTAGGCTCCCCCCGAGGCATCAAGATCTCCGCCCCGGAGAACC
CCGTGCACGTTACGCACGTTGGCTATGACAATCAGACCGGTCAGTTCACT
GGCCTCCCGAAGGAATGGCAGCGGCTGCTGCAAGAAAACGGTATCTCGAA
AAAGGAGCAGGAGGAACACCCGCAGACGATGGTTGATATTATGAGGTTCT
ACGAGAAGAATGCTCAAGGCGATGACGAAGTGTGGCACAAATTTGACCAC
GCTTATCCTCAGCCGCAGTCGGTTTCCAGCCCGATTTCCGGAGGACAGAC
TAATGCTGTCGGCGCCGGGTCTTACGGCCCTACCTCAGCTCGGACTTCTC
CCCCGACGAGTCCTCGCTTTCCACAGAATCATGAGGGTAGCTTCGAAAAC
CCACGTGCGCCGCCTCCTATTCCTCGTGGGCCTTCTGCGGCCACCCCAGC
GGTAGGTGGCTTTGTCCCCAATCGAGCACCACCAAAACCTCCGACCCCTG
CCAATATCACCCCGTCTCGGCCTGCACCACAGCCACCAACCGCGGGATCA
TACAGTGCCGCGCCCGCACGTCCACCCCAAGAGGCCTATTCTCCTCCGCA
GTTCGACACGCCTCCCATTCCGGAAACGGAGCCCCTGCAGTCTGAACCTA
AGCCTCAGTTGAGCAGATCAAACTCCAGAGCCAATGGTACCCCCGTACCA
TGGCAGTCACACAATGTTCCTACGCCGGCTCAGTACCAACAAAAGCAAGA
GCAAGCAATGGCCGCCGCCCAGCAGGCAATTGCGACCATCCAACTCGACC
GTAGCCGCAGTCAGCGTCAACAGCAGCCTACTCGCCAGGAACAGAAGCAA
CCTTCGGTGCAGAGCCCACCCCACCATGTCTCCCCGGTGGATGAGGCTGC
ACGCGCCGCTCCTGCCGCTCGCCCCCGGCAGCGACCTCGTCAGAGTAATG
CGATGGATATAAGGTCGCGACTACTTGCCATCTGTACGCCCGGGGACCCT
ACTAGGCTATACCATCATCTCAACAAGATCGGCCAGGGTGCGTCTGGTGG
TGTCTTCACTGCCTACGAGAACAACACCAACAAGTGTGTTGCTATCAAGC
AAATGAACCTGGACTTGCAACCCAAGAAGGATCTGATCATCAATGAGATT
TTGGTCATGAAGGACAGCAAGCACAAGAACATTGTCAACTTCTTAGACAG
CTACCTCCATGGTCTGGACCTCTGGGTAGTGATGGAGTACATGGAGGGTG
GCAGTTTGACTGATGTGGTTACTTTCAACATTATGAGTGAAGGGCAAATT
GCTGCTGTCTGCAGAGAG

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0006468	protein phosphorylation

Vocabulary: **Molecular Function**
Term	Definition
GO:0004674	protein serine/threonine kinase activity
GO:0004672	protein kinase activity
GO:0005524	ATP binding

Relationships

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


Feature Name	Unique Name	Species	Type
STE20	ATCC64974_90400	Aspergillus niger N402	gene

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


Feature Name	Unique Name	Species	Type
ATCC64974_90400-T1	ATCC64974_90400-T1-protein	Aspergillus niger N402	polypeptide

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


Feature Name	Unique Name	Species	Type
ATCC64974_90400-T1.cds	ATCC64974_90400-T1.cds	Aspergillus niger N402	CDS

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


Feature Name	Unique Name	Species	Type
ATCC64974_90400-T1.exon4	ATCC64974_90400-T1.exon4	Aspergillus niger N402	exon
ATCC64974_90400-T1.exon3	ATCC64974_90400-T1.exon3	Aspergillus niger N402	exon
ATCC64974_90400-T1.exon2	ATCC64974_90400-T1.exon2	Aspergillus niger N402	exon
ATCC64974_90400-T1.exon1	ATCC64974_90400-T1.exon1	Aspergillus niger N402	exon

Properties


Property Name	Value
Note	antiSMASH:Cluster_10000161.7
Note	SMCOG1030:serine/threonine protein kinase
DBxref	InterPro:IPR011009
DBxref	InterPro:IPR033923
DBxref	InterPro:IPR008271
DBxref	InterPro:IPR017441
DBxref	InterPro:IPR036936
DBxref	InterPro:IPR000719
DBxref	InterPro:IPR000095
DBxref	PFAM:PF07714
DBxref	PFAM:PF00069
DBxref	PFAM:PF00786
DBxref	PFAM:PF14531
Product	signal transducing kinase of the PAK

Analyses

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


Analysis Name	Date Performed
Aspergillus niger N402 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
OGUI01000016.1	supercontig	OGUI01000016.1:1151211..1153889 -

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ATCC64974_90400-T1, ATCC64974_90400-T1 (mRNA) Aspergillus niger N402

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ATCC64974_90400-T1, ATCC64974_90400-T1 (mRNA) Aspergillus niger N402