You are here

Home

M747DRAFT_285015-T1, M747DRAFT_285015-T1 (mRNA) Aspergillus niger ATCC 13496

Overview
NameM747DRAFT_285015-T1
Unique NameM747DRAFT_285015-T1
TypemRNA
OrganismAspergillus niger ATCC 13496
Sequences
The following sequences are available for this feature:

mRNA from alignment at KZ851930.1:206163..208194+

Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>M747DRAFT_285015-T1 ID=M747DRAFT_285015-T1|Name=M747DRAFT_285015-T1|organism=Aspergillus niger ATCC 13496|type=mRNA|length=2032bp|location=Sequence derived from alignment at KZ851930.1:206163..208194+ (Aspergillus niger ATCC 13496)
CGCCGGCGCTTCTCTGCTGCTGGTGTCCCACTGAGTTTTGCTTTTGTCCT
CCCCCCTCCAGGTTATGATTAGGCCGGCCTGTCACTAGTCCCTCTCGTTT
CGGCAGGTCAGTTCCTCGGTGAGGGTCGGCAAGATGCAGTCAATCTCCCC
TGTATACTCGTCCGCGACAGACAGACGCTACTCTCCACCATGGGCGGATT
TGAGTATCATCGGTATCGCAGGCAGCTCCGGCTCCGGCAAGACTTCGGTG
GCCATGGAGATTGTGAAGTCTCTGAATCTTCCCTGGGTTGTGATTCTCGT
AATGGTATATGCGACCGCTTTCATAATTGTTTAGCCTACATTAGATCCTT
CCACTTCGTGTTCTCTAACGGCGGTGTGGTATAGGACTCCTTCTACAAGA
GCTTGTCCCCGGAGGATCATGCCAGAGCCCACCGCAATCAATATGACTTT
GACTGTCCGGAGTCTCTGGACTTTGATGTCCTGGTCCAAACCTTAAGGGA
TTTGAAGCAAGGGTATGGTATATGAGCCTCTTTCTGTAATTCCTGGTGGG
GCACGTGCCATATATGGAAGCTGACAGGATCCCTTCCAACCATCTAGAAA
GAAAGCAGATATCCCCATTTACTCGTTTGCAGAACACCAGCGTCAGCCAG
AAACGAGTACCCTGTATTCCCCGCGCGTATTGATCCTGGAGGGTATTCTG
GCCTTGCATGACCCGAGGATCATGGAGCTTCTGGATGTTAAGGTAAGTTT
CGTCCGCCTTCCTAATCTGGACCATCGCTCACTCTTCTTGATAGATCTTT
GTTGAAGCAGACATGGATGTCTGCCTTGGGCGCAGAAGTCAGTTTAGCCT
ACTCTTCAACCATTTGCCACTGCTCTAACGGAGAGGAAGCTAGTCATGCG
CGATGTTCGTGAGAGAGGAAGAGACGTCGAAGGAATCGTCAAGCAGTGGT
TCACTTATGTGAAGCCATCATACAAGCAATACGTCGAACCCCAACGTGCT
GTGTCTGGTATGTGGATGTTCTCCAAAACTTGAACCGGGTCTGACAAGCT
TCAGACATTATTATTCCCCGTGGTATTGAAAACCGAACGGCCATTGGTAA
GAGTGTCTGCTCCTTCTTTCGGAAGATCTCACACTAATTTCTGCTGGAGA
AATGGTTGTGCAACATATTCAGCGCAAGCTTGACGAGAAATCAGAGAAGC
ATAATGCAGAGCTCAACCGGCTTGGTCTCATCGCCTCGGAAGAGCAGCTA
TCTTCTAACGTCTTGATGATGCCCCAAACGCCGCAATTTGTTGGCATGAA
CACTATCCTCCAGGACCCGGCAACGGAACAAGTTGACTTTGTGTTCTACT
TCGACCGACTTGCTGCTTTACTGATTGAAAAGTGAGTTATGTTGCTATCC
TTTGCGAACATCGCGTGATACTGTGGAACAATAGCTTATGCGTAACTTAC
TGCACAGGGCCTTGGATATGACCAATTACGTATCACAAGCAGTGGATACG
CCTCAATCGACTAGCTATGATGGCCTGAACCAAGCTGGTGTAGTGTCTGC
CGTCGCGATTCTGCGTGGAGGCTCTTGCCTCGAGACCGCTCTCAAGCGGA
CCATCCCTGACTGCATCACTGGTCGTGTGCTGATCCAGACCAATGAAAAG
AACGAAGAACCCGAACTTCACTACCTGAAGCTCCCTCCCAATATTGAGAA
CCACGAAAACGTCATGCTCCTCGACCCCCAGATGTCCAGTGGAGGAGCTG
CTCTAATGGCGGTTCGTGTTATGATTGATCACGGTGTTCAAGAGGATAAG
ATTATTTTCGTGACCTGCGCTGCAGGAAAGATCGGATTGAAGCGACTGAC
GACAGTGTTCCCTGGAATCAAGGTTATAGTTGGACGGATTGAGGAGGAGC
GCGAACCTCGGTGGATTGAGAAGAGATACTTTGGCTGTTGAGTCATGGTC
GCAATTTAAACCTGGACTACATAAGCTATTGTGGGAACGGGCTTATATAT
ACGCATCTCACTATACATACGTGATATAACAG
back to top

Coding sequence (CDS) from alignment at KZ851930.1:206163..208194+

>M747DRAFT_285015-T1 ID=M747DRAFT_285015-T1|Name=M747DRAFT_285015-T1|organism=Aspergillus niger ATCC 13496|type=CDS|length=10872bp|location=Sequence derived from alignment at KZ851930.1:206163..208194+ (Aspergillus niger ATCC 13496)
ATGCAGTCAATCTCCCCTGTATACTCGTCCGCGACAGACAGACGCTACTC
TCCACCATGGGCGGATTTGAGTATCATCGGTATCGCAGGCAGCTCCGGCT
CCGGCAAGACTTCGGTGGCCATGGAGATTGTGAAGTCTCTGAATCTTCCC
TGGGTTGTGATTCTCGTAATGGACTCCTTCTACAAGAGCTTGTCCCCGGA
GGATCATGCCAGAGCCCACCGCAATCAATATGACTTTGACTGTCCGGAGT
CTCTGGACTTTGATGTCCTGGTCCAAACCTTAAGGGATTTGAAGCAAGGA
AAGAAAGCAGATATCCCCATTTACTCGTTTGCAGAACACCAGCGTCAGCC
AGAAACGAGTACCCTGTATTCCCCGCGCGTATTGATCCTGGAGGGTATTC
TGGCCTTGCATGACCCGAGGATCATGGAGCTTCTGGATGTTAAGATCTTT
GTTGAAGCAGACATGGATGTCTGCCTTGGGCGCAGAATCATGCGCGATGT
TCGTGAGAGAGGAAGAGACGTCGAAGGAATCGTCAAGCAGTGGTTCACTT
ATGTGAAGCCATCATACAAGCAATACGTCGAACCCCAACGTGCTGTGTCT
GACATTATTATTCCCCGTGGTATTGAAAACCGAACGGCCATTGAAATGGT
TGTGCAACATATTCAGCGCAAGCTTGACGAGAAATCAGAGAAGCATAATG
CAGAGCTCAACCGGCTTGGTCTCATCGCCTCGGAAGAGCAGCTATCTTCT
AACGTCTTGATGATGCCCCAAACGCCGCAATTTGTTGGCATGAACACTAT
CCTCCAGGACCCGGCAACGGAACAAGTTGACTTTGTGTTCTACTTCGACC
GACTTGCTGCTTTACTGATTGAAAAGGCCTTGGATATGACCAATTACGTA
TCACAAGCAGTGGATACGCCTCAATCGACTAGCTATGATGGCCTGAACCA
AGCTGGTGTAGTGTCTGCCGTCGCGATTCTGCGTGGAGGCTCTTGCCTCG
AGACCGCTCTCAAGCGGACCATCCCTGACTGCATCACTGGTCGTGTGCTG
ATCCAGACCAATGAAAAGAACGAAGAACCCGAACTTCACTACCTGAAGCT
CCCTCCCAATATTGAGAACCACGAAAACGTCATGCTCCTCGACCCCCAGA
TGTCCAGTGGAGGAGCTGCTCTAATGGCGGTTCGTGTTATGATTGATCAC
GGTGTTCAAGAGGATAAGATTATTTTCGTGACCTGCGCTGCAGGAAAGAT
CGGATTGAAGCGACTGACGACAGTGTTCCCTGGAATCAAGGTTATAGTTG
GACGGATTGAGGAGGAGCGCGAACCTCGGTGGATTGAGAAGAGATACTTT
GGCTGTTGAATGCAGTCAATCTCCCCTGTATACTCGTCCGCGACAGACAG
ACGCTACTCTCCACCATGGGCGGATTTGAGTATCATCGGTATCGCAGGCA
GCTCCGGCTCCGGCAAGACTTCGGTGGCCATGGAGATTGTGAAGTCTCTG
AATCTTCCCTGGGTTGTGATTCTCGTAATGGACTCCTTCTACAAGAGCTT
GTCCCCGGAGGATCATGCCAGAGCCCACCGCAATCAATATGACTTTGACT
GTCCGGAGTCTCTGGACTTTGATGTCCTGGTCCAAACCTTAAGGGATTTG
AAGCAAGGAAAGAAAGCAGATATCCCCATTTACTCGTTTGCAGAACACCA
GCGTCAGCCAGAAACGAGTACCCTGTATTCCCCGCGCGTATTGATCCTGG
AGGGTATTCTGGCCTTGCATGACCCGAGGATCATGGAGCTTCTGGATGTT
AAGATCTTTGTTGAAGCAGACATGGATGTCTGCCTTGGGCGCAGAATCAT
GCGCGATGTTCGTGAGAGAGGAAGAGACGTCGAAGGAATCGTCAAGCAGT
GGTTCACTTATGTGAAGCCATCATACAAGCAATACGTCGAACCCCAACGT
GCTGTGTCTGACATTATTATTCCCCGTGGTATTGAAAACCGAACGGCCAT
TGAAATGGTTGTGCAACATATTCAGCGCAAGCTTGACGAGAAATCAGAGA
AGCATAATGCAGAGCTCAACCGGCTTGGTCTCATCGCCTCGGAAGAGCAG
CTATCTTCTAACGTCTTGATGATGCCCCAAACGCCGCAATTTGTTGGCAT
GAACACTATCCTCCAGGACCCGGCAACGGAACAAGTTGACTTTGTGTTCT
ACTTCGACCGACTTGCTGCTTTACTGATTGAAAAGGCCTTGGATATGACC
AATTACGTATCACAAGCAGTGGATACGCCTCAATCGACTAGCTATGATGG
CCTGAACCAAGCTGGTGTAGTGTCTGCCGTCGCGATTCTGCGTGGAGGCT
CTTGCCTCGAGACCGCTCTCAAGCGGACCATCCCTGACTGCATCACTGGT
CGTGTGCTGATCCAGACCAATGAAAAGAACGAAGAACCCGAACTTCACTA
CCTGAAGCTCCCTCCCAATATTGAGAACCACGAAAACGTCATGCTCCTCG
ACCCCCAGATGTCCAGTGGAGGAGCTGCTCTAATGGCGGTTCGTGTTATG
ATTGATCACGGTGTTCAAGAGGATAAGATTATTTTCGTGACCTGCGCTGC
AGGAAAGATCGGATTGAAGCGACTGACGACAGTGTTCCCTGGAATCAAGG
TTATAGTTGGACGGATTGAGGAGGAGCGCGAACCTCGGTGGATTGAGAAG
AGATACTTTGGCTGTTGAATGCAGTCAATCTCCCCTGTATACTCGTCCGC
GACAGACAGACGCTACTCTCCACCATGGGCGGATTTGAGTATCATCGGTA
TCGCAGGCAGCTCCGGCTCCGGCAAGACTTCGGTGGCCATGGAGATTGTG
AAGTCTCTGAATCTTCCCTGGGTTGTGATTCTCGTAATGGACTCCTTCTA
CAAGAGCTTGTCCCCGGAGGATCATGCCAGAGCCCACCGCAATCAATATG
ACTTTGACTGTCCGGAGTCTCTGGACTTTGATGTCCTGGTCCAAACCTTA
AGGGATTTGAAGCAAGGAAAGAAAGCAGATATCCCCATTTACTCGTTTGC
AGAACACCAGCGTCAGCCAGAAACGAGTACCCTGTATTCCCCGCGCGTAT
TGATCCTGGAGGGTATTCTGGCCTTGCATGACCCGAGGATCATGGAGCTT
CTGGATGTTAAGATCTTTGTTGAAGCAGACATGGATGTCTGCCTTGGGCG
CAGAATCATGCGCGATGTTCGTGAGAGAGGAAGAGACGTCGAAGGAATCG
TCAAGCAGTGGTTCACTTATGTGAAGCCATCATACAAGCAATACGTCGAA
CCCCAACGTGCTGTGTCTGACATTATTATTCCCCGTGGTATTGAAAACCG
AACGGCCATTGAAATGGTTGTGCAACATATTCAGCGCAAGCTTGACGAGA
AATCAGAGAAGCATAATGCAGAGCTCAACCGGCTTGGTCTCATCGCCTCG
GAAGAGCAGCTATCTTCTAACGTCTTGATGATGCCCCAAACGCCGCAATT
TGTTGGCATGAACACTATCCTCCAGGACCCGGCAACGGAACAAGTTGACT
TTGTGTTCTACTTCGACCGACTTGCTGCTTTACTGATTGAAAAGGCCTTG
GATATGACCAATTACGTATCACAAGCAGTGGATACGCCTCAATCGACTAG
CTATGATGGCCTGAACCAAGCTGGTGTAGTGTCTGCCGTCGCGATTCTGC
GTGGAGGCTCTTGCCTCGAGACCGCTCTCAAGCGGACCATCCCTGACTGC
ATCACTGGTCGTGTGCTGATCCAGACCAATGAAAAGAACGAAGAACCCGA
ACTTCACTACCTGAAGCTCCCTCCCAATATTGAGAACCACGAAAACGTCA
TGCTCCTCGACCCCCAGATGTCCAGTGGAGGAGCTGCTCTAATGGCGGTT
CGTGTTATGATTGATCACGGTGTTCAAGAGGATAAGATTATTTTCGTGAC
CTGCGCTGCAGGAAAGATCGGATTGAAGCGACTGACGACAGTGTTCCCTG
GAATCAAGGTTATAGTTGGACGGATTGAGGAGGAGCGCGAACCTCGGTGG
ATTGAGAAGAGATACTTTGGCTGTTGAATGCAGTCAATCTCCCCTGTATA
CTCGTCCGCGACAGACAGACGCTACTCTCCACCATGGGCGGATTTGAGTA
TCATCGGTATCGCAGGCAGCTCCGGCTCCGGCAAGACTTCGGTGGCCATG
GAGATTGTGAAGTCTCTGAATCTTCCCTGGGTTGTGATTCTCGTAATGGA
CTCCTTCTACAAGAGCTTGTCCCCGGAGGATCATGCCAGAGCCCACCGCA
ATCAATATGACTTTGACTGTCCGGAGTCTCTGGACTTTGATGTCCTGGTC
CAAACCTTAAGGGATTTGAAGCAAGGAAAGAAAGCAGATATCCCCATTTA
CTCGTTTGCAGAACACCAGCGTCAGCCAGAAACGAGTACCCTGTATTCCC
CGCGCGTATTGATCCTGGAGGGTATTCTGGCCTTGCATGACCCGAGGATC
ATGGAGCTTCTGGATGTTAAGATCTTTGTTGAAGCAGACATGGATGTCTG
CCTTGGGCGCAGAATCATGCGCGATGTTCGTGAGAGAGGAAGAGACGTCG
AAGGAATCGTCAAGCAGTGGTTCACTTATGTGAAGCCATCATACAAGCAA
TACGTCGAACCCCAACGTGCTGTGTCTGACATTATTATTCCCCGTGGTAT
TGAAAACCGAACGGCCATTGAAATGGTTGTGCAACATATTCAGCGCAAGC
TTGACGAGAAATCAGAGAAGCATAATGCAGAGCTCAACCGGCTTGGTCTC
ATCGCCTCGGAAGAGCAGCTATCTTCTAACGTCTTGATGATGCCCCAAAC
GCCGCAATTTGTTGGCATGAACACTATCCTCCAGGACCCGGCAACGGAAC
AAGTTGACTTTGTGTTCTACTTCGACCGACTTGCTGCTTTACTGATTGAA
AAGGCCTTGGATATGACCAATTACGTATCACAAGCAGTGGATACGCCTCA
ATCGACTAGCTATGATGGCCTGAACCAAGCTGGTGTAGTGTCTGCCGTCG
CGATTCTGCGTGGAGGCTCTTGCCTCGAGACCGCTCTCAAGCGGACCATC
CCTGACTGCATCACTGGTCGTGTGCTGATCCAGACCAATGAAAAGAACGA
AGAACCCGAACTTCACTACCTGAAGCTCCCTCCCAATATTGAGAACCACG
AAAACGTCATGCTCCTCGACCCCCAGATGTCCAGTGGAGGAGCTGCTCTA
ATGGCGGTTCGTGTTATGATTGATCACGGTGTTCAAGAGGATAAGATTAT
TTTCGTGACCTGCGCTGCAGGAAAGATCGGATTGAAGCGACTGACGACAG
TGTTCCCTGGAATCAAGGTTATAGTTGGACGGATTGAGGAGGAGCGCGAA
CCTCGGTGGATTGAGAAGAGATACTTTGGCTGTTGAATGCAGTCAATCTC
CCCTGTATACTCGTCCGCGACAGACAGACGCTACTCTCCACCATGGGCGG
ATTTGAGTATCATCGGTATCGCAGGCAGCTCCGGCTCCGGCAAGACTTCG
GTGGCCATGGAGATTGTGAAGTCTCTGAATCTTCCCTGGGTTGTGATTCT
CGTAATGGACTCCTTCTACAAGAGCTTGTCCCCGGAGGATCATGCCAGAG
CCCACCGCAATCAATATGACTTTGACTGTCCGGAGTCTCTGGACTTTGAT
GTCCTGGTCCAAACCTTAAGGGATTTGAAGCAAGGAAAGAAAGCAGATAT
CCCCATTTACTCGTTTGCAGAACACCAGCGTCAGCCAGAAACGAGTACCC
TGTATTCCCCGCGCGTATTGATCCTGGAGGGTATTCTGGCCTTGCATGAC
CCGAGGATCATGGAGCTTCTGGATGTTAAGATCTTTGTTGAAGCAGACAT
GGATGTCTGCCTTGGGCGCAGAATCATGCGCGATGTTCGTGAGAGAGGAA
GAGACGTCGAAGGAATCGTCAAGCAGTGGTTCACTTATGTGAAGCCATCA
TACAAGCAATACGTCGAACCCCAACGTGCTGTGTCTGACATTATTATTCC
CCGTGGTATTGAAAACCGAACGGCCATTGAAATGGTTGTGCAACATATTC
AGCGCAAGCTTGACGAGAAATCAGAGAAGCATAATGCAGAGCTCAACCGG
CTTGGTCTCATCGCCTCGGAAGAGCAGCTATCTTCTAACGTCTTGATGAT
GCCCCAAACGCCGCAATTTGTTGGCATGAACACTATCCTCCAGGACCCGG
CAACGGAACAAGTTGACTTTGTGTTCTACTTCGACCGACTTGCTGCTTTA
CTGATTGAAAAGGCCTTGGATATGACCAATTACGTATCACAAGCAGTGGA
TACGCCTCAATCGACTAGCTATGATGGCCTGAACCAAGCTGGTGTAGTGT
CTGCCGTCGCGATTCTGCGTGGAGGCTCTTGCCTCGAGACCGCTCTCAAG
CGGACCATCCCTGACTGCATCACTGGTCGTGTGCTGATCCAGACCAATGA
AAAGAACGAAGAACCCGAACTTCACTACCTGAAGCTCCCTCCCAATATTG
AGAACCACGAAAACGTCATGCTCCTCGACCCCCAGATGTCCAGTGGAGGA
GCTGCTCTAATGGCGGTTCGTGTTATGATTGATCACGGTGTTCAAGAGGA
TAAGATTATTTTCGTGACCTGCGCTGCAGGAAAGATCGGATTGAAGCGAC
TGACGACAGTGTTCCCTGGAATCAAGGTTATAGTTGGACGGATTGAGGAG
GAGCGCGAACCTCGGTGGATTGAGAAGAGATACTTTGGCTGTTGAATGCA
GTCAATCTCCCCTGTATACTCGTCCGCGACAGACAGACGCTACTCTCCAC
CATGGGCGGATTTGAGTATCATCGGTATCGCAGGCAGCTCCGGCTCCGGC
AAGACTTCGGTGGCCATGGAGATTGTGAAGTCTCTGAATCTTCCCTGGGT
TGTGATTCTCGTAATGGACTCCTTCTACAAGAGCTTGTCCCCGGAGGATC
ATGCCAGAGCCCACCGCAATCAATATGACTTTGACTGTCCGGAGTCTCTG
GACTTTGATGTCCTGGTCCAAACCTTAAGGGATTTGAAGCAAGGAAAGAA
AGCAGATATCCCCATTTACTCGTTTGCAGAACACCAGCGTCAGCCAGAAA
CGAGTACCCTGTATTCCCCGCGCGTATTGATCCTGGAGGGTATTCTGGCC
TTGCATGACCCGAGGATCATGGAGCTTCTGGATGTTAAGATCTTTGTTGA
AGCAGACATGGATGTCTGCCTTGGGCGCAGAATCATGCGCGATGTTCGTG
AGAGAGGAAGAGACGTCGAAGGAATCGTCAAGCAGTGGTTCACTTATGTG
AAGCCATCATACAAGCAATACGTCGAACCCCAACGTGCTGTGTCTGACAT
TATTATTCCCCGTGGTATTGAAAACCGAACGGCCATTGAAATGGTTGTGC
AACATATTCAGCGCAAGCTTGACGAGAAATCAGAGAAGCATAATGCAGAG
CTCAACCGGCTTGGTCTCATCGCCTCGGAAGAGCAGCTATCTTCTAACGT
CTTGATGATGCCCCAAACGCCGCAATTTGTTGGCATGAACACTATCCTCC
AGGACCCGGCAACGGAACAAGTTGACTTTGTGTTCTACTTCGACCGACTT
GCTGCTTTACTGATTGAAAAGGCCTTGGATATGACCAATTACGTATCACA
AGCAGTGGATACGCCTCAATCGACTAGCTATGATGGCCTGAACCAAGCTG
GTGTAGTGTCTGCCGTCGCGATTCTGCGTGGAGGCTCTTGCCTCGAGACC
GCTCTCAAGCGGACCATCCCTGACTGCATCACTGGTCGTGTGCTGATCCA
GACCAATGAAAAGAACGAAGAACCCGAACTTCACTACCTGAAGCTCCCTC
CCAATATTGAGAACCACGAAAACGTCATGCTCCTCGACCCCCAGATGTCC
AGTGGAGGAGCTGCTCTAATGGCGGTTCGTGTTATGATTGATCACGGTGT
TCAAGAGGATAAGATTATTTTCGTGACCTGCGCTGCAGGAAAGATCGGAT
TGAAGCGACTGACGACAGTGTTCCCTGGAATCAAGGTTATAGTTGGACGG
ATTGAGGAGGAGCGCGAACCTCGGTGGATTGAGAAGAGATACTTTGGCTG
TTGAATGCAGTCAATCTCCCCTGTATACTCGTCCGCGACAGACAGACGCT
ACTCTCCACCATGGGCGGATTTGAGTATCATCGGTATCGCAGGCAGCTCC
GGCTCCGGCAAGACTTCGGTGGCCATGGAGATTGTGAAGTCTCTGAATCT
TCCCTGGGTTGTGATTCTCGTAATGGACTCCTTCTACAAGAGCTTGTCCC
CGGAGGATCATGCCAGAGCCCACCGCAATCAATATGACTTTGACTGTCCG
GAGTCTCTGGACTTTGATGTCCTGGTCCAAACCTTAAGGGATTTGAAGCA
AGGAAAGAAAGCAGATATCCCCATTTACTCGTTTGCAGAACACCAGCGTC
AGCCAGAAACGAGTACCCTGTATTCCCCGCGCGTATTGATCCTGGAGGGT
ATTCTGGCCTTGCATGACCCGAGGATCATGGAGCTTCTGGATGTTAAGAT
CTTTGTTGAAGCAGACATGGATGTCTGCCTTGGGCGCAGAATCATGCGCG
ATGTTCGTGAGAGAGGAAGAGACGTCGAAGGAATCGTCAAGCAGTGGTTC
ACTTATGTGAAGCCATCATACAAGCAATACGTCGAACCCCAACGTGCTGT
GTCTGACATTATTATTCCCCGTGGTATTGAAAACCGAACGGCCATTGAAA
TGGTTGTGCAACATATTCAGCGCAAGCTTGACGAGAAATCAGAGAAGCAT
AATGCAGAGCTCAACCGGCTTGGTCTCATCGCCTCGGAAGAGCAGCTATC
TTCTAACGTCTTGATGATGCCCCAAACGCCGCAATTTGTTGGCATGAACA
CTATCCTCCAGGACCCGGCAACGGAACAAGTTGACTTTGTGTTCTACTTC
GACCGACTTGCTGCTTTACTGATTGAAAAGGCCTTGGATATGACCAATTA
CGTATCACAAGCAGTGGATACGCCTCAATCGACTAGCTATGATGGCCTGA
ACCAAGCTGGTGTAGTGTCTGCCGTCGCGATTCTGCGTGGAGGCTCTTGC
CTCGAGACCGCTCTCAAGCGGACCATCCCTGACTGCATCACTGGTCGTGT
GCTGATCCAGACCAATGAAAAGAACGAAGAACCCGAACTTCACTACCTGA
AGCTCCCTCCCAATATTGAGAACCACGAAAACGTCATGCTCCTCGACCCC
CAGATGTCCAGTGGAGGAGCTGCTCTAATGGCGGTTCGTGTTATGATTGA
TCACGGTGTTCAAGAGGATAAGATTATTTTCGTGACCTGCGCTGCAGGAA
AGATCGGATTGAAGCGACTGACGACAGTGTTCCCTGGAATCAAGGTTATA
GTTGGACGGATTGAGGAGGAGCGCGAACCTCGGTGGATTGAGAAGAGATA
CTTTGGCTGTTGAATGCAGTCAATCTCCCCTGTATACTCGTCCGCGACAG
ACAGACGCTACTCTCCACCATGGGCGGATTTGAGTATCATCGGTATCGCA
GGCAGCTCCGGCTCCGGCAAGACTTCGGTGGCCATGGAGATTGTGAAGTC
TCTGAATCTTCCCTGGGTTGTGATTCTCGTAATGGACTCCTTCTACAAGA
GCTTGTCCCCGGAGGATCATGCCAGAGCCCACCGCAATCAATATGACTTT
GACTGTCCGGAGTCTCTGGACTTTGATGTCCTGGTCCAAACCTTAAGGGA
TTTGAAGCAAGGAAAGAAAGCAGATATCCCCATTTACTCGTTTGCAGAAC
ACCAGCGTCAGCCAGAAACGAGTACCCTGTATTCCCCGCGCGTATTGATC
CTGGAGGGTATTCTGGCCTTGCATGACCCGAGGATCATGGAGCTTCTGGA
TGTTAAGATCTTTGTTGAAGCAGACATGGATGTCTGCCTTGGGCGCAGAA
TCATGCGCGATGTTCGTGAGAGAGGAAGAGACGTCGAAGGAATCGTCAAG
CAGTGGTTCACTTATGTGAAGCCATCATACAAGCAATACGTCGAACCCCA
ACGTGCTGTGTCTGACATTATTATTCCCCGTGGTATTGAAAACCGAACGG
CCATTGAAATGGTTGTGCAACATATTCAGCGCAAGCTTGACGAGAAATCA
GAGAAGCATAATGCAGAGCTCAACCGGCTTGGTCTCATCGCCTCGGAAGA
GCAGCTATCTTCTAACGTCTTGATGATGCCCCAAACGCCGCAATTTGTTG
GCATGAACACTATCCTCCAGGACCCGGCAACGGAACAAGTTGACTTTGTG
TTCTACTTCGACCGACTTGCTGCTTTACTGATTGAAAAGGCCTTGGATAT
GACCAATTACGTATCACAAGCAGTGGATACGCCTCAATCGACTAGCTATG
ATGGCCTGAACCAAGCTGGTGTAGTGTCTGCCGTCGCGATTCTGCGTGGA
GGCTCTTGCCTCGAGACCGCTCTCAAGCGGACCATCCCTGACTGCATCAC
TGGTCGTGTGCTGATCCAGACCAATGAAAAGAACGAAGAACCCGAACTTC
ACTACCTGAAGCTCCCTCCCAATATTGAGAACCACGAAAACGTCATGCTC
CTCGACCCCCAGATGTCCAGTGGAGGAGCTGCTCTAATGGCGGTTCGTGT
TATGATTGATCACGGTGTTCAAGAGGATAAGATTATTTTCGTGACCTGCG
CTGCAGGAAAGATCGGATTGAAGCGACTGACGACAGTGTTCCCTGGAATC
AAGGTTATAGTTGGACGGATTGAGGAGGAGCGCGAACCTCGGTGGATTGA
GAAGAGATACTTTGGCTGTTGA
back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0009116nucleoside metabolic process
Vocabulary: Molecular Function
TermDefinition
GO:0016301kinase activity
GO:0005524ATP binding
Relationships

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

Feature NameUnique NameSpeciesType
M747DRAFT_285015M747DRAFT_285015Aspergillus niger ATCC 13496gene


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

Feature NameUnique NameSpeciesType
M747DRAFT_285015-T1M747DRAFT_285015-T1-proteinAspergillus niger ATCC 13496polypeptide


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

Feature NameUnique NameSpeciesType
M747DRAFT_285015-T1.utr5p1M747DRAFT_285015-T1.utr5p1Aspergillus niger ATCC 13496five_prime_UTR


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

Feature NameUnique NameSpeciesType
M747DRAFT_285015-T1.exon1M747DRAFT_285015-T1.exon1Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon2M747DRAFT_285015-T1.exon2Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon3M747DRAFT_285015-T1.exon3Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon4M747DRAFT_285015-T1.exon4Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon5M747DRAFT_285015-T1.exon5Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon6M747DRAFT_285015-T1.exon6Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon7M747DRAFT_285015-T1.exon7Aspergillus niger ATCC 13496exon
M747DRAFT_285015-T1.exon8M747DRAFT_285015-T1.exon8Aspergillus niger ATCC 13496exon


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

Feature NameUnique NameSpeciesType
M747DRAFT_285015-T1.cdsM747DRAFT_285015-T1.cdsAspergillus niger ATCC 13496CDS


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

Feature NameUnique NameSpeciesType
M747DRAFT_285015-T1.utr3p1M747DRAFT_285015-T1.utr3p1Aspergillus niger ATCC 13496three_prime_UTR


Properties
Property NameValue
DBxrefInterPro:IPR029057
DBxrefInterPro:IPR027417
DBxrefInterPro:IPR000836
DBxrefInterPro:IPR000764
DBxrefInterPro:IPR006083
DBxrefInterPro:IPR003593
DBxrefPFAM:PF14681
DBxrefPFAM:PF00485
Producturidine kinase
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 13496 whole genome analysis2021-10-31
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
KZ851930.1supercontigKZ851930.1:206163..208194 +
Powered by Drupal