|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000013.1:1326407..1328300+ Legend: five_prime_UTRexonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_210525-T1 ID=ASPNIDRAFT_210525-T1|Name=ASPNIDRAFT_210525-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1894bp|location=Sequence derived from alignment at ACJE01000013.1:1326407..1328300+ (Aspergillus niger ATCC 1015)
CGAGAGCTAACCTTGACGCTATAAGCCAACAACAACAGCAATCAACGCTC
GATATAATTTCTACATCTCGCCAGGATGAAGCTCCATTTGGCTTCGTATC
TGGTATTTGCGCTTGCAACCTTTGAGGCGGTTGGAGCGTCCAGCTGGTTC
AGCAAGGCTGGTATGTCAACTTCTGTACCATTGACTGATTTGACTGCTCC
ACATCGAGACACTCGCTAACACCCCTTAGTTTACAACAAATGGCATGAGA
CTGAGTTAGAAAGATGGCTCTCCGATCATGGTATGCTGCTTCCTCCCATA
TATTCTTCCCATGAAGCATAGTTGACAACGTCTTTAGACATCCCGTACCC
ATCGCCGGCCGATCGCAAGGATCTCGAGTCCCTAGTGAAGTCCAACTGGG
AAGCTAAAGTCCAGAAGCCCCTAGCACATGTTACACAGCACTCTCATGAT
CACTGGCATGATGCCAAGGAATGGCTCTTTGACACGTAAGTCTATGCGAG
ATTGTCCTTCCCGTAGTTAGAATGTACTAATAGTCTACACAGGTGGTCCG
ACTCCCAGTTGAAGGCGTTCCTTGATCGTCATGGTGTTCCTGCCCCCCAG
CCTCGCAAGCGTGATACTCTTTTGAAAACTGCTCGCGAAAACTATGAGTC
TATTGCCACGAAGCTTGGGGAGGCTGTCGCCTATCCTGGTAACTGGGTAT
ACGAGCAATGGACCGAGTCTGATCTAAAGGAATGGCTTGATGAGCGTGGC
TGGCCGGTTCCACAGCCCACCACGCGCGACAGGCTTATTGCATCGGTTCG
TCGTAATGCTCGACTGGCCAGTTTGAACGCGAAGAGCATCGCTGCCTCTG
CCTCTGCCTCTGCGGAAGCTGCGCAGGCTACTCTGAGCGATGCCCTGTTC
AAGGCTTGGTCCGACTCCGATCTGAAGAAGTTCCTCGATGAACACGGTGT
CAAGGTACCCCAAGGATCTCGCCGCAATGAACTCGTGGCTCTGGCGAGGA
AGCACCGCGCCTCTCTGGTTAGCCAGGCTTCGGAGGCCTCTGCCACCATT
TCGTCCACCGCTACTCAGATCATTGGAGCCGCTACCTCCAAAGCTGGTAA
CGAATACGGCAAAGCCACCGATGTTGCCGAGTCCAAGGCCCAAGATACCT
TCGATACCGTAATTCAAGGCTGGTCTGACTCGCGCTTGAAGGCTTTCCTC
GATGCGCGCGGAGTTCCCGTTCCTCAAAGCAACAAGCGTGACGAGCTCCT
TGCTAAGGTGCGGCTCCACAGCCACAAGGCAGCTACTGGCTGGTCTGCTT
GGACCTTTGATACCTGGGACACCGAGCATTTGAAGTAAGACTCCTACTTG
GATAACTTTAGACAACATTCTCTAACATATATATAGGAAGTACCTGTCCT
CCATGAATGCCAAGGCAGCCCACCGCGCCGACATTACTCGCGACGAGCTT
GTCAAGCAAGCCCAGGAGAACTACGCCAAGGCATCCAAAGCCGGAGGCGC
AAACCTCGCATCGGCCACCTCATACATGGCGCAGGCCACCGATGCAGCCA
AGGGTTCCGCCTTCGACACCTGGACCCATTCCGATCTCAAGGCTTACCTT
GACTCGTACGGCATCCCGGTCTATCAGGGCTCCGGAATCAACGAACTCCG
CGCCGCTGCTCGCCGCAATGCGGAATACTTCCGCTATGGCACTTCGTCTC
CTTCGGGAACCATCTTCGCTAAGATGCAAGAGGCCGGCCAGTGGCTTCTG
GATCAGCTGAAGATCGGCGCGTCCAGTGGCCGTGCCCAGGGTCAGGAAGC
CGCTGAGAAGGCCAAGGCTAAGGGGTCTGAGGCTGCTGAGAAAGCCAAGG
CCCAGGGATCCCATGCTGCCTCGAGCATGCGGGTCGAGCTGTAA back to topCoding sequence (CDS) from alignment at ACJE01000013.1:1326407..1328300+ >ASPNIDRAFT_210525-T1 ID=ASPNIDRAFT_210525-T1|Name=ASPNIDRAFT_210525-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7920bp|location=Sequence derived from alignment at ACJE01000013.1:1326407..1328300+ (Aspergillus niger ATCC 1015)
ATGAAGCTCCATTTGGCTTCGTATCTGGTATTTGCGCTTGCAACCTTTGA
GGCGGTTGGAGCGTCCAGCTGGTTCAGCAAGGCTGTTTACAACAAATGGC
ATGAGACTGAGTTAGAAAGATGGCTCTCCGATCATGACATCCCGTACCCA
TCGCCGGCCGATCGCAAGGATCTCGAGTCCCTAGTGAAGTCCAACTGGGA
AGCTAAAGTCCAGAAGCCCCTAGCACATGTTACACAGCACTCTCATGATC
ACTGGCATGATGCCAAGGAATGGCTCTTTGACACGTGGTCCGACTCCCAG
TTGAAGGCGTTCCTTGATCGTCATGGTGTTCCTGCCCCCCAGCCTCGCAA
GCGTGATACTCTTTTGAAAACTGCTCGCGAAAACTATGAGTCTATTGCCA
CGAAGCTTGGGGAGGCTGTCGCCTATCCTGGTAACTGGGTATACGAGCAA
TGGACCGAGTCTGATCTAAAGGAATGGCTTGATGAGCGTGGCTGGCCGGT
TCCACAGCCCACCACGCGCGACAGGCTTATTGCATCGGTTCGTCGTAATG
CTCGACTGGCCAGTTTGAACGCGAAGAGCATCGCTGCCTCTGCCTCTGCC
TCTGCGGAAGCTGCGCAGGCTACTCTGAGCGATGCCCTGTTCAAGGCTTG
GTCCGACTCCGATCTGAAGAAGTTCCTCGATGAACACGGTGTCAAGGTAC
CCCAAGGATCTCGCCGCAATGAACTCGTGGCTCTGGCGAGGAAGCACCGC
GCCTCTCTGGTTAGCCAGGCTTCGGAGGCCTCTGCCACCATTTCGTCCAC
CGCTACTCAGATCATTGGAGCCGCTACCTCCAAAGCTGGTAACGAATACG
GCAAAGCCACCGATGTTGCCGAGTCCAAGGCCCAAGATACCTTCGATACC
GTAATTCAAGGCTGGTCTGACTCGCGCTTGAAGGCTTTCCTCGATGCGCG
CGGAGTTCCCGTTCCTCAAAGCAACAAGCGTGACGAGCTCCTTGCTAAGG
TGCGGCTCCACAGCCACAAGGCAGCTACTGGCTGGTCTGCTTGGACCTTT
GATACCTGGGACACCGAGCATTTGAAGAAGTACCTGTCCTCCATGAATGC
CAAGGCAGCCCACCGCGCCGACATTACTCGCGACGAGCTTGTCAAGCAAG
CCCAGGAGAACTACGCCAAGGCATCCAAAGCCGGAGGCGCAAACCTCGCA
TCGGCCACCTCATACATGGCGCAGGCCACCGATGCAGCCAAGGGTTCCGC
CTTCGACACCTGGACCCATTCCGATCTCAAGGCTTACCTTGACTCGTACG
GCATCCCGGTCTATCAGGGCTCCGGAATCAACGAACTCCGCGCCGCTGCT
CGCCGCAATGCGGAATACTTCCGCTATGGCACTTCGTCTCCTTCGGGAAC
CATCTTCGCTAAGATGCAAGAGGCCGGCCAGTGGCTTCTGGATCAGCTGA
AGATCGGCGCGTCCAGTGGCCGTGCCCAGGGTCAGGAAGCCGCTGAGAAG
GCCAAGGCTAAGGGGTCTGAGGCTGCTGAGAAAGCCAAGGCCCAGGGATC
CCATGCTGCCTCGAGCATGCGGGTCGAGCTGTAAATGAAGCTCCATTTGG
CTTCGTATCTGGTATTTGCGCTTGCAACCTTTGAGGCGGTTGGAGCGTCC
AGCTGGTTCAGCAAGGCTGTTTACAACAAATGGCATGAGACTGAGTTAGA
AAGATGGCTCTCCGATCATGACATCCCGTACCCATCGCCGGCCGATCGCA
AGGATCTCGAGTCCCTAGTGAAGTCCAACTGGGAAGCTAAAGTCCAGAAG
CCCCTAGCACATGTTACACAGCACTCTCATGATCACTGGCATGATGCCAA
GGAATGGCTCTTTGACACGTGGTCCGACTCCCAGTTGAAGGCGTTCCTTG
ATCGTCATGGTGTTCCTGCCCCCCAGCCTCGCAAGCGTGATACTCTTTTG
AAAACTGCTCGCGAAAACTATGAGTCTATTGCCACGAAGCTTGGGGAGGC
TGTCGCCTATCCTGGTAACTGGGTATACGAGCAATGGACCGAGTCTGATC
TAAAGGAATGGCTTGATGAGCGTGGCTGGCCGGTTCCACAGCCCACCACG
CGCGACAGGCTTATTGCATCGGTTCGTCGTAATGCTCGACTGGCCAGTTT
GAACGCGAAGAGCATCGCTGCCTCTGCCTCTGCCTCTGCGGAAGCTGCGC
AGGCTACTCTGAGCGATGCCCTGTTCAAGGCTTGGTCCGACTCCGATCTG
AAGAAGTTCCTCGATGAACACGGTGTCAAGGTACCCCAAGGATCTCGCCG
CAATGAACTCGTGGCTCTGGCGAGGAAGCACCGCGCCTCTCTGGTTAGCC
AGGCTTCGGAGGCCTCTGCCACCATTTCGTCCACCGCTACTCAGATCATT
GGAGCCGCTACCTCCAAAGCTGGTAACGAATACGGCAAAGCCACCGATGT
TGCCGAGTCCAAGGCCCAAGATACCTTCGATACCGTAATTCAAGGCTGGT
CTGACTCGCGCTTGAAGGCTTTCCTCGATGCGCGCGGAGTTCCCGTTCCT
CAAAGCAACAAGCGTGACGAGCTCCTTGCTAAGGTGCGGCTCCACAGCCA
CAAGGCAGCTACTGGCTGGTCTGCTTGGACCTTTGATACCTGGGACACCG
AGCATTTGAAGAAGTACCTGTCCTCCATGAATGCCAAGGCAGCCCACCGC
GCCGACATTACTCGCGACGAGCTTGTCAAGCAAGCCCAGGAGAACTACGC
CAAGGCATCCAAAGCCGGAGGCGCAAACCTCGCATCGGCCACCTCATACA
TGGCGCAGGCCACCGATGCAGCCAAGGGTTCCGCCTTCGACACCTGGACC
CATTCCGATCTCAAGGCTTACCTTGACTCGTACGGCATCCCGGTCTATCA
GGGCTCCGGAATCAACGAACTCCGCGCCGCTGCTCGCCGCAATGCGGAAT
ACTTCCGCTATGGCACTTCGTCTCCTTCGGGAACCATCTTCGCTAAGATG
CAAGAGGCCGGCCAGTGGCTTCTGGATCAGCTGAAGATCGGCGCGTCCAG
TGGCCGTGCCCAGGGTCAGGAAGCCGCTGAGAAGGCCAAGGCTAAGGGGT
CTGAGGCTGCTGAGAAAGCCAAGGCCCAGGGATCCCATGCTGCCTCGAGC
ATGCGGGTCGAGCTGTAAATGAAGCTCCATTTGGCTTCGTATCTGGTATT
TGCGCTTGCAACCTTTGAGGCGGTTGGAGCGTCCAGCTGGTTCAGCAAGG
CTGTTTACAACAAATGGCATGAGACTGAGTTAGAAAGATGGCTCTCCGAT
CATGACATCCCGTACCCATCGCCGGCCGATCGCAAGGATCTCGAGTCCCT
AGTGAAGTCCAACTGGGAAGCTAAAGTCCAGAAGCCCCTAGCACATGTTA
CACAGCACTCTCATGATCACTGGCATGATGCCAAGGAATGGCTCTTTGAC
ACGTGGTCCGACTCCCAGTTGAAGGCGTTCCTTGATCGTCATGGTGTTCC
TGCCCCCCAGCCTCGCAAGCGTGATACTCTTTTGAAAACTGCTCGCGAAA
ACTATGAGTCTATTGCCACGAAGCTTGGGGAGGCTGTCGCCTATCCTGGT
AACTGGGTATACGAGCAATGGACCGAGTCTGATCTAAAGGAATGGCTTGA
TGAGCGTGGCTGGCCGGTTCCACAGCCCACCACGCGCGACAGGCTTATTG
CATCGGTTCGTCGTAATGCTCGACTGGCCAGTTTGAACGCGAAGAGCATC
GCTGCCTCTGCCTCTGCCTCTGCGGAAGCTGCGCAGGCTACTCTGAGCGA
TGCCCTGTTCAAGGCTTGGTCCGACTCCGATCTGAAGAAGTTCCTCGATG
AACACGGTGTCAAGGTACCCCAAGGATCTCGCCGCAATGAACTCGTGGCT
CTGGCGAGGAAGCACCGCGCCTCTCTGGTTAGCCAGGCTTCGGAGGCCTC
TGCCACCATTTCGTCCACCGCTACTCAGATCATTGGAGCCGCTACCTCCA
AAGCTGGTAACGAATACGGCAAAGCCACCGATGTTGCCGAGTCCAAGGCC
CAAGATACCTTCGATACCGTAATTCAAGGCTGGTCTGACTCGCGCTTGAA
GGCTTTCCTCGATGCGCGCGGAGTTCCCGTTCCTCAAAGCAACAAGCGTG
ACGAGCTCCTTGCTAAGGTGCGGCTCCACAGCCACAAGGCAGCTACTGGC
TGGTCTGCTTGGACCTTTGATACCTGGGACACCGAGCATTTGAAGAAGTA
CCTGTCCTCCATGAATGCCAAGGCAGCCCACCGCGCCGACATTACTCGCG
ACGAGCTTGTCAAGCAAGCCCAGGAGAACTACGCCAAGGCATCCAAAGCC
GGAGGCGCAAACCTCGCATCGGCCACCTCATACATGGCGCAGGCCACCGA
TGCAGCCAAGGGTTCCGCCTTCGACACCTGGACCCATTCCGATCTCAAGG
CTTACCTTGACTCGTACGGCATCCCGGTCTATCAGGGCTCCGGAATCAAC
GAACTCCGCGCCGCTGCTCGCCGCAATGCGGAATACTTCCGCTATGGCAC
TTCGTCTCCTTCGGGAACCATCTTCGCTAAGATGCAAGAGGCCGGCCAGT
GGCTTCTGGATCAGCTGAAGATCGGCGCGTCCAGTGGCCGTGCCCAGGGT
CAGGAAGCCGCTGAGAAGGCCAAGGCTAAGGGGTCTGAGGCTGCTGAGAA
AGCCAAGGCCCAGGGATCCCATGCTGCCTCGAGCATGCGGGTCGAGCTGT
AAATGAAGCTCCATTTGGCTTCGTATCTGGTATTTGCGCTTGCAACCTTT
GAGGCGGTTGGAGCGTCCAGCTGGTTCAGCAAGGCTGTTTACAACAAATG
GCATGAGACTGAGTTAGAAAGATGGCTCTCCGATCATGACATCCCGTACC
CATCGCCGGCCGATCGCAAGGATCTCGAGTCCCTAGTGAAGTCCAACTGG
GAAGCTAAAGTCCAGAAGCCCCTAGCACATGTTACACAGCACTCTCATGA
TCACTGGCATGATGCCAAGGAATGGCTCTTTGACACGTGGTCCGACTCCC
AGTTGAAGGCGTTCCTTGATCGTCATGGTGTTCCTGCCCCCCAGCCTCGC
AAGCGTGATACTCTTTTGAAAACTGCTCGCGAAAACTATGAGTCTATTGC
CACGAAGCTTGGGGAGGCTGTCGCCTATCCTGGTAACTGGGTATACGAGC
AATGGACCGAGTCTGATCTAAAGGAATGGCTTGATGAGCGTGGCTGGCCG
GTTCCACAGCCCACCACGCGCGACAGGCTTATTGCATCGGTTCGTCGTAA
TGCTCGACTGGCCAGTTTGAACGCGAAGAGCATCGCTGCCTCTGCCTCTG
CCTCTGCGGAAGCTGCGCAGGCTACTCTGAGCGATGCCCTGTTCAAGGCT
TGGTCCGACTCCGATCTGAAGAAGTTCCTCGATGAACACGGTGTCAAGGT
ACCCCAAGGATCTCGCCGCAATGAACTCGTGGCTCTGGCGAGGAAGCACC
GCGCCTCTCTGGTTAGCCAGGCTTCGGAGGCCTCTGCCACCATTTCGTCC
ACCGCTACTCAGATCATTGGAGCCGCTACCTCCAAAGCTGGTAACGAATA
CGGCAAAGCCACCGATGTTGCCGAGTCCAAGGCCCAAGATACCTTCGATA
CCGTAATTCAAGGCTGGTCTGACTCGCGCTTGAAGGCTTTCCTCGATGCG
CGCGGAGTTCCCGTTCCTCAAAGCAACAAGCGTGACGAGCTCCTTGCTAA
GGTGCGGCTCCACAGCCACAAGGCAGCTACTGGCTGGTCTGCTTGGACCT
TTGATACCTGGGACACCGAGCATTTGAAGAAGTACCTGTCCTCCATGAAT
GCCAAGGCAGCCCACCGCGCCGACATTACTCGCGACGAGCTTGTCAAGCA
AGCCCAGGAGAACTACGCCAAGGCATCCAAAGCCGGAGGCGCAAACCTCG
CATCGGCCACCTCATACATGGCGCAGGCCACCGATGCAGCCAAGGGTTCC
GCCTTCGACACCTGGACCCATTCCGATCTCAAGGCTTACCTTGACTCGTA
CGGCATCCCGGTCTATCAGGGCTCCGGAATCAACGAACTCCGCGCCGCTG
CTCGCCGCAATGCGGAATACTTCCGCTATGGCACTTCGTCTCCTTCGGGA
ACCATCTTCGCTAAGATGCAAGAGGCCGGCCAGTGGCTTCTGGATCAGCT
GAAGATCGGCGCGTCCAGTGGCCGTGCCCAGGGTCAGGAAGCCGCTGAGA
AGGCCAAGGCTAAGGGGTCTGAGGCTGCTGAGAAAGCCAAGGCCCAGGGA
TCCCATGCTGCCTCGAGCATGCGGGTCGAGCTGTAAATGAAGCTCCATTT
GGCTTCGTATCTGGTATTTGCGCTTGCAACCTTTGAGGCGGTTGGAGCGT
CCAGCTGGTTCAGCAAGGCTGTTTACAACAAATGGCATGAGACTGAGTTA
GAAAGATGGCTCTCCGATCATGACATCCCGTACCCATCGCCGGCCGATCG
CAAGGATCTCGAGTCCCTAGTGAAGTCCAACTGGGAAGCTAAAGTCCAGA
AGCCCCTAGCACATGTTACACAGCACTCTCATGATCACTGGCATGATGCC
AAGGAATGGCTCTTTGACACGTGGTCCGACTCCCAGTTGAAGGCGTTCCT
TGATCGTCATGGTGTTCCTGCCCCCCAGCCTCGCAAGCGTGATACTCTTT
TGAAAACTGCTCGCGAAAACTATGAGTCTATTGCCACGAAGCTTGGGGAG
GCTGTCGCCTATCCTGGTAACTGGGTATACGAGCAATGGACCGAGTCTGA
TCTAAAGGAATGGCTTGATGAGCGTGGCTGGCCGGTTCCACAGCCCACCA
CGCGCGACAGGCTTATTGCATCGGTTCGTCGTAATGCTCGACTGGCCAGT
TTGAACGCGAAGAGCATCGCTGCCTCTGCCTCTGCCTCTGCGGAAGCTGC
GCAGGCTACTCTGAGCGATGCCCTGTTCAAGGCTTGGTCCGACTCCGATC
TGAAGAAGTTCCTCGATGAACACGGTGTCAAGGTACCCCAAGGATCTCGC
CGCAATGAACTCGTGGCTCTGGCGAGGAAGCACCGCGCCTCTCTGGTTAG
CCAGGCTTCGGAGGCCTCTGCCACCATTTCGTCCACCGCTACTCAGATCA
TTGGAGCCGCTACCTCCAAAGCTGGTAACGAATACGGCAAAGCCACCGAT
GTTGCCGAGTCCAAGGCCCAAGATACCTTCGATACCGTAATTCAAGGCTG
GTCTGACTCGCGCTTGAAGGCTTTCCTCGATGCGCGCGGAGTTCCCGTTC
CTCAAAGCAACAAGCGTGACGAGCTCCTTGCTAAGGTGCGGCTCCACAGC
CACAAGGCAGCTACTGGCTGGTCTGCTTGGACCTTTGATACCTGGGACAC
CGAGCATTTGAAGAAGTACCTGTCCTCCATGAATGCCAAGGCAGCCCACC
GCGCCGACATTACTCGCGACGAGCTTGTCAAGCAAGCCCAGGAGAACTAC
GCCAAGGCATCCAAAGCCGGAGGCGCAAACCTCGCATCGGCCACCTCATA
CATGGCGCAGGCCACCGATGCAGCCAAGGGTTCCGCCTTCGACACCTGGA
CCCATTCCGATCTCAAGGCTTACCTTGACTCGTACGGCATCCCGGTCTAT
CAGGGCTCCGGAATCAACGAACTCCGCGCCGCTGCTCGCCGCAATGCGGA
ATACTTCCGCTATGGCACTTCGTCTCCTTCGGGAACCATCTTCGCTAAGA
TGCAAGAGGCCGGCCAGTGGCTTCTGGATCAGCTGAAGATCGGCGCGTCC
AGTGGCCGTGCCCAGGGTCAGGAAGCCGCTGAGAAGGCCAAGGCTAAGGG
GTCTGAGGCTGCTGAGAAAGCCAAGGCCCAGGGATCCCATGCTGCCTCGA
GCATGCGGGTCGAGCTGTAA back to top
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| Note | SECRETED:SignalP(1-21) |
| DBxref | InterPro:IPR018803 |
| DBxref | PFAM:PF10281 |
| Product | hypothetical protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| ACJE01000013.1 | supercontig | ACJE01000013.1:1326407..1328300 + |
|
