|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000011.1:2106740..2109182- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_19465-T1 ID=CAN33_19465-T1|Name=CAN33_19465-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2443bp|location=Sequence derived from alignment at NKJJ01000011.1:2106740..2109182- (Aspergillus niger FDAARGOS_311)
ATGGCGAGTGAGGACCCGATAGACTTTGCCTATACTGCTATAGCCCAGGT
CGCCAACATCGCGTCTTTACTGGGTGTTGAGTCCAAGCGACCATTATGTG
GGCGTCTCGGTGCTGAGCTCTTCCTCGTCGCCAATTACATCGACACGGCT
GGCTTAGACCAGGAGAGGCGACTGCGGCTGCGAATTTCCAAGCTATTGCG
AGATGTGGAGGCTATGTGCAATGTAAGTGTAGCAGAAAACTATATCTCAC
ATTAATGGAGTCTGATAAGCTTAGTATAGTGGCCGAAGGATATACCAAGA
AATGGCTACCCTCTCCTTGAAGCGATAGGAAGGTCACTTCCTGGTGTAAC
ATCTTATGAGAAGGCTCGGAAAAGTATTCGACGAGGACTTGATCAGCTTA
CGTCGTGTCCTCGTGACGCCGAAGTGGCCATTTCTCATGTTCAAAAATTC
ATTGAGCGCAATCGCAAGTCAACTAGGCGCGATGAGAGTGGGGATCTCAG
TTCTAGAAAAAGATTCGCTCGCCCAGAGCGGTCCGATCTTGCCAACGAGC
TCGCTCATCGAGTCCTACGGGAGCAAATGTGCTGTACTTGCCAGAGCAGT
GGAGTGCGTAGGCAAATGGAGAGAGGGCACCTAGTGTGTCTCCTGCTACA
GCCACCTTCCCAATCAGTGGCCAGTAACAATCTGGCGCAATTTGATATGC
TATTCTCATCAAAGCCTTTCTGGGACCAGTCACAGCTCACTCACTGGCAA
GATGTTGAGCTGCTTGTGCCAAACGACCATACCCCTAGCAAAAAGTGCGT
CCGATTTCTGGATGAAGATGTTGGAAATGATGATCAGCATGCCAGCAAAA
CAACTGCAAAACGAAGGCACCGAACCGACGAAGGTCAATTCTGCCGTCTG
CTCGATCTAGCAACAGGCTGGCGCCTTTGCCTCTCTATTGAAGACCAGGA
GCTTTATCATCGCTTTGGACCTCACAAGCAGGTAGTCGATCATACCCCGG
GGATATCTTTGGCCAAAATACTCAGCACCTACTATCTCACAGCACGAATG
AAGCTGGTACTAGCTTATATAATAGCTTACTCAGTCTGGCAGTACTATGA
CACAGACTGGATGCGAACAAGATGGACAAGCGAGACTATCCAATTTATGA
GGGAAAGTAATAGTTCGGGAGATGGGGGCCGTGGTAAGCTTTTTACCTGG
AAACCATATGTATCAGTGCATTTCAACGATGAAGATCCGCTGTGCTACGA
ACAATATAGGATTGCTGGGATGGTCCATGTCTACCCAAGGATCAGAGCGC
TTGGTATTATGCTGGTAGAGATAGGTCTTGGGTTTCCGCTTCCCAAGCGT
GAGGAGCAGGGGAGGCCCTTGGCTGCCGAGGTGAATACCGAACTGCTCAC
AGCCATCAATTACGCAAGAGATGAAGAGCACTGGAAGAATTTTGACTATC
CCGACTATAAGAGTTCAATATGCCACTGTTTGGAGCCCGGCACATTCGAC
CAGGCACCTTGTGTTGAGAGTTTATCTGCCTCTGAACAGAAACAAAACCT
CAAGCAGCGGAGAAACATCTTATACGAGAAAGTTGTATTTCCGCTTGAAA
ACCTCCTACAAGGCACGAAATGGATCGACAATTATGAAAAGATAGGCCCG
CTCCATGTACTTTCTCAAGACGCCGCGATTCAAGAAGCCACTGTACCGGT
GAATTCTGACAAAGGCAAAGCGCCAGAGCGCAGGAGAAAGCGCACTGAAA
GTGAGAAAAATGCTAGCAATTGGCTATTAGATGTAAAGGAGTTTAACAGG
GAGCTAGCTCAAGTTGCACCAGCAGCGGGATTACACGGGTTATCCCGGCG
TGTACGCATAGCGATTTTGGACACTGGATACGACGATAACGCTCCCTTCT
TCTTCTCACCTGATGTTATGGAACGTCTTAAAGGCTGGAAAGACTGGGCT
GACGGTTCCATTCAGCCCGAAGATTGTCATGGACACGGCACTCATTTGGT
GTCTCTCGTTCTGAAGTGCGCCCCCGATGCTGATATCTTTGTAGCACGCA
TTGCCAAAGGGCCCCAACAACTCTTAAGTGCCAGCGAGAAAGTTGCAGAA
GTTAGTGATCCAATGAAGTTTTTGACTGTCACTTAGCTGACTTGCTTAGG
CGATTTCTTGGGCAAGTGAACAATGGGAAGCCGACCTCATCTCCATGTCG
TTCGGCTTTGCAGAGGAGCAGCCGTGTATCAGTGACGCAATTCGCGAAGC
CCTATACAAACGCAAGGATTCCATTCTTTTCTTTGCAGCGGCGTCAAATT
ACGGGGCCAATGACCGAGAAATGTTCCCTGCCAGACACGAGTCCGTCATG
TCTATTCGGGCGACGAATTCAAACGGCCTGTTTGCAGACTTTAACCCCCT
AAGCACGAAGATGAACCGGTGGTTTTCGGCACCCTTGGCATAG back to topCoding sequence (CDS) from alignment at NKJJ01000011.1:2106740..2109182- >CAN33_19465-T1 ID=CAN33_19465-T1|Name=CAN33_19465-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7011bp|location=Sequence derived from alignment at NKJJ01000011.1:2106740..2109182- (Aspergillus niger FDAARGOS_311)
GCGATTTCTTGGGCAAGTGAACAATGGGAAGCCGACCTCATCTCCATGTC
GTTCGGCTTTGCAGAGGAGCAGCCGTGTATCAGTGACGCAATTCGCGAAG
CCCTATACAAACGCAAGGATTCCATTCTTTTCTTTGCAGCGGCGTCAAAT
TACGGGGCCAATGACCGAGAAATGTTCCCTGCCAGACACGAGTCCGTCAT
GTCTATTCGGGCGACGAATTCAAACGGCCTGTTTGCAGACTTTAACCCCC
TAAGCACGAAGATGAACCGGTGGTTTTCGGCACCCTTGGCATAGTGGCCG
AAGGATATACCAAGAAATGGCTACCCTCTCCTTGAAGCGATAGGAAGGTC
ACTTCCTGGTGTAACATCTTATGAGAAGGCTCGGAAAAGTATTCGACGAG
GACTTGATCAGCTTACGTCGTGTCCTCGTGACGCCGAAGTGGCCATTTCT
CATGTTCAAAAATTCATTGAGCGCAATCGCAAGTCAACTAGGCGCGATGA
GAGTGGGGATCTCAGTTCTAGAAAAAGATTCGCTCGCCCAGAGCGGTCCG
ATCTTGCCAACGAGCTCGCTCATCGAGTCCTACGGGAGCAAATGTGCTGT
ACTTGCCAGAGCAGTGGAGTGCGTAGGCAAATGGAGAGAGGGCACCTAGT
GTGTCTCCTGCTACAGCCACCTTCCCAATCAGTGGCCAGTAACAATCTGG
CGCAATTTGATATGCTATTCTCATCAAAGCCTTTCTGGGACCAGTCACAG
CTCACTCACTGGCAAGATGTTGAGCTGCTTGTGCCAAACGACCATACCCC
TAGCAAAAAGTGCGTCCGATTTCTGGATGAAGATGTTGGAAATGATGATC
AGCATGCCAGCAAAACAACTGCAAAACGAAGGCACCGAACCGACGAAGGT
CAATTCTGCCGTCTGCTCGATCTAGCAACAGGCTGGCGCCTTTGCCTCTC
TATTGAAGACCAGGAGCTTTATCATCGCTTTGGACCTCACAAGCAGGTAG
TCGATCATACCCCGGGGATATCTTTGGCCAAAATACTCAGCACCTACTAT
CTCACAGCACGAATGAAGCTGGTACTAGCTTATATAATAGCTTACTCAGT
CTGGCAGTACTATGACACAGACTGGATGCGAACAAGATGGACAAGCGAGA
CTATCCAATTTATGAGGGAAAGTAATAGTTCGGGAGATGGGGGCCGTGGT
AAGCTTTTTACCTGGAAACCATATGTATCAGTGCATTTCAACGATGAAGA
TCCGCTGTGCTACGAACAATATAGGATTGCTGGGATGGTCCATGTCTACC
CAAGGATCAGAGCGCTTGGTATTATGCTGGTAGAGATAGGTCTTGGGTTT
CCGCTTCCCAAGCGTGAGGAGCAGGGGAGGCCCTTGGCTGCCGAGGTGAA
TACCGAACTGCTCACAGCCATCAATTACGCAAGAGATGAAGAGCACTGGA
AGAATTTTGACTATCCCGACTATAAGAGTTCAATATGCCACTGTTTGGAG
CCCGGCACATTCGACCAGGCACCTTGTGTTGAGAGTTTATCTGCCTCTGA
ACAGAAACAAAACCTCAAGCAGCGGAGAAACATCTTATACGAGAAAGTTG
TATTTCCGCTTGAAAACCTCCTACAAGGCACGAAATGGATCGACAATTAT
GAAAAGATAGGCCCGCTCCATGTACTTTCTCAAGACGCCGCGATTCAAGA
AGCCACTGTACCGGTGAATTCTGACAAAGGCAAAGCGCCAGAGCGCAGGA
GAAAGCGCACTGAAAGTGAGAAAAATGCTAGCAATTGGCTATTAGATGTA
AAGGAGTTTAACAGGGAGCTAGCTCAAGTTGCACCAGCAGCGGGATTACA
CGGGTTATCCCGGCGTGTACGCATAGCGATTTTGGACACTGGATACGACG
ATAACGCTCCCTTCTTCTTCTCACCTGATGTTATGGAACGTCTTAAAGGC
TGGAAAGACTGGGCTGACGGTTCCATTCAGCCCGAAGATTGTCATGGACA
CGGCACTCATTTGGTGTCTCTCGTTCTGAAGTGCGCCCCCGATGCTGATA
TCTTTGTAGCACGCATTGCCAAAGGGCCCCAACAACTCTTAAGTGCCAGC
GAGAAAGTTGCAGAAATGGCGAGTGAGGACCCGATAGACTTTGCCTATAC
TGCTATAGCCCAGGTCGCCAACATCGCGTCTTTACTGGGTGTTGAGTCCA
AGCGACCATTATGTGGGCGTCTCGGTGCTGAGCTCTTCCTCGTCGCCAAT
TACATCGACACGGCTGGCTTAGACCAGGAGAGGCGACTGCGGCTGCGAAT
TTCCAAGCTATTGCGAGATGTGGAGGCTATGTGCAATGCGATTTCTTGGG
CAAGTGAACAATGGGAAGCCGACCTCATCTCCATGTCGTTCGGCTTTGCA
GAGGAGCAGCCGTGTATCAGTGACGCAATTCGCGAAGCCCTATACAAACG
CAAGGATTCCATTCTTTTCTTTGCAGCGGCGTCAAATTACGGGGCCAATG
ACCGAGAAATGTTCCCTGCCAGACACGAGTCCGTCATGTCTATTCGGGCG
ACGAATTCAAACGGCCTGTTTGCAGACTTTAACCCCCTAAGCACGAAGAT
GAACCGGTGGTTTTCGGCACCCTTGGCATAGTGGCCGAAGGATATACCAA
GAAATGGCTACCCTCTCCTTGAAGCGATAGGAAGGTCACTTCCTGGTGTA
ACATCTTATGAGAAGGCTCGGAAAAGTATTCGACGAGGACTTGATCAGCT
TACGTCGTGTCCTCGTGACGCCGAAGTGGCCATTTCTCATGTTCAAAAAT
TCATTGAGCGCAATCGCAAGTCAACTAGGCGCGATGAGAGTGGGGATCTC
AGTTCTAGAAAAAGATTCGCTCGCCCAGAGCGGTCCGATCTTGCCAACGA
GCTCGCTCATCGAGTCCTACGGGAGCAAATGTGCTGTACTTGCCAGAGCA
GTGGAGTGCGTAGGCAAATGGAGAGAGGGCACCTAGTGTGTCTCCTGCTA
CAGCCACCTTCCCAATCAGTGGCCAGTAACAATCTGGCGCAATTTGATAT
GCTATTCTCATCAAAGCCTTTCTGGGACCAGTCACAGCTCACTCACTGGC
AAGATGTTGAGCTGCTTGTGCCAAACGACCATACCCCTAGCAAAAAGTGC
GTCCGATTTCTGGATGAAGATGTTGGAAATGATGATCAGCATGCCAGCAA
AACAACTGCAAAACGAAGGCACCGAACCGACGAAGGTCAATTCTGCCGTC
TGCTCGATCTAGCAACAGGCTGGCGCCTTTGCCTCTCTATTGAAGACCAG
GAGCTTTATCATCGCTTTGGACCTCACAAGCAGGTAGTCGATCATACCCC
GGGGATATCTTTGGCCAAAATACTCAGCACCTACTATCTCACAGCACGAA
TGAAGCTGGTACTAGCTTATATAATAGCTTACTCAGTCTGGCAGTACTAT
GACACAGACTGGATGCGAACAAGATGGACAAGCGAGACTATCCAATTTAT
GAGGGAAAGTAATAGTTCGGGAGATGGGGGCCGTGGTAAGCTTTTTACCT
GGAAACCATATGTATCAGTGCATTTCAACGATGAAGATCCGCTGTGCTAC
GAACAATATAGGATTGCTGGGATGGTCCATGTCTACCCAAGGATCAGAGC
GCTTGGTATTATGCTGGTAGAGATAGGTCTTGGGTTTCCGCTTCCCAAGC
GTGAGGAGCAGGGGAGGCCCTTGGCTGCCGAGGTGAATACCGAACTGCTC
ACAGCCATCAATTACGCAAGAGATGAAGAGCACTGGAAGAATTTTGACTA
TCCCGACTATAAGAGTTCAATATGCCACTGTTTGGAGCCCGGCACATTCG
ACCAGGCACCTTGTGTTGAGAGTTTATCTGCCTCTGAACAGAAACAAAAC
CTCAAGCAGCGGAGAAACATCTTATACGAGAAAGTTGTATTTCCGCTTGA
AAACCTCCTACAAGGCACGAAATGGATCGACAATTATGAAAAGATAGGCC
CGCTCCATGTACTTTCTCAAGACGCCGCGATTCAAGAAGCCACTGTACCG
GTGAATTCTGACAAAGGCAAAGCGCCAGAGCGCAGGAGAAAGCGCACTGA
AAGTGAGAAAAATGCTAGCAATTGGCTATTAGATGTAAAGGAGTTTAACA
GGGAGCTAGCTCAAGTTGCACCAGCAGCGGGATTACACGGGTTATCCCGG
CGTGTACGCATAGCGATTTTGGACACTGGATACGACGATAACGCTCCCTT
CTTCTTCTCACCTGATGTTATGGAACGTCTTAAAGGCTGGAAAGACTGGG
CTGACGGTTCCATTCAGCCCGAAGATTGTCATGGACACGGCACTCATTTG
GTGTCTCTCGTTCTGAAGTGCGCCCCCGATGCTGATATCTTTGTAGCACG
CATTGCCAAAGGGCCCCAACAACTCTTAAGTGCCAGCGAGAAAGTTGCAG
AAATGGCGAGTGAGGACCCGATAGACTTTGCCTATACTGCTATAGCCCAG
GTCGCCAACATCGCGTCTTTACTGGGTGTTGAGTCCAAGCGACCATTATG
TGGGCGTCTCGGTGCTGAGCTCTTCCTCGTCGCCAATTACATCGACACGG
CTGGCTTAGACCAGGAGAGGCGACTGCGGCTGCGAATTTCCAAGCTATTG
CGAGATGTGGAGGCTATGTGCAATGCGATTTCTTGGGCAAGTGAACAATG
GGAAGCCGACCTCATCTCCATGTCGTTCGGCTTTGCAGAGGAGCAGCCGT
GTATCAGTGACGCAATTCGCGAAGCCCTATACAAACGCAAGGATTCCATT
CTTTTCTTTGCAGCGGCGTCAAATTACGGGGCCAATGACCGAGAAATGTT
CCCTGCCAGACACGAGTCCGTCATGTCTATTCGGGCGACGAATTCAAACG
GCCTGTTTGCAGACTTTAACCCCCTAAGCACGAAGATGAACCGGTGGTTT
TCGGCACCCTTGGCATAGTGGCCGAAGGATATACCAAGAAATGGCTACCC
TCTCCTTGAAGCGATAGGAAGGTCACTTCCTGGTGTAACATCTTATGAGA
AGGCTCGGAAAAGTATTCGACGAGGACTTGATCAGCTTACGTCGTGTCCT
CGTGACGCCGAAGTGGCCATTTCTCATGTTCAAAAATTCATTGAGCGCAA
TCGCAAGTCAACTAGGCGCGATGAGAGTGGGGATCTCAGTTCTAGAAAAA
GATTCGCTCGCCCAGAGCGGTCCGATCTTGCCAACGAGCTCGCTCATCGA
GTCCTACGGGAGCAAATGTGCTGTACTTGCCAGAGCAGTGGAGTGCGTAG
GCAAATGGAGAGAGGGCACCTAGTGTGTCTCCTGCTACAGCCACCTTCCC
AATCAGTGGCCAGTAACAATCTGGCGCAATTTGATATGCTATTCTCATCA
AAGCCTTTCTGGGACCAGTCACAGCTCACTCACTGGCAAGATGTTGAGCT
GCTTGTGCCAAACGACCATACCCCTAGCAAAAAGTGCGTCCGATTTCTGG
ATGAAGATGTTGGAAATGATGATCAGCATGCCAGCAAAACAACTGCAAAA
CGAAGGCACCGAACCGACGAAGGTCAATTCTGCCGTCTGCTCGATCTAGC
AACAGGCTGGCGCCTTTGCCTCTCTATTGAAGACCAGGAGCTTTATCATC
GCTTTGGACCTCACAAGCAGGTAGTCGATCATACCCCGGGGATATCTTTG
GCCAAAATACTCAGCACCTACTATCTCACAGCACGAATGAAGCTGGTACT
AGCTTATATAATAGCTTACTCAGTCTGGCAGTACTATGACACAGACTGGA
TGCGAACAAGATGGACAAGCGAGACTATCCAATTTATGAGGGAAAGTAAT
AGTTCGGGAGATGGGGGCCGTGGTAAGCTTTTTACCTGGAAACCATATGT
ATCAGTGCATTTCAACGATGAAGATCCGCTGTGCTACGAACAATATAGGA
TTGCTGGGATGGTCCATGTCTACCCAAGGATCAGAGCGCTTGGTATTATG
CTGGTAGAGATAGGTCTTGGGTTTCCGCTTCCCAAGCGTGAGGAGCAGGG
GAGGCCCTTGGCTGCCGAGGTGAATACCGAACTGCTCACAGCCATCAATT
ACGCAAGAGATGAAGAGCACTGGAAGAATTTTGACTATCCCGACTATAAG
AGTTCAATATGCCACTGTTTGGAGCCCGGCACATTCGACCAGGCACCTTG
TGTTGAGAGTTTATCTGCCTCTGAACAGAAACAAAACCTCAAGCAGCGGA
GAAACATCTTATACGAGAAAGTTGTATTTCCGCTTGAAAACCTCCTACAA
GGCACGAAATGGATCGACAATTATGAAAAGATAGGCCCGCTCCATGTACT
TTCTCAAGACGCCGCGATTCAAGAAGCCACTGTACCGGTGAATTCTGACA
AAGGCAAAGCGCCAGAGCGCAGGAGAAAGCGCACTGAAAGTGAGAAAAAT
GCTAGCAATTGGCTATTAGATGTAAAGGAGTTTAACAGGGAGCTAGCTCA
AGTTGCACCAGCAGCGGGATTACACGGGTTATCCCGGCGTGTACGCATAG
CGATTTTGGACACTGGATACGACGATAACGCTCCCTTCTTCTTCTCACCT
GATGTTATGGAACGTCTTAAAGGCTGGAAAGACTGGGCTGACGGTTCCAT
TCAGCCCGAAGATTGTCATGGACACGGCACTCATTTGGTGTCTCTCGTTC
TGAAGTGCGCCCCCGATGCTGATATCTTTGTAGCACGCATTGCCAAAGGG
CCCCAACAACTCTTAAGTGCCAGCGAGAAAGTTGCAGAAATGGCGAGTGA
GGACCCGATAGACTTTGCCTATACTGCTATAGCCCAGGTCGCCAACATCG
CGTCTTTACTGGGTGTTGAGTCCAAGCGACCATTATGTGGGCGTCTCGGT
GCTGAGCTCTTCCTCGTCGCCAATTACATCGACACGGCTGGCTTAGACCA
GGAGAGGCGACTGCGGCTGCGAATTTCCAAGCTATTGCGAGATGTGGAGG
CTATGTGCAAT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006508 | proteolysis |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004252 | serine-type endopeptidase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR000209 |
| DBxref | InterPro:IPR036852 |
| DBxref | PFAM:PF00082 |
| Product | Subtilase family 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 |
|---|
| NKJJ01000011.1 | supercontig | NKJJ01000011.1:2106740..2109182 - |
|
