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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:2113444..2115706+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_45600-T1 ID=CAN33_45600-T1|Name=CAN33_45600-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2263bp|location=Sequence derived from alignment at NKJJ01000022.1:2113444..2115706+ (Aspergillus niger FDAARGOS_311)
ATGTGGCTCTCCACCCTCCTCATTACCACTATACTATCAACCACTACATC
CTCCTATCCCACAACAAATCACACCTACACCAACCCCATCCTCCCCGGCT
GGCACTCCGACCCAACATGCGCGCACGTCCCGGAGCAAAACACCACATTC
TGTGCCACCTCCACCTTCATCGCCTACCCCGGACTCCCCATCTACGCCAG
TAAAGACCTCCAGAACTGGAAATTGGCCAGCAATGCCTTCAACCGGCCCT
CTCAAATCCCCGATCTCCGCAACACCACGGACCAACAAGGCGGCATCTAC
GCCCCAACTCTGCGCTACCACAACGGCACCTTCTACCTGATCGTCACCTA
CCTCGGCTCAGACATTCAAGGCCTTCTCTTCACCACCACAAACCCCTACA
ACAACTCCGCCTGGACCGATCCCCTCTTCTTCACCGTCACCGGCATCGAC
CCAGATATCTTCTGGGACGACGACGGCACCGTCTACGTCACATCCGCAAA
CAGCGGCTCTTCCAGCGGCAACCACATCCAACAGTACTCCCTCGACCTCA
CTACCGGGGCTACCGGCCCAGTCCACAACCTCTGGAACGGCACCGGGGGT
TCCAGCCCCGAGGGACCGCACATGTTCCGCAAAGACGGATACTACTACCT
CATGATCGCCGAGGGAGGGACCGAACTCGGCCATTCGGAGACTATTGCGC
GGTCTAGGTTCCGGACCGGGCCGTGGGAAGCTTATTCGCGGAATCCGCTG
CTGACGAATCGCAATACAACGCAGTATTTTCAGACGGTTGGGCATGCAGA
TCTGTTTCAGGATAGCATGGGTGATTGGTGGTCTGTGGCGCTGAGTACAC
GGTCTGGGCCGGCGTGGAGGAACTATCCCATGGGGAGAGAGACGGTTCTT
GCGCCGGCGAGATGGGAGGTGGGCGAGTGGCCGGTTGTGCAGCCGGTTAG
GGGGTGATGCATGGGCCTTTGATGGAGGAGGATAGGGGATTACAGTTGGT
GAAGGAGGCTGGATTGACCAGCCTGATAGGGTGGATTTTGTTCCCGGGTC
GGCGATACCGGCGCATTTTGTGTATTGGAGGTATCCCAGGACAGAGGATT
TTGTGGTTTCTCCGGAGGGATATCCTAATACTTTGAGGTTGACTCCGTCG
TTTTATAATCTGACGGGGACACCGGAGTTCAAGCCGGATGACGGGTTGAC
GCTGGTTATGCGTCGGCAGACGGATACGCTGTTCACATATGGTGTGGATG
TCTCGTTTGATCCCGAGGTGGATGATGAGGAAGCAGGGGTTACCGTCTTT
TTGACGCAGGAGCAGCATATTGACCTGGGAATTGTGTTGCTACAGAATAA
CCTGTCATTCAGGTTCCGCGTTGAAGGTCACGGTAACTACGACGGTCCTC
TTCCTGGACGGACTGTTCCTGTTCCAAAGGAGTGGCAGACAGGTCCTATC
AGGTTCGAGATTCAGGCTGTCAACGACACAACTTATGCCTTTGCGGCTGC
GCCATCGAGAAGCCCGAGTCAGAGGAAGATCATTGGGTACGCAGATACGA
GGATTGTAAGTGGTGGCACTGGTCGGTTTACTGGTAAGTGGACCCTTTAT
ATATCAGTGTGTTCCAGTGTTGACTATGGTAGGCTCGCTTGTTGGTGCTT
ATGCTACGAAGAATGGAGGCGCTGGGTATACACCGGCTTATATTAGTAGA
TGGAGATATCAAGGACAAGGCCAGGAAATTGATTTTGGTCGTATAGTTCC
GAGCTGGACCAGGTCTGTTGCATCGGTGGAAGACTAGGATACTTGCACAA
AATGAAAAGCCTTGAATAAATTGCCATGTTTATGTGCTCGCAGCCCCTCA
TAGATACATTGATTATGTTGGACCACAAGAATGTATCTATAAAACCATTT
GTCCGTAGTCTGATTATTCTGTCTGGCTGGCACCTGCCCAATGCGCTTTG
CAAAATCTGTGTGGTCTTCTGAACTTTCACACACCTTCCACCTCATTGCT
GTAGAATGTCCAAGATGTGTGAAGAGTGACATGACATGTCGATGACTACT
GATAAAGGTAGTCCCATAGCAAACGGGGGTTATGCATACCTGCTTCGACA
CCCCGGCATGTTCACCCCCAGCACTGCATCCTGCGCTGGTATGTCCGCGG
GTGTGCGCTGGTTTATCCCCACATTTGCATTCCCTTGGAAGTCTCTGACA
GTTGACTGGATATTGACAGTCTTGTCCTACATTGATGAGGACATGGTGCG
GCATGGGCTATAA back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:2113444..2115706+ >CAN33_45600-T1 ID=CAN33_45600-T1|Name=CAN33_45600-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7008bp|location=Sequence derived from alignment at NKJJ01000022.1:2113444..2115706+ (Aspergillus niger FDAARGOS_311)
ATGTGGCTCTCCACCCTCCTCATTACCACTATACTATCAACCACTACATC
CTCCTATCCCACAACAAATCACACCTACACCAACCCCATCCTCCCCGGCT
GGCACTCCGACCCAACATGCGCGCACGTCCCGGAGCAAAACACCACATTC
TGTGCCACCTCCACCTTCATCGCCTACCCCGGACTCCCCATCTACGCCAG
TAAAGACCTCCAGAACTGGAAATTGGCCAGCAATGCCTTCAACCGGCCCT
CTCAAATCCCCGATCTCCGCAACACCACGGACCAACAAGGCGGCATCTAC
GCCCCAACTCTGCGCTACCACAACGGCACCTTCTACCTGATCGTCACCTA
CCTCGGCTCAGACATTCAAGGCCTTCTCTTCACCACCACAAACCCCTACA
ACAACTCCGCCTGGACCGATCCCCTCTTCTTCACCGTCACCGGCATCGAC
CCAGATATCTTCTGGGACGACGACGGCACCGTCTACGTCACATCCGCAAA
CAGCGGCTCTTCCAGCGGCAACCACATCCAACAGTACTCCCTCGACCTCA
CTACCGGGGCTACCGGCCCAGTCCACAACCTCTGGAACGGCACCGGGGGT
TCCAGCCCCGAGGGACCGCACATGTTCCGCAAAGACGGATACTACTACCT
CATGATCGCCGAGGGAGGGACCGAACTCGGCCATTCGGAGACTATTGCGC
GGTCTAGGTTCCGGACCGGGCCGTGGGAAGCTTATTCGCGGAATCCGCTG
CTGACGAATCGCAATACAACGCAGTATTTTCAGACGGTTGGGCATGCAGA
TCTGTTTCAGGATAGCATGGGTGATTGGTGGTCTGTGGCGCTGAGTACAC
GGTCTGGGCCGGCGTGGAGGAACTATCCCATGGGGAGAGAGACGGTTCTT
GCGCCGGCGAGATGGGAGGTGGGCGAGTGGCCGGTTGTGCAGCCGGTTAG
GGGGGTGGATTTTGTTCCCGGGTCGGCGATACCGGCGCATTTTGTGTATT
GGAGGTATCCCAGGACAGAGGATTTTGTGGTTTCTCCGGAGGGATATCCT
AATACTTTGAGGTTGACTCCGTCGTTTTATAATCTGACGGGGACACCGGA
GTTCAAGCCGGATGACGGGTTGACGCTGGTTATGCGTCGGCAGACGGATA
CGCTGTTCACATATGGTGTGGATGTCTCGTTTGATCCCGAGGTGGATGAT
GAGGAAGCAGGGGTTACCGTCTTTTTGACGCAGGAGCAGCATATTGACCT
GGGAATTGTGTTGCTACAGAATAACCTGTCATTCAGGTTCCGCGTTGAAG
GTCACGGTAACTACGACGGTCCTCTTCCTGGACGGACTGTTCCTGTTCCA
AAGGAGTGGCAGACAGGTCCTATCAGGTTCGAGATTCAGGCTGTCAACGA
CACAACTTATGCCTTTGCGGCTGCGCCATCGAGAAGCCCGAGTCAGAGGA
AGATCATTGGGTACGCAGATACGAGGATTGTAAGTGGTGGCACTGGTCGG
TTTACTGGCTCGCTTGTTGGTGCTTATGCTACGAAGAATGGAGGCGCTGG
TCCCATAGCAAACGGGGGTTATGCATACCTGCTTCGACACCCCGGCATGT
TCACCCCCAGCACTGCATCCTGCGCTGGTATGTCCGCGGGTGTGCGCTGG
TTTATCCCCACATTTGCATTCCCTTGGAAGTCTCTGACAGTTGACTGGAT
ATTGACAGTCTTGTCCTACATTGATGAGGACATGGTGCGGCATGGGCTAT
AAATGTGGCTCTCCACCCTCCTCATTACCACTATACTATCAACCACTACA
TCCTCCTATCCCACAACAAATCACACCTACACCAACCCCATCCTCCCCGG
CTGGCACTCCGACCCAACATGCGCGCACGTCCCGGAGCAAAACACCACAT
TCTGTGCCACCTCCACCTTCATCGCCTACCCCGGACTCCCCATCTACGCC
AGTAAAGACCTCCAGAACTGGAAATTGGCCAGCAATGCCTTCAACCGGCC
CTCTCAAATCCCCGATCTCCGCAACACCACGGACCAACAAGGCGGCATCT
ACGCCCCAACTCTGCGCTACCACAACGGCACCTTCTACCTGATCGTCACC
TACCTCGGCTCAGACATTCAAGGCCTTCTCTTCACCACCACAAACCCCTA
CAACAACTCCGCCTGGACCGATCCCCTCTTCTTCACCGTCACCGGCATCG
ACCCAGATATCTTCTGGGACGACGACGGCACCGTCTACGTCACATCCGCA
AACAGCGGCTCTTCCAGCGGCAACCACATCCAACAGTACTCCCTCGACCT
CACTACCGGGGCTACCGGCCCAGTCCACAACCTCTGGAACGGCACCGGGG
GTTCCAGCCCCGAGGGACCGCACATGTTCCGCAAAGACGGATACTACTAC
CTCATGATCGCCGAGGGAGGGACCGAACTCGGCCATTCGGAGACTATTGC
GCGGTCTAGGTTCCGGACCGGGCCGTGGGAAGCTTATTCGCGGAATCCGC
TGCTGACGAATCGCAATACAACGCAGTATTTTCAGACGGTTGGGCATGCA
GATCTGTTTCAGGATAGCATGGGTGATTGGTGGTCTGTGGCGCTGAGTAC
ACGGTCTGGGCCGGCGTGGAGGAACTATCCCATGGGGAGAGAGACGGTTC
TTGCGCCGGCGAGATGGGAGGTGGGCGAGTGGCCGGTTGTGCAGCCGGTT
AGGGGGGTGGATTTTGTTCCCGGGTCGGCGATACCGGCGCATTTTGTGTA
TTGGAGGTATCCCAGGACAGAGGATTTTGTGGTTTCTCCGGAGGGATATC
CTAATACTTTGAGGTTGACTCCGTCGTTTTATAATCTGACGGGGACACCG
GAGTTCAAGCCGGATGACGGGTTGACGCTGGTTATGCGTCGGCAGACGGA
TACGCTGTTCACATATGGTGTGGATGTCTCGTTTGATCCCGAGGTGGATG
ATGAGGAAGCAGGGGTTACCGTCTTTTTGACGCAGGAGCAGCATATTGAC
CTGGGAATTGTGTTGCTACAGAATAACCTGTCATTCAGGTTCCGCGTTGA
AGGTCACGGTAACTACGACGGTCCTCTTCCTGGACGGACTGTTCCTGTTC
CAAAGGAGTGGCAGACAGGTCCTATCAGGTTCGAGATTCAGGCTGTCAAC
GACACAACTTATGCCTTTGCGGCTGCGCCATCGAGAAGCCCGAGTCAGAG
GAAGATCATTGGGTACGCAGATACGAGGATTGTAAGTGGTGGCACTGGTC
GGTTTACTGGCTCGCTTGTTGGTGCTTATGCTACGAAGAATGGAGGCGCT
GGTCCCATAGCAAACGGGGGTTATGCATACCTGCTTCGACACCCCGGCAT
GTTCACCCCCAGCACTGCATCCTGCGCTGGTATGTCCGCGGGTGTGCGCT
GGTTTATCCCCACATTTGCATTCCCTTGGAAGTCTCTGACAGTTGACTGG
ATATTGACAGTCTTGTCCTACATTGATGAGGACATGGTGCGGCATGGGCT
ATAAATGTGGCTCTCCACCCTCCTCATTACCACTATACTATCAACCACTA
CATCCTCCTATCCCACAACAAATCACACCTACACCAACCCCATCCTCCCC
GGCTGGCACTCCGACCCAACATGCGCGCACGTCCCGGAGCAAAACACCAC
ATTCTGTGCCACCTCCACCTTCATCGCCTACCCCGGACTCCCCATCTACG
CCAGTAAAGACCTCCAGAACTGGAAATTGGCCAGCAATGCCTTCAACCGG
CCCTCTCAAATCCCCGATCTCCGCAACACCACGGACCAACAAGGCGGCAT
CTACGCCCCAACTCTGCGCTACCACAACGGCACCTTCTACCTGATCGTCA
CCTACCTCGGCTCAGACATTCAAGGCCTTCTCTTCACCACCACAAACCCC
TACAACAACTCCGCCTGGACCGATCCCCTCTTCTTCACCGTCACCGGCAT
CGACCCAGATATCTTCTGGGACGACGACGGCACCGTCTACGTCACATCCG
CAAACAGCGGCTCTTCCAGCGGCAACCACATCCAACAGTACTCCCTCGAC
CTCACTACCGGGGCTACCGGCCCAGTCCACAACCTCTGGAACGGCACCGG
GGGTTCCAGCCCCGAGGGACCGCACATGTTCCGCAAAGACGGATACTACT
ACCTCATGATCGCCGAGGGAGGGACCGAACTCGGCCATTCGGAGACTATT
GCGCGGTCTAGGTTCCGGACCGGGCCGTGGGAAGCTTATTCGCGGAATCC
GCTGCTGACGAATCGCAATACAACGCAGTATTTTCAGACGGTTGGGCATG
CAGATCTGTTTCAGGATAGCATGGGTGATTGGTGGTCTGTGGCGCTGAGT
ACACGGTCTGGGCCGGCGTGGAGGAACTATCCCATGGGGAGAGAGACGGT
TCTTGCGCCGGCGAGATGGGAGGTGGGCGAGTGGCCGGTTGTGCAGCCGG
TTAGGGGGGTGGATTTTGTTCCCGGGTCGGCGATACCGGCGCATTTTGTG
TATTGGAGGTATCCCAGGACAGAGGATTTTGTGGTTTCTCCGGAGGGATA
TCCTAATACTTTGAGGTTGACTCCGTCGTTTTATAATCTGACGGGGACAC
CGGAGTTCAAGCCGGATGACGGGTTGACGCTGGTTATGCGTCGGCAGACG
GATACGCTGTTCACATATGGTGTGGATGTCTCGTTTGATCCCGAGGTGGA
TGATGAGGAAGCAGGGGTTACCGTCTTTTTGACGCAGGAGCAGCATATTG
ACCTGGGAATTGTGTTGCTACAGAATAACCTGTCATTCAGGTTCCGCGTT
GAAGGTCACGGTAACTACGACGGTCCTCTTCCTGGACGGACTGTTCCTGT
TCCAAAGGAGTGGCAGACAGGTCCTATCAGGTTCGAGATTCAGGCTGTCA
ACGACACAACTTATGCCTTTGCGGCTGCGCCATCGAGAAGCCCGAGTCAG
AGGAAGATCATTGGGTACGCAGATACGAGGATTGTAAGTGGTGGCACTGG
TCGGTTTACTGGCTCGCTTGTTGGTGCTTATGCTACGAAGAATGGAGGCG
CTGGTCCCATAGCAAACGGGGGTTATGCATACCTGCTTCGACACCCCGGC
ATGTTCACCCCCAGCACTGCATCCTGCGCTGGTATGTCCGCGGGTGTGCG
CTGGTTTATCCCCACATTTGCATTCCCTTGGAAGTCTCTGACAGTTGACT
GGATATTGACAGTCTTGTCCTACATTGATGAGGACATGGTGCGGCATGGG
CTATAAATGTGGCTCTCCACCCTCCTCATTACCACTATACTATCAACCAC
TACATCCTCCTATCCCACAACAAATCACACCTACACCAACCCCATCCTCC
CCGGCTGGCACTCCGACCCAACATGCGCGCACGTCCCGGAGCAAAACACC
ACATTCTGTGCCACCTCCACCTTCATCGCCTACCCCGGACTCCCCATCTA
CGCCAGTAAAGACCTCCAGAACTGGAAATTGGCCAGCAATGCCTTCAACC
GGCCCTCTCAAATCCCCGATCTCCGCAACACCACGGACCAACAAGGCGGC
ATCTACGCCCCAACTCTGCGCTACCACAACGGCACCTTCTACCTGATCGT
CACCTACCTCGGCTCAGACATTCAAGGCCTTCTCTTCACCACCACAAACC
CCTACAACAACTCCGCCTGGACCGATCCCCTCTTCTTCACCGTCACCGGC
ATCGACCCAGATATCTTCTGGGACGACGACGGCACCGTCTACGTCACATC
CGCAAACAGCGGCTCTTCCAGCGGCAACCACATCCAACAGTACTCCCTCG
ACCTCACTACCGGGGCTACCGGCCCAGTCCACAACCTCTGGAACGGCACC
GGGGGTTCCAGCCCCGAGGGACCGCACATGTTCCGCAAAGACGGATACTA
CTACCTCATGATCGCCGAGGGAGGGACCGAACTCGGCCATTCGGAGACTA
TTGCGCGGTCTAGGTTCCGGACCGGGCCGTGGGAAGCTTATTCGCGGAAT
CCGCTGCTGACGAATCGCAATACAACGCAGTATTTTCAGACGGTTGGGCA
TGCAGATCTGTTTCAGGATAGCATGGGTGATTGGTGGTCTGTGGCGCTGA
GTACACGGTCTGGGCCGGCGTGGAGGAACTATCCCATGGGGAGAGAGACG
GTTCTTGCGCCGGCGAGATGGGAGGTGGGCGAGTGGCCGGTTGTGCAGCC
GGTTAGGGGGGTGGATTTTGTTCCCGGGTCGGCGATACCGGCGCATTTTG
TGTATTGGAGGTATCCCAGGACAGAGGATTTTGTGGTTTCTCCGGAGGGA
TATCCTAATACTTTGAGGTTGACTCCGTCGTTTTATAATCTGACGGGGAC
ACCGGAGTTCAAGCCGGATGACGGGTTGACGCTGGTTATGCGTCGGCAGA
CGGATACGCTGTTCACATATGGTGTGGATGTCTCGTTTGATCCCGAGGTG
GATGATGAGGAAGCAGGGGTTACCGTCTTTTTGACGCAGGAGCAGCATAT
TGACCTGGGAATTGTGTTGCTACAGAATAACCTGTCATTCAGGTTCCGCG
TTGAAGGTCACGGTAACTACGACGGTCCTCTTCCTGGACGGACTGTTCCT
GTTCCAAAGGAGTGGCAGACAGGTCCTATCAGGTTCGAGATTCAGGCTGT
CAACGACACAACTTATGCCTTTGCGGCTGCGCCATCGAGAAGCCCGAGTC
AGAGGAAGATCATTGGGTACGCAGATACGAGGATTGTAAGTGGTGGCACT
GGTCGGTTTACTGGCTCGCTTGTTGGTGCTTATGCTACGAAGAATGGAGG
CGCTGGTCCCATAGCAAACGGGGGTTATGCATACCTGCTTCGACACCCCG
GCATGTTCACCCCCAGCACTGCATCCTGCGCTGGTATGTCCGCGGGTGTG
CGCTGGTTTATCCCCACATTTGCATTCCCTTGGAAGTCTCTGACAGTTGA
CTGGATATTGACAGTCTTGTCCTACATTGATGAGGACATGGTGCGGCATG
GGCTATAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004553 | hydrolase activity, hydrolyzing O-glycosyl compounds |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| Note | SECRETED:SignalP(1-18) |
| Note | CAZy:GH43_5 |
| Note | CAZy:GH43_28 |
| Note | CAZy:GH43_36 |
| Note | CAZy:GH43_31 |
| Note | CAZy:GH43_3 |
| Note | CAZy:GH43_8 |
| Note | CAZy:GH43_10 |
| Note | CAZy:GH43_9 |
| Note | CAZy:GH43 |
| Note | CAZy:GH43_11 |
| Note | CAZy:GH43_13 |
| Note | CAZy:GH43_12 |
| Note | CAZy:GH43_14 |
| DBxref | InterPro:IPR013320 |
| DBxref | InterPro:IPR023296 |
| DBxref | InterPro:IPR006710 |
| DBxref | InterPro:IPR041542 |
| DBxref | PFAM:PF04616 |
| DBxref | PFAM:PF17851 |
| Product | Glycosyl hydrolases family 43 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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:2113444..2115706 + |
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