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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000011.1:118613..120729+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_16305-T1 ID=CAN33_16305-T1|Name=CAN33_16305-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2117bp|location=Sequence derived from alignment at NKJJ01000011.1:118613..120729+ (Aspergillus niger FDAARGOS_311)
ATGGCTGGATCCATCGCCCTCAACACGCGAGACACTATCATTGAAATCCG
GGTGCGCCAACCCGACGCTCTCCCGCCACCTACCAGCACTACTACTTCTA
CTACTCCTCGCATTGAGGAGGTGGAGGAAGAGTCGATTGAACCGCATCAA
GTTCCTGGGGAATGGCCCGATGTTCCCGTTCCTGTTGCCAGACCCCGGGA
AGGACTGGAACGCAACGCCAGCCGACGCAGCCGTACCAGGCGGCTCAGCC
AGCGTCTCAGTGTCTCCAGCGATATCTTCCACGATGCGATTGAGGCCCAG
GGCTATGGCGCAGCAGGCGCAGGATCCAAGCGTCTGAGTGGGATATACCG
TCACTCCATCATTGAGGACTCAGTTGAAGCCCTGGGTCTTACAGAACCGA
CCGAGCAACTGAAGGTCGAAGAGCAGGAGGAACCACCCACCAAGACCAAA
TACGGACCCCGAATCTGGGCCATCATGGTGGCACTGTGTGTGACGAATCT
GCTGGTTGCGTTGGAAGGAACAGTCATCTCGACGGCGCTGCCGACCATTG
TGGAGGACCTGGGCGGCGGCGAAGCGTATGTCTGGGCTTCGACTGGATAT
TTCCTCACCAAGTAAGTTGCACGGTTATATTACTGTCGTCATGGATGCTA
ATAGCTTATAGTACCGTCTTTCAACCGCTGTATGGGCAGATGGCCGACAT
CTTTGGCCGGCGATGGCTGATCATCTTCGCGGTAGCCATGTTTGTGCTGG
GCAGCGGCATCAGCGGCGGCGCACCGAGCATGAACGCCCTCATTGCCGGT
CGCGTCATCCAGGGCATCGGAGGTGGTGGTATTACACTGTTGGTGAACCT
GATTGTGTGTGATCTGGTGCCCTTGCGCGAACGTGGTCGTCTTATGGCCA
TTGTTTTCGCGGCCGTCTCCGTTGGCACCTCGCTGGGCCCCATCGTCGGA
GGACTGATCGTGCAACAAACCACCTGGCGCTGGGTCTTCTATCTCAACCT
GCCAGTCGGAGGTATTTCCATGGTATTGTTGTTTGTCTTCCTGCAAGTTG
GTCATCGCAGCGAAGAAACCTCTATCAAGCGCCGCCTGAAGCAAATCGAC
TATGGCGGCAACCTCATCTTCATCCTGGCCATCTCATTCATTCTGGTCGC
TCTGGCGTATGGTGGCACACTGTGGCCGTGGAAGTCATACTCGACTATTA
TCTCGCTGGTCTTTGGTTTCTATGGAGTCGTTGTGTTTATCTTCTACGAA
CAGAGCAACTTCTGTCGACAGCCCACGCTGCCCATGCGTCTCTTCACGCG
CCGCACCTCAGCCACCGCCTTCACCATCACCTTCATCCAGTCCATGCTCA
CCCTGCTCGTCATCTACTTTCTTCCGGTCTACTTCCAGGCCGTGCTTCTG
GCCTCACCCATTCGGTCAGGTGTGATGATGCTCCCAACAGTACTGGTGTT
GGTACCAGCCTCGGTAGTCAGCGGCGCCCTGCTATCCAAATTTGGTCGCT
ACAAGCCCTTCCACTTTATCGGGTTCGCGCTCTTCACCCTGGGCTTTGGC
TGTTTTATCACGCTGGATGAAAACTCACCAGATGTTGCCTGGATCATGGT
GCAGATCGTCGTGGCCCTGGGATCGGGCTCATCTCTGAGCACACTTCTAC
CCGCTGTGCAAGCCGAGTTTTCGGATCAGGACACCGCGGCTGCTACAGCG
GCATGGGCCTTTGTGCGCCAGTTTGGTGTGGTCTGGGGTGTATCGGTGCC
GTCGGCAATTTTTAATGCGCAGGTGCAACACGATCTGTCGCGGGTCAGCA
GTGACAGTGTCCAGAAGACGCTCAGTGGTGGAGCAGCCTACGAGCATGGT
ACTAAAGACTACGTCAACTCGCTTAGTGGGGATGTGCGAAAGCAGGTCAT
TGGATTGTACGCAGACAGCTTACAGATAGTGTGGATTTTCGCGACTGTAA
TCGCAGGAGTTGGATTTTTGTTGGTGTTCTTGGAACGGTAAGTCGATCTT
GTGGCAGTGTACATTCGGATGGATGCTAATGGCTACAGTGAAATTACGCT
GCGGACGAAGCTGGACACCAAGTATGGATTGAAGGAGGAGAAAACGGCGG
ACTCATCTAATGCATAA back to topCoding sequence (CDS) from alignment at NKJJ01000011.1:118613..120729+ >CAN33_16305-T1 ID=CAN33_16305-T1|Name=CAN33_16305-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8895bp|location=Sequence derived from alignment at NKJJ01000011.1:118613..120729+ (Aspergillus niger FDAARGOS_311)
ATGGCTGGATCCATCGCCCTCAACACGCGAGACACTATCATTGAAATCCG
GGAGGTGGAGGAAGAGTCGATTGAACCGCATCAAGTTCCTGGGGAATGGC
CCGATGTTCCCGTTCCTGTTGCCAGACCCCGGGAAGGACTGGAACGCAAC
GCCAGCCGACGCAGCCGTACCAGGCGGCTCAGCCAGCGTCTCAGTGTCTC
CAGCGATATCTTCCACGATGCGATTGAGGCCCAGGGCTATGGCGCAGCAG
GCGCAGGATCCAAGCGTCTGAGTGGGATATACCGTCACTCCATCATTGAG
GACTCAGTTGAAGCCCTGGGTCTTACAGAACCGACCGAGCAACTGAAGGT
CGAAGAGCAGGAGGAACCACCCACCAAGACCAAATACGGACCCCGAATCT
GGGCCATCATGGTGGCACTGTGTGTGACGAATCTGCTGGTTGCGTTGGAA
GGAACAGTCATCTCGACGGCGCTGCCGACCATTGTGGAGGACCTGGGCGG
CGGCGAAGCGTATGTCTGGGCTTCGACTGGATATTTCCTCACCAATACCG
TCTTTCAACCGCTGTATGGGCAGATGGCCGACATCTTTGGCCGGCGATGG
CTGATCATCTTCGCGGTAGCCATGTTTGTGCTGGGCAGCGGCATCAGCGG
CGGCGCACCGAGCATGAACGCCCTCATTGCCGGTCGCGTCATCCAGGGCA
TCGGAGGTGGTGGTATTACACTGTTGGTGAACCTGATTGTGTGTGATCTG
GTGCCCTTGCGCGAACGTGGTCGTCTTATGGCCATTGTTTTCGCGGCCGT
CTCCGTTGGCACCTCGCTGGGCCCCATCGTCGGAGGACTGATCGTGCAAC
AAACCACCTGGCGCTGGGTCTTCTATCTCAACCTGCCAGTCGGAGGTATT
TCCATGGTATTGTTGTTTGTCTTCCTGCAAGTTGGTCATCGCAGCGAAGA
AACCTCTATCAAGCGCCGCCTGAAGCAAATCGACTATGGCGGCAACCTCA
TCTTCATCCTGGCCATCTCATTCATTCTGGTCGCTCTGGCGTATGGTGGC
ACACTGTGGCCGTGGAAGTCATACTCGACTATTATCTCGCTGGTCTTTGG
TTTCTATGGAGTCGTTGTGTTTATCTTCTACGAACAGAGCAACTTCTGTC
GACAGCCCACGCTGCCCATGCCCTCGGTAGTCAGCGGCGCCCTGCTATCC
AAATTTGGTCGCTACAAGCCCTTCCACTTTATCGGGTTCGCGCTCTTCAC
CCTGGGCTTTGGCTGTTTTATCACGCTGGATGAAAACTCACCAGATGTTG
CCTGGATCATGGTGCAGATCGTCGTGGCCCTGGGATCGGGCTCATCTCTG
AGCACACTTCTACCCGCTGTGCAAGCCGAGTTTTCGGATCAGGACACCGC
GGCTGCTACAGCGGCATGGGCCTTTGTGCGCCAGTTTGGTGTGGTCTGGG
GTGTATCGGTGCCGTCGGCAATTTTTAATGCGCAGGTGCAACACGATCTG
TCGCGGGTCAGCAGTGACAGTGTCCAGAAGACGCTCAGTGGTGGAGCAGC
CTACGAGCATGGTACTAAAGACTACGTCAACTCGCTTAGTGGGGATGTGC
GAAAGCAGGTCATTGGATTGTACGCAGACAGCTTACAGATAGTGTGGATT
TTCGCGACTGTAATCGCAGGAGTTGGATTTTTGTTGGTGTTCTTGGAACG
TGAAATTACGCTGCGGACGAAGCTGGACACCAAGTATGGATTGAAGGAGG
AGAAAACGGCGGACTCATCTAATGCATAAATGGCTGGATCCATCGCCCTC
AACACGCGAGACACTATCATTGAAATCCGGGAGGTGGAGGAAGAGTCGAT
TGAACCGCATCAAGTTCCTGGGGAATGGCCCGATGTTCCCGTTCCTGTTG
CCAGACCCCGGGAAGGACTGGAACGCAACGCCAGCCGACGCAGCCGTACC
AGGCGGCTCAGCCAGCGTCTCAGTGTCTCCAGCGATATCTTCCACGATGC
GATTGAGGCCCAGGGCTATGGCGCAGCAGGCGCAGGATCCAAGCGTCTGA
GTGGGATATACCGTCACTCCATCATTGAGGACTCAGTTGAAGCCCTGGGT
CTTACAGAACCGACCGAGCAACTGAAGGTCGAAGAGCAGGAGGAACCACC
CACCAAGACCAAATACGGACCCCGAATCTGGGCCATCATGGTGGCACTGT
GTGTGACGAATCTGCTGGTTGCGTTGGAAGGAACAGTCATCTCGACGGCG
CTGCCGACCATTGTGGAGGACCTGGGCGGCGGCGAAGCGTATGTCTGGGC
TTCGACTGGATATTTCCTCACCAATACCGTCTTTCAACCGCTGTATGGGC
AGATGGCCGACATCTTTGGCCGGCGATGGCTGATCATCTTCGCGGTAGCC
ATGTTTGTGCTGGGCAGCGGCATCAGCGGCGGCGCACCGAGCATGAACGC
CCTCATTGCCGGTCGCGTCATCCAGGGCATCGGAGGTGGTGGTATTACAC
TGTTGGTGAACCTGATTGTGTGTGATCTGGTGCCCTTGCGCGAACGTGGT
CGTCTTATGGCCATTGTTTTCGCGGCCGTCTCCGTTGGCACCTCGCTGGG
CCCCATCGTCGGAGGACTGATCGTGCAACAAACCACCTGGCGCTGGGTCT
TCTATCTCAACCTGCCAGTCGGAGGTATTTCCATGGTATTGTTGTTTGTC
TTCCTGCAAGTTGGTCATCGCAGCGAAGAAACCTCTATCAAGCGCCGCCT
GAAGCAAATCGACTATGGCGGCAACCTCATCTTCATCCTGGCCATCTCAT
TCATTCTGGTCGCTCTGGCGTATGGTGGCACACTGTGGCCGTGGAAGTCA
TACTCGACTATTATCTCGCTGGTCTTTGGTTTCTATGGAGTCGTTGTGTT
TATCTTCTACGAACAGAGCAACTTCTGTCGACAGCCCACGCTGCCCATGC
CCTCGGTAGTCAGCGGCGCCCTGCTATCCAAATTTGGTCGCTACAAGCCC
TTCCACTTTATCGGGTTCGCGCTCTTCACCCTGGGCTTTGGCTGTTTTAT
CACGCTGGATGAAAACTCACCAGATGTTGCCTGGATCATGGTGCAGATCG
TCGTGGCCCTGGGATCGGGCTCATCTCTGAGCACACTTCTACCCGCTGTG
CAAGCCGAGTTTTCGGATCAGGACACCGCGGCTGCTACAGCGGCATGGGC
CTTTGTGCGCCAGTTTGGTGTGGTCTGGGGTGTATCGGTGCCGTCGGCAA
TTTTTAATGCGCAGGTGCAACACGATCTGTCGCGGGTCAGCAGTGACAGT
GTCCAGAAGACGCTCAGTGGTGGAGCAGCCTACGAGCATGGTACTAAAGA
CTACGTCAACTCGCTTAGTGGGGATGTGCGAAAGCAGGTCATTGGATTGT
ACGCAGACAGCTTACAGATAGTGTGGATTTTCGCGACTGTAATCGCAGGA
GTTGGATTTTTGTTGGTGTTCTTGGAACGTGAAATTACGCTGCGGACGAA
GCTGGACACCAAGTATGGATTGAAGGAGGAGAAAACGGCGGACTCATCTA
ATGCATAAATGGCTGGATCCATCGCCCTCAACACGCGAGACACTATCATT
GAAATCCGGGAGGTGGAGGAAGAGTCGATTGAACCGCATCAAGTTCCTGG
GGAATGGCCCGATGTTCCCGTTCCTGTTGCCAGACCCCGGGAAGGACTGG
AACGCAACGCCAGCCGACGCAGCCGTACCAGGCGGCTCAGCCAGCGTCTC
AGTGTCTCCAGCGATATCTTCCACGATGCGATTGAGGCCCAGGGCTATGG
CGCAGCAGGCGCAGGATCCAAGCGTCTGAGTGGGATATACCGTCACTCCA
TCATTGAGGACTCAGTTGAAGCCCTGGGTCTTACAGAACCGACCGAGCAA
CTGAAGGTCGAAGAGCAGGAGGAACCACCCACCAAGACCAAATACGGACC
CCGAATCTGGGCCATCATGGTGGCACTGTGTGTGACGAATCTGCTGGTTG
CGTTGGAAGGAACAGTCATCTCGACGGCGCTGCCGACCATTGTGGAGGAC
CTGGGCGGCGGCGAAGCGTATGTCTGGGCTTCGACTGGATATTTCCTCAC
CAATACCGTCTTTCAACCGCTGTATGGGCAGATGGCCGACATCTTTGGCC
GGCGATGGCTGATCATCTTCGCGGTAGCCATGTTTGTGCTGGGCAGCGGC
ATCAGCGGCGGCGCACCGAGCATGAACGCCCTCATTGCCGGTCGCGTCAT
CCAGGGCATCGGAGGTGGTGGTATTACACTGTTGGTGAACCTGATTGTGT
GTGATCTGGTGCCCTTGCGCGAACGTGGTCGTCTTATGGCCATTGTTTTC
GCGGCCGTCTCCGTTGGCACCTCGCTGGGCCCCATCGTCGGAGGACTGAT
CGTGCAACAAACCACCTGGCGCTGGGTCTTCTATCTCAACCTGCCAGTCG
GAGGTATTTCCATGGTATTGTTGTTTGTCTTCCTGCAAGTTGGTCATCGC
AGCGAAGAAACCTCTATCAAGCGCCGCCTGAAGCAAATCGACTATGGCGG
CAACCTCATCTTCATCCTGGCCATCTCATTCATTCTGGTCGCTCTGGCGT
ATGGTGGCACACTGTGGCCGTGGAAGTCATACTCGACTATTATCTCGCTG
GTCTTTGGTTTCTATGGAGTCGTTGTGTTTATCTTCTACGAACAGAGCAA
CTTCTGTCGACAGCCCACGCTGCCCATGCCCTCGGTAGTCAGCGGCGCCC
TGCTATCCAAATTTGGTCGCTACAAGCCCTTCCACTTTATCGGGTTCGCG
CTCTTCACCCTGGGCTTTGGCTGTTTTATCACGCTGGATGAAAACTCACC
AGATGTTGCCTGGATCATGGTGCAGATCGTCGTGGCCCTGGGATCGGGCT
CATCTCTGAGCACACTTCTACCCGCTGTGCAAGCCGAGTTTTCGGATCAG
GACACCGCGGCTGCTACAGCGGCATGGGCCTTTGTGCGCCAGTTTGGTGT
GGTCTGGGGTGTATCGGTGCCGTCGGCAATTTTTAATGCGCAGGTGCAAC
ACGATCTGTCGCGGGTCAGCAGTGACAGTGTCCAGAAGACGCTCAGTGGT
GGAGCAGCCTACGAGCATGGTACTAAAGACTACGTCAACTCGCTTAGTGG
GGATGTGCGAAAGCAGGTCATTGGATTGTACGCAGACAGCTTACAGATAG
TGTGGATTTTCGCGACTGTAATCGCAGGAGTTGGATTTTTGTTGGTGTTC
TTGGAACGTGAAATTACGCTGCGGACGAAGCTGGACACCAAGTATGGATT
GAAGGAGGAGAAAACGGCGGACTCATCTAATGCATAAATGGCTGGATCCA
TCGCCCTCAACACGCGAGACACTATCATTGAAATCCGGGAGGTGGAGGAA
GAGTCGATTGAACCGCATCAAGTTCCTGGGGAATGGCCCGATGTTCCCGT
TCCTGTTGCCAGACCCCGGGAAGGACTGGAACGCAACGCCAGCCGACGCA
GCCGTACCAGGCGGCTCAGCCAGCGTCTCAGTGTCTCCAGCGATATCTTC
CACGATGCGATTGAGGCCCAGGGCTATGGCGCAGCAGGCGCAGGATCCAA
GCGTCTGAGTGGGATATACCGTCACTCCATCATTGAGGACTCAGTTGAAG
CCCTGGGTCTTACAGAACCGACCGAGCAACTGAAGGTCGAAGAGCAGGAG
GAACCACCCACCAAGACCAAATACGGACCCCGAATCTGGGCCATCATGGT
GGCACTGTGTGTGACGAATCTGCTGGTTGCGTTGGAAGGAACAGTCATCT
CGACGGCGCTGCCGACCATTGTGGAGGACCTGGGCGGCGGCGAAGCGTAT
GTCTGGGCTTCGACTGGATATTTCCTCACCAATACCGTCTTTCAACCGCT
GTATGGGCAGATGGCCGACATCTTTGGCCGGCGATGGCTGATCATCTTCG
CGGTAGCCATGTTTGTGCTGGGCAGCGGCATCAGCGGCGGCGCACCGAGC
ATGAACGCCCTCATTGCCGGTCGCGTCATCCAGGGCATCGGAGGTGGTGG
TATTACACTGTTGGTGAACCTGATTGTGTGTGATCTGGTGCCCTTGCGCG
AACGTGGTCGTCTTATGGCCATTGTTTTCGCGGCCGTCTCCGTTGGCACC
TCGCTGGGCCCCATCGTCGGAGGACTGATCGTGCAACAAACCACCTGGCG
CTGGGTCTTCTATCTCAACCTGCCAGTCGGAGGTATTTCCATGGTATTGT
TGTTTGTCTTCCTGCAAGTTGGTCATCGCAGCGAAGAAACCTCTATCAAG
CGCCGCCTGAAGCAAATCGACTATGGCGGCAACCTCATCTTCATCCTGGC
CATCTCATTCATTCTGGTCGCTCTGGCGTATGGTGGCACACTGTGGCCGT
GGAAGTCATACTCGACTATTATCTCGCTGGTCTTTGGTTTCTATGGAGTC
GTTGTGTTTATCTTCTACGAACAGAGCAACTTCTGTCGACAGCCCACGCT
GCCCATGCCCTCGGTAGTCAGCGGCGCCCTGCTATCCAAATTTGGTCGCT
ACAAGCCCTTCCACTTTATCGGGTTCGCGCTCTTCACCCTGGGCTTTGGC
TGTTTTATCACGCTGGATGAAAACTCACCAGATGTTGCCTGGATCATGGT
GCAGATCGTCGTGGCCCTGGGATCGGGCTCATCTCTGAGCACACTTCTAC
CCGCTGTGCAAGCCGAGTTTTCGGATCAGGACACCGCGGCTGCTACAGCG
GCATGGGCCTTTGTGCGCCAGTTTGGTGTGGTCTGGGGTGTATCGGTGCC
GTCGGCAATTTTTAATGCGCAGGTGCAACACGATCTGTCGCGGGTCAGCA
GTGACAGTGTCCAGAAGACGCTCAGTGGTGGAGCAGCCTACGAGCATGGT
ACTAAAGACTACGTCAACTCGCTTAGTGGGGATGTGCGAAAGCAGGTCAT
TGGATTGTACGCAGACAGCTTACAGATAGTGTGGATTTTCGCGACTGTAA
TCGCAGGAGTTGGATTTTTGTTGGTGTTCTTGGAACGTGAAATTACGCTG
CGGACGAAGCTGGACACCAAGTATGGATTGAAGGAGGAGAAAACGGCGGA
CTCATCTAATGCATAAATGGCTGGATCCATCGCCCTCAACACGCGAGACA
CTATCATTGAAATCCGGGAGGTGGAGGAAGAGTCGATTGAACCGCATCAA
GTTCCTGGGGAATGGCCCGATGTTCCCGTTCCTGTTGCCAGACCCCGGGA
AGGACTGGAACGCAACGCCAGCCGACGCAGCCGTACCAGGCGGCTCAGCC
AGCGTCTCAGTGTCTCCAGCGATATCTTCCACGATGCGATTGAGGCCCAG
GGCTATGGCGCAGCAGGCGCAGGATCCAAGCGTCTGAGTGGGATATACCG
TCACTCCATCATTGAGGACTCAGTTGAAGCCCTGGGTCTTACAGAACCGA
CCGAGCAACTGAAGGTCGAAGAGCAGGAGGAACCACCCACCAAGACCAAA
TACGGACCCCGAATCTGGGCCATCATGGTGGCACTGTGTGTGACGAATCT
GCTGGTTGCGTTGGAAGGAACAGTCATCTCGACGGCGCTGCCGACCATTG
TGGAGGACCTGGGCGGCGGCGAAGCGTATGTCTGGGCTTCGACTGGATAT
TTCCTCACCAATACCGTCTTTCAACCGCTGTATGGGCAGATGGCCGACAT
CTTTGGCCGGCGATGGCTGATCATCTTCGCGGTAGCCATGTTTGTGCTGG
GCAGCGGCATCAGCGGCGGCGCACCGAGCATGAACGCCCTCATTGCCGGT
CGCGTCATCCAGGGCATCGGAGGTGGTGGTATTACACTGTTGGTGAACCT
GATTGTGTGTGATCTGGTGCCCTTGCGCGAACGTGGTCGTCTTATGGCCA
TTGTTTTCGCGGCCGTCTCCGTTGGCACCTCGCTGGGCCCCATCGTCGGA
GGACTGATCGTGCAACAAACCACCTGGCGCTGGGTCTTCTATCTCAACCT
GCCAGTCGGAGGTATTTCCATGGTATTGTTGTTTGTCTTCCTGCAAGTTG
GTCATCGCAGCGAAGAAACCTCTATCAAGCGCCGCCTGAAGCAAATCGAC
TATGGCGGCAACCTCATCTTCATCCTGGCCATCTCATTCATTCTGGTCGC
TCTGGCGTATGGTGGCACACTGTGGCCGTGGAAGTCATACTCGACTATTA
TCTCGCTGGTCTTTGGTTTCTATGGAGTCGTTGTGTTTATCTTCTACGAA
CAGAGCAACTTCTGTCGACAGCCCACGCTGCCCATGCCCTCGGTAGTCAG
CGGCGCCCTGCTATCCAAATTTGGTCGCTACAAGCCCTTCCACTTTATCG
GGTTCGCGCTCTTCACCCTGGGCTTTGGCTGTTTTATCACGCTGGATGAA
AACTCACCAGATGTTGCCTGGATCATGGTGCAGATCGTCGTGGCCCTGGG
ATCGGGCTCATCTCTGAGCACACTTCTACCCGCTGTGCAAGCCGAGTTTT
CGGATCAGGACACCGCGGCTGCTACAGCGGCATGGGCCTTTGTGCGCCAG
TTTGGTGTGGTCTGGGGTGTATCGGTGCCGTCGGCAATTTTTAATGCGCA
GGTGCAACACGATCTGTCGCGGGTCAGCAGTGACAGTGTCCAGAAGACGC
TCAGTGGTGGAGCAGCCTACGAGCATGGTACTAAAGACTACGTCAACTCG
CTTAGTGGGGATGTGCGAAAGCAGGTCATTGGATTGTACGCAGACAGCTT
ACAGATAGTGTGGATTTTCGCGACTGTAATCGCAGGAGTTGGATTTTTGT
TGGTGTTCTTGGAACGTGAAATTACGCTGCGGACGAAGCTGGACACCAAG
TATGGATTGAAGGAGGAGAAAACGGCGGACTCATCTAATGCATAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005887 | integral component of plasma membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from 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 | antiSMASH:Cluster_10000111.1 |
| Note | EggNog:ENOG41 |
| Note | SMCOG1005: EmrB/QacA |
| Note | SMCOG1005:Drug resistance transporter |
| DBxref | InterPro:IPR036259 |
| DBxref | InterPro:IPR020846 |
| DBxref | InterPro:IPR011701 |
| DBxref | PFAM:PF07690 |
| Product | major facilitator superfamily 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 | NKJJ01000011.1:118613..120729 + |
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