|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000001.1:1352358..1356266+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_50062-T1 ID=ASPNIDRAFT_50062-T1|Name=ASPNIDRAFT_50062-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3909bp|location=Sequence derived from alignment at ACJE01000001.1:1352358..1356266+ (Aspergillus niger ATCC 1015)
ATGGCCCCCGCCGCACCGCAGCTCCCGACCAGATTCCCTTGCTGGTGTCG
GGCAATATACTCATGGGGCGGAGAAACAAAACGCGATCTGGGATTCGTGG
AGGGTGACCTTATCGAGTGTCTGAATGCTGGTGATGGCCAATGGTGGATG
GGCCGATTGCGGCGTGACAGGCGCATGATGGGGTTGTTTCCCTCCAATTT
CGTCGAAGTACTCAGGGAAGATTTCGTACCAGTTCAACGATCAACGAGCC
CTATGCTACCACCTGCCTCCTCGCCGATCACGAATCCAACCTCGGCTCCT
AAGAAACAAAAGACAGTCTTCCGAAAGCCATTCCAAGCCCACAAAGAAGC
TCTTGCGCCTTCGGGTGAGCTATCCCGGAGCTCGACCTCTTCATCGCCAG
TGACCAGCACGATTCCGCAAACTCCACCCCGAGATGGCAGTCTTTCCTCG
CGGAAGGTGAAGCCGCTACGCACCCCAACAACCGCTGTAAAGCATCAGAG
CTCTTTGTCGAGGCCCGTATCCCGGTCTAGGCCTTTATCCCGTGCGATGT
CCCCGCATCCTCCAGCCGAACCAGATCCCCAATTTTCGTCCACCCTTCCT
GGGACATACATGGCCCGGTCAAGACCTCCCTCTCGCGGAGTGTCGCCCAT
TCCGCCAGACCCAGAACTCCACCTTCCTTCCATGCCATCTGTGCAAAGTG
CACCACGCCCCGGACCTGCTCCTCGTGCAGTATCACCAGCTCCTCCGCCA
ACCATCGATTACCAGCTTCCATCTCTTCCCCCTATGGAAGTTGCAATCCA
GAGGCCTGCGTCTCGTGCAGTGTCCCCATACCCGCCTGATGACCAAGACC
TTATGCCTCCTCAGGTTCCGAGGCACAGTATATCTCTGCACCGGCCTTCC
TCACGCGAGATATCTCCACTTCAGCTGCACGAGAGAGAAGACTCGCCGCC
CCCGCCACCCCCACCACCACACAGAGTTGCTGTCAATCGTCAGCCGTCCA
TCGAGCCACACGTGCCCACACGTCTGGACATGAATGATCGTTTTGTTACA
ATATCACGGACGCCATCGCCGGCTGCCCACTCCGAAGGCCGTGGACACAC
CCCGTCGCCCCTTCGTGATGCGATGGAAGACGTGATGACTTCATTGGAGG
ATATGGGACTTCCCCGAGGCGGACAGTCGCCGTCGCCGCAGCCGATGTTC
AACAACCCGTGGTCACCGGACGCGTATGATAGCTTCCGTGAGACTCGGCC
CGCGCAGACCTCCCGTCGGCCACTAACCTCTCTGGGATTCGATGGAGACA
AGGAGTACCAATATCATGGCAGTCAGACTCACAGAAACAGCGTCTATGCA
CATGATCCCTACATGGACGGTCCGCCACAACTGAACAACTACGTACAGAG
GATGGAGAGTCGACTTCGGCAGATGCAGGAGCAGAGCCAAAGGGAGGCCG
AGGAGGATGCGCAACCCTCTGATGAGGAGGAAGCCCCACCGCCTCCCCCA
AGAAACGTACCCTACCATGCCCGGCATAACTCGATCCCCGCTCAGTACCC
GTTGGTGAGAGGACGAAGATCCGGCCAAGACCTCCGTGGGGACTTGCTCA
ATCGGACGTATACAAATAAGTCCAGCACGACAAACTCTTCGAGTGGGGTG
CACAGTACGAGTACGACACAGACGGGCAGCACTGAGAGGACCAGTCAAAG
CATCATGAGTGGTCCCTCGGCCGGTGGATTCAGTGCAACGAGTGCGGGTA
GTTATGCCAGGAGAGGTACCACTCCAGCCGAGAGACCAAACACGGCAGTC
GACACGTTTCGCTCGAGAGGCTTCAGCGATGTCTCCCGGGTGGCAAGGCC
AGAAACCCCGTTAACCGGTATATCGTACCATTCCAGCCATAATACTTCTC
GGCAAGGTGCGTCGTCTGCCATACCGTGGTCGTCCGGCGAAGGCGGCGCA
GAAGAGCCGACCGCCGTGTTTGGGGGCCTTTCCACACCGAAGGCCAAGAA
GCCCGGGTTCTTCAAAAAGATTTTCGAGTCAGCGAAGACGGGTGCTGCCA
ACGCGAGGAGCAGCATCGCAGTCGGGCACAACGGTGGATCTTCGTCCCCC
ACCAAAGGCAGAGGAATCTCGCCAATCCGTGCTCTGCAATCCAGCCGGGA
CTCTGCCCGCGACATGGGGCCTGGCACCAGCGCCATTGATTGGGTGCAAG
TCCGCCGCGATGTGAACCGCGCGAGCTCGCCCAGTCGAAACGAGAGGATC
GAGAGGGCCGAAAGATGCCAAATGATGGACCATCCTGTGATCTATTCGGT
GGAGGAACTTTACGAGACGGCGGAAGGTGATGAAAGCATTGACGGCTTGC
CGATCAGTGAGCCAACCAACTTTGCCAATGCCAACTTGAATCTTGTGGAC
AAGAGCGCGCGTTTTGTCAACAGTCTTCCCCCAATGACGAATCCGGCGAG
CTTAGCACATGGGTATGTCTGCCGACCTTACAAGAGTGATGTCCAGAGGC
TGCGCGCCATCTTTACTTGGGTGAGCGAGAAGATCGCCTGGGATGACCCG
GTTGAGGAGATCGGCATTGATTTGCGGCGGGTGCTGCAGACGAAAAGAGG
CAGCCCCCAGGAAGTAGCTTTCCTGGTCAAGGAGATGTGTGCGGCGGTCG
GTCTCCACGCTGAAGCGATCAATGGGTTCCTCAAAAGCCCTGGGGAGATG
TTTGACCTGGACGGCCTCTCGCGACCCAACCATTGGTGGAACTCGGTGCT
TGTGGATGGCGAATGGCGCATCATGGACTGTTCGCTTGCCAGCCCTACGA
ATCCCCGACGGAATCAATTTGTCACCAATAACACTTCCGTGGCCGAAAGC
TGGTATTTCCTGGCACGACCCTTGGAGATTTGCTATACGCATGTTCCTCT
TGCTCCTGAGGAGCAGCACATCTGCCCGCCTATTTCGCCGGACGTTCTAC
TGACGCTGCCGGCGGCCTGTCCGCCCTATTTCAAGCTGAATATGCAGTTC
CCCGATTTTGATACCAGTATCATCCGGATTGATGGCTTGGAAGTCATGCA
GATCCGTCTTTCGGTGCCCCCGGACGTGGAATGTGCGGCCGAGGTGGAAG
CCCCAGCGTTTGCCCGTGACGCCGATGGTGATTTCTTCGAAAGCGGCGAA
GTTGTGCGCAAGCGCGCGCTGGTGCAGCCCGACTGGGTCAGCGGACAGAA
GCGAATTACGGTCAAAGCCATCCTGCCCGGGGACGAAGGACAGGGCACAG
TCAAGGTGTACGCCGGCAAGAAGGGATTGATGCACTCCAGTCGCGATATT
CCCCATCCGTTGGCTCTCGCCCTTCCCATGCTCCACAGCAGTGAGAACCC
GCCGTACGACTTTGTGCTGCGCCATCCGACCCCTCACGCTCAGCGACATG
ATCTCTACATCATGCAGCCGCAGTGCGCGAAATTGGCGGTCAACAACACC
TTTGTTTTTGCTGTCCGCCAACATCCAGCCTCCCCGGCTTTGTCGTCCGG
CAGTAATGAGGCTGGCGTCAGTGGGCGCGTCTCACCGTCGGTCTTTACCC
GGCCTGCCAGCGCATTAAGTATGGTTTCCAGTTCCGCGGGCGGTTCCACG
GTGTCCGGGGTGTCCAACGAGTTTTCTGCCTCGACGTCGGCCATTTCATC
CGGCCGGTCGATGTCCGGACGTGAAAAGCCGGCCAAGCTGGCAATTCAGT
CTCCATCAGGCAAGATTCTGCGTCTGACGCGGAAGCCCGAGCATATGCTC
AGCCCCCACACAGGCACGCACGCCTTCACCGATGCGCCGGCGGACGGCAG
CGTATGGGAGACGGTGATCAAGATTGGCGAGCGCGGCGTCTGGCGAGGAC
TGGTACTGGCCGACCGGGTTGCACGCTGGTGTGTCTTTTGCGAATGGGAG
TGTTACTGA back to topCoding sequence (CDS) from alignment at ACJE01000001.1:1352358..1356266+ >ASPNIDRAFT_50062-T1 ID=ASPNIDRAFT_50062-T1|Name=ASPNIDRAFT_50062-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7494bp|location=Sequence derived from alignment at ACJE01000001.1:1352358..1356266+ (Aspergillus niger ATCC 1015)
ATGGCCCCCGCCGCACCGCAGCTCCCGACCAGATTCCCTTGCTGGTGTCG
GGCAATATACTCATGGGGCGGAGAAACAAAACGCGATCTGGGATTCGTGG
AGGGTGACCTTATCGAGTGTCTGAATGCTGGTGATGGCCAATGGTGGATG
GGCCGATTGCGGCGTGACAGGCGCATGATGGGGTTGTTTCCCTCCAATTT
CGTCGAAGTACTCAGGGAAGATTTCGTACCAGTTCAACGATCAACGAGCC
CTATGCTACCACCTGCCTCCTCGCCGATCACGAATCCAACCTCGGCTCCT
AAGAAACAAAAGACAGTCTTCCGAAAGCCATTCCAAGCCCACAAAGAAGC
TCTTGCGCCTTCGGGTGAGCTATCCCGGAGCTCGACCTCTTCATCGCCAG
TGACCAGCACGATTCCGCAAACTCCACCCCGAGATGGCAGTCTTTCCTCG
CGGAAGGTGAAGCCGCTACGCACCCCAACAACCGCTGTAAAGCATCAGAG
CTCTTTGTCGAGGCCCGTATCCCGGTCTAGGCCTTTATCCCGTGCGATGT
CCCCGCATCCTCCAGCCGAACCAGATCCCCAATTTTCGTCCACCCTTCCT
GGGACATACATGGCCCGGTCAAGACCTCCCTCTCGCGGAAGGCCTGCGTC
TCGTGCAGTGTCCCCATACCCGCCTGATGACCAAGACCTTATGCCTCCTC
AGGTTCCGAGGCACAGTATATCTCTGCACCGGCCTTCCTCACGCGAGATA
TCTCCACTTCAGCTGCACGAGAGAGAAGACTCGCCGCCCCCGCCACCCCC
ACCACCACACAGAGTTGCTGTCAATCGTCAGCCGTCCATCGAGCCACACG
TGCCCACACGTCTGGACATGAATGATCGTTTTGTTACAATATCACGGACG
CCATCGCCGGCTGCCCACTCCGAAGGCCGTGGACACACCCCGTCGCCCCT
TCGTGATGCGATGGAAGACGTGATGACTTCATTGGAGGATATGGGACTTC
CCCGAGGCGGACAGTCGCCGTCGCCGCAGCCGATGTTCAACAACCCGTGG
TCACCGGACGCGTATGATAGCTTCCGTGAGACTCGGCCCGCGCAGACCTC
CCGTCGGCCACTAACCTCTCTGGGATTCGATGGAGACAAGGAGTACCAAT
ATCATGGCAGTCAGACTCACAGAAACAGCGTCTATGCACATGATCCCTAC
ATGGACGGTCCGCCACAACTGAACAACTACGTACAGAGGATGGAGAGTCG
ACTTCGGCAGATGCAGGAGCAGAGCCAAAGGGAGGCCGAGGAGGATGCGC
AACCCTCTGATGAGGAGGAAGCCCCACCGCCTCCCCCAAGAAACGTACCC
TACCATGCCCGGCATAACTCGATCCCCGCTCAGTACCCGTTGGTGAGAGG
ACGAAGATCCGGCCAAGACCTCCGTGGGGACTTGCTCAATCGGACGTATA
CAAATAAGTCCAGCACGACAAACTCTTCGAGTGGGGTGCACAGTACGAGT
ACGACACAGACGGGCAGCACTGAGAGGACCAGTCAAAGCATCATGAGTGG
TCCCTCGGCCGGTGGATTCAGTGCAACGAGTGCGGGTAGTTATGCCAGGA
GAGGTACCACTCCAGCCGAGAGACCAAACACGGCAGTCGACACGTTTCGC
TCGAGAGGCTTCAGCGATGTCTCCCGGGTGGCAAGGCCAGAAACCCCGTT
AACCGGTATATCGTACCATTCCAGCCATAATACTTCTCGGCAAGGTGCGT
CGTCTGCCATACCGTGGTCGTCCGGCGAAGGCGGCGCAGAAGAGCCGACC
GCCGTGTTTGGGGGCCTTTCCACACCGAAGGCCAAGAAGCCCGGGTTCTT
CAAAAAGATTTTCGAGTCAGCGAAGACGGGTGCTGCCAACGCGAGGAGCA
GCATCGCAGTCGGGCACAACGGTGGATCTTCGTCCCCCACCAAAGGCAGA
GGAATCTCGCCAATCCGTGCTCTGCAATCCAGCCGGGACTCTGCCCGCGA
CATGGGGCCTGGCACCAGCGCCATTGATTGGGTGCAAGTCCGCCGCGATG
TGAACCGCGCGAGCTCGCCCAGTCGAAACGAGAGGATCGAGAGGGCCGAA
AGATGCCAAATGATGGACCATCCTGTGATCTATTCGGTGGAGGAACTTTA
CGAGACGGCGGAAGGTGATGAAAGCATTGACGGCTTGCCGATCAGTGAGC
CAACCAACTTTGCCAATGCCAACTTGAATCTTGTGGACAAGAGCGCGCGT
TTTGTCAACAGTCTTCCCCCAATGACGAATCCGGCGAGCTTAGCACATGG
GTATGTCTGCCGACCTTACAAGAGTGATGTCCAGAGGCTGCGCGCCATCT
TTACTTGGGTGAGCGAGAAGATCGCCTGGGATGACCCGGTTGAGGAGATC
GGCATTGATTTGCGGCGGGTGCTGCAGACGAAAAGAGGCAGCCCCCAGGA
AGTAGCTTTCCTGGTCAAGGAGATGTGTGCGGCGGTCGGTCTCCACGCTG
AAGCGATCAATGGGTTCCTCAAAAGCCCTGGGGAGATGTTTGACCTGGAC
GGCCTCTCGCGACCCAACCATTGGTGGAACTCGGTGCTTGTGGATGGCGA
ATGGCGCATCATGGACTGTTCGCTTGCCAGCCCTACGAATCCCCGACGGA
ATCAATTTGTCACCAATAACACTTCCGTGGCCGAAAGCTGGTATTTCCTG
GCACGACCCTTGGAGATTTGCTATACGCATGTTCCTCTTGCTCCTGAGGA
GCAGCACATCTGCCCGCCTATTTCGCCGGACGTTCTACTGACGCTGCCGG
CGGCCTGTCCGCCCTATTTCAAGCTGAATATGCAGTTCCCCGATTTTGAT
ACCAGTATCATCCGGATTGATGGCTTGGAAGTCATGCAGATCCGTCTTTC
GGTGCCCCCGGACGTGGAATGTGCGGCCGAGGTGGAAGCCCCAGCGTTTG
CCCGTGACGCCGATGGTGATTTCTTCGAAAGCGGCGAAGTTGTGCGCAAG
CGCGCGCTGGTGCAGCCCGACTGGGTCAGCGGACAGAAGCGAATTACGGT
CAAAGCCATCCTGCCCGGGGACGAAGGACAGGGCACAGTCAAGGTGTACG
CCGGCAAGAAGGGATTGATGCACTCCAGTCGCGATATTCCCCATCCGTTG
GCTCTCGCCCTTCCCATGCTCCACAGCAGTGAGAACCCGCCGTACGACTT
TGTGCTGCGCCATCCGACCCCTCACGCTCAGCGACATGATCTCTACATCA
TGCAGCCGCAGTGCGCGAAATTGGCGGTCAACAACACCTTTGTTTTTGCT
GTCCGCCAACATCCAGCCTCCCCGGCTTTGTCGTCCGGCAGTAATGAGGC
TGGCGTCAGTGGGCGCGTCTCACCGTCGGTCTTTACCCGGCCTGCCAGCG
CATTAAGTATGGTTTCCAGTTCCGCGGGCGGTTCCACGGTGTCCGGGGTG
TCCAACGAGTTTTCTGCCTCGACGTCGGCCATTTCATCCGGCCGGTCGAT
GTCCGGACGTGAAAAGCCGGCCAAGCTGGCAATTCAGTCTCCATCAGGCA
AGATTCTGCGTCTGACGCGGAAGCCCGAGCATATGCTCAGCCCCCACACA
GGCACGCACGCCTTCACCGATGCGCCGGCGGACGGCAGCGTATGGGAGAC
GGTGATCAAGATTGGCGAGCGCGGCGTCTGGCGAGGACTGGTACTGGCCG
ACCGGGTTGCACGCTGGTGTGTCTTTTGCGAATGGGAGTGTTACTGAATG
GCCCCCGCCGCACCGCAGCTCCCGACCAGATTCCCTTGCTGGTGTCGGGC
AATATACTCATGGGGCGGAGAAACAAAACGCGATCTGGGATTCGTGGAGG
GTGACCTTATCGAGTGTCTGAATGCTGGTGATGGCCAATGGTGGATGGGC
CGATTGCGGCGTGACAGGCGCATGATGGGGTTGTTTCCCTCCAATTTCGT
CGAAGTACTCAGGGAAGATTTCGTACCAGTTCAACGATCAACGAGCCCTA
TGCTACCACCTGCCTCCTCGCCGATCACGAATCCAACCTCGGCTCCTAAG
AAACAAAAGACAGTCTTCCGAAAGCCATTCCAAGCCCACAAAGAAGCTCT
TGCGCCTTCGGGTGAGCTATCCCGGAGCTCGACCTCTTCATCGCCAGTGA
CCAGCACGATTCCGCAAACTCCACCCCGAGATGGCAGTCTTTCCTCGCGG
AAGGTGAAGCCGCTACGCACCCCAACAACCGCTGTAAAGCATCAGAGCTC
TTTGTCGAGGCCCGTATCCCGGTCTAGGCCTTTATCCCGTGCGATGTCCC
CGCATCCTCCAGCCGAACCAGATCCCCAATTTTCGTCCACCCTTCCTGGG
ACATACATGGCCCGGTCAAGACCTCCCTCTCGCGGAAGGCCTGCGTCTCG
TGCAGTGTCCCCATACCCGCCTGATGACCAAGACCTTATGCCTCCTCAGG
TTCCGAGGCACAGTATATCTCTGCACCGGCCTTCCTCACGCGAGATATCT
CCACTTCAGCTGCACGAGAGAGAAGACTCGCCGCCCCCGCCACCCCCACC
ACCACACAGAGTTGCTGTCAATCGTCAGCCGTCCATCGAGCCACACGTGC
CCACACGTCTGGACATGAATGATCGTTTTGTTACAATATCACGGACGCCA
TCGCCGGCTGCCCACTCCGAAGGCCGTGGACACACCCCGTCGCCCCTTCG
TGATGCGATGGAAGACGTGATGACTTCATTGGAGGATATGGGACTTCCCC
GAGGCGGACAGTCGCCGTCGCCGCAGCCGATGTTCAACAACCCGTGGTCA
CCGGACGCGTATGATAGCTTCCGTGAGACTCGGCCCGCGCAGACCTCCCG
TCGGCCACTAACCTCTCTGGGATTCGATGGAGACAAGGAGTACCAATATC
ATGGCAGTCAGACTCACAGAAACAGCGTCTATGCACATGATCCCTACATG
GACGGTCCGCCACAACTGAACAACTACGTACAGAGGATGGAGAGTCGACT
TCGGCAGATGCAGGAGCAGAGCCAAAGGGAGGCCGAGGAGGATGCGCAAC
CCTCTGATGAGGAGGAAGCCCCACCGCCTCCCCCAAGAAACGTACCCTAC
CATGCCCGGCATAACTCGATCCCCGCTCAGTACCCGTTGGTGAGAGGACG
AAGATCCGGCCAAGACCTCCGTGGGGACTTGCTCAATCGGACGTATACAA
ATAAGTCCAGCACGACAAACTCTTCGAGTGGGGTGCACAGTACGAGTACG
ACACAGACGGGCAGCACTGAGAGGACCAGTCAAAGCATCATGAGTGGTCC
CTCGGCCGGTGGATTCAGTGCAACGAGTGCGGGTAGTTATGCCAGGAGAG
GTACCACTCCAGCCGAGAGACCAAACACGGCAGTCGACACGTTTCGCTCG
AGAGGCTTCAGCGATGTCTCCCGGGTGGCAAGGCCAGAAACCCCGTTAAC
CGGTATATCGTACCATTCCAGCCATAATACTTCTCGGCAAGGTGCGTCGT
CTGCCATACCGTGGTCGTCCGGCGAAGGCGGCGCAGAAGAGCCGACCGCC
GTGTTTGGGGGCCTTTCCACACCGAAGGCCAAGAAGCCCGGGTTCTTCAA
AAAGATTTTCGAGTCAGCGAAGACGGGTGCTGCCAACGCGAGGAGCAGCA
TCGCAGTCGGGCACAACGGTGGATCTTCGTCCCCCACCAAAGGCAGAGGA
ATCTCGCCAATCCGTGCTCTGCAATCCAGCCGGGACTCTGCCCGCGACAT
GGGGCCTGGCACCAGCGCCATTGATTGGGTGCAAGTCCGCCGCGATGTGA
ACCGCGCGAGCTCGCCCAGTCGAAACGAGAGGATCGAGAGGGCCGAAAGA
TGCCAAATGATGGACCATCCTGTGATCTATTCGGTGGAGGAACTTTACGA
GACGGCGGAAGGTGATGAAAGCATTGACGGCTTGCCGATCAGTGAGCCAA
CCAACTTTGCCAATGCCAACTTGAATCTTGTGGACAAGAGCGCGCGTTTT
GTCAACAGTCTTCCCCCAATGACGAATCCGGCGAGCTTAGCACATGGGTA
TGTCTGCCGACCTTACAAGAGTGATGTCCAGAGGCTGCGCGCCATCTTTA
CTTGGGTGAGCGAGAAGATCGCCTGGGATGACCCGGTTGAGGAGATCGGC
ATTGATTTGCGGCGGGTGCTGCAGACGAAAAGAGGCAGCCCCCAGGAAGT
AGCTTTCCTGGTCAAGGAGATGTGTGCGGCGGTCGGTCTCCACGCTGAAG
CGATCAATGGGTTCCTCAAAAGCCCTGGGGAGATGTTTGACCTGGACGGC
CTCTCGCGACCCAACCATTGGTGGAACTCGGTGCTTGTGGATGGCGAATG
GCGCATCATGGACTGTTCGCTTGCCAGCCCTACGAATCCCCGACGGAATC
AATTTGTCACCAATAACACTTCCGTGGCCGAAAGCTGGTATTTCCTGGCA
CGACCCTTGGAGATTTGCTATACGCATGTTCCTCTTGCTCCTGAGGAGCA
GCACATCTGCCCGCCTATTTCGCCGGACGTTCTACTGACGCTGCCGGCGG
CCTGTCCGCCCTATTTCAAGCTGAATATGCAGTTCCCCGATTTTGATACC
AGTATCATCCGGATTGATGGCTTGGAAGTCATGCAGATCCGTCTTTCGGT
GCCCCCGGACGTGGAATGTGCGGCCGAGGTGGAAGCCCCAGCGTTTGCCC
GTGACGCCGATGGTGATTTCTTCGAAAGCGGCGAAGTTGTGCGCAAGCGC
GCGCTGGTGCAGCCCGACTGGGTCAGCGGACAGAAGCGAATTACGGTCAA
AGCCATCCTGCCCGGGGACGAAGGACAGGGCACAGTCAAGGTGTACGCCG
GCAAGAAGGGATTGATGCACTCCAGTCGCGATATTCCCCATCCGTTGGCT
CTCGCCCTTCCCATGCTCCACAGCAGTGAGAACCCGCCGTACGACTTTGT
GCTGCGCCATCCGACCCCTCACGCTCAGCGACATGATCTCTACATCATGC
AGCCGCAGTGCGCGAAATTGGCGGTCAACAACACCTTTGTTTTTGCTGTC
CGCCAACATCCAGCCTCCCCGGCTTTGTCGTCCGGCAGTAATGAGGCTGG
CGTCAGTGGGCGCGTCTCACCGTCGGTCTTTACCCGGCCTGCCAGCGCAT
TAAGTATGGTTTCCAGTTCCGCGGGCGGTTCCACGGTGTCCGGGGTGTCC
AACGAGTTTTCTGCCTCGACGTCGGCCATTTCATCCGGCCGGTCGATGTC
CGGACGTGAAAAGCCGGCCAAGCTGGCAATTCAGTCTCCATCAGGCAAGA
TTCTGCGTCTGACGCGGAAGCCCGAGCATATGCTCAGCCCCCACACAGGC
ACGCACGCCTTCACCGATGCGCCGGCGGACGGCAGCGTATGGGAGACGGT
GATCAAGATTGGCGAGCGCGGCGTCTGGCGAGGACTGGTACTGGCCGACC
GGGTTGCACGCTGGTGTGTCTTTTGCGAATGGGAGTGTTACTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
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 | antiSMASH:Cluster_10000011.8 |
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR036028 |
| DBxref | InterPro:IPR038765 |
| DBxref | InterPro:IPR035553 |
| DBxref | InterPro:IPR002931 |
| DBxref | InterPro:IPR001452 |
| DBxref | PFAM:PF01841 |
| DBxref | PFAM:PF07653 |
| DBxref | PFAM:PF00018 |
| 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 |
|---|
| ACJE01000001.1 | supercontig | ACJE01000001.1:1352358..1356266 + |
|
