|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000199:325629..328017- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_008332-T1 ID=ATCC10864_008332-T1|Name=ATCC10864_008332-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2389bp|location=Sequence derived from alignment at MCQH01000199:325629..328017- (Aspergillus niger ATCC 10864)
ATGACGGATCCCAATCCGCAGGGCGGACACCTCGAACACCGCTCTTTGCG
GGATTGGCTTGCCAACTTCTTCCGAGCACCTTTGTCAAACAGTTCTGCAG
ATTCTCCGCCTGAACGGATTCCCGAGACCTTAGAACCGAATGATAGAACC
CGCTTGTTGAAATTGGACGATGGTCAAGGTCCCGCATACGGTACAAGAGA
TGGTTTATCGACGCCGCAGGTTGACGGTGGGCCTGAAGGACATATTCGGA
ACGGGAATGGAAGCCCGACGTTCGTACAAGGGCCGGAGAACCTGCCTCCC
AGGACTGGGTCAGGCCTGGCATGGCCTGTGAAGAACCATAAGACTATGTA
GGCTTGGACTATACGGCCTCTTGGCTTTGGATTCAGGACGTAACGACTGA
TTGAGACACAGGTACCTCTCATACTACATCCCGTTCTTCAACTGGATCAC
ACAATATCGCTGGTCTTTCCTCCGAGGCGACTTAATTGCAGCCTTGACAA
TCGCGTCAATCTACATTCCCATGGCCCTATCTTTGGCTTCGAACCTCGCC
CATGCACCAGCCATCAACGGCCTTTACTCATTCGTTTTCATGCCACTGCT
TTATGCAATTCTAGGAAGCAGTCCTCTGCTCGTTGTTGGTCCGGAAGCAG
CTGGGTCGCTATTGACGGGAACAATCGTTAAAACTAGCGTCAAACAAGGC
CACTCGCAGGAGGATGATGAGGCCGCAAGCGCAATGGTTGTAGGCATAGC
CACTGCCATGGCAGGAGCAATGATACTAGTCGCTGGACTGACTAGGCTGG
GTTTCCTGGACAATGTACTCAGTCGGCCTTTTTTGAGAGGCTTCATTACT
GCCATTGGCTTTGTCATCTTTGTTGACCAGCTCATCCCGGAGGTTGGACT
GGCAGACTTGGCCAAAGAGGCCGGTGTCAGTCATGGCAGCACAGTGCAGA
AGCTTGTCTTTCTTGCTGGGAATATCAAAAGCTGTCATGGTCTTACAGCT
GCTGTATCCTTCGGAAGTTTTGCAATCATTATGCTCTTTCGGTATGTACC
ATGTCCCCACCTAGCGTGTAGGGGAGATACCTGATTGCTGACCCTGTGCT
ACCTGCCTCAGAACAATCAAAAAAGCACTAGAACCACGATACCCTCAGGT
CGTATACTTCCCCGACCGTATCCTTGTCGTGATCCTCTCGGCCATTCTGA
CCTGGCGTCTTGGTTGGTACGAGCAGGGGCTGGAAGTTCTGGGGTCGGTT
CAGAACACTGCCACTGGGCTCTTCGCCTTCAGGTGGCCCTTCCAAATCAA
ACATCTGAAGCATGTGCGCACCGCCATGAGCACCTCCTTCATCATTGCTA
TCCTTGGCTTCTTCGAGTCCTCGGTTGCTGCCAAGGGGCTCGGGGAGAGA
CGAGACGGGGTCCAAGGCATGTCTGTCAGTGCGAATAGGGAGATGGTTGC
TCTGGGCGTTGCTAATGTGGTTGGGGGCTGCTTTATGGCTCTCCCTGCCT
TTGGTGGATACGGACGGAGCAAAGTCAACGCCTCTACGGGCGCTCGCTCT
CCTATGAGCAGTATCTTCCTCAGTATTATCACCTTCATTGTTATTATGGT
GCTCTTGCCGTACCTATACTATCTTCCTGTGAGTTCTTCCCCAACACCTG
TGAATACTTGACAAAACCCATATATTAATAACCACCATAGAAAGCTGTAC
TATGCTCTACGATATCGGTCGTCGCATACAGTCTTATAGAGGAATGTCCT
CACGACGTTGCCTTCTTCATCCGGCTGCGTGGTTGGACAGAGCTTGCATT
GATGCTTCTCATCTTCGTCTCCACTATATTCTACTCGCTGGAGCTGGGTA
TCGCGCTTGGCATTGGGCTCTCAATCCTGATCCTTATTCGCCACTCCACC
CAGCCTCGCATACAGATTCTCGGGAAAATAGCTGGAACACCCGACCAATA
CGATAACGCCGAAATGCATGCGGAAAATGTGGAGCTCATTGACGGTGCCC
TTGTTGTTAAGATCCCCGAGCCGCTCACCTTCGCCAACACTGGCGATCTC
AAGAATCGCTTGCGCCGCCTAGAGTTCTACGGCTCAAATCGCGCACATCC
GTCCCTTCCACGGTTGCGCCCCCCGGAATCAAATAAGAATGTTATCTTCG
ACGTTCACGGTGTTACGAGCATTGATGGCTCCGGTACGCAGGTCCTCTCC
GAGATCGTTAATGATTACATCAATCTCGGAGTAAGCGTGTATTTCTGTCG
GCTTTCGAACCGCAGCGTCTTCCGCATGTTCGAAAGAAGCGGCATAGTCG
ACCGGTGTGGAGGCATGTCTCATTTTGTCACCGGTGTTGATGAGGCGCTT
CGGCTCGCTGAGTCGGAAGGCCATGCATCGGAACCTTGA back to topCoding sequence (CDS) from alignment at MCQH01000199:325629..328017- >ATCC10864_008332-T1 ID=ATCC10864_008332-T1|Name=ATCC10864_008332-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8772bp|location=Sequence derived from alignment at MCQH01000199:325629..328017- (Aspergillus niger ATCC 10864)
AAAGCTGTACTATGCTCTACGATATCGGTCGTCGCATACAGTCTTATAGA
GGAATGTCCTCACGACGTTGCCTTCTTCATCCGGCTGCGTGGTTGGACAG
AGCTTGCATTGATGCTTCTCATCTTCGTCTCCACTATATTCTACTCGCTG
GAGCTGGGTATCGCGCTTGGCATTGGGCTCTCAATCCTGATCCTTATTCG
CCACTCCACCCAGCCTCGCATACAGATTCTCGGGAAAATAGCTGGAACAC
CCGACCAATACGATAACGCCGAAATGCATGCGGAAAATGTGGAGCTCATT
GACGGTGCCCTTGTTGTTAAGATCCCCGAGCCGCTCACCTTCGCCAACAC
TGGCGATCTCAAGAATCGCTTGCGCCGCCTAGAGTTCTACGGCTCAAATC
GCGCACATCCGTCCCTTCCACGGTTGCGCCCCCCGGAATCAAATAAGAAT
GTTATCTTCGACGTTCACGGTGTTACGAGCATTGATGGCTCCGGTACGCA
GGTCCTCTCCGAGATCGTTAATGATTACATCAATCTCGGAGTAAGCGTGT
ATTTCTGTCGGCTTTCGAACCGCAGCGTCTTCCGCATGTTCGAAAGAAGC
GGCATAGTCGACCGGTGTGGAGGCATGTCTCATTTTGTCACCGGTGTTGA
TGAGGCGCTTCGGCTCGCTGAGTCGGAAGGCCATGCATCGGAACCTTGAA
ACAATCAAAAAAGCACTAGAACCACGATACCCTCAGGTCGTATACTTCCC
CGACCGTATCCTTGTCGTGATCCTCTCGGCCATTCTGACCTGGCGTCTTG
GTTGGTACGAGCAGGGGCTGGAAGTTCTGGGGTCGGTTCAGAACACTGCC
ACTGGGCTCTTCGCCTTCAGGTGGCCCTTCCAAATCAAACATCTGAAGCA
TGTGCGCACCGCCATGAGCACCTCCTTCATCATTGCTATCCTTGGCTTCT
TCGAGTCCTCGGTTGCTGCCAAGGGGCTCGGGGAGAGACGAGACGGGGTC
CAAGGCATGTCTGTCAGTGCGAATAGGGAGATGGTTGCTCTGGGCGTTGC
TAATGTGGTTGGGGGCTGCTTTATGGCTCTCCCTGCCTTTGGTGGATACG
GACGGAGCAAAGTCAACGCCTCTACGGGCGCTCGCTCTCCTATGAGCAGT
ATCTTCCTCAGTATTATCACCTTCATTGTTATTATGGTGCTCTTGCCGTA
CCTATACTATCTTCCTGTACCTCTCATACTACATCCCGTTCTTCAACTGG
ATCACACAATATCGCTGGTCTTTCCTCCGAGGCGACTTAATTGCAGCCTT
GACAATCGCGTCAATCTACATTCCCATGGCCCTATCTTTGGCTTCGAACC
TCGCCCATGCACCAGCCATCAACGGCCTTTACTCATTCGTTTTCATGCCA
CTGCTTTATGCAATTCTAGGAAGCAGTCCTCTGCTCGTTGTTGGTCCGGA
AGCAGCTGGGTCGCTATTGACGGGAACAATCGTTAAAACTAGCGTCAAAC
AAGGCCACTCGCAGGAGGATGATGAGGCCGCAAGCGCAATGGTTGTAGGC
ATAGCCACTGCCATGGCAGGAGCAATGATACTAGTCGCTGGACTGACTAG
GCTGGGTTTCCTGGACAATGTACTCAGTCGGCCTTTTTTGAGAGGCTTCA
TTACTGCCATTGGCTTTGTCATCTTTGTTGACCAGCTCATCCCGGAGGTT
GGACTGGCAGACTTGGCCAAAGAGGCCGGTGTCAGTCATGGCAGCACAGT
GCAGAAGCTTGTCTTTCTTGCTGGGAATATCAAAAGCTGTCATGGTCTTA
CAGCTGCTGTATCCTTCGGAAGTTTTGCAATCATTATGCTCTTTCGATGA
CGGATCCCAATCCGCAGGGCGGACACCTCGAACACCGCTCTTTGCGGGAT
TGGCTTGCCAACTTCTTCCGAGCACCTTTGTCAAACAGTTCTGCAGATTC
TCCGCCTGAACGGATTCCCGAGACCTTAGAACCGAATGATAGAACCCGCT
TGTTGAAATTGGACGATGGTCAAGGTCCCGCATACGGTACAAGAGATGGT
TTATCGACGCCGCAGGTTGACGGTGGGCCTGAAGGACATATTCGGAACGG
GAATGGAAGCCCGACGTTCGTACAAGGGCCGGAGAACCTGCCTCCCAGGA
CTGGGTCAGGCCTGGCATGGCCTGTGAAGAACCATAAGACTATAAAGCTG
TACTATGCTCTACGATATCGGTCGTCGCATACAGTCTTATAGAGGAATGT
CCTCACGACGTTGCCTTCTTCATCCGGCTGCGTGGTTGGACAGAGCTTGC
ATTGATGCTTCTCATCTTCGTCTCCACTATATTCTACTCGCTGGAGCTGG
GTATCGCGCTTGGCATTGGGCTCTCAATCCTGATCCTTATTCGCCACTCC
ACCCAGCCTCGCATACAGATTCTCGGGAAAATAGCTGGAACACCCGACCA
ATACGATAACGCCGAAATGCATGCGGAAAATGTGGAGCTCATTGACGGTG
CCCTTGTTGTTAAGATCCCCGAGCCGCTCACCTTCGCCAACACTGGCGAT
CTCAAGAATCGCTTGCGCCGCCTAGAGTTCTACGGCTCAAATCGCGCACA
TCCGTCCCTTCCACGGTTGCGCCCCCCGGAATCAAATAAGAATGTTATCT
TCGACGTTCACGGTGTTACGAGCATTGATGGCTCCGGTACGCAGGTCCTC
TCCGAGATCGTTAATGATTACATCAATCTCGGAGTAAGCGTGTATTTCTG
TCGGCTTTCGAACCGCAGCGTCTTCCGCATGTTCGAAAGAAGCGGCATAG
TCGACCGGTGTGGAGGCATGTCTCATTTTGTCACCGGTGTTGATGAGGCG
CTTCGGCTCGCTGAGTCGGAAGGCCATGCATCGGAACCTTGAAACAATCA
AAAAAGCACTAGAACCACGATACCCTCAGGTCGTATACTTCCCCGACCGT
ATCCTTGTCGTGATCCTCTCGGCCATTCTGACCTGGCGTCTTGGTTGGTA
CGAGCAGGGGCTGGAAGTTCTGGGGTCGGTTCAGAACACTGCCACTGGGC
TCTTCGCCTTCAGGTGGCCCTTCCAAATCAAACATCTGAAGCATGTGCGC
ACCGCCATGAGCACCTCCTTCATCATTGCTATCCTTGGCTTCTTCGAGTC
CTCGGTTGCTGCCAAGGGGCTCGGGGAGAGACGAGACGGGGTCCAAGGCA
TGTCTGTCAGTGCGAATAGGGAGATGGTTGCTCTGGGCGTTGCTAATGTG
GTTGGGGGCTGCTTTATGGCTCTCCCTGCCTTTGGTGGATACGGACGGAG
CAAAGTCAACGCCTCTACGGGCGCTCGCTCTCCTATGAGCAGTATCTTCC
TCAGTATTATCACCTTCATTGTTATTATGGTGCTCTTGCCGTACCTATAC
TATCTTCCTGTACCTCTCATACTACATCCCGTTCTTCAACTGGATCACAC
AATATCGCTGGTCTTTCCTCCGAGGCGACTTAATTGCAGCCTTGACAATC
GCGTCAATCTACATTCCCATGGCCCTATCTTTGGCTTCGAACCTCGCCCA
TGCACCAGCCATCAACGGCCTTTACTCATTCGTTTTCATGCCACTGCTTT
ATGCAATTCTAGGAAGCAGTCCTCTGCTCGTTGTTGGTCCGGAAGCAGCT
GGGTCGCTATTGACGGGAACAATCGTTAAAACTAGCGTCAAACAAGGCCA
CTCGCAGGAGGATGATGAGGCCGCAAGCGCAATGGTTGTAGGCATAGCCA
CTGCCATGGCAGGAGCAATGATACTAGTCGCTGGACTGACTAGGCTGGGT
TTCCTGGACAATGTACTCAGTCGGCCTTTTTTGAGAGGCTTCATTACTGC
CATTGGCTTTGTCATCTTTGTTGACCAGCTCATCCCGGAGGTTGGACTGG
CAGACTTGGCCAAAGAGGCCGGTGTCAGTCATGGCAGCACAGTGCAGAAG
CTTGTCTTTCTTGCTGGGAATATCAAAAGCTGTCATGGTCTTACAGCTGC
TGTATCCTTCGGAAGTTTTGCAATCATTATGCTCTTTCGATGACGGATCC
CAATCCGCAGGGCGGACACCTCGAACACCGCTCTTTGCGGGATTGGCTTG
CCAACTTCTTCCGAGCACCTTTGTCAAACAGTTCTGCAGATTCTCCGCCT
GAACGGATTCCCGAGACCTTAGAACCGAATGATAGAACCCGCTTGTTGAA
ATTGGACGATGGTCAAGGTCCCGCATACGGTACAAGAGATGGTTTATCGA
CGCCGCAGGTTGACGGTGGGCCTGAAGGACATATTCGGAACGGGAATGGA
AGCCCGACGTTCGTACAAGGGCCGGAGAACCTGCCTCCCAGGACTGGGTC
AGGCCTGGCATGGCCTGTGAAGAACCATAAGACTATAAAGCTGTACTATG
CTCTACGATATCGGTCGTCGCATACAGTCTTATAGAGGAATGTCCTCACG
ACGTTGCCTTCTTCATCCGGCTGCGTGGTTGGACAGAGCTTGCATTGATG
CTTCTCATCTTCGTCTCCACTATATTCTACTCGCTGGAGCTGGGTATCGC
GCTTGGCATTGGGCTCTCAATCCTGATCCTTATTCGCCACTCCACCCAGC
CTCGCATACAGATTCTCGGGAAAATAGCTGGAACACCCGACCAATACGAT
AACGCCGAAATGCATGCGGAAAATGTGGAGCTCATTGACGGTGCCCTTGT
TGTTAAGATCCCCGAGCCGCTCACCTTCGCCAACACTGGCGATCTCAAGA
ATCGCTTGCGCCGCCTAGAGTTCTACGGCTCAAATCGCGCACATCCGTCC
CTTCCACGGTTGCGCCCCCCGGAATCAAATAAGAATGTTATCTTCGACGT
TCACGGTGTTACGAGCATTGATGGCTCCGGTACGCAGGTCCTCTCCGAGA
TCGTTAATGATTACATCAATCTCGGAGTAAGCGTGTATTTCTGTCGGCTT
TCGAACCGCAGCGTCTTCCGCATGTTCGAAAGAAGCGGCATAGTCGACCG
GTGTGGAGGCATGTCTCATTTTGTCACCGGTGTTGATGAGGCGCTTCGGC
TCGCTGAGTCGGAAGGCCATGCATCGGAACCTTGAAACAATCAAAAAAGC
ACTAGAACCACGATACCCTCAGGTCGTATACTTCCCCGACCGTATCCTTG
TCGTGATCCTCTCGGCCATTCTGACCTGGCGTCTTGGTTGGTACGAGCAG
GGGCTGGAAGTTCTGGGGTCGGTTCAGAACACTGCCACTGGGCTCTTCGC
CTTCAGGTGGCCCTTCCAAATCAAACATCTGAAGCATGTGCGCACCGCCA
TGAGCACCTCCTTCATCATTGCTATCCTTGGCTTCTTCGAGTCCTCGGTT
GCTGCCAAGGGGCTCGGGGAGAGACGAGACGGGGTCCAAGGCATGTCTGT
CAGTGCGAATAGGGAGATGGTTGCTCTGGGCGTTGCTAATGTGGTTGGGG
GCTGCTTTATGGCTCTCCCTGCCTTTGGTGGATACGGACGGAGCAAAGTC
AACGCCTCTACGGGCGCTCGCTCTCCTATGAGCAGTATCTTCCTCAGTAT
TATCACCTTCATTGTTATTATGGTGCTCTTGCCGTACCTATACTATCTTC
CTGTACCTCTCATACTACATCCCGTTCTTCAACTGGATCACACAATATCG
CTGGTCTTTCCTCCGAGGCGACTTAATTGCAGCCTTGACAATCGCGTCAA
TCTACATTCCCATGGCCCTATCTTTGGCTTCGAACCTCGCCCATGCACCA
GCCATCAACGGCCTTTACTCATTCGTTTTCATGCCACTGCTTTATGCAAT
TCTAGGAAGCAGTCCTCTGCTCGTTGTTGGTCCGGAAGCAGCTGGGTCGC
TATTGACGGGAACAATCGTTAAAACTAGCGTCAAACAAGGCCACTCGCAG
GAGGATGATGAGGCCGCAAGCGCAATGGTTGTAGGCATAGCCACTGCCAT
GGCAGGAGCAATGATACTAGTCGCTGGACTGACTAGGCTGGGTTTCCTGG
ACAATGTACTCAGTCGGCCTTTTTTGAGAGGCTTCATTACTGCCATTGGC
TTTGTCATCTTTGTTGACCAGCTCATCCCGGAGGTTGGACTGGCAGACTT
GGCCAAAGAGGCCGGTGTCAGTCATGGCAGCACAGTGCAGAAGCTTGTCT
TTCTTGCTGGGAATATCAAAAGCTGTCATGGTCTTACAGCTGCTGTATCC
TTCGGAAGTTTTGCAATCATTATGCTCTTTCGATGACGGATCCCAATCCG
CAGGGCGGACACCTCGAACACCGCTCTTTGCGGGATTGGCTTGCCAACTT
CTTCCGAGCACCTTTGTCAAACAGTTCTGCAGATTCTCCGCCTGAACGGA
TTCCCGAGACCTTAGAACCGAATGATAGAACCCGCTTGTTGAAATTGGAC
GATGGTCAAGGTCCCGCATACGGTACAAGAGATGGTTTATCGACGCCGCA
GGTTGACGGTGGGCCTGAAGGACATATTCGGAACGGGAATGGAAGCCCGA
CGTTCGTACAAGGGCCGGAGAACCTGCCTCCCAGGACTGGGTCAGGCCTG
GCATGGCCTGTGAAGAACCATAAGACTATAAAGCTGTACTATGCTCTACG
ATATCGGTCGTCGCATACAGTCTTATAGAGGAATGTCCTCACGACGTTGC
CTTCTTCATCCGGCTGCGTGGTTGGACAGAGCTTGCATTGATGCTTCTCA
TCTTCGTCTCCACTATATTCTACTCGCTGGAGCTGGGTATCGCGCTTGGC
ATTGGGCTCTCAATCCTGATCCTTATTCGCCACTCCACCCAGCCTCGCAT
ACAGATTCTCGGGAAAATAGCTGGAACACCCGACCAATACGATAACGCCG
AAATGCATGCGGAAAATGTGGAGCTCATTGACGGTGCCCTTGTTGTTAAG
ATCCCCGAGCCGCTCACCTTCGCCAACACTGGCGATCTCAAGAATCGCTT
GCGCCGCCTAGAGTTCTACGGCTCAAATCGCGCACATCCGTCCCTTCCAC
GGTTGCGCCCCCCGGAATCAAATAAGAATGTTATCTTCGACGTTCACGGT
GTTACGAGCATTGATGGCTCCGGTACGCAGGTCCTCTCCGAGATCGTTAA
TGATTACATCAATCTCGGAGTAAGCGTGTATTTCTGTCGGCTTTCGAACC
GCAGCGTCTTCCGCATGTTCGAAAGAAGCGGCATAGTCGACCGGTGTGGA
GGCATGTCTCATTTTGTCACCGGTGTTGATGAGGCGCTTCGGCTCGCTGA
GTCGGAAGGCCATGCATCGGAACCTTGAAACAATCAAAAAAGCACTAGAA
CCACGATACCCTCAGGTCGTATACTTCCCCGACCGTATCCTTGTCGTGAT
CCTCTCGGCCATTCTGACCTGGCGTCTTGGTTGGTACGAGCAGGGGCTGG
AAGTTCTGGGGTCGGTTCAGAACACTGCCACTGGGCTCTTCGCCTTCAGG
TGGCCCTTCCAAATCAAACATCTGAAGCATGTGCGCACCGCCATGAGCAC
CTCCTTCATCATTGCTATCCTTGGCTTCTTCGAGTCCTCGGTTGCTGCCA
AGGGGCTCGGGGAGAGACGAGACGGGGTCCAAGGCATGTCTGTCAGTGCG
AATAGGGAGATGGTTGCTCTGGGCGTTGCTAATGTGGTTGGGGGCTGCTT
TATGGCTCTCCCTGCCTTTGGTGGATACGGACGGAGCAAAGTCAACGCCT
CTACGGGCGCTCGCTCTCCTATGAGCAGTATCTTCCTCAGTATTATCACC
TTCATTGTTATTATGGTGCTCTTGCCGTACCTATACTATCTTCCTGTACC
TCTCATACTACATCCCGTTCTTCAACTGGATCACACAATATCGCTGGTCT
TTCCTCCGAGGCGACTTAATTGCAGCCTTGACAATCGCGTCAATCTACAT
TCCCATGGCCCTATCTTTGGCTTCGAACCTCGCCCATGCACCAGCCATCA
ACGGCCTTTACTCATTCGTTTTCATGCCACTGCTTTATGCAATTCTAGGA
AGCAGTCCTCTGCTCGTTGTTGGTCCGGAAGCAGCTGGGTCGCTATTGAC
GGGAACAATCGTTAAAACTAGCGTCAAACAAGGCCACTCGCAGGAGGATG
ATGAGGCCGCAAGCGCAATGGTTGTAGGCATAGCCACTGCCATGGCAGGA
GCAATGATACTAGTCGCTGGACTGACTAGGCTGGGTTTCCTGGACAATGT
ACTCAGTCGGCCTTTTTTGAGAGGCTTCATTACTGCCATTGGCTTTGTCA
TCTTTGTTGACCAGCTCATCCCGGAGGTTGGACTGGCAGACTTGGCCAAA
GAGGCCGGTGTCAGTCATGGCAGCACAGTGCAGAAGCTTGTCTTTCTTGC
TGGGAATATCAAAAGCTGTCATGGTCTTACAGCTGCTGTATCCTTCGGAA
GTTTTGCAATCATTATGCTCTTTCGATGACGGATCCCAATCCGCAGGGCG
GACACCTCGAACACCGCTCTTTGCGGGATTGGCTTGCCAACTTCTTCCGA
GCACCTTTGTCAAACAGTTCTGCAGATTCTCCGCCTGAACGGATTCCCGA
GACCTTAGAACCGAATGATAGAACCCGCTTGTTGAAATTGGACGATGGTC
AAGGTCCCGCATACGGTACAAGAGATGGTTTATCGACGCCGCAGGTTGAC
GGTGGGCCTGAAGGACATATTCGGAACGGGAATGGAAGCCCGACGTTCGT
ACAAGGGCCGGAGAACCTGCCTCCCAGGACTGGGTCAGGCCTGGCATGGC
CTGTGAAGAACCATAAGACTAT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0008272 | sulfate transport |
| GO:0055085 | transmembrane transport |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008271 | secondary active sulfate transmembrane transporter activity |
| GO:0015116 | sulfate transmembrane transporter 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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR002645 |
| PFAM | PF00916 |
| PFAM | PF01740 |
| InterPro | IPR011547 |
| InterPro | IPR001902 |
| InterPro | IPR036513 |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1000199.3 |
| 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 |
|---|
| MCQH01000199 | supercontig | MCQH01000199:325629..328017 - |
|
