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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000231:1161023..1163101- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_010310-T1 ID=ATCC10864_010310-T1|Name=ATCC10864_010310-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2079bp|location=Sequence derived from alignment at MCQH01000231:1161023..1163101- (Aspergillus niger ATCC 10864)
ATGGCGGACTTTGGCCCTCGTGCTCCTCACGGACCCGACATGAACGGCAA
GCAGGATTTTGCTGAGATGCACCCCAATGAAAAGGAGGGCTTCGATCGCC
TCCTTCGTCCCGATGACAGCTACACGGCAGAGGGTGTCTACTGGGCCGAT
CTGCCCATTGGGCAGCGTGTCAAGTTCGTCACCTCGGTCGACAACAAGGA
ACGTAGCCGTCAATGGTCGGCTCTCTGGGCCGAGATCAAGCAGGAACCCC
CCTCTCCAATGATGAATTACTTCCGCAACACCATCATTCCCGGTGCTGGT
ATTGGTCTGGAAGGGTATGTTTACCCCATTCCAATTGGTCTGCATATAGT
CCTTTCTAACAGATCTGTCACAGTTACGTCCTCCTGTCCATCGGAAACAT
CTCCACCCTCTTCCAACACTCCTTCTCAGCTTGCTGGGACAAGTACGAAC
TCTGTAACAAGCAGTGGATCAACGCCATTACCTACCTTGAAATCGTCGGT
ATCATTATCGGCCAGGTCCTCGTTGGTGTCATTGGTGACTGGGTGGGCCG
TCGTTGGGGTTTGCTACAGGATGCCTGGATCATGTTCTTGGGTCTGGTCA
TGTTGACCTGCGCCTGGGGTGTCACACAAAACGGCTGGGTCATCTGCTAT
GCTTGGTCGCTTTTCATCTACGGTATCGGTGTTGGTAAGTTATAACCTTC
CGCTTTGCATTGGCGGCACGAAGCCCTCCTCTCGAAAGCCGATCGGCTGA
CTCTTCTCAGGTGGTGAGTACCCGATGACGGCCACCAGCGGTATGGAGAA
CGCTGTTGGTTCCGGCAAGCTCTCTACTCGCGAGGATCGTCTTCACCGTG
GTTCCAAGGTTGTTGGTGTCTTCTCCATGCAGGGTTGGGGACAAGTCCTT
AACCAGGCCATCCTCATGATCTTGCTTCTTATCTTCAACGCTGGTAGCGG
AGAGGAGCCGATCAGCGAGACCAACACCCAATGGACCTACCGTATCTCCT
TCGTCATCCCCATGGTTGGTACTTTCTGGCTGATCTACTACCGTGCATAC
CACATGAAGGCCGCCAGTAAGCAGCTGGCAGCCACCAAGAAGAAGAACTC
GGTCACTGGTTACGACACCGAGTCTCTCCGCCTCACTTTCAAGTACTTTA
CTCCTCGTGTTATGGCCACTGCTGGTGGATGGTTCGCCAACGACGTTTTC
TTCTACGGTGCCAAGCTCTTCTCCAGTGACTTTATCAAGGTCATCAGCCC
CAACACCAAGTCTATCTTCGTTACCTGGCAGTGGAGTTTCATCAACTGCG
TTGTCACCCTGATGGGCTACTATGCTGCCATTATGTTCGTGGACAACAAG
CTCTACGGCCGCAAGTGGATGCAAATCATGGGCTTCTTGCTCTGCTTCAT
CGTGTACGTGGTGCCTGCCTTCCACTACCACTACTACACCGAAGCCGCCC
ACATCCACTCCTTCCAGGCCATGTACTTCCTGGGCAGTTTCTTCAACCAA
TTCGGTCCCAACTGCATCACCTTCCTGGTCGCTGGTGAAGTCTTCCCCAC
CCCTATCCGTGCCACCGCCCACGGTATCTCTGCTGCCTGCGGTAAGCTGG
GAGCCCTGTTGGCTGCTATCCTCTTCAACTACATCGACACTCAGACCAAG
TTCTACTTTGTGCCCTGGTGGGGTATCTTCGGCATGTTCCTGACCTTCTT
CTTCCTTCCGGATACCACCGGTCTGGATCTCAAGGAGCAGGAGCGCCGCT
GGAGATTCATCCGCGAGGGTCGTGAGCACGAGTACCACGGTGTTGCTATT
CACCCCAAGCACCTGTCCTTGTGGGAGCGCTTCCGTGGCGTCGGCAAGTA
CTACGACCCCGAGCTGGACTACCAGCAGCGCGTTGAGGAGTACCGCACTG
AGTGGGAGGCCATCATGGCTCGCCGCAGCGAAGAGACCAAGAACGGCGAC
GATGTCGATTTGGCCTTCGTCGAGGATGACATCTTGGAGGGTTCCGTCCA
CAACTACTTCCACCGCACCAGCTCGTTCACCAAGAGCCAGAGCGTGGAGA
AGGTCACTGAGGCTGAGCCCTCGGAGTAA back to topCoding sequence (CDS) from alignment at MCQH01000231:1161023..1163101- >ATCC10864_010310-T1 ID=ATCC10864_010310-T1|Name=ATCC10864_010310-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=5832bp|location=Sequence derived from alignment at MCQH01000231:1161023..1163101- (Aspergillus niger ATCC 10864)
GTGGTGAGTACCCGATGACGGCCACCAGCGGTATGGAGAACGCTGTTGGT
TCCGGCAAGCTCTCTACTCGCGAGGATCGTCTTCACCGTGGTTCCAAGGT
TGTTGGTGTCTTCTCCATGCAGGGTTGGGGACAAGTCCTTAACCAGGCCA
TCCTCATGATCTTGCTTCTTATCTTCAACGCTGGTAGCGGAGAGGAGCCG
ATCAGCGAGACCAACACCCAATGGACCTACCGTATCTCCTTCGTCATCCC
CATGGTTGGTACTTTCTGGCTGATCTACTACCGTGCATACCACATGAAGG
CCGCCAGTAAGCAGCTGGCAGCCACCAAGAAGAAGAACTCGGTCACTGGT
TACGACACCGAGTCTCTCCGCCTCACTTTCAAGTACTTTACTCCTCGTGT
TATGGCCACTGCTGGTGGATGGTTCGCCAACGACGTTTTCTTCTACGGTG
CCAAGCTCTTCTCCAGTGACTTTATCAAGGTCATCAGCCCCAACACCAAG
TCTATCTTCGTTACCTGGCAGTGGAGTTTCATCAACTGCGTTGTCACCCT
GATGGGCTACTATGCTGCCATTATGTTCGTGGACAACAAGCTCTACGGCC
GCAAGTGGATGCAAATCATGGGCTTCTTGCTCTGCTTCATCGTGTACGTG
GTGCCTGCCTTCCACTACCACTACTACACCGAAGCCGCCCACATCCACTC
CTTCCAGGCCATGTACTTCCTGGGCAGTTTCTTCAACCAATTCGGTCCCA
ACTGCATCACCTTCCTGGTCGCTGGTGAAGTCTTCCCCACCCCTATCCGT
GCCACCGCCCACGGTATCTCTGCTGCCTGCGGTAAGCTGGGAGCCCTGTT
GGCTGCTATCCTCTTCAACTACATCGACACTCAGACCAAGTTCTACTTTG
TGCCCTGGTGGGGTATCTTCGGCATGTTCCTGACCTTCTTCTTCCTTCCG
GATACCACCGGTCTGGATCTCAAGGAGCAGGAGCGCCGCTGGAGATTCAT
CCGCGAGGGTCGTGAGCACGAGTACCACGGTGTTGCTATTCACCCCAAGC
ACCTGTCCTTGTGGGAGCGCTTCCGTGGCGTCGGCAAGTACTACGACCCC
GAGCTGGACTACCAGCAGCGCGTTGAGGAGTACCGCACTGAGTGGGAGGC
CATCATGGCTCGCCGCAGCGAAGAGACCAAGAACGGCGACGATGTCGATT
TGGCCTTCGTCGAGGATGACATCTTGGAGGGTTCCGTCCACAACTACTTC
CACCGCACCAGCTCGTTCACCAAGAGCCAGAGCGTGGAGAAGGTCACTGA
GGCTGAGCCCTCGGAGTAATTACGTCCTCCTGTCCATCGGAAACATCTCC
ACCCTCTTCCAACACTCCTTCTCAGCTTGCTGGGACAAGTACGAACTCTG
TAACAAGCAGTGGATCAACGCCATTACCTACCTTGAAATCGTCGGTATCA
TTATCGGCCAGGTCCTCGTTGGTGTCATTGGTGACTGGGTGGGCCGTCGT
TGGGGTTTGCTACAGGATGCCTGGATCATGTTCTTGGGTCTGGTCATGTT
GACCTGCGCCTGGGGTGTCACACAAAACGGCTGGGTCATCTGCTATGCTT
GGTCGCTTTTCATCTACGGTATCGGTGTTGATGGCGGACTTTGGCCCTCG
TGCTCCTCACGGACCCGACATGAACGGCAAGCAGGATTTTGCTGAGATGC
ACCCCAATGAAAAGGAGGGCTTCGATCGCCTCCTTCGTCCCGATGACAGC
TACACGGCAGAGGGTGTCTACTGGGCCGATCTGCCCATTGGGCAGCGTGT
CAAGTTCGTCACCTCGGTCGACAACAAGGAACGTAGCCGTCAATGGTCGG
CTCTCTGGGCCGAGATCAAGCAGGAACCCCCCTCTCCAATGATGAATTAC
TTCCGCAACACCATCATTCCCGGTGCTGGTATTGGTCTGGAAGGGTGGTG
AGTACCCGATGACGGCCACCAGCGGTATGGAGAACGCTGTTGGTTCCGGC
AAGCTCTCTACTCGCGAGGATCGTCTTCACCGTGGTTCCAAGGTTGTTGG
TGTCTTCTCCATGCAGGGTTGGGGACAAGTCCTTAACCAGGCCATCCTCA
TGATCTTGCTTCTTATCTTCAACGCTGGTAGCGGAGAGGAGCCGATCAGC
GAGACCAACACCCAATGGACCTACCGTATCTCCTTCGTCATCCCCATGGT
TGGTACTTTCTGGCTGATCTACTACCGTGCATACCACATGAAGGCCGCCA
GTAAGCAGCTGGCAGCCACCAAGAAGAAGAACTCGGTCACTGGTTACGAC
ACCGAGTCTCTCCGCCTCACTTTCAAGTACTTTACTCCTCGTGTTATGGC
CACTGCTGGTGGATGGTTCGCCAACGACGTTTTCTTCTACGGTGCCAAGC
TCTTCTCCAGTGACTTTATCAAGGTCATCAGCCCCAACACCAAGTCTATC
TTCGTTACCTGGCAGTGGAGTTTCATCAACTGCGTTGTCACCCTGATGGG
CTACTATGCTGCCATTATGTTCGTGGACAACAAGCTCTACGGCCGCAAGT
GGATGCAAATCATGGGCTTCTTGCTCTGCTTCATCGTGTACGTGGTGCCT
GCCTTCCACTACCACTACTACACCGAAGCCGCCCACATCCACTCCTTCCA
GGCCATGTACTTCCTGGGCAGTTTCTTCAACCAATTCGGTCCCAACTGCA
TCACCTTCCTGGTCGCTGGTGAAGTCTTCCCCACCCCTATCCGTGCCACC
GCCCACGGTATCTCTGCTGCCTGCGGTAAGCTGGGAGCCCTGTTGGCTGC
TATCCTCTTCAACTACATCGACACTCAGACCAAGTTCTACTTTGTGCCCT
GGTGGGGTATCTTCGGCATGTTCCTGACCTTCTTCTTCCTTCCGGATACC
ACCGGTCTGGATCTCAAGGAGCAGGAGCGCCGCTGGAGATTCATCCGCGA
GGGTCGTGAGCACGAGTACCACGGTGTTGCTATTCACCCCAAGCACCTGT
CCTTGTGGGAGCGCTTCCGTGGCGTCGGCAAGTACTACGACCCCGAGCTG
GACTACCAGCAGCGCGTTGAGGAGTACCGCACTGAGTGGGAGGCCATCAT
GGCTCGCCGCAGCGAAGAGACCAAGAACGGCGACGATGTCGATTTGGCCT
TCGTCGAGGATGACATCTTGGAGGGTTCCGTCCACAACTACTTCCACCGC
ACCAGCTCGTTCACCAAGAGCCAGAGCGTGGAGAAGGTCACTGAGGCTGA
GCCCTCGGAGTAATTACGTCCTCCTGTCCATCGGAAACATCTCCACCCTC
TTCCAACACTCCTTCTCAGCTTGCTGGGACAAGTACGAACTCTGTAACAA
GCAGTGGATCAACGCCATTACCTACCTTGAAATCGTCGGTATCATTATCG
GCCAGGTCCTCGTTGGTGTCATTGGTGACTGGGTGGGCCGTCGTTGGGGT
TTGCTACAGGATGCCTGGATCATGTTCTTGGGTCTGGTCATGTTGACCTG
CGCCTGGGGTGTCACACAAAACGGCTGGGTCATCTGCTATGCTTGGTCGC
TTTTCATCTACGGTATCGGTGTTGATGGCGGACTTTGGCCCTCGTGCTCC
TCACGGACCCGACATGAACGGCAAGCAGGATTTTGCTGAGATGCACCCCA
ATGAAAAGGAGGGCTTCGATCGCCTCCTTCGTCCCGATGACAGCTACACG
GCAGAGGGTGTCTACTGGGCCGATCTGCCCATTGGGCAGCGTGTCAAGTT
CGTCACCTCGGTCGACAACAAGGAACGTAGCCGTCAATGGTCGGCTCTCT
GGGCCGAGATCAAGCAGGAACCCCCCTCTCCAATGATGAATTACTTCCGC
AACACCATCATTCCCGGTGCTGGTATTGGTCTGGAAGGGTGGTGAGTACC
CGATGACGGCCACCAGCGGTATGGAGAACGCTGTTGGTTCCGGCAAGCTC
TCTACTCGCGAGGATCGTCTTCACCGTGGTTCCAAGGTTGTTGGTGTCTT
CTCCATGCAGGGTTGGGGACAAGTCCTTAACCAGGCCATCCTCATGATCT
TGCTTCTTATCTTCAACGCTGGTAGCGGAGAGGAGCCGATCAGCGAGACC
AACACCCAATGGACCTACCGTATCTCCTTCGTCATCCCCATGGTTGGTAC
TTTCTGGCTGATCTACTACCGTGCATACCACATGAAGGCCGCCAGTAAGC
AGCTGGCAGCCACCAAGAAGAAGAACTCGGTCACTGGTTACGACACCGAG
TCTCTCCGCCTCACTTTCAAGTACTTTACTCCTCGTGTTATGGCCACTGC
TGGTGGATGGTTCGCCAACGACGTTTTCTTCTACGGTGCCAAGCTCTTCT
CCAGTGACTTTATCAAGGTCATCAGCCCCAACACCAAGTCTATCTTCGTT
ACCTGGCAGTGGAGTTTCATCAACTGCGTTGTCACCCTGATGGGCTACTA
TGCTGCCATTATGTTCGTGGACAACAAGCTCTACGGCCGCAAGTGGATGC
AAATCATGGGCTTCTTGCTCTGCTTCATCGTGTACGTGGTGCCTGCCTTC
CACTACCACTACTACACCGAAGCCGCCCACATCCACTCCTTCCAGGCCAT
GTACTTCCTGGGCAGTTTCTTCAACCAATTCGGTCCCAACTGCATCACCT
TCCTGGTCGCTGGTGAAGTCTTCCCCACCCCTATCCGTGCCACCGCCCAC
GGTATCTCTGCTGCCTGCGGTAAGCTGGGAGCCCTGTTGGCTGCTATCCT
CTTCAACTACATCGACACTCAGACCAAGTTCTACTTTGTGCCCTGGTGGG
GTATCTTCGGCATGTTCCTGACCTTCTTCTTCCTTCCGGATACCACCGGT
CTGGATCTCAAGGAGCAGGAGCGCCGCTGGAGATTCATCCGCGAGGGTCG
TGAGCACGAGTACCACGGTGTTGCTATTCACCCCAAGCACCTGTCCTTGT
GGGAGCGCTTCCGTGGCGTCGGCAAGTACTACGACCCCGAGCTGGACTAC
CAGCAGCGCGTTGAGGAGTACCGCACTGAGTGGGAGGCCATCATGGCTCG
CCGCAGCGAAGAGACCAAGAACGGCGACGATGTCGATTTGGCCTTCGTCG
AGGATGACATCTTGGAGGGTTCCGTCCACAACTACTTCCACCGCACCAGC
TCGTTCACCAAGAGCCAGAGCGTGGAGAAGGTCACTGAGGCTGAGCCCTC
GGAGTAATTACGTCCTCCTGTCCATCGGAAACATCTCCACCCTCTTCCAA
CACTCCTTCTCAGCTTGCTGGGACAAGTACGAACTCTGTAACAAGCAGTG
GATCAACGCCATTACCTACCTTGAAATCGTCGGTATCATTATCGGCCAGG
TCCTCGTTGGTGTCATTGGTGACTGGGTGGGCCGTCGTTGGGGTTTGCTA
CAGGATGCCTGGATCATGTTCTTGGGTCTGGTCATGTTGACCTGCGCCTG
GGGTGTCACACAAAACGGCTGGGTCATCTGCTATGCTTGGTCGCTTTTCA
TCTACGGTATCGGTGTTGATGGCGGACTTTGGCCCTCGTGCTCCTCACGG
ACCCGACATGAACGGCAAGCAGGATTTTGCTGAGATGCACCCCAATGAAA
AGGAGGGCTTCGATCGCCTCCTTCGTCCCGATGACAGCTACACGGCAGAG
GGTGTCTACTGGGCCGATCTGCCCATTGGGCAGCGTGTCAAGTTCGTCAC
CTCGGTCGACAACAAGGAACGTAGCCGTCAATGGTCGGCTCTCTGGGCCG
AGATCAAGCAGGAACCCCCCTCTCCAATGATGAATTACTTCCGCAACACC
ATCATTCCCGGTGCTGGTATTGGTCTGGAAGG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0022857 | transmembrane transporter activity |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
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 | IPR036259 |
| PFAM | PF00083 |
| InterPro | IPR005828 |
| InterPro | IPR020846 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000231 | supercontig | MCQH01000231:1161023..1163101 - |
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