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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000073:307087..308285+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_004321-T1 ID=ATCC10864_004321-T1|Name=ATCC10864_004321-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1199bp|location=Sequence derived from alignment at MCQH01000073:307087..308285+ (Aspergillus niger ATCC 10864) ATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACATGCCAAGTT
AGTATAAAGGTCATGAACCAAGTGCAAGCTAACGTTTCAAAGTTTCTGCG
AGGAGGTAATTCGCTGTATTTCAAAGCAAAGAAGATTTATACGTCAGAGC
TTCTAACAGGAACAACACAGGACTACGTGGTCACCAGATACATTGCCGAG
TTTATCAACACTCTTACCAATCTCGTGTACAGTATGTCGCGACCTGCCGC
TTCTACAAATAAATCTCATAAACAACCCAGTATTCTACGCAATATACGGA
ATTCGCCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCC
CTATTGGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGA
ACCTCAAGTACCATACCCAAATGAGTAAGTATCAATTTTCTGCTTCACTT
TTGAGATGGGCTCGCTGCTGAAAAAAGCTAAAACAGTGGACGATGTATCC
ATGCTCCTCACCACAACCCCGGTGCTCCACCGCGTCATGACCGTGAACAC
CAGTCGCAGAACCTCGACTATTTTGGCAATTCTGCTAAGCGCAGCTCTTC
TGGGACTCGTAGTAGTCCACGTACTGACAGACGAGCTCATCTTACACTCC
GTCAGTTTCGTAGTCAGCGTGACGATCATTGGAGTCCGTACGATGCAGCT
AACCACTACCCGTACGCCAAAGAATTCTCTCGCTCGGCGGCAGATCTGGG
GTATGGTGAGATTTGGAGCTGGTAAGTCCAAAGCCCCCACCTATCCTTTT
CCATGTTTTCAGAACATTGACTGCAAAAGCTATATTTGAGCTGGGATTCC
TCGTCTGGGTAGTTGACGGGTGGGTATGTGGATGGTTGAGAAGCTCGCGG
GCAGCTATTGGTCTACCGTGGGCGTTTCTACTTGAACTACATGGATGGTA
TGTAGCATTTTGCTTTATCCGTCCTGATTCTTATTAACCCCGGGCTGATT
ATGGATATGAAACAGGTGGCACATCTGCACGGGAATTGGAGCCTACATAT
TCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATGTTGAGGCCATT
GAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGTTCTATCTTTGC
GGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAAGACAGAGTGA back to topCoding sequence (CDS) from alignment at MCQH01000073:307087..308285+ >ATCC10864_004321-T1 ID=ATCC10864_004321-T1|Name=ATCC10864_004321-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=5964bp|location=Sequence derived from alignment at MCQH01000073:307087..308285+ (Aspergillus niger ATCC 10864) ATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACATGCCAATTT CTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAGTTTATCAACA CTCTTACCAATCTCGTGTACATATTCTACGCAATATACGGAATTCGCCAT CTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCCCTATTGGGG CTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGAACCTCAAGT ACCATACCCAAATGATGGACGATGTATCCATGCTCCTCACCACAACCCCG GTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAACCTCGACTAT TTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTAGTAGTCCACG TACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGTAGTCAGCGTG ACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCCGTACGCCAAA GAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGATTTGGAGCTG CTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGGGTGGGTATGT GGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGTGGGCGTTTCT ACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATTGGAGCCTACA TATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATGTTGAGGCC ATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGTTCTATCTT TGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAAGACAGAGT GAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACATGCCAAT TTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAGTTTATCAA CACTCTTACCAATCTCGTGTACATATTCTACGCAATATACGGAATTCGCC ATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCCCTATTGG GGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGAACCTCAA GTACCATACCCAAATGATGGACGATGTATCCATGCTCCTCACCACAACCC CGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAACCTCGACT ATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTAGTAGTCCA CGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGTAGTCAGCG TGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCCGTACGCCA AAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGATTTGGAGC TGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGGGTGGGTAT GTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGTGGGCGTTT CTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATTGGAGCCTA CATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATGTTGAGG CCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGTTCTATC TTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAAGACAGA GTGAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACATGCCA ATTTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAGTTTATC AACACTCTTACCAATCTCGTGTACATATTCTACGCAATATACGGAATTCG CCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCCCTATT GGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGAACCTC AAGTACCATACCCAAATGATGGACGATGTATCCATGCTCCTCACCACAAC CCCGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAACCTCGA CTATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTAGTAGTC CACGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGTAGTCAG CGTGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCCGTACGC CAAAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGATTTGGA GCTGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGGGTGGGT ATGTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGTGGGCGT TTCTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATTGGAGCC TACATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATGTTGA GGCCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGTTCTA TCTTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAAGACA GAGTGAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACATGC CAATTTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAGTTTA TCAACACTCTTACCAATCTCGTGTACATATTCTACGCAATATACGGAATT CGCCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCCCTA TTGGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGAACC TCAAGTACCATACCCAAATGATGGACGATGTATCCATGCTCCTCACCACA ACCCCGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAACCTC GACTATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTAGTAG TCCACGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGTAGTC AGCGTGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCCGTAC GCCAAAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGATTTG GAGCTGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGGGTGG GTATGTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGTGGGC GTTTCTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATTGGAG CCTACATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATGTT GAGGCCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGTTC TATCTTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAAGA CAGAGTGAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCACAT GCCAATTTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAGTT TATCAACACTCTTACCAATCTCGTGTACATATTCTACGCAATATACGGAA TTCGCCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTCCC TATTGGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATGAA CCTCAAGTACCATACCCAAATGATGGACGATGTATCCATGCTCCTCACCA CAACCCCGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAACC TCGACTATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTAGT AGTCCACGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGTAG TCAGCGTGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCCGT ACGCCAAAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGATT TGGAGCTGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGGGT GGGTATGTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGTGG GCGTTTCTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATTGG AGCCTACATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGATG TTGAGGCCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTCGT TCTATCTTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTAAA GACAGAGTGAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTCAC ATGCCAATTTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCGAG TTTATCAACACTCTTACCAATCTCGTGTACATATTCTACGCAATATACGG AATTCGCCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCTTC CCTATTGGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACATG AACCTCAAGTACCATACCCAAATGATGGACGATGTATCCATGCTCCTCAC CACAACCCCGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAGAA CCTCGACTATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCGTA GTAGTCCACGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTCGT AGTCAGCGTGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTACCC GTACGCCAAAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGAGA TTTGGAGCTGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGACGG GTGGGTATGTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACCGT GGGCGTTTCTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAATT GGAGCCTACATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAAGA TGTTGAGGCCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTCTC GTTCTATCTTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGTTA AAGACAGAGTGAATGGCCTCACCAAGTCCCTTTTGGGGCCCATCTACTTC ACATGCCAATTTCTGCGAGGAGGACTACGTGGTCACCAGATACATTGCCG AGTTTATCAACACTCTTACCAATCTCGTGTACATATTCTACGCAATATAC GGAATTCGCCATCTGCATCGACAACCGAATAAGGATGTCTTCCGCGCCCT TCCCTATTGGGGCTTGATGGGTGTGGGTATTGCCTCTGCAGCTTTCCACA TGAACCTCAAGTACCATACCCAAATGATGGACGATGTATCCATGCTCCTC ACCACAACCCCGGTGCTCCACCGCGTCATGACCGTGAACACCAGTCGCAG AACCTCGACTATTTTGGCAATTCTGCTAAGCGCAGCTCTTCTGGGACTCG TAGTAGTCCACGTACTGACAGACGAGCTCATCTTACACTCCGTCAGTTTC GTAGTCAGCGTGACGATCATTGGAGTCCGTACGATGCAGCTAACCACTAC CCGTACGCCAAAGAATTCTCTCGCTCGGCGGCAGATCTGGGGTATGGTGA GATTTGGAGCTGCTATATTTGAGCTGGGATTCCTCGTCTGGGTAGTTGAC GGGTGGGTATGTGGATGGTTGAGAAGCTCGCGGGCAGCTATTGGTCTACC GTGGGCGTTTCTACTTGAACTACATGGATGGTGGCACATCTGCACGGGAA TTGGAGCCTACATATTCATCGCGGTCATTGATCACCTGGTGTCTGGGGAA GATGTTGAGGCCATTGAGTACTCATTTGCCTGGCCTGCACCATGGGCTTC TCGTTCTATCTTTGCGGGAAAAGGTTCAGCAGTGGGTGTCAGGTCGGAGT TAAAGACAGAGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
Term | Definition |
GO:0006672 | ceramide metabolic process |
Vocabulary: Molecular Function
Term | Definition |
GO:0016811 | hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear amides |
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 exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
Properties
Property Name | Value |
Note | antiSMASH:Cluster_1000073.1 |
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 |
MCQH01000073 | supercontig | MCQH01000073:307087..308285 + |
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