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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000069:29497..31693- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_003833-T1 ID=ATCC10864_003833-T1|Name=ATCC10864_003833-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2197bp|location=Sequence derived from alignment at MCQH01000069:29497..31693- (Aspergillus niger ATCC 10864)
ATGGAGCCCTTTCAAATATCCCAATTCGACGCCCGGCCACCATGCCATAC
CATAAAAACCCCCGACCAGCAGCAACAGCAACAGCAGCAATCAGTGAGTC
CCTCAATGCAGTATCTTCTCATGAAACCCGCCTTTCTGTTGGCCGTCCTA
GCGACAGCCACCACAGCGCCAAACTGGACCCAGACCATCTGGCACGACAT
TCAAGCTGCGACCAGCTGCACCGCCTGTGAGGTGACCGACTGACTGTTCA
TCCAGATTGTTATGGACCACGCTGATCTGCGCCCATAGACGCTGCTCAAA
TCACTCCAACGAGTATCTCAACTCGGTCCATCAACCCTGCAGACCGTCCT
CACCGAAGTATGCGTCATAAGCAAGGTAAATCAATATACTACCGTCTCCA
CCTCGGACATTTCACAAACTCATTCTTCTCCCAGATCCTCGACGCCGACT
TCTGCACCGGACTCGTAGCCTCCCAAGTCCCCAGCGCATACTATGTGCTT
CGTCAACTGTCCGTTCCATCAGACACCGCGCAGACCTTTTGTGCCAGCGT
GTTGGATCTGTGTCCGTATCCGCCAATCTGTCCTATCCACCTGACTTTCC
CTCCTCCTCCACTATATTCTCCTATCACCACCAAAGAGAACAAAGATAAT
GACAATACAACCCTCCGAATCGCCCACATCACCGACACCCACGTCGACCT
CGCCTACACCCCCGGCACCAGCACCCACTGCCGCAAGCCCATCTGCTGCC
GCCAATACCATGCCTACGATGCCCCAGGCAGGTCCAAAACCCCGTGCTCA
ACCTGGGGGAGTCCGCACTGCGATCCCCCATTGCGACTACTGCACAGCAT
GCTCTCCGCGCTGCAATCACAACAACAACCCCATCTAACCCTCTTCACAG
GCGACATCGTTGCCCACGACATCTGGAACACAAGCCAGCAGTCCGTCCTA
GCCTGCTTCAACGCAACGTACTCCGCCCTCCATACACTAAACAATCCCGT
CTACGCCGCCATCGGAAACCACGATACTCACCCAGTGAACATCTTCCCCG
GAGTAGATACCCCCGAAGAGTTGAATGTAGAATGGGCCTACAACGCACTA
ACCACCCACTGGAAATCACTACAAAACAACACCGCTCTGAACGTTAGATC
CGGCGCATACGCCACAACATATACCCACCCACCCACAGATAACCAAATAA
AAATCATCTCCTACAACAGCAACCTCTACTACCACCTCAACCTCCTCCTC
TACACGACCCCCATGCCAGGCGACCCTATGTCCCAATTCACATGGCTAAT
CACCGAACTCCACGCCGCAGAACAAGAAAGCCTCAAAGTCCTTCTAATCA
CGCATATCCCTATCTCAAGCAAAGAAACATTACCCTCGTACGCTGACTCC
CTACGAAGAATCCTCTATCGTTTCAAGAATACAATCATGGGTGTATTCTG
CGGACATGGCCATGTCGATACCTTCGGGGTATTTTATAATAATAATTCTT
ATTCGAGTAGTAGTAGTGATAATGCTAGTCATGTAAATCAGGGGCACGGG
CACGGGCAAAGAGTGGAGAAGAACGACATGGCAGTGGAGAAAGGGGAAAG
GGAAGAAGAGGTGATAGGCGTGGAGATGATGGCGCCGGCGATGACGCCTA
TGTCTGGGTATCCTGCTTTCAGGGTATATGAATTTCGTTTTAATGGTGAT
GGGTTGAAGGTGATGGATTTTGAGGAGTATGTTGCAAGACCTCCTCCGTT
TATAGATAGTAGTCCTCAGGGAGAGCCTGTATGGGTTAGGTATTACTCTG
CTATGGGGGCTTACGGGAAGTATGTCTCTCCTAATGATGGGGCTGGTGCT
GAGGCTGGGGGCGGTGCTGAGGCTGGTGGCATTGGACCACAGTTCTGGGC
AACGCTGACGGATGTGATGGAGACGGAGTGGGATGTGTTCAATCAGTATT
GGGCGAGACGGACTAGGGGGTACCGTGTCTTAGGCTGTGGGAGGGGGTGT
CGGGAGAAGGAGATCTGTCGGTTGAAAGGGCAGGACTGTCAGTCTGAAAG
GGGAGATGAGATTGACACTACGGAGATGGGAATGGAAGGCAGCTCTTTGG
CAATGTGGCTAAGACAGGTTCAACAGTCTTGTTCTTCTTCTTTTTCTTAG
TGATCATTCTAATCGTGATACATACACGTCAGTCATACTGCAGATAG back to topCoding sequence (CDS) from alignment at MCQH01000069:29497..31693- >ATCC10864_003833-T1 ID=ATCC10864_003833-T1|Name=ATCC10864_003833-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9645bp|location=Sequence derived from alignment at MCQH01000069:29497..31693- (Aspergillus niger ATCC 10864)
ATAGGGGCACGGGCACGGGCAAAGAGTGGAGAAGAACGACATGGCAGTGG
AGAAAGGGGAAAGGGAAGAAGAGGTGATAGGCGTGGAGATGATGGCGCCG
GCGATGACGCCTATGTCTGGGTATCCTGCTTTCAGGGTATATGAATTTCG
TTTTAATGGTGATGGGTTGAAGGTGATGGATTTTGAGGAGTATGTTGCAA
GACCTCCTCCGTTTATAGATAGTAGTCCTCAGGGAGAGCCTGTATGGGTT
AGGTATTACTCTGCTATGGGGGCTTACGGGAAGTATGTCTCTCCTAATGA
TGGGGCTGGTGCTGAGGCTGGGGGCGGTGCTGAGGCTGGTGGCATTGGAC
CACAGTTCTGGGCAACGCTGACGGATGTGATGGAGACGGAGTGGGATGTG
TTCAATCAGTATTGGGCGAGACGGACTAGGGGGTACCGTGTCTTAGGCTG
TGGGAGGGGGTGTCGGGAGAAGGAGATCTGTCGGTTGAAAGGGCAGGACT
GTCAGTCTGAAAGGGGAGATGAGATTGACACTACGGAGATGGGAATGGAA
GGCAGCTCTTTGGCAATATCCTCGACGCCGACTTCTGCACCGGACTCGTA
GCCTCCCAAGTCCCCAGCGCATACTATGTGCTTCGTCAACTGTCCGTTCC
ATCAGACACCGCGCAGACCTTTTGTGCCAGCGTGTTGGATCTGTGTCCGT
ATCCGCCAATCTGTCCTATCCACCTGACTTTCCCTCCTCCTCCACTATAT
TCTCCTATCACCACCAAAGAGAACAAAGATAATGACAATACAACCCTCCG
AATCGCCCACATCACCGACACCCACGTCGACCTCGCCTACACCCCCGGCA
CCAGCACCCACTGCCGCAAGCCCATCTGCTGCCGCCAATACCATGCCTAC
GATGCCCCAGGCAGGTCCAAAACCCCGTGCTCAACCTGGGGGAGTCCGCA
CTGCGATCCCCCATTGCGACTACTGCACAGCATGCTCTCCGCGCTGCAAT
CACAACAACAACCCCATCTAACCCTCTTCACAGGCGACATCGTTGCCCAC
GACATCTGGAACACAAGCCAGCAGTCCGTCCTAGCCTGCTTCAACGCAAC
GTACTCCGCCCTCCATACACTAAACAATCCCGTCTACGCCGCCATCGGAA
ACCACGATACTCACCCAGTGAACATCTTCCCCGGAGTAGATACCCCCGAA
GAGTTGAATGTAGAATGGGCCTACAACGCACTAACCACCCACTGGAAATC
ACTACAAAACAACACCGCTCTGAACGTTAGATCCGGCGCATACGCCACAA
CATATACCCACCCACCCACAGATAACCAAATAAAAATCATCTCCTACAAC
AGCAACCTCTACTACCACCTCAACCTCCTCCTCTACACGACCCCCATGCC
AGGCGACCCTATGTCCCAATTCACATGGCTAATCACCGAACTCCACGCCG
CAGAACAAGAAAGCCTCAAAGTCCTTCTAATCACGCATATCCCTATCTCA
AGCAAAGAAACATTACCCTCGTACGCTGACTCCCTACGAAGAATCCTCTA
TCGTTTCAAGAATACAATCATGGGTGTATTCTGCGGACATGGCCATGTCG
ATACCTTCGGGACGCTGCTCAAATCACTCCAACGAGTATCTCAACTCGGT
CCATCAACCCTGCAGACCGTCCTCACCGAAGTATGCGTCATAAGCAAGAT
GGAGCCCTTTCAAATATCCCAATTCGACGCCCGGCCACCATGCCATACCA
TAAAAACCCCCGACCAGCAGCAACAGCAACAGCAGCAATCAGTGAGTCCC
TCAATGCAGTATCTTCTCATGAAACCCGCCTTTCTGTTGGCCGTCCTAGC
GACAGCCACCACAGCGCCAAACTGGACCCAGACCATCTGGCACGACATTC
AAGCTGCGACCAGCTGCACCGCCTGTGAGATAGGGGCACGGGCACGGGCA
AAGAGTGGAGAAGAACGACATGGCAGTGGAGAAAGGGGAAAGGGAAGAAG
AGGTGATAGGCGTGGAGATGATGGCGCCGGCGATGACGCCTATGTCTGGG
TATCCTGCTTTCAGGGTATATGAATTTCGTTTTAATGGTGATGGGTTGAA
GGTGATGGATTTTGAGGAGTATGTTGCAAGACCTCCTCCGTTTATAGATA
GTAGTCCTCAGGGAGAGCCTGTATGGGTTAGGTATTACTCTGCTATGGGG
GCTTACGGGAAGTATGTCTCTCCTAATGATGGGGCTGGTGCTGAGGCTGG
GGGCGGTGCTGAGGCTGGTGGCATTGGACCACAGTTCTGGGCAACGCTGA
CGGATGTGATGGAGACGGAGTGGGATGTGTTCAATCAGTATTGGGCGAGA
CGGACTAGGGGGTACCGTGTCTTAGGCTGTGGGAGGGGGTGTCGGGAGAA
GGAGATCTGTCGGTTGAAAGGGCAGGACTGTCAGTCTGAAAGGGGAGATG
AGATTGACACTACGGAGATGGGAATGGAAGGCAGCTCTTTGGCAATATCC
TCGACGCCGACTTCTGCACCGGACTCGTAGCCTCCCAAGTCCCCAGCGCA
TACTATGTGCTTCGTCAACTGTCCGTTCCATCAGACACCGCGCAGACCTT
TTGTGCCAGCGTGTTGGATCTGTGTCCGTATCCGCCAATCTGTCCTATCC
ACCTGACTTTCCCTCCTCCTCCACTATATTCTCCTATCACCACCAAAGAG
AACAAAGATAATGACAATACAACCCTCCGAATCGCCCACATCACCGACAC
CCACGTCGACCTCGCCTACACCCCCGGCACCAGCACCCACTGCCGCAAGC
CCATCTGCTGCCGCCAATACCATGCCTACGATGCCCCAGGCAGGTCCAAA
ACCCCGTGCTCAACCTGGGGGAGTCCGCACTGCGATCCCCCATTGCGACT
ACTGCACAGCATGCTCTCCGCGCTGCAATCACAACAACAACCCCATCTAA
CCCTCTTCACAGGCGACATCGTTGCCCACGACATCTGGAACACAAGCCAG
CAGTCCGTCCTAGCCTGCTTCAACGCAACGTACTCCGCCCTCCATACACT
AAACAATCCCGTCTACGCCGCCATCGGAAACCACGATACTCACCCAGTGA
ACATCTTCCCCGGAGTAGATACCCCCGAAGAGTTGAATGTAGAATGGGCC
TACAACGCACTAACCACCCACTGGAAATCACTACAAAACAACACCGCTCT
GAACGTTAGATCCGGCGCATACGCCACAACATATACCCACCCACCCACAG
ATAACCAAATAAAAATCATCTCCTACAACAGCAACCTCTACTACCACCTC
AACCTCCTCCTCTACACGACCCCCATGCCAGGCGACCCTATGTCCCAATT
CACATGGCTAATCACCGAACTCCACGCCGCAGAACAAGAAAGCCTCAAAG
TCCTTCTAATCACGCATATCCCTATCTCAAGCAAAGAAACATTACCCTCG
TACGCTGACTCCCTACGAAGAATCCTCTATCGTTTCAAGAATACAATCAT
GGGTGTATTCTGCGGACATGGCCATGTCGATACCTTCGGGACGCTGCTCA
AATCACTCCAACGAGTATCTCAACTCGGTCCATCAACCCTGCAGACCGTC
CTCACCGAAGTATGCGTCATAAGCAAGATGGAGCCCTTTCAAATATCCCA
ATTCGACGCCCGGCCACCATGCCATACCATAAAAACCCCCGACCAGCAGC
AACAGCAACAGCAGCAATCAGTGAGTCCCTCAATGCAGTATCTTCTCATG
AAACCCGCCTTTCTGTTGGCCGTCCTAGCGACAGCCACCACAGCGCCAAA
CTGGACCCAGACCATCTGGCACGACATTCAAGCTGCGACCAGCTGCACCG
CCTGTGAGATAGGGGCACGGGCACGGGCAAAGAGTGGAGAAGAACGACAT
GGCAGTGGAGAAAGGGGAAAGGGAAGAAGAGGTGATAGGCGTGGAGATGA
TGGCGCCGGCGATGACGCCTATGTCTGGGTATCCTGCTTTCAGGGTATAT
GAATTTCGTTTTAATGGTGATGGGTTGAAGGTGATGGATTTTGAGGAGTA
TGTTGCAAGACCTCCTCCGTTTATAGATAGTAGTCCTCAGGGAGAGCCTG
TATGGGTTAGGTATTACTCTGCTATGGGGGCTTACGGGAAGTATGTCTCT
CCTAATGATGGGGCTGGTGCTGAGGCTGGGGGCGGTGCTGAGGCTGGTGG
CATTGGACCACAGTTCTGGGCAACGCTGACGGATGTGATGGAGACGGAGT
GGGATGTGTTCAATCAGTATTGGGCGAGACGGACTAGGGGGTACCGTGTC
TTAGGCTGTGGGAGGGGGTGTCGGGAGAAGGAGATCTGTCGGTTGAAAGG
GCAGGACTGTCAGTCTGAAAGGGGAGATGAGATTGACACTACGGAGATGG
GAATGGAAGGCAGCTCTTTGGCAATATCCTCGACGCCGACTTCTGCACCG
GACTCGTAGCCTCCCAAGTCCCCAGCGCATACTATGTGCTTCGTCAACTG
TCCGTTCCATCAGACACCGCGCAGACCTTTTGTGCCAGCGTGTTGGATCT
GTGTCCGTATCCGCCAATCTGTCCTATCCACCTGACTTTCCCTCCTCCTC
CACTATATTCTCCTATCACCACCAAAGAGAACAAAGATAATGACAATACA
ACCCTCCGAATCGCCCACATCACCGACACCCACGTCGACCTCGCCTACAC
CCCCGGCACCAGCACCCACTGCCGCAAGCCCATCTGCTGCCGCCAATACC
ATGCCTACGATGCCCCAGGCAGGTCCAAAACCCCGTGCTCAACCTGGGGG
AGTCCGCACTGCGATCCCCCATTGCGACTACTGCACAGCATGCTCTCCGC
GCTGCAATCACAACAACAACCCCATCTAACCCTCTTCACAGGCGACATCG
TTGCCCACGACATCTGGAACACAAGCCAGCAGTCCGTCCTAGCCTGCTTC
AACGCAACGTACTCCGCCCTCCATACACTAAACAATCCCGTCTACGCCGC
CATCGGAAACCACGATACTCACCCAGTGAACATCTTCCCCGGAGTAGATA
CCCCCGAAGAGTTGAATGTAGAATGGGCCTACAACGCACTAACCACCCAC
TGGAAATCACTACAAAACAACACCGCTCTGAACGTTAGATCCGGCGCATA
CGCCACAACATATACCCACCCACCCACAGATAACCAAATAAAAATCATCT
CCTACAACAGCAACCTCTACTACCACCTCAACCTCCTCCTCTACACGACC
CCCATGCCAGGCGACCCTATGTCCCAATTCACATGGCTAATCACCGAACT
CCACGCCGCAGAACAAGAAAGCCTCAAAGTCCTTCTAATCACGCATATCC
CTATCTCAAGCAAAGAAACATTACCCTCGTACGCTGACTCCCTACGAAGA
ATCCTCTATCGTTTCAAGAATACAATCATGGGTGTATTCTGCGGACATGG
CCATGTCGATACCTTCGGGACGCTGCTCAAATCACTCCAACGAGTATCTC
AACTCGGTCCATCAACCCTGCAGACCGTCCTCACCGAAGTATGCGTCATA
AGCAAGATGGAGCCCTTTCAAATATCCCAATTCGACGCCCGGCCACCATG
CCATACCATAAAAACCCCCGACCAGCAGCAACAGCAACAGCAGCAATCAG
TGAGTCCCTCAATGCAGTATCTTCTCATGAAACCCGCCTTTCTGTTGGCC
GTCCTAGCGACAGCCACCACAGCGCCAAACTGGACCCAGACCATCTGGCA
CGACATTCAAGCTGCGACCAGCTGCACCGCCTGTGAGATAGGGGCACGGG
CACGGGCAAAGAGTGGAGAAGAACGACATGGCAGTGGAGAAAGGGGAAAG
GGAAGAAGAGGTGATAGGCGTGGAGATGATGGCGCCGGCGATGACGCCTA
TGTCTGGGTATCCTGCTTTCAGGGTATATGAATTTCGTTTTAATGGTGAT
GGGTTGAAGGTGATGGATTTTGAGGAGTATGTTGCAAGACCTCCTCCGTT
TATAGATAGTAGTCCTCAGGGAGAGCCTGTATGGGTTAGGTATTACTCTG
CTATGGGGGCTTACGGGAAGTATGTCTCTCCTAATGATGGGGCTGGTGCT
GAGGCTGGGGGCGGTGCTGAGGCTGGTGGCATTGGACCACAGTTCTGGGC
AACGCTGACGGATGTGATGGAGACGGAGTGGGATGTGTTCAATCAGTATT
GGGCGAGACGGACTAGGGGGTACCGTGTCTTAGGCTGTGGGAGGGGGTGT
CGGGAGAAGGAGATCTGTCGGTTGAAAGGGCAGGACTGTCAGTCTGAAAG
GGGAGATGAGATTGACACTACGGAGATGGGAATGGAAGGCAGCTCTTTGG
CAATATCCTCGACGCCGACTTCTGCACCGGACTCGTAGCCTCCCAAGTCC
CCAGCGCATACTATGTGCTTCGTCAACTGTCCGTTCCATCAGACACCGCG
CAGACCTTTTGTGCCAGCGTGTTGGATCTGTGTCCGTATCCGCCAATCTG
TCCTATCCACCTGACTTTCCCTCCTCCTCCACTATATTCTCCTATCACCA
CCAAAGAGAACAAAGATAATGACAATACAACCCTCCGAATCGCCCACATC
ACCGACACCCACGTCGACCTCGCCTACACCCCCGGCACCAGCACCCACTG
CCGCAAGCCCATCTGCTGCCGCCAATACCATGCCTACGATGCCCCAGGCA
GGTCCAAAACCCCGTGCTCAACCTGGGGGAGTCCGCACTGCGATCCCCCA
TTGCGACTACTGCACAGCATGCTCTCCGCGCTGCAATCACAACAACAACC
CCATCTAACCCTCTTCACAGGCGACATCGTTGCCCACGACATCTGGAACA
CAAGCCAGCAGTCCGTCCTAGCCTGCTTCAACGCAACGTACTCCGCCCTC
CATACACTAAACAATCCCGTCTACGCCGCCATCGGAAACCACGATACTCA
CCCAGTGAACATCTTCCCCGGAGTAGATACCCCCGAAGAGTTGAATGTAG
AATGGGCCTACAACGCACTAACCACCCACTGGAAATCACTACAAAACAAC
ACCGCTCTGAACGTTAGATCCGGCGCATACGCCACAACATATACCCACCC
ACCCACAGATAACCAAATAAAAATCATCTCCTACAACAGCAACCTCTACT
ACCACCTCAACCTCCTCCTCTACACGACCCCCATGCCAGGCGACCCTATG
TCCCAATTCACATGGCTAATCACCGAACTCCACGCCGCAGAACAAGAAAG
CCTCAAAGTCCTTCTAATCACGCATATCCCTATCTCAAGCAAAGAAACAT
TACCCTCGTACGCTGACTCCCTACGAAGAATCCTCTATCGTTTCAAGAAT
ACAATCATGGGTGTATTCTGCGGACATGGCCATGTCGATACCTTCGGGAC
GCTGCTCAAATCACTCCAACGAGTATCTCAACTCGGTCCATCAACCCTGC
AGACCGTCCTCACCGAAGTATGCGTCATAAGCAAGATGGAGCCCTTTCAA
ATATCCCAATTCGACGCCCGGCCACCATGCCATACCATAAAAACCCCCGA
CCAGCAGCAACAGCAACAGCAGCAATCAGTGAGTCCCTCAATGCAGTATC
TTCTCATGAAACCCGCCTTTCTGTTGGCCGTCCTAGCGACAGCCACCACA
GCGCCAAACTGGACCCAGACCATCTGGCACGACATTCAAGCTGCGACCAG
CTGCACCGCCTGTGAGATAGGGGCACGGGCACGGGCAAAGAGTGGAGAAG
AACGACATGGCAGTGGAGAAAGGGGAAAGGGAAGAAGAGGTGATAGGCGT
GGAGATGATGGCGCCGGCGATGACGCCTATGTCTGGGTATCCTGCTTTCA
GGGTATATGAATTTCGTTTTAATGGTGATGGGTTGAAGGTGATGGATTTT
GAGGAGTATGTTGCAAGACCTCCTCCGTTTATAGATAGTAGTCCTCAGGG
AGAGCCTGTATGGGTTAGGTATTACTCTGCTATGGGGGCTTACGGGAAGT
ATGTCTCTCCTAATGATGGGGCTGGTGCTGAGGCTGGGGGCGGTGCTGAG
GCTGGTGGCATTGGACCACAGTTCTGGGCAACGCTGACGGATGTGATGGA
GACGGAGTGGGATGTGTTCAATCAGTATTGGGCGAGACGGACTAGGGGGT
ACCGTGTCTTAGGCTGTGGGAGGGGGTGTCGGGAGAAGGAGATCTGTCGG
TTGAAAGGGCAGGACTGTCAGTCTGAAAGGGGAGATGAGATTGACACTAC
GGAGATGGGAATGGAAGGCAGCTCTTTGGCAATATCCTCGACGCCGACTT
CTGCACCGGACTCGTAGCCTCCCAAGTCCCCAGCGCATACTATGTGCTTC
GTCAACTGTCCGTTCCATCAGACACCGCGCAGACCTTTTGTGCCAGCGTG
TTGGATCTGTGTCCGTATCCGCCAATCTGTCCTATCCACCTGACTTTCCC
TCCTCCTCCACTATATTCTCCTATCACCACCAAAGAGAACAAAGATAATG
ACAATACAACCCTCCGAATCGCCCACATCACCGACACCCACGTCGACCTC
GCCTACACCCCCGGCACCAGCACCCACTGCCGCAAGCCCATCTGCTGCCG
CCAATACCATGCCTACGATGCCCCAGGCAGGTCCAAAACCCCGTGCTCAA
CCTGGGGGAGTCCGCACTGCGATCCCCCATTGCGACTACTGCACAGCATG
CTCTCCGCGCTGCAATCACAACAACAACCCCATCTAACCCTCTTCACAGG
CGACATCGTTGCCCACGACATCTGGAACACAAGCCAGCAGTCCGTCCTAG
CCTGCTTCAACGCAACGTACTCCGCCCTCCATACACTAAACAATCCCGTC
TACGCCGCCATCGGAAACCACGATACTCACCCAGTGAACATCTTCCCCGG
AGTAGATACCCCCGAAGAGTTGAATGTAGAATGGGCCTACAACGCACTAA
CCACCCACTGGAAATCACTACAAAACAACACCGCTCTGAACGTTAGATCC
GGCGCATACGCCACAACATATACCCACCCACCCACAGATAACCAAATAAA
AATCATCTCCTACAACAGCAACCTCTACTACCACCTCAACCTCCTCCTCT
ACACGACCCCCATGCCAGGCGACCCTATGTCCCAATTCACATGGCTAATC
ACCGAACTCCACGCCGCAGAACAAGAAAGCCTCAAAGTCCTTCTAATCAC
GCATATCCCTATCTCAAGCAAAGAAACATTACCCTCGTACGCTGACTCCC
TACGAAGAATCCTCTATCGTTTCAAGAATACAATCATGGGTGTATTCTGC
GGACATGGCCATGTCGATACCTTCGGGACGCTGCTCAAATCACTCCAACG
AGTATCTCAACTCGGTCCATCAACCCTGCAGACCGTCCTCACCGAAGTAT
GCGTCATAAGCAAGATGGAGCCCTTTCAAATATCCCAATTCGACGCCCGG
CCACCATGCCATACCATAAAAACCCCCGACCAGCAGCAACAGCAACAGCA
GCAATCAGTGAGTCCCTCAATGCAGTATCTTCTCATGAAACCCGCCTTTC
TGTTGGCCGTCCTAGCGACAGCCACCACAGCGCCAAACTGGACCCAGACC
ATCTGGCACGACATTCAAGCTGCGACCAGCTGCACCGCCTGTGAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006685 | sphingomyelin catabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0016787 | hydrolase activity |
| GO:0004767 | sphingomyelin phosphodiesterase 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 | IPR041805 |
| InterPro | IPR004843 |
| InterPro | IPR029052 |
| InterPro | IPR011160 |
| InterPro | IPR008139 |
| PFAM | PF00149 |
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 |
|---|
| MCQH01000069 | supercontig | MCQH01000069:29497..31693 - |
|
