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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000027:1866..3639+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_001318-T1 ID=ATCC10864_001318-T1|Name=ATCC10864_001318-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1774bp|location=Sequence derived from alignment at MCQH01000027:1866..3639+ (Aspergillus niger ATCC 10864)
ATGGCTTTCTCGCGATTGATTCACTGTCTCGTACTTCTCATCCTTGCTCT
CATCCTCTCTGCTCGGTACTTTTGGAATGACGCAGCTGTGCTTCCGCTCC
AGCCCAATCCTGCACCTACTACCGACACGAACGCTACCATCCCAGCCATG
TCTACCGGTCTGAAGTCCGTGGCCTACTTCGTCAATTGGGTGAGCATATA
CTCGATTTTGGCTGCCGTATTCACAGCCCAGCACGAGAGGCAGTCCACTC
GTTTTGTAAAGTAGTTCTAATGCCAATGCTAGGCGATCTATGGCCGCAAC
TACAATCCTCAGGACATGCCGGCCGACAAACTGACTCATGTCCTATACGC
ATTTGCTAACGTTCGCCCGGACACTGGTGAAGTGTAAGCTCTCCACTCTT
CTGCAGCACATGGCTGATCACCCCTTTGCCACCTGATCAGCCGCACTGAC
TTCTCGCCACAGTTATCTGTCCGACACCTGGTCGGACATTGAGAAGCATT
ACCCCACAGACTCTTGGAATGACGTCGGTACCAATGTCTACGGCTGTGTC
AAGCAGTTGTTCTTGCTCAAGCAGCAAAATAGGAAGTTGAAGGTCTTGCT
CTCCATTGGCGGTTGGACCTACTCTCCCAATTTCGCTCAGGCCGCTAGCA
CTGATGCTGGCCGCACTAAGTTTGCTGAGACTGCAACTAAATTGGTCACT
GATCTTGGATTCGATGGTATGTGACTTGTTTATGACAATGCGTGGCACTT
GATTCGCTAATGCTGGGCCTGCAGGTATCGATATTGATTGGGAGTATCCC
AAAGGTTAGTTTCTGGGATTTTGGGGAAGATGAGTGACCAGTTAGAGGTG
GATACTAAGACGACTACCTACAGATGATACAGAAGCGCAAAATATGGTCC
TTCTGCTTCAGAAGTGTCGAGAGGTAAGTTTTCCAACCCGATCGTAAGTA
ATGCGCGCACGCATGCACTAATTTTGTCTAGACTCTGGATGCAACTGCTG
GTGCGAGCAGGAAGTTCCTTCTCACCATCGCTTGTCCAGCTGGTAAGTGG
ATGATATTATTTGTTTTAGCCAGGGCGAGACCAAGTCAGATCCAATGAAT
GCTGATCTCATGCAGGTCCTGCTAATTACACCAAGCTCAAGCTGTCTCAG
ATGACGCCATATCTGGACTTTTACAATTTGATGGCCTACGACTATGCCGG
AAGTTGGGACACTGTTGCTGGCCATCAAGCCAACCTGTATCCCTCCGCTG
ACAAGCCAGCATCGACGCCATTCTCAACCAATGAGGCAGTGAACTACTAC
ATCCAGAAGGGTGGGGTCCCCTCGTCCAAGATTATCCTGGGAATGCCGCT
GTATGGGCGTGCCTTTACCAACACTGATGGACCCGGGACCGCATTCTCGG
GGGTGGGAGAGGGAAGCTGGGAACAAGGTGTCTGGGACTACAAAGCGCTC
CCAAGAACAGGAGCCACTGAACATGTCGATGCCAACCTGGGTGCATCGTG
GAGCTATGATCCCACGGCACGCACCATGGTCTCCTACGACACTGTGGCCG
TGGGCGAGATGAAGCTGGATTATATTACCAAGCTTCAGCTCGGCGGTGGC
ATGTGGTGGGAAACCAGCGGCGACAAAGGAGGAAAAACCGCCAACAAAGC
TGACGGCAGCCTGATTGGAACCTTTGTGGAAGGGATTGGAGGCGTGTCAG
CCCTTGACCAGTCGCAGAACGTGCTCTCCTACCCCGAGAGCAAATACGAC
AACTTGAGGAATGGATTTCAGTAG back to topCoding sequence (CDS) from alignment at MCQH01000027:1866..3639+ >ATCC10864_001318-T1 ID=ATCC10864_001318-T1|Name=ATCC10864_001318-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9408bp|location=Sequence derived from alignment at MCQH01000027:1866..3639+ (Aspergillus niger ATCC 10864)
ATGGCTTTCTCGCGATTGATTCACTGTCTCGTACTTCTCATCCTTGCTCT
CATCCTCTCTGCTCGGTACTTTTGGAATGACGCAGCTGTGCTTCCGCTCC
AGCCCAATCCTGCACCTACTACCGACACGAACGCTACCATCCCAGCCATG
TCTACCGGTCTGAAGTCCGTGGCCTACTTCGTCAATTGGGCGATCTATGG
CCGCAACTACAATCCTCAGGACATGCCGGCCGACAAACTGACTCATGTCC
TATACGCATTTGCTAACGTTCGCCCGGACACTGGTGAAGTTTATCTGTCC
GACACCTGGTCGGACATTGAGAAGCATTACCCCACAGACTCTTGGAATGA
CGTCGGTACCAATGTCTACGGCTGTGTCAAGCAGTTGTTCTTGCTCAAGC
AGCAAAATAGGAAGTTGAAGGTCTTGCTCTCCATTGGCGGTTGGACCTAC
TCTCCCAATTTCGCTCAGGCCGCTAGCACTGATGCTGGCCGCACTAAGTT
TGCTGAGACTGCAACTAAATTGGTCACTGATCTTGGATTCGATGGTATCG
ATATTGATTGGGAGTATCCCAAAGATGATACAGAAGCGCAAAATATGGTC
CTTCTGCTTCAGAAGTGTCGAGAGACTCTGGATGCAACTGCTGGTGCGAG
CAGGAAGTTCCTTCTCACCATCGCTTGTCCAGCTGGTCCTGCTAATTACA
CCAAGCTCAAGCTGTCTCAGATGACGCCATATCTGGACTTTTACAATTTG
ATGGCCTACGACTATGCCGGAAGTTGGGACACTGTTGCTGGCCATCAAGC
CAACCTGTATCCCTCCGCTGACAAGCCAGCATCGACGCCATTCTCAACCA
ATGAGGCAGTGAACTACTACATCCAGAAGGGTGGGGTCCCCTCGTCCAAG
ATTATCCTGGGAATGCCGCTGTATGGGCGTGCCTTTACCAACACTGATGG
ACCCGGGACCGCATTCTCGGGGGTGGGAGAGGGAAGCTGGGAACAAGGTG
TCTGGGACTACAAAGCGCTCCCAAGAACAGGAGCCACTGAACATGTCGAT
GCCAACCTGGGTGCATCGTGGAGCTATGATCCCACGGCACGCACCATGGT
CTCCTACGACACTGTGGCCGTGGGCGAGATGAAGCTGGATTATATTACCA
AGCTTCAGCTCGGCGGTGGCATGTGGTGGGAAACCAGCGGCGACAAAGGA
GGAAAAACCGCCAACAAAGCTGACGGCAGCCTGATTGGAACCTTTGTGGA
AGGGATTGGAGGCGTGTCAGCCCTTGACCAGTCGCAGAACGTGCTCTCCT
ACCCCGAGAGCAAATACGACAACTTGAGGAATGGATTTCAGTAGATGGCT
TTCTCGCGATTGATTCACTGTCTCGTACTTCTCATCCTTGCTCTCATCCT
CTCTGCTCGGTACTTTTGGAATGACGCAGCTGTGCTTCCGCTCCAGCCCA
ATCCTGCACCTACTACCGACACGAACGCTACCATCCCAGCCATGTCTACC
GGTCTGAAGTCCGTGGCCTACTTCGTCAATTGGGCGATCTATGGCCGCAA
CTACAATCCTCAGGACATGCCGGCCGACAAACTGACTCATGTCCTATACG
CATTTGCTAACGTTCGCCCGGACACTGGTGAAGTTTATCTGTCCGACACC
TGGTCGGACATTGAGAAGCATTACCCCACAGACTCTTGGAATGACGTCGG
TACCAATGTCTACGGCTGTGTCAAGCAGTTGTTCTTGCTCAAGCAGCAAA
ATAGGAAGTTGAAGGTCTTGCTCTCCATTGGCGGTTGGACCTACTCTCCC
AATTTCGCTCAGGCCGCTAGCACTGATGCTGGCCGCACTAAGTTTGCTGA
GACTGCAACTAAATTGGTCACTGATCTTGGATTCGATGGTATCGATATTG
ATTGGGAGTATCCCAAAGATGATACAGAAGCGCAAAATATGGTCCTTCTG
CTTCAGAAGTGTCGAGAGACTCTGGATGCAACTGCTGGTGCGAGCAGGAA
GTTCCTTCTCACCATCGCTTGTCCAGCTGGTCCTGCTAATTACACCAAGC
TCAAGCTGTCTCAGATGACGCCATATCTGGACTTTTACAATTTGATGGCC
TACGACTATGCCGGAAGTTGGGACACTGTTGCTGGCCATCAAGCCAACCT
GTATCCCTCCGCTGACAAGCCAGCATCGACGCCATTCTCAACCAATGAGG
CAGTGAACTACTACATCCAGAAGGGTGGGGTCCCCTCGTCCAAGATTATC
CTGGGAATGCCGCTGTATGGGCGTGCCTTTACCAACACTGATGGACCCGG
GACCGCATTCTCGGGGGTGGGAGAGGGAAGCTGGGAACAAGGTGTCTGGG
ACTACAAAGCGCTCCCAAGAACAGGAGCCACTGAACATGTCGATGCCAAC
CTGGGTGCATCGTGGAGCTATGATCCCACGGCACGCACCATGGTCTCCTA
CGACACTGTGGCCGTGGGCGAGATGAAGCTGGATTATATTACCAAGCTTC
AGCTCGGCGGTGGCATGTGGTGGGAAACCAGCGGCGACAAAGGAGGAAAA
ACCGCCAACAAAGCTGACGGCAGCCTGATTGGAACCTTTGTGGAAGGGAT
TGGAGGCGTGTCAGCCCTTGACCAGTCGCAGAACGTGCTCTCCTACCCCG
AGAGCAAATACGACAACTTGAGGAATGGATTTCAGTAGATGGCTTTCTCG
CGATTGATTCACTGTCTCGTACTTCTCATCCTTGCTCTCATCCTCTCTGC
TCGGTACTTTTGGAATGACGCAGCTGTGCTTCCGCTCCAGCCCAATCCTG
CACCTACTACCGACACGAACGCTACCATCCCAGCCATGTCTACCGGTCTG
AAGTCCGTGGCCTACTTCGTCAATTGGGCGATCTATGGCCGCAACTACAA
TCCTCAGGACATGCCGGCCGACAAACTGACTCATGTCCTATACGCATTTG
CTAACGTTCGCCCGGACACTGGTGAAGTTTATCTGTCCGACACCTGGTCG
GACATTGAGAAGCATTACCCCACAGACTCTTGGAATGACGTCGGTACCAA
TGTCTACGGCTGTGTCAAGCAGTTGTTCTTGCTCAAGCAGCAAAATAGGA
AGTTGAAGGTCTTGCTCTCCATTGGCGGTTGGACCTACTCTCCCAATTTC
GCTCAGGCCGCTAGCACTGATGCTGGCCGCACTAAGTTTGCTGAGACTGC
AACTAAATTGGTCACTGATCTTGGATTCGATGGTATCGATATTGATTGGG
AGTATCCCAAAGATGATACAGAAGCGCAAAATATGGTCCTTCTGCTTCAG
AAGTGTCGAGAGACTCTGGATGCAACTGCTGGTGCGAGCAGGAAGTTCCT
TCTCACCATCGCTTGTCCAGCTGGTCCTGCTAATTACACCAAGCTCAAGC
TGTCTCAGATGACGCCATATCTGGACTTTTACAATTTGATGGCCTACGAC
TATGCCGGAAGTTGGGACACTGTTGCTGGCCATCAAGCCAACCTGTATCC
CTCCGCTGACAAGCCAGCATCGACGCCATTCTCAACCAATGAGGCAGTGA
ACTACTACATCCAGAAGGGTGGGGTCCCCTCGTCCAAGATTATCCTGGGA
ATGCCGCTGTATGGGCGTGCCTTTACCAACACTGATGGACCCGGGACCGC
ATTCTCGGGGGTGGGAGAGGGAAGCTGGGAACAAGGTGTCTGGGACTACA
AAGCGCTCCCAAGAACAGGAGCCACTGAACATGTCGATGCCAACCTGGGT
GCATCGTGGAGCTATGATCCCACGGCACGCACCATGGTCTCCTACGACAC
TGTGGCCGTGGGCGAGATGAAGCTGGATTATATTACCAAGCTTCAGCTCG
GCGGTGGCATGTGGTGGGAAACCAGCGGCGACAAAGGAGGAAAAACCGCC
AACAAAGCTGACGGCAGCCTGATTGGAACCTTTGTGGAAGGGATTGGAGG
CGTGTCAGCCCTTGACCAGTCGCAGAACGTGCTCTCCTACCCCGAGAGCA
AATACGACAACTTGAGGAATGGATTTCAGTAGATGGCTTTCTCGCGATTG
ATTCACTGTCTCGTACTTCTCATCCTTGCTCTCATCCTCTCTGCTCGGTA
CTTTTGGAATGACGCAGCTGTGCTTCCGCTCCAGCCCAATCCTGCACCTA
CTACCGACACGAACGCTACCATCCCAGCCATGTCTACCGGTCTGAAGTCC
GTGGCCTACTTCGTCAATTGGGCGATCTATGGCCGCAACTACAATCCTCA
GGACATGCCGGCCGACAAACTGACTCATGTCCTATACGCATTTGCTAACG
TTCGCCCGGACACTGGTGAAGTTTATCTGTCCGACACCTGGTCGGACATT
GAGAAGCATTACCCCACAGACTCTTGGAATGACGTCGGTACCAATGTCTA
CGGCTGTGTCAAGCAGTTGTTCTTGCTCAAGCAGCAAAATAGGAAGTTGA
AGGTCTTGCTCTCCATTGGCGGTTGGACCTACTCTCCCAATTTCGCTCAG
GCCGCTAGCACTGATGCTGGCCGCACTAAGTTTGCTGAGACTGCAACTAA
ATTGGTCACTGATCTTGGATTCGATGGTATCGATATTGATTGGGAGTATC
CCAAAGATGATACAGAAGCGCAAAATATGGTCCTTCTGCTTCAGAAGTGT
CGAGAGACTCTGGATGCAACTGCTGGTGCGAGCAGGAAGTTCCTTCTCAC
CATCGCTTGTCCAGCTGGTCCTGCTAATTACACCAAGCTCAAGCTGTCTC
AGATGACGCCATATCTGGACTTTTACAATTTGATGGCCTACGACTATGCC
GGAAGTTGGGACACTGTTGCTGGCCATCAAGCCAACCTGTATCCCTCCGC
TGACAAGCCAGCATCGACGCCATTCTCAACCAATGAGGCAGTGAACTACT
ACATCCAGAAGGGTGGGGTCCCCTCGTCCAAGATTATCCTGGGAATGCCG
CTGTATGGGCGTGCCTTTACCAACACTGATGGACCCGGGACCGCATTCTC
GGGGGTGGGAGAGGGAAGCTGGGAACAAGGTGTCTGGGACTACAAAGCGC
TCCCAAGAACAGGAGCCACTGAACATGTCGATGCCAACCTGGGTGCATCG
TGGAGCTATGATCCCACGGCACGCACCATGGTCTCCTACGACACTGTGGC
CGTGGGCGAGATGAAGCTGGATTATATTACCAAGCTTCAGCTCGGCGGTG
GCATGTGGTGGGAAACCAGCGGCGACAAAGGAGGAAAAACCGCCAACAAA
GCTGACGGCAGCCTGATTGGAACCTTTGTGGAAGGGATTGGAGGCGTGTC
AGCCCTTGACCAGTCGCAGAACGTGCTCTCCTACCCCGAGAGCAAATACG
ACAACTTGAGGAATGGATTTCAGTAGATGGCTTTCTCGCGATTGATTCAC
TGTCTCGTACTTCTCATCCTTGCTCTCATCCTCTCTGCTCGGTACTTTTG
GAATGACGCAGCTGTGCTTCCGCTCCAGCCCAATCCTGCACCTACTACCG
ACACGAACGCTACCATCCCAGCCATGTCTACCGGTCTGAAGTCCGTGGCC
TACTTCGTCAATTGGGCGATCTATGGCCGCAACTACAATCCTCAGGACAT
GCCGGCCGACAAACTGACTCATGTCCTATACGCATTTGCTAACGTTCGCC
CGGACACTGGTGAAGTTTATCTGTCCGACACCTGGTCGGACATTGAGAAG
CATTACCCCACAGACTCTTGGAATGACGTCGGTACCAATGTCTACGGCTG
TGTCAAGCAGTTGTTCTTGCTCAAGCAGCAAAATAGGAAGTTGAAGGTCT
TGCTCTCCATTGGCGGTTGGACCTACTCTCCCAATTTCGCTCAGGCCGCT
AGCACTGATGCTGGCCGCACTAAGTTTGCTGAGACTGCAACTAAATTGGT
CACTGATCTTGGATTCGATGGTATCGATATTGATTGGGAGTATCCCAAAG
ATGATACAGAAGCGCAAAATATGGTCCTTCTGCTTCAGAAGTGTCGAGAG
ACTCTGGATGCAACTGCTGGTGCGAGCAGGAAGTTCCTTCTCACCATCGC
TTGTCCAGCTGGTCCTGCTAATTACACCAAGCTCAAGCTGTCTCAGATGA
CGCCATATCTGGACTTTTACAATTTGATGGCCTACGACTATGCCGGAAGT
TGGGACACTGTTGCTGGCCATCAAGCCAACCTGTATCCCTCCGCTGACAA
GCCAGCATCGACGCCATTCTCAACCAATGAGGCAGTGAACTACTACATCC
AGAAGGGTGGGGTCCCCTCGTCCAAGATTATCCTGGGAATGCCGCTGTAT
GGGCGTGCCTTTACCAACACTGATGGACCCGGGACCGCATTCTCGGGGGT
GGGAGAGGGAAGCTGGGAACAAGGTGTCTGGGACTACAAAGCGCTCCCAA
GAACAGGAGCCACTGAACATGTCGATGCCAACCTGGGTGCATCGTGGAGC
TATGATCCCACGGCACGCACCATGGTCTCCTACGACACTGTGGCCGTGGG
CGAGATGAAGCTGGATTATATTACCAAGCTTCAGCTCGGCGGTGGCATGT
GGTGGGAAACCAGCGGCGACAAAGGAGGAAAAACCGCCAACAAAGCTGAC
GGCAGCCTGATTGGAACCTTTGTGGAAGGGATTGGAGGCGTGTCAGCCCT
TGACCAGTCGCAGAACGTGCTCTCCTACCCCGAGAGCAAATACGACAACT
TGAGGAATGGATTTCAGTAGATGGCTTTCTCGCGATTGATTCACTGTCTC
GTACTTCTCATCCTTGCTCTCATCCTCTCTGCTCGGTACTTTTGGAATGA
CGCAGCTGTGCTTCCGCTCCAGCCCAATCCTGCACCTACTACCGACACGA
ACGCTACCATCCCAGCCATGTCTACCGGTCTGAAGTCCGTGGCCTACTTC
GTCAATTGGGCGATCTATGGCCGCAACTACAATCCTCAGGACATGCCGGC
CGACAAACTGACTCATGTCCTATACGCATTTGCTAACGTTCGCCCGGACA
CTGGTGAAGTTTATCTGTCCGACACCTGGTCGGACATTGAGAAGCATTAC
CCCACAGACTCTTGGAATGACGTCGGTACCAATGTCTACGGCTGTGTCAA
GCAGTTGTTCTTGCTCAAGCAGCAAAATAGGAAGTTGAAGGTCTTGCTCT
CCATTGGCGGTTGGACCTACTCTCCCAATTTCGCTCAGGCCGCTAGCACT
GATGCTGGCCGCACTAAGTTTGCTGAGACTGCAACTAAATTGGTCACTGA
TCTTGGATTCGATGGTATCGATATTGATTGGGAGTATCCCAAAGATGATA
CAGAAGCGCAAAATATGGTCCTTCTGCTTCAGAAGTGTCGAGAGACTCTG
GATGCAACTGCTGGTGCGAGCAGGAAGTTCCTTCTCACCATCGCTTGTCC
AGCTGGTCCTGCTAATTACACCAAGCTCAAGCTGTCTCAGATGACGCCAT
ATCTGGACTTTTACAATTTGATGGCCTACGACTATGCCGGAAGTTGGGAC
ACTGTTGCTGGCCATCAAGCCAACCTGTATCCCTCCGCTGACAAGCCAGC
ATCGACGCCATTCTCAACCAATGAGGCAGTGAACTACTACATCCAGAAGG
GTGGGGTCCCCTCGTCCAAGATTATCCTGGGAATGCCGCTGTATGGGCGT
GCCTTTACCAACACTGATGGACCCGGGACCGCATTCTCGGGGGTGGGAGA
GGGAAGCTGGGAACAAGGTGTCTGGGACTACAAAGCGCTCCCAAGAACAG
GAGCCACTGAACATGTCGATGCCAACCTGGGTGCATCGTGGAGCTATGAT
CCCACGGCACGCACCATGGTCTCCTACGACACTGTGGCCGTGGGCGAGAT
GAAGCTGGATTATATTACCAAGCTTCAGCTCGGCGGTGGCATGTGGTGGG
AAACCAGCGGCGACAAAGGAGGAAAAACCGCCAACAAAGCTGACGGCAGC
CTGATTGGAACCTTTGTGGAAGGGATTGGAGGCGTGTCAGCCCTTGACCA
GTCGCAGAACGTGCTCTCCTACCCCGAGAGCAAATACGACAACTTGAGGA
ATGGATTTCAGTAGATGGCTTTCTCGCGATTGATTCACTGTCTCGTACTT
CTCATCCTTGCTCTCATCCTCTCTGCTCGGTACTTTTGGAATGACGCAGC
TGTGCTTCCGCTCCAGCCCAATCCTGCACCTACTACCGACACGAACGCTA
CCATCCCAGCCATGTCTACCGGTCTGAAGTCCGTGGCCTACTTCGTCAAT
TGGGCGATCTATGGCCGCAACTACAATCCTCAGGACATGCCGGCCGACAA
ACTGACTCATGTCCTATACGCATTTGCTAACGTTCGCCCGGACACTGGTG
AAGTTTATCTGTCCGACACCTGGTCGGACATTGAGAAGCATTACCCCACA
GACTCTTGGAATGACGTCGGTACCAATGTCTACGGCTGTGTCAAGCAGTT
GTTCTTGCTCAAGCAGCAAAATAGGAAGTTGAAGGTCTTGCTCTCCATTG
GCGGTTGGACCTACTCTCCCAATTTCGCTCAGGCCGCTAGCACTGATGCT
GGCCGCACTAAGTTTGCTGAGACTGCAACTAAATTGGTCACTGATCTTGG
ATTCGATGGTATCGATATTGATTGGGAGTATCCCAAAGATGATACAGAAG
CGCAAAATATGGTCCTTCTGCTTCAGAAGTGTCGAGAGACTCTGGATGCA
ACTGCTGGTGCGAGCAGGAAGTTCCTTCTCACCATCGCTTGTCCAGCTGG
TCCTGCTAATTACACCAAGCTCAAGCTGTCTCAGATGACGCCATATCTGG
ACTTTTACAATTTGATGGCCTACGACTATGCCGGAAGTTGGGACACTGTT
GCTGGCCATCAAGCCAACCTGTATCCCTCCGCTGACAAGCCAGCATCGAC
GCCATTCTCAACCAATGAGGCAGTGAACTACTACATCCAGAAGGGTGGGG
TCCCCTCGTCCAAGATTATCCTGGGAATGCCGCTGTATGGGCGTGCCTTT
ACCAACACTGATGGACCCGGGACCGCATTCTCGGGGGTGGGAGAGGGAAG
CTGGGAACAAGGTGTCTGGGACTACAAAGCGCTCCCAAGAACAGGAGCCA
CTGAACATGTCGATGCCAACCTGGGTGCATCGTGGAGCTATGATCCCACG
GCACGCACCATGGTCTCCTACGACACTGTGGCCGTGGGCGAGATGAAGCT
GGATTATATTACCAAGCTTCAGCTCGGCGGTGGCATGTGGTGGGAAACCA
GCGGCGACAAAGGAGGAAAAACCGCCAACAAAGCTGACGGCAGCCTGATT
GGAACCTTTGTGGAAGGGATTGGAGGCGTGTCAGCCCTTGACCAGTCGCA
GAACGTGCTCTCCTACCCCGAGAGCAAATACGACAACTTGAGGAATGGAT
TTCAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004553 | hydrolase activity, hydrolyzing O-glycosyl compounds |
| GO:0008061 | chitin binding |
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
| Database | Accession |
|---|
| PFAM | PF00704 |
| InterPro | IPR011583 |
| InterPro | IPR001579 |
| InterPro | IPR001223 |
| InterPro | IPR017853 |
| InterPro | IPR029070 |
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-21) |
| Note | CAZy:GH18 |
| 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 |
|---|
| MCQH01000027 | supercontig | MCQH01000027:1866..3639 + |
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