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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch2:1016462..1019367- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_001641-T1 ID=KYF_001641-T1|Name=KYF_001641-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2906bp|location=Sequence derived from alignment at ch2:1016462..1019367- (Aspergillus niger KYF3)
ATGACCATCTACATCGCTTCACTGTAAGTGCCTAGCAATGTACACAACTA
CTAGTGTTTTCTTCTGACTGTCGCGGGGTTCAGTTTTCTGCCCTACACGG
TTAATTTCCATCAGAATGAACCCGAGATTCGTCCGGCGGAGGGGGCGAGC
CCTCAACCAACCAATCCCGCCGAGAATTCCACTCCTAACCCAAACGCGAC
TCTGAGCTTGTTCGAGAGGAACAATGGAGCGCCCCAAGTTGGCCTTACAC
CAGGTGCCACTACTGAGCACGAATGCATTTTCTCCACAGACATTTCCAAG
GCGGAACAAGAGCACACCGGGTTCCCTTTCCCCAAGACTGACGGCGAAGT
GACTCTGTTGACGGAGAGCGAAGCTCACTCCCCAGCCTGGGGCTCCACCT
TAGCCCTGAACCAACCTCGCCCACGAGCAGCATTCCCGGCCTCACCCTCG
ATCCTCAAGCATCAAGAAATCGGCCCTTCAGGGACAGAGGCGCCCAAAGA
AAAGCCACGATCGGTCCCGAAGACACCAACCTCGCATATCCGGGACAGCT
GGGCGGACCACAGTCGCAAAAGCTCATTCTCCTACGCCGACTGGACGATC
GAGACGGCCGAGCAGGGCAACGGAGGCTTGCGCAATGCTGTGCGATCGGC
CACGGACGCCGGACAGCTGGAAGACAAGGTCTGGGTGGGTACGTTGGGGA
TGCCCACTGATGCGCTACCGGAGCACACCAAGGAGGCCATCGCCGAAAAG
CTCGAAGATGAGTACGGTTCCGTGACCGTTTACGTCAGTGACGGTGACTT
TGATGGCCATTACACGCACTTCTGCAAGACTATCCTCTGGCCCGTGTTCC
ATTACCAGATTCCGGACAACCCCAAGAGCAAGGCTTACGAGGACCACTCC
TGGGTCTACTACGTCAAGACGAACCAAGCCTTTGCTGAGCGCATCGCAAA
GAACTGGAAGCGTGGTGATTCCATCTGGGTGCAGGATTACCACCTGCTGC
TGGTCCCGGCCATGCTGCGGAAACTGCTTCCCGATGCCCAGATTGGCTTT
TTCCTCCACATTGCCTTCCCCTCATCGGAGGTGTTCCGGTGCTTGGCGCC
TCGCAAGGAGCTTCTCGAGGGAATACTGGGTGCTAACCTGGTCGGGTTTC
AGACGGATGAGTATTGTCGACACTTCCTCCAGACGTGCAGCCGCATCCTC
TGTGTGGAGGCCACCAATGATGGGCTGCAGCTGGAGGATCGCTTTGTCAA
CGTTGGCAAATTCTCTATTGGTATTGACCCGACTTCATGGGACCAACGCC
GGCGGGCCGCAGACGTGGAACGATGGATCAAGACCATTTCGGAGCGTTAC
GAGGGGAAGCGACTAATCGTGTCGCGGGACAAGATCGACCAGGTGCGCGG
AATCCGACAGAAACTGCTGAGCTACGAACTCTTCCTCAATACATATCCCG
AATGGCGAGACCAGGTGGTGTTGATCCAGGTGGCGACCAGCACCACCGAG
CAGCCGGAGCTGGAAGCAACCATTTCCGATATCGCGATGCGGATCAACTC
CACTCACTCCACGCTTGCGCATCAGCCGTTGGTCTTCTTAAAGCAGGATC
TGGCTTTCCCCCAATATCTCGCCTTGATTTCCGTGGCAGACGCCCTGATT
ATCACCAGCTTACGTGAAGGCATGAACTTGACCAGCCATGAGTTTGTCTA
CTGCCAGGACGGCAAATGGGGCAACAAAAAGTACGGATCCCTGATCCTGA
GCGAGTTCACTGGCAGCGCGTCGGTGTTTGGCGACCATGCCCTTCTGGTC
AACCCCTGGGACTACCGTCAATGTGCGGAAGCTATCCATACCGCCTTGTC
GAGGGATGAGCAGGAGCGCCAGGAAGTGTGGACGAAGCTACACCAGGCAG
TACTGCAGAACTCTACCCACAACTGGGTCAAGTCATTCAGTGAGACGTTG
AGCCGGGTCTGGAACGAGCAGTCGTCCCGGGAGATCATGGCCGTGCCCCG
GCTTCAGATAAACAAGTTGGAGGAAATGTATCATCGATCGTCGCGCCGGC
TGATCATCGTGGACTATGAAGGCACTCTCGCCTCCTGGGGCTCACCAAAG
AGTATTATTGTGACGACTCCGCAGCGTGCGATCACAACACTGGCAGAACT
AACCGAGGATCCGCGGAACGTGGTGTATGTGATGAGCGCCCGCATGCCTG
AGGAGATGGAGCGGCTGTTCCGGCTGGTCACCGGCTTGGGTCTGATTGCC
GAAAACGGGTGCTTCGTGCGCGAGCCCAACTCGGAGACCTGGCTGAAGTT
GACGGACAAGGTCCAAACGGACGCGTGGAAGGCGGCAGTGTCGCACATCT
TGGAATACTACCAGGAACGCGCGGAAGGTAGCTGGGTCGAACAGCGGCAC
TGCTCGCTCATGTTTCACTACGAGTCGGCGGAGGACCAGGTGGCGGCGTC
GCGGCTGGCGTCAGAGTGTGCTGGCCACATCAATGATGCTTGTTTGAGCC
AAGGGGTGCATGCGGTTCCCGTGGAGCGTGCGCTGGTGGTGGAACCGGCG
GGCATCAACAAGGCATCGGCAGCGGAAGTGGCATGGCGGTCATGTCTCAA
GCAGAGCCAACGGGACGAGAGTGTGCCGCGGCCGGAGTTCCTGCTGGCGA
TTGGAGATGGTCGCGATGATGAATCAGTGTTCCGATGGGCCAACAAGCTC
GACAGCGCGCGAGCAGTCAACTACGCCATGACGGTGACGCTGGGATCCCG
TAGCACGGAAGCGAAGGCGACTCTGACACAGGGAGTGACCGGTAAGCTGC
TCTCAATAAATTCACGATAAGGAGTGAAAGGATGCTAACTGCAGGGTGAC
GAATAGGAGTCTTATCGTGTCTGGAGAAGCTGGCGGCAACCCGAACTGGG
CCGTGA back to topCoding sequence (CDS) from alignment at ch2:1016462..1019367- >KYF_001641-T1 ID=KYF_001641-T1|Name=KYF_001641-T1|organism=Aspergillus niger KYF3|type=CDS|length=8343bp|location=Sequence derived from alignment at ch2:1016462..1019367- (Aspergillus niger KYF3)
GAGTCTTATCGTGTCTGGAGAAGCTGGCGGCAACCCGAACTGGGCCGTGA
TTTTCTGCCCTACACGGTTAATTTCCATCAGAATGAACCCGAGATTCGTC
CGGCGGAGGGGGCGAGCCCTCAACCAACCAATCCCGCCGAGAATTCCACT
CCTAACCCAAACGCGACTCTGAGCTTGTTCGAGAGGAACAATGGAGCGCC
CCAAGTTGGCCTTACACCAGGTGCCACTACTGAGCACGAATGCATTTTCT
CCACAGACATTTCCAAGGCGGAACAAGAGCACACCGGGTTCCCTTTCCCC
AAGACTGACGGCGAAGTGACTCTGTTGACGGAGAGCGAAGCTCACTCCCC
AGCCTGGGGCTCCACCTTAGCCCTGAACCAACCTCGCCCACGAGCAGCAT
TCCCGGCCTCACCCTCGATCCTCAAGCATCAAGAAATCGGCCCTTCAGGG
ACAGAGGCGCCCAAAGAAAAGCCACGATCGGTCCCGAAGACACCAACCTC
GCATATCCGGGACAGCTGGGCGGACCACAGTCGCAAAAGCTCATTCTCCT
ACGCCGACTGGACGATCGAGACGGCCGAGCAGGGCAACGGAGGCTTGCGC
AATGCTGTGCGATCGGCCACGGACGCCGGACAGCTGGAAGACAAGGTCTG
GGTGGGTACGTTGGGGATGCCCACTGATGCGCTACCGGAGCACACCAAGG
AGGCCATCGCCGAAAAGCTCGAAGATGAGTACGGTTCCGTGACCGTTTAC
GTCAGTGACGGTGACTTTGATGGCCATTACACGCACTTCTGCAAGACTAT
CCTCTGGCCCGTGTTCCATTACCAGATTCCGGACAACCCCAAGAGCAAGG
CTTACGAGGACCACTCCTGGGTCTACTACGTCAAGACGAACCAAGCCTTT
GCTGAGCGCATCGCAAAGAACTGGAAGCGTGGTGATTCCATCTGGGTGCA
GGATTACCACCTGCTGCTGGTCCCGGCCATGCTGCGGAAACTGCTTCCCG
ATGCCCAGATTGGCTTTTTCCTCCACATTGCCTTCCCCTCATCGGAGGTG
TTCCGGTGCTTGGCGCCTCGCAAGGAGCTTCTCGAGGGAATACTGGGTGC
TAACCTGGTCGGGTTTCAGACGGATGAGTATTGTCGACACTTCCTCCAGA
CGTGCAGCCGCATCCTCTGTGTGGAGGCCACCAATGATGGGCTGCAGCTG
GAGGATCGCTTTGTCAACGTTGGCAAATTCTCTATTGGTATTGACCCGAC
TTCATGGGACCAACGCCGGCGGGCCGCAGACGTGGAACGATGGATCAAGA
CCATTTCGGAGCGTTACGAGGGGAAGCGACTAATCGTGTCGCGGGACAAG
ATCGACCAGGTGCGCGGAATCCGACAGAAACTGCTGAGCTACGAACTCTT
CCTCAATACATATCCCGAATGGCGAGACCAGGTGGTGTTGATCCAGGTGG
CGACCAGCACCACCGAGCAGCCGGAGCTGGAAGCAACCATTTCCGATATC
GCGATGCGGATCAACTCCACTCACTCCACGCTTGCGCATCAGCCGTTGGT
CTTCTTAAAGCAGGATCTGGCTTTCCCCCAATATCTCGCCTTGATTTCCG
TGGCAGACGCCCTGATTATCACCAGCTTACGTGAAGGCATGAACTTGACC
AGCCATGAGTTTGTCTACTGCCAGGACGGCAAATGGGGCAACAAAAAGTA
CGGATCCCTGATCCTGAGCGAGTTCACTGGCAGCGCGTCGGTGTTTGGCG
ACCATGCCCTTCTGGTCAACCCCTGGGACTACCGTCAATGTGCGGAAGCT
ATCCATACCGCCTTGTCGAGGGATGAGCAGGAGCGCCAGGAAGTGTGGAC
GAAGCTACACCAGGCAGTACTGCAGAACTCTACCCACAACTGGGTCAAGT
CATTCAGTGAGACGTTGAGCCGGGTCTGGAACGAGCAGTCGTCCCGGGAG
ATCATGGCCGTGCCCCGGCTTCAGATAAACAAGTTGGAGGAAATGTATCA
TCGATCGTCGCGCCGGCTGATCATCGTGGACTATGAAGGCACTCTCGCCT
CCTGGGGCTCACCAAAGAGTATTATTGTGACGACTCCGCAGCGTGCGATC
ACAACACTGGCAGAACTAACCGAGGATCCGCGGAACGTGGTGTATGTGAT
GAGCGCCCGCATGCCTGAGGAGATGGAGCGGCTGTTCCGGCTGGTCACCG
GCTTGGGTCTGATTGCCGAAAACGGGTGCTTCGTGCGCGAGCCCAACTCG
GAGACCTGGCTGAAGTTGACGGACAAGGTCCAAACGGACGCGTGGAAGGC
GGCAGTGTCGCACATCTTGGAATACTACCAGGAACGCGCGGAAGGTAGCT
GGGTCGAACAGCGGCACTGCTCGCTCATGTTTCACTACGAGTCGGCGGAG
GACCAGGTGGCGGCGTCGCGGCTGGCGTCAGAGTGTGCTGGCCACATCAA
TGATGCTTGTTTGAGCCAAGGGGTGCATGCGGTTCCCGTGGAGCGTGCGC
TGGTGGTGGAACCGGCGGGCATCAACAAGGCATCGGCAGCGGAAGTGGCA
TGGCGGTCATGTCTCAAGCAGAGCCAACGGGACGAGAGTGTGCCGCGGCC
GGAGTTCCTGCTGGCGATTGGAGATGGTCGCGATGATGAATCAGTGTTCC
GATGGGCCAACAAGCTCGACAGCGCGCGAGCAGTCAACTACGCCATGACG
GTGACGCTGGGATCCCGTAGCACGGAAGCGAAGGCGACTCTGACACAGGG
AGTGACCGATGACCATCTACATCGCTTCACTGAGTCTTATCGTGTCTGGA
GAAGCTGGCGGCAACCCGAACTGGGCCGTGATTTTCTGCCCTACACGGTT
AATTTCCATCAGAATGAACCCGAGATTCGTCCGGCGGAGGGGGCGAGCCC
TCAACCAACCAATCCCGCCGAGAATTCCACTCCTAACCCAAACGCGACTC
TGAGCTTGTTCGAGAGGAACAATGGAGCGCCCCAAGTTGGCCTTACACCA
GGTGCCACTACTGAGCACGAATGCATTTTCTCCACAGACATTTCCAAGGC
GGAACAAGAGCACACCGGGTTCCCTTTCCCCAAGACTGACGGCGAAGTGA
CTCTGTTGACGGAGAGCGAAGCTCACTCCCCAGCCTGGGGCTCCACCTTA
GCCCTGAACCAACCTCGCCCACGAGCAGCATTCCCGGCCTCACCCTCGAT
CCTCAAGCATCAAGAAATCGGCCCTTCAGGGACAGAGGCGCCCAAAGAAA
AGCCACGATCGGTCCCGAAGACACCAACCTCGCATATCCGGGACAGCTGG
GCGGACCACAGTCGCAAAAGCTCATTCTCCTACGCCGACTGGACGATCGA
GACGGCCGAGCAGGGCAACGGAGGCTTGCGCAATGCTGTGCGATCGGCCA
CGGACGCCGGACAGCTGGAAGACAAGGTCTGGGTGGGTACGTTGGGGATG
CCCACTGATGCGCTACCGGAGCACACCAAGGAGGCCATCGCCGAAAAGCT
CGAAGATGAGTACGGTTCCGTGACCGTTTACGTCAGTGACGGTGACTTTG
ATGGCCATTACACGCACTTCTGCAAGACTATCCTCTGGCCCGTGTTCCAT
TACCAGATTCCGGACAACCCCAAGAGCAAGGCTTACGAGGACCACTCCTG
GGTCTACTACGTCAAGACGAACCAAGCCTTTGCTGAGCGCATCGCAAAGA
ACTGGAAGCGTGGTGATTCCATCTGGGTGCAGGATTACCACCTGCTGCTG
GTCCCGGCCATGCTGCGGAAACTGCTTCCCGATGCCCAGATTGGCTTTTT
CCTCCACATTGCCTTCCCCTCATCGGAGGTGTTCCGGTGCTTGGCGCCTC
GCAAGGAGCTTCTCGAGGGAATACTGGGTGCTAACCTGGTCGGGTTTCAG
ACGGATGAGTATTGTCGACACTTCCTCCAGACGTGCAGCCGCATCCTCTG
TGTGGAGGCCACCAATGATGGGCTGCAGCTGGAGGATCGCTTTGTCAACG
TTGGCAAATTCTCTATTGGTATTGACCCGACTTCATGGGACCAACGCCGG
CGGGCCGCAGACGTGGAACGATGGATCAAGACCATTTCGGAGCGTTACGA
GGGGAAGCGACTAATCGTGTCGCGGGACAAGATCGACCAGGTGCGCGGAA
TCCGACAGAAACTGCTGAGCTACGAACTCTTCCTCAATACATATCCCGAA
TGGCGAGACCAGGTGGTGTTGATCCAGGTGGCGACCAGCACCACCGAGCA
GCCGGAGCTGGAAGCAACCATTTCCGATATCGCGATGCGGATCAACTCCA
CTCACTCCACGCTTGCGCATCAGCCGTTGGTCTTCTTAAAGCAGGATCTG
GCTTTCCCCCAATATCTCGCCTTGATTTCCGTGGCAGACGCCCTGATTAT
CACCAGCTTACGTGAAGGCATGAACTTGACCAGCCATGAGTTTGTCTACT
GCCAGGACGGCAAATGGGGCAACAAAAAGTACGGATCCCTGATCCTGAGC
GAGTTCACTGGCAGCGCGTCGGTGTTTGGCGACCATGCCCTTCTGGTCAA
CCCCTGGGACTACCGTCAATGTGCGGAAGCTATCCATACCGCCTTGTCGA
GGGATGAGCAGGAGCGCCAGGAAGTGTGGACGAAGCTACACCAGGCAGTA
CTGCAGAACTCTACCCACAACTGGGTCAAGTCATTCAGTGAGACGTTGAG
CCGGGTCTGGAACGAGCAGTCGTCCCGGGAGATCATGGCCGTGCCCCGGC
TTCAGATAAACAAGTTGGAGGAAATGTATCATCGATCGTCGCGCCGGCTG
ATCATCGTGGACTATGAAGGCACTCTCGCCTCCTGGGGCTCACCAAAGAG
TATTATTGTGACGACTCCGCAGCGTGCGATCACAACACTGGCAGAACTAA
CCGAGGATCCGCGGAACGTGGTGTATGTGATGAGCGCCCGCATGCCTGAG
GAGATGGAGCGGCTGTTCCGGCTGGTCACCGGCTTGGGTCTGATTGCCGA
AAACGGGTGCTTCGTGCGCGAGCCCAACTCGGAGACCTGGCTGAAGTTGA
CGGACAAGGTCCAAACGGACGCGTGGAAGGCGGCAGTGTCGCACATCTTG
GAATACTACCAGGAACGCGCGGAAGGTAGCTGGGTCGAACAGCGGCACTG
CTCGCTCATGTTTCACTACGAGTCGGCGGAGGACCAGGTGGCGGCGTCGC
GGCTGGCGTCAGAGTGTGCTGGCCACATCAATGATGCTTGTTTGAGCCAA
GGGGTGCATGCGGTTCCCGTGGAGCGTGCGCTGGTGGTGGAACCGGCGGG
CATCAACAAGGCATCGGCAGCGGAAGTGGCATGGCGGTCATGTCTCAAGC
AGAGCCAACGGGACGAGAGTGTGCCGCGGCCGGAGTTCCTGCTGGCGATT
GGAGATGGTCGCGATGATGAATCAGTGTTCCGATGGGCCAACAAGCTCGA
CAGCGCGCGAGCAGTCAACTACGCCATGACGGTGACGCTGGGATCCCGTA
GCACGGAAGCGAAGGCGACTCTGACACAGGGAGTGACCGATGACCATCTA
CATCGCTTCACTGAGTCTTATCGTGTCTGGAGAAGCTGGCGGCAACCCGA
ACTGGGCCGTGATTTTCTGCCCTACACGGTTAATTTCCATCAGAATGAAC
CCGAGATTCGTCCGGCGGAGGGGGCGAGCCCTCAACCAACCAATCCCGCC
GAGAATTCCACTCCTAACCCAAACGCGACTCTGAGCTTGTTCGAGAGGAA
CAATGGAGCGCCCCAAGTTGGCCTTACACCAGGTGCCACTACTGAGCACG
AATGCATTTTCTCCACAGACATTTCCAAGGCGGAACAAGAGCACACCGGG
TTCCCTTTCCCCAAGACTGACGGCGAAGTGACTCTGTTGACGGAGAGCGA
AGCTCACTCCCCAGCCTGGGGCTCCACCTTAGCCCTGAACCAACCTCGCC
CACGAGCAGCATTCCCGGCCTCACCCTCGATCCTCAAGCATCAAGAAATC
GGCCCTTCAGGGACAGAGGCGCCCAAAGAAAAGCCACGATCGGTCCCGAA
GACACCAACCTCGCATATCCGGGACAGCTGGGCGGACCACAGTCGCAAAA
GCTCATTCTCCTACGCCGACTGGACGATCGAGACGGCCGAGCAGGGCAAC
GGAGGCTTGCGCAATGCTGTGCGATCGGCCACGGACGCCGGACAGCTGGA
AGACAAGGTCTGGGTGGGTACGTTGGGGATGCCCACTGATGCGCTACCGG
AGCACACCAAGGAGGCCATCGCCGAAAAGCTCGAAGATGAGTACGGTTCC
GTGACCGTTTACGTCAGTGACGGTGACTTTGATGGCCATTACACGCACTT
CTGCAAGACTATCCTCTGGCCCGTGTTCCATTACCAGATTCCGGACAACC
CCAAGAGCAAGGCTTACGAGGACCACTCCTGGGTCTACTACGTCAAGACG
AACCAAGCCTTTGCTGAGCGCATCGCAAAGAACTGGAAGCGTGGTGATTC
CATCTGGGTGCAGGATTACCACCTGCTGCTGGTCCCGGCCATGCTGCGGA
AACTGCTTCCCGATGCCCAGATTGGCTTTTTCCTCCACATTGCCTTCCCC
TCATCGGAGGTGTTCCGGTGCTTGGCGCCTCGCAAGGAGCTTCTCGAGGG
AATACTGGGTGCTAACCTGGTCGGGTTTCAGACGGATGAGTATTGTCGAC
ACTTCCTCCAGACGTGCAGCCGCATCCTCTGTGTGGAGGCCACCAATGAT
GGGCTGCAGCTGGAGGATCGCTTTGTCAACGTTGGCAAATTCTCTATTGG
TATTGACCCGACTTCATGGGACCAACGCCGGCGGGCCGCAGACGTGGAAC
GATGGATCAAGACCATTTCGGAGCGTTACGAGGGGAAGCGACTAATCGTG
TCGCGGGACAAGATCGACCAGGTGCGCGGAATCCGACAGAAACTGCTGAG
CTACGAACTCTTCCTCAATACATATCCCGAATGGCGAGACCAGGTGGTGT
TGATCCAGGTGGCGACCAGCACCACCGAGCAGCCGGAGCTGGAAGCAACC
ATTTCCGATATCGCGATGCGGATCAACTCCACTCACTCCACGCTTGCGCA
TCAGCCGTTGGTCTTCTTAAAGCAGGATCTGGCTTTCCCCCAATATCTCG
CCTTGATTTCCGTGGCAGACGCCCTGATTATCACCAGCTTACGTGAAGGC
ATGAACTTGACCAGCCATGAGTTTGTCTACTGCCAGGACGGCAAATGGGG
CAACAAAAAGTACGGATCCCTGATCCTGAGCGAGTTCACTGGCAGCGCGT
CGGTGTTTGGCGACCATGCCCTTCTGGTCAACCCCTGGGACTACCGTCAA
TGTGCGGAAGCTATCCATACCGCCTTGTCGAGGGATGAGCAGGAGCGCCA
GGAAGTGTGGACGAAGCTACACCAGGCAGTACTGCAGAACTCTACCCACA
ACTGGGTCAAGTCATTCAGTGAGACGTTGAGCCGGGTCTGGAACGAGCAG
TCGTCCCGGGAGATCATGGCCGTGCCCCGGCTTCAGATAAACAAGTTGGA
GGAAATGTATCATCGATCGTCGCGCCGGCTGATCATCGTGGACTATGAAG
GCACTCTCGCCTCCTGGGGCTCACCAAAGAGTATTATTGTGACGACTCCG
CAGCGTGCGATCACAACACTGGCAGAACTAACCGAGGATCCGCGGAACGT
GGTGTATGTGATGAGCGCCCGCATGCCTGAGGAGATGGAGCGGCTGTTCC
GGCTGGTCACCGGCTTGGGTCTGATTGCCGAAAACGGGTGCTTCGTGCGC
GAGCCCAACTCGGAGACCTGGCTGAAGTTGACGGACAAGGTCCAAACGGA
CGCGTGGAAGGCGGCAGTGTCGCACATCTTGGAATACTACCAGGAACGCG
CGGAAGGTAGCTGGGTCGAACAGCGGCACTGCTCGCTCATGTTTCACTAC
GAGTCGGCGGAGGACCAGGTGGCGGCGTCGCGGCTGGCGTCAGAGTGTGC
TGGCCACATCAATGATGCTTGTTTGAGCCAAGGGGTGCATGCGGTTCCCG
TGGAGCGTGCGCTGGTGGTGGAACCGGCGGGCATCAACAAGGCATCGGCA
GCGGAAGTGGCATGGCGGTCATGTCTCAAGCAGAGCCAACGGGACGAGAG
TGTGCCGCGGCCGGAGTTCCTGCTGGCGATTGGAGATGGTCGCGATGATG
AATCAGTGTTCCGATGGGCCAACAAGCTCGACAGCGCGCGAGCAGTCAAC
TACGCCATGACGGTGACGCTGGGATCCCGTAGCACGGAAGCGAAGGCGAC
TCTGACACAGGGAGTGACCGATGACCATCTACATCGCTTCACT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005992 | trehalose biosynthetic process |
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:
Properties
| Property Name | Value |
|---|
| Note | CAZy:GT20 |
| DBxref | InterPro:IPR036412 |
| DBxref | InterPro:IPR006379 |
| DBxref | InterPro:IPR001830 |
| DBxref | InterPro:IPR023214 |
| DBxref | InterPro:IPR003337 |
| DBxref | PFAM:PF02358 |
| DBxref | PFAM:PF00982 |
| 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 |
|---|
| ch2 | supercontig | ch2:1016462..1019367 - |
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