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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000007.1:3078787..3080711+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_52630-T1 ID=ATCC64974_52630-T1|Name=ATCC64974_52630-T1|organism=Aspergillus niger N402|type=mRNA|length=1925bp|location=Sequence derived from alignment at OGUI01000007.1:3078787..3080711+ (Aspergillus niger N402) ATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGT
GTGTCTTTTTTGCGGAGAGAAATACGTGTGGGCCGTTTTCTGATAGACTG
CAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGC
TAGAGGTATGTATCTATTCGGGAAGTGCTCAGGGGTTCAAATGCTAATTG
CAATTAGCCGTCGCCGATGCCATCAGAACAGTACGCTTGCTTCGATATCG
ATATGACAAATGAGGGGCTAACCGCAACGCAGTCTTTGGGACCCAGGGGT
ATGGACAAGATGGTAGGAAACATGTCTACTAACATGGAGGTCCCGTGGCT
AACATAGTAATAGATCCAAACACCCAAGGGAAACACAATCATCGTACGAT
CACCTCTCCGTATACCGACACACACCCCCCGCTAACCCCCGCAGACCAAT
GATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAG
GATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTA
CCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGC
CTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAG
AGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCA
ACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCC
TCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGA
TTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCC
GCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAG
ATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGG
TCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCA
GCCCGCCTAAGCCTGATGTAGGGTCGATGATTTTTTGGACATTGGAATGG
GATACTAACAATAGCTTTAGATGGAGAACCAGATTGTTGTGAACGACTAC
CGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACAT
GGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGT
CCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGT
CTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCT
CTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTG
AGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGT
GCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAA
CCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACG
AGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTG
AAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGC
CCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCT
GCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCA
GAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCG
CCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCG
TGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGT
ACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAAT
TGATGACATTGCTTTGTCGCGGTGA back to topCoding sequence (CDS) from alignment at OGUI01000007.1:3078787..3080711+ >ATCC64974_52630-T1 ID=ATCC64974_52630-T1|Name=ATCC64974_52630-T1|organism=Aspergillus niger N402|type=CDS|length=11277bp|location=Sequence derived from alignment at OGUI01000007.1:3078787..3080711+ (Aspergillus niger N402) ATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGA CAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGCTAGAG CCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGGACAAG ATGATCCAAACACCCAAGGGAAACACAATCATCACCAATGATGGAAACAC CATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCTGGTCG ATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGTCCGTT GTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAA GGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCG CCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGACGGAC CGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAGATTGT TTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGTGTTGA AGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATATCCGT ATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTTGATGG CTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTACCAGAA TTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAG CCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATGGACAA GATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAAGATCC AGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCCGTGAT GCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATTTTGGC CGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGG GCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGCTGGGT ACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAA GGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGTTTCGA TCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGCGTTCC CTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCT CATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCTTGCCA TGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGGCATTC GCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCCGGTCT GAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCAGGGCC AGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACGACATC ACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCGATCGA GCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGATGACATTGCTT TGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAAT GCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTT GGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGG GTATGGACAAGATGATCCAAACACCCAAGGGAAACACAATCATCACCAAT GATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAG GATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTA CCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGC CTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAG AGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCA ACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCC TCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGA TTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCC GCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAG ATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGG TCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCA GCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGC CAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGT CAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCA TCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTC AAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTG CAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGG ACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCT CGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCA GACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGG CTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAG AAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCA TGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCT GGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAG AATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCA TGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGA AGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACC AGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGA TGACATTGCTTTGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCC CCGGCAACAATGCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACG TCCAACATCTTGGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTT GGGACCCAGGGGTATGGACAAGATGATCCAAACACCCAAGGGAAACACAA TCATCACCAATGATGGAAACACCATGTTGAGGGATATGAGCGTCATGCAC CCCGCCGCTAGGATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGC TGGTGATGGTACCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTG CCGCAGAGCGCCTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAG TCCTTCCAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTC TCGCCCCATCAACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCA CCTCCCTCTCCTCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCT ATGGCCGTGGATTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAA CGTGGACCTCCGCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTG AGGACAGTGAGATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAG AGCAGCGGCGGTCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCA GTTCCAGCTCAGCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGA ACGACTACCGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTC CTCAACATGGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGAT CCAGAAGTCCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCC TTTCTCGTCTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTC GAGTTCCTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTC TTTCACTGAGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGC AGTCTGGTGCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCC GCCGCCAACCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCAT TCTGGACGAGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTT GTCTGGTGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATT GAGATCGCCCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGA GGCTATCTGCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCA CGCTGGCAGAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTG CGCCACCGCCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAG TGGTGGCGTGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCC TGGTGAGTACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATT ATGAGAATTGATGACATTGCTTTGTCGCGGTGAATGGCGTCGACAGCCTC CCAGCCGGCCCCCGGCAACAATGCTTTCAAGGACAAGGAGAAGCCTATGG CCGTCCGTACGTCCAACATCTTGGCTGCTAGAGCCGTCGCCGATGCCATC AGAACATCTTTGGGACCCAGGGGTATGGACAAGATGATCCAAACACCCAA GGGAAACACAATCATCACCAATGATGGAAACACCATGTTGAGGGATATGA GCGTCATGCACCCCGCCGCTAGGATGCTGGTCGATCTCAGTGCGGCCCAG GATGTCGAGGCTGGTGATGGTACCACGTCCGTTGTCGTTATTGCCGGAAG CCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAAGGGTATCCATCCCACTG TCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTC CATAACATGTCTCGCCCCATCAACCTGACGGACCGCTCCACCCTCCTTCA GGCTGCTTCCACCTCCCTCTCCTCCAAGATTGTTTCGCAGCACTCCGGCC TCCTCGGCCCTATGGCCGTGGATTCCGTGTTGAAGGTCGTCGACCCCAAG ACCGCCGAGAACGTGGACCTCCGCAATATCCGTATAGTGAAGAAGGTTGG CGGAACGATTGAGGACAGTGAGATGGTTGATGGCTTGGTTCTGAACCAGC AGGTCATCAAGAGCAGCGGCGGTCCTACCAGAATTGAGAAGGCCCGGATA GGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAGCCTGATATGGAGAACCA GATTGTTGTGAACGACTACCGCCAGATGGACAAGATCCTCAAGGAAGAGC GCCAATACCTCCTCAACATGGTCAAGAAGATCCAGAAGACCAAGTGCAAT GTCCTTCTGATCCAGAAGTCCATCCTCCGTGATGCCGTCAACGACCTTTC CCTCCACTTCCTTTCTCGTCTCAAAATTTTGGCCGTCAAGGACATTGAGC GTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCC AACATCGACTCTTTCACTGAGGACAAGCTGGGTACTGCCGACCTGGTCGA GGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAAGGTTACCGGTATCAAGA CCCCTGCTGCCGCCGCCAACCAGACCGTTTCGATCGTCGCTCGTGGCGCC AACAACCTCATTCTGGACGAGGCTGAGCGTTCCCTTCACGACGCTCTCTG TGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTG CCCCTGAGATTGAGATCGCCCATGCCCTTGCCATGCGTGCTCGTCAGCTG ACCGGCACGGAGGCTATCTGCTGGAAGGCATTCGCTGACGCCATGGAGGT CATTCCCACCACGCTGGCAGAGAATGCCGGTCTGAACTCGATCAAGGTGG TCACTGACCTGCGCCACCGCCATGCCCAGGGCCAGCACAACGCAGGAGTC AGCATTCGCAGTGGTGGCGTGAAGGACGACATCACTGAGGAGAACATCCT GCAGCCGCTCCTGGTGAGTACCAGCGCGATCGAGCTGGCTGCTGAGACAG TGAAGATGATTATGAGAATTGATGACATTGCTTTGTCGCGGTGAATGGCG TCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGACAAGGA GAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGCTAGAGCCGTCG CCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGGACAAGATGATC CAAACACCCAAGGGAAACACAATCATCACCAATGATGGAAACACCATGTT GAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCTGGTCGATCTCA GTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGTCCGTTGTCGTT ATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAAGGGTAT CCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCGCCGCTG TCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGACGGACCGCTCC ACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAGATTGTTTCGCA GCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGTGTTGAAGGTCG TCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATATCCGTATAGTG AAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTTGATGGCTTGGT TCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTACCAGAATTGAGA AGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAGCCTGAT ATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATGGACAAGATCCT CAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAAGATCCAGAAGA CCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCCGTGATGCCGTC AACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATTTTGGCCGTCAA GGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGGGCTGCA AGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGCTGGGTACTGCC GACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAAGGTTAC CGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGTTTCGATCGTCG CTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGCGTTCCCTTCAC GACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCTCATCGC TGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCTTGCCATGCGTG CTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGGCATTCGCTGAC GCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCCGGTCTGAACTC GATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCAGGGCCAGCACA ACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACGACATCACTGAG GAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCGATCGAGCTGGC TGCTGAGACAGTGAAGATGATTATGAGAATTGATGACATTGCTTTGTCGC GGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTC AAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGC TAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGG ACAAGATGATCCAAACACCCAAGGGAAACACAATCATCACCAATGATGGA AACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCT GGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGT CCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTT GGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGC TGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGA CGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAG ATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGT GTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATA TCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTT GATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTAC CAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGC CTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATG GACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAA GATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCC GTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATT TTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAG TCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGC TGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTAT GTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGT TTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGC GTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGC GCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCT TGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGG CATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCC GGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCA GGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACG ACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCG ATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGATGACAT TGCTTTGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCA ACAATGCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAAC ATCTTGGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACC CAGGGGTATGGACAAGATGATCCAAACACCCAAGGGAAACACAATCATCA CCAATGATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCC GCTAGGATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGA TGGTACCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAG AGCGCCTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTC CAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCC CATCAACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCC TCTCCTCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCC GTGGATTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGA CCTCCGCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACA GTGAGATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGC GGCGGTCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCA GCTCAGCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACT ACCGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAAC ATGGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAA GTCCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTC GTCTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTC CTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCAC TGAGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTG GTGCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCC AACCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGA CGAGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGG TGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATC GCCCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTAT CTGCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGG CAGAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCAC CGCCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGG CGTGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGA GTACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGA ATTGATGACATTGCTTTGTCGCGGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
Term | Definition |
GO:0006457 | protein folding |
Vocabulary: Molecular Function
Term | Definition |
GO:0051082 | unfolded protein binding |
GO:0005524 | ATP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
Feature Name | Unique Name | Species | Type |
ATCC64974_52630-T1 | ATCC64974_52630-T1-protein | Aspergillus niger N402 | polypeptide |
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
Property Name | Value |
Note | BUSCO:EOG09261XNJ |
DBxref | InterPro:IPR002194 |
DBxref | InterPro:IPR027413 |
DBxref | InterPro:IPR027409 |
DBxref | InterPro:IPR027410 |
DBxref | InterPro:IPR012717 |
DBxref | InterPro:IPR002423 |
DBxref | InterPro:IPR017998 |
DBxref | PFAM:PF00118 |
Product | T-complex protein 1 subunit delta |
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 |
OGUI01000007.1 | supercontig | OGUI01000007.1:3078787..3080711 + |
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