|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:1611442..1613864- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_14675-T1 ID=CAN33_14675-T1|Name=CAN33_14675-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2423bp|location=Sequence derived from alignment at NKJJ01000010.1:1611442..1613864- (Aspergillus niger FDAARGOS_311)
ATGGCCATGACGTTGGGCAAGGATGTTTCCGCTCTGTTCCCGGATGTCCT
CAAGAACATTGCGACCAATGATCTCGAGCAGAAGAAACTAGTATACCTCT
ATCTCATGTGCGTATTCGCTCGTTATCTTATTATTCGATCTCTACTGAAC
ACTCGCTGCGTAATAGGAACTACGCCAAATCTCACCCGGACCTTTGCATT
CTCGCCGTCAACACCTTCGTTCAAGACTCCGAAGACCCGAACCCCCTGAT
CAGGGCCCTTGCGATCCGGACAATGGGATGTATCCGTGTGGACAAGATGG
TGGATTATATGGAGGAGCCCCTTCGCAAGACCCTCCGCGATGAGTCGCCG
TATGTCCGCAAGACTGCCGCGATCTGTGTAGCGAAGCTCTTCGACCTGAA
CCCCGCGATGTGCCTGGAAAATGGCTTCCTTGAGATGCTGCAAGAGATGA
TTGGGGATCCTAACCCCATGGTGGTCGCCAACTCCGTTACCGCACTGTCA
GAAATCTACCATGCTGCCCCTGAAACGCAAGCCCTCAAGGTGACCTCCAA
CACACTGCGCAAGCTTCTCATGGCCTTGAACGAGTGCACGGAATGGGGTC
GGGTCACTATTTTGACTACTCTGGCCGAGTACAGAACCAATGAAGTGACT
GAATCTGAACACATTTGCGAAAGGGTTTCTCCCCAGTTCCAACATGCCAA
CCCAAGTGTTGTCCTGGCGGCAGTTAAGGTGGTTTTCCTTCACATGAGGA
ACGTCAACTATGAGCTGGCGAAAACCTATCTGAAGAAGATGGCTCCCCCG
CTAGGTAAGATAATCTTTGATTCTGCTGACTGACTGGCTCGCTGATGTAT
TATGTTCAGTCACGCTGGTGTCGTCCGCGCCCGAAGTCCAATATGTGGCT
CTACGGAACATTGATTTATTGCTACAGAAGCAACCGGATATTCTTAACAA
GGAACTCCGGGTCTTCTTCTGCAAGTACAATGACCCGCCGTACGTCAAGT
TCCAGAAGCTAGAGATCATGGTCCGCATAGCGAATGACCGCAACGTCGAC
CAGCTCCTGGCCGAGCTGAAGGAGTACGCGCTGGAGGTGGACATGGACTT
TGTGCGCCGTGCTGTCAAAGCGATCGGTCAGGTTGCCATCAAGATCGAGA
GCGCCAGCGAAAAGTGTGTCAACACCTTGCTGGACCTCATTAATACCAAG
GTAAATTATGTGGTGCAGGAGGCGATCGTGGTCATCAAGGACATCTTCCG
CAAATATCCCGGCTACGAAGGAATTATCCCCACACTGTGCAAGTGCATCG
ACGAACTGGATGAGCCCAATGCACGAGCTGCGCTTATCTGGATTGTTGGT
CAGTATGCGGAGAAGATCAGCAACGCGGGTGACATTCTTGCTGGTTTCGT
GGAAGGCTTCAATGAAGAGTTCTCTCAGGTTCGTTTATTGTTCTCTGTAA
GCCTCTCGGCCAATTGCTAATTCATTGTGCAGACCCAGCTGCAGATCTTG
ACCGCCGTTGTCAAGCTCTTCCTCAAGCGGCCCGAGAAGGCTCAGGGGCT
TGTCCAGAAAGTGCTGCAGGCGGCCACGGCTGAAAATGACAACCCCGATG
TCCGCGATAGGGCTTACGTCTATTGGCGCTTGCTGTCTAACACGAGCGAC
CCCAATGCTACTAAGAACATCGTGCTCTCTGACAAACCGCCGATCGTCAC
CACAATCCAGTCTCTTCCCCCGAATCTGCTCGATCAGCTACTGGGTGAAC
TGTCCACCCTCGCATCTGTCTACCACAAGCCCCCGGAGCAATTCGTCGGA
CAGGGCAGATTCGGTGCAGATGCAGTACAAAGAGCTGCTATCGAGTATGT
CCCATCCTCGCTTCACAATGCTGGTGTCTCGGAATCCGCGCTAATGAACA
TCCTAGGGAACAAATCCAAAACGCTCGGGAGAATCCGTTGGCAGCTGCGG
CGGCAGCAGCTGCGGTTACTGGCAGTGCTCCACCTCCGCAGTCCCAGAGC
AATGTCGAGAATTTGCTGGATATCGACTTCGATGGCACTGCGCCGGCATC
CGCTCAGAAAGAACCGGGTGGTGGGATGTCAGGTCTCGAAGGTCTGGCCG
GAACGCCCGTCCGGGTGGAATCTCCGGCCGCAGGGGCACCTTCTGGAAGC
AACAACCTGGACGACCTGCTCGGAGTGTTTGGCGATGGCGCTGCAGCCGC
TCCGGCCAGCGGGAGCGGCGCTCCCAATGGTGGTGCAGCAGACTTGATGA
ATGGCTTTGAGGGCTGGACCTGTCTGGAGGTGGCATGGCCTCACCACCCC
CTGGAGGAAGCCAACCGAAGAAGACAAATGAGGATATCATGTCGTTATTC
TAAGCGCGATGAGCCATGCCTGTATGATGGCGCACGAGTTCGTATAGCTG
AATCAGAGGTGCGGGAAGGTTGA back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:1611442..1613864- >CAN33_14675-T1 ID=CAN33_14675-T1|Name=CAN33_14675-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10965bp|location=Sequence derived from alignment at NKJJ01000010.1:1611442..1613864- (Aspergillus niger FDAARGOS_311)
GGAACAAATCCAAAACGCTCGGGAGAATCCGTTGGCAGCTGCGGCGGCAG
CAGCTGCGGTTACTGGCAGTGCTCCACCTCCGCAGTCCCAGAGCAATGTC
GAGAATTTGCTGGATATCGACTTCGATGGCACTGCGCCGGCATCCGCTCA
GAAAGAACCGGGTGGTGGGATGTCAGGTCTCGAAGGTCTGGCCGGAACGC
CCGTCCGGGTGGAATCTCCGGCCGCAGGGGCACCTTCTGGAAGCAACAAC
CTGGACGACCTGCTCGGAGTGTTTGGCGATGGCGCTGCAGCCGCTCCGGC
CAGCGGGAGCGGCGCTCCCAATGGTGGTGCAGCAGACTTGATGAATGGCT
TTGAGGGCTGGACCTGTCTGGAGGTGGCATGGCCTCACCACCCCCTGGAG
GAAGCCAACCGAAGAAGACAAATGAGGATATCATGTCGTTATTCTAAGCG
CGATGAGCCATGCCTGTATGATGGCGCACGAGTTCGTATAGCTGAATCAG
AGGTGCGGGAAGGTTGAACCCAGCTGCAGATCTTGACCGCCGTTGTCAAG
CTCTTCCTCAAGCGGCCCGAGAAGGCTCAGGGGCTTGTCCAGAAAGTGCT
GCAGGCGGCCACGGCTGAAAATGACAACCCCGATGTCCGCGATAGGGCTT
ACGTCTATTGGCGCTTGCTGTCTAACACGAGCGACCCCAATGCTACTAAG
AACATCGTGCTCTCTGACAAACCGCCGATCGTCACCACAATCCAGTCTCT
TCCCCCGAATCTGCTCGATCAGCTACTGGGTGAACTGTCCACCCTCGCAT
CTGTCTACCACAAGCCCCCGGAGCAATTCGTCGGACAGGGCAGATTCGGT
GCAGATGCAGTACAAAGAGCTGCTATCGATCACGCTGGTGTCGTCCGCGC
CCGAAGTCCAATATGTGGCTCTACGGAACATTGATTTATTGCTACAGAAG
CAACCGGATATTCTTAACAAGGAACTCCGGGTCTTCTTCTGCAAGTACAA
TGACCCGCCGTACGTCAAGTTCCAGAAGCTAGAGATCATGGTCCGCATAG
CGAATGACCGCAACGTCGACCAGCTCCTGGCCGAGCTGAAGGAGTACGCG
CTGGAGGTGGACATGGACTTTGTGCGCCGTGCTGTCAAAGCGATCGGTCA
GGTTGCCATCAAGATCGAGAGCGCCAGCGAAAAGTGTGTCAACACCTTGC
TGGACCTCATTAATACCAAGGTAAATTATGTGGTGCAGGAGGCGATCGTG
GTCATCAAGGACATCTTCCGCAAATATCCCGGCTACGAAGGAATTATCCC
CACACTGTGCAAGTGCATCGACGAACTGGATGAGCCCAATGCACGAGCTG
CGCTTATCTGGATTGTTGGTCAGTATGCGGAGAAGATCAGCAACGCGGGT
GACATTCTTGCTGGTTTCGTGGAAGGCTTCAATGAAGAGTTCTCTCAGGA
ACTACGCCAAATCTCACCCGGACCTTTGCATTCTCGCCGTCAACACCTTC
GTTCAAGACTCCGAAGACCCGAACCCCCTGATCAGGGCCCTTGCGATCCG
GACAATGGGATGTATCCGTGTGGACAAGATGGTGGATTATATGGAGGAGC
CCCTTCGCAAGACCCTCCGCGATGAGTCGCCGTATGTCCGCAAGACTGCC
GCGATCTGTGTAGCGAAGCTCTTCGACCTGAACCCCGCGATGTGCCTGGA
AAATGGCTTCCTTGAGATGCTGCAAGAGATGATTGGGGATCCTAACCCCA
TGGTGGTCGCCAACTCCGTTACCGCACTGTCAGAAATCTACCATGCTGCC
CCTGAAACGCAAGCCCTCAAGGTGACCTCCAACACACTGCGCAAGCTTCT
CATGGCCTTGAACGAGTGCACGGAATGGGGTCGGGTCACTATTTTGACTA
CTCTGGCCGAGTACAGAACCAATGAAGTGACTGAATCTGAACACATTTGC
GAAAGGGTTTCTCCCCAGTTCCAACATGCCAACCCAAGTGTTGTCCTGGC
GGCAGTTAAGGTGGTTTTCCTTCACATGAGGAACGTCAACTATGAGCTGG
CGAAAACCTATCTGAAGAAGATGGCTCCCCCGCTAGATGGCCATGACGTT
GGGCAAGGATGTTTCCGCTCTGTTCCCGGATGTCCTCAAGAACATTGCGA
CCAATGATCTCGAGCAGAAGAAACTAGTATACCTCTATCTCATGGAACAA
ATCCAAAACGCTCGGGAGAATCCGTTGGCAGCTGCGGCGGCAGCAGCTGC
GGTTACTGGCAGTGCTCCACCTCCGCAGTCCCAGAGCAATGTCGAGAATT
TGCTGGATATCGACTTCGATGGCACTGCGCCGGCATCCGCTCAGAAAGAA
CCGGGTGGTGGGATGTCAGGTCTCGAAGGTCTGGCCGGAACGCCCGTCCG
GGTGGAATCTCCGGCCGCAGGGGCACCTTCTGGAAGCAACAACCTGGACG
ACCTGCTCGGAGTGTTTGGCGATGGCGCTGCAGCCGCTCCGGCCAGCGGG
AGCGGCGCTCCCAATGGTGGTGCAGCAGACTTGATGAATGGCTTTGAGGG
CTGGACCTGTCTGGAGGTGGCATGGCCTCACCACCCCCTGGAGGAAGCCA
ACCGAAGAAGACAAATGAGGATATCATGTCGTTATTCTAAGCGCGATGAG
CCATGCCTGTATGATGGCGCACGAGTTCGTATAGCTGAATCAGAGGTGCG
GGAAGGTTGAACCCAGCTGCAGATCTTGACCGCCGTTGTCAAGCTCTTCC
TCAAGCGGCCCGAGAAGGCTCAGGGGCTTGTCCAGAAAGTGCTGCAGGCG
GCCACGGCTGAAAATGACAACCCCGATGTCCGCGATAGGGCTTACGTCTA
TTGGCGCTTGCTGTCTAACACGAGCGACCCCAATGCTACTAAGAACATCG
TGCTCTCTGACAAACCGCCGATCGTCACCACAATCCAGTCTCTTCCCCCG
AATCTGCTCGATCAGCTACTGGGTGAACTGTCCACCCTCGCATCTGTCTA
CCACAAGCCCCCGGAGCAATTCGTCGGACAGGGCAGATTCGGTGCAGATG
CAGTACAAAGAGCTGCTATCGATCACGCTGGTGTCGTCCGCGCCCGAAGT
CCAATATGTGGCTCTACGGAACATTGATTTATTGCTACAGAAGCAACCGG
ATATTCTTAACAAGGAACTCCGGGTCTTCTTCTGCAAGTACAATGACCCG
CCGTACGTCAAGTTCCAGAAGCTAGAGATCATGGTCCGCATAGCGAATGA
CCGCAACGTCGACCAGCTCCTGGCCGAGCTGAAGGAGTACGCGCTGGAGG
TGGACATGGACTTTGTGCGCCGTGCTGTCAAAGCGATCGGTCAGGTTGCC
ATCAAGATCGAGAGCGCCAGCGAAAAGTGTGTCAACACCTTGCTGGACCT
CATTAATACCAAGGTAAATTATGTGGTGCAGGAGGCGATCGTGGTCATCA
AGGACATCTTCCGCAAATATCCCGGCTACGAAGGAATTATCCCCACACTG
TGCAAGTGCATCGACGAACTGGATGAGCCCAATGCACGAGCTGCGCTTAT
CTGGATTGTTGGTCAGTATGCGGAGAAGATCAGCAACGCGGGTGACATTC
TTGCTGGTTTCGTGGAAGGCTTCAATGAAGAGTTCTCTCAGGAACTACGC
CAAATCTCACCCGGACCTTTGCATTCTCGCCGTCAACACCTTCGTTCAAG
ACTCCGAAGACCCGAACCCCCTGATCAGGGCCCTTGCGATCCGGACAATG
GGATGTATCCGTGTGGACAAGATGGTGGATTATATGGAGGAGCCCCTTCG
CAAGACCCTCCGCGATGAGTCGCCGTATGTCCGCAAGACTGCCGCGATCT
GTGTAGCGAAGCTCTTCGACCTGAACCCCGCGATGTGCCTGGAAAATGGC
TTCCTTGAGATGCTGCAAGAGATGATTGGGGATCCTAACCCCATGGTGGT
CGCCAACTCCGTTACCGCACTGTCAGAAATCTACCATGCTGCCCCTGAAA
CGCAAGCCCTCAAGGTGACCTCCAACACACTGCGCAAGCTTCTCATGGCC
TTGAACGAGTGCACGGAATGGGGTCGGGTCACTATTTTGACTACTCTGGC
CGAGTACAGAACCAATGAAGTGACTGAATCTGAACACATTTGCGAAAGGG
TTTCTCCCCAGTTCCAACATGCCAACCCAAGTGTTGTCCTGGCGGCAGTT
AAGGTGGTTTTCCTTCACATGAGGAACGTCAACTATGAGCTGGCGAAAAC
CTATCTGAAGAAGATGGCTCCCCCGCTAGATGGCCATGACGTTGGGCAAG
GATGTTTCCGCTCTGTTCCCGGATGTCCTCAAGAACATTGCGACCAATGA
TCTCGAGCAGAAGAAACTAGTATACCTCTATCTCATGGAACAAATCCAAA
ACGCTCGGGAGAATCCGTTGGCAGCTGCGGCGGCAGCAGCTGCGGTTACT
GGCAGTGCTCCACCTCCGCAGTCCCAGAGCAATGTCGAGAATTTGCTGGA
TATCGACTTCGATGGCACTGCGCCGGCATCCGCTCAGAAAGAACCGGGTG
GTGGGATGTCAGGTCTCGAAGGTCTGGCCGGAACGCCCGTCCGGGTGGAA
TCTCCGGCCGCAGGGGCACCTTCTGGAAGCAACAACCTGGACGACCTGCT
CGGAGTGTTTGGCGATGGCGCTGCAGCCGCTCCGGCCAGCGGGAGCGGCG
CTCCCAATGGTGGTGCAGCAGACTTGATGAATGGCTTTGAGGGCTGGACC
TGTCTGGAGGTGGCATGGCCTCACCACCCCCTGGAGGAAGCCAACCGAAG
AAGACAAATGAGGATATCATGTCGTTATTCTAAGCGCGATGAGCCATGCC
TGTATGATGGCGCACGAGTTCGTATAGCTGAATCAGAGGTGCGGGAAGGT
TGAACCCAGCTGCAGATCTTGACCGCCGTTGTCAAGCTCTTCCTCAAGCG
GCCCGAGAAGGCTCAGGGGCTTGTCCAGAAAGTGCTGCAGGCGGCCACGG
CTGAAAATGACAACCCCGATGTCCGCGATAGGGCTTACGTCTATTGGCGC
TTGCTGTCTAACACGAGCGACCCCAATGCTACTAAGAACATCGTGCTCTC
TGACAAACCGCCGATCGTCACCACAATCCAGTCTCTTCCCCCGAATCTGC
TCGATCAGCTACTGGGTGAACTGTCCACCCTCGCATCTGTCTACCACAAG
CCCCCGGAGCAATTCGTCGGACAGGGCAGATTCGGTGCAGATGCAGTACA
AAGAGCTGCTATCGATCACGCTGGTGTCGTCCGCGCCCGAAGTCCAATAT
GTGGCTCTACGGAACATTGATTTATTGCTACAGAAGCAACCGGATATTCT
TAACAAGGAACTCCGGGTCTTCTTCTGCAAGTACAATGACCCGCCGTACG
TCAAGTTCCAGAAGCTAGAGATCATGGTCCGCATAGCGAATGACCGCAAC
GTCGACCAGCTCCTGGCCGAGCTGAAGGAGTACGCGCTGGAGGTGGACAT
GGACTTTGTGCGCCGTGCTGTCAAAGCGATCGGTCAGGTTGCCATCAAGA
TCGAGAGCGCCAGCGAAAAGTGTGTCAACACCTTGCTGGACCTCATTAAT
ACCAAGGTAAATTATGTGGTGCAGGAGGCGATCGTGGTCATCAAGGACAT
CTTCCGCAAATATCCCGGCTACGAAGGAATTATCCCCACACTGTGCAAGT
GCATCGACGAACTGGATGAGCCCAATGCACGAGCTGCGCTTATCTGGATT
GTTGGTCAGTATGCGGAGAAGATCAGCAACGCGGGTGACATTCTTGCTGG
TTTCGTGGAAGGCTTCAATGAAGAGTTCTCTCAGGAACTACGCCAAATCT
CACCCGGACCTTTGCATTCTCGCCGTCAACACCTTCGTTCAAGACTCCGA
AGACCCGAACCCCCTGATCAGGGCCCTTGCGATCCGGACAATGGGATGTA
TCCGTGTGGACAAGATGGTGGATTATATGGAGGAGCCCCTTCGCAAGACC
CTCCGCGATGAGTCGCCGTATGTCCGCAAGACTGCCGCGATCTGTGTAGC
GAAGCTCTTCGACCTGAACCCCGCGATGTGCCTGGAAAATGGCTTCCTTG
AGATGCTGCAAGAGATGATTGGGGATCCTAACCCCATGGTGGTCGCCAAC
TCCGTTACCGCACTGTCAGAAATCTACCATGCTGCCCCTGAAACGCAAGC
CCTCAAGGTGACCTCCAACACACTGCGCAAGCTTCTCATGGCCTTGAACG
AGTGCACGGAATGGGGTCGGGTCACTATTTTGACTACTCTGGCCGAGTAC
AGAACCAATGAAGTGACTGAATCTGAACACATTTGCGAAAGGGTTTCTCC
CCAGTTCCAACATGCCAACCCAAGTGTTGTCCTGGCGGCAGTTAAGGTGG
TTTTCCTTCACATGAGGAACGTCAACTATGAGCTGGCGAAAACCTATCTG
AAGAAGATGGCTCCCCCGCTAGATGGCCATGACGTTGGGCAAGGATGTTT
CCGCTCTGTTCCCGGATGTCCTCAAGAACATTGCGACCAATGATCTCGAG
CAGAAGAAACTAGTATACCTCTATCTCATGGAACAAATCCAAAACGCTCG
GGAGAATCCGTTGGCAGCTGCGGCGGCAGCAGCTGCGGTTACTGGCAGTG
CTCCACCTCCGCAGTCCCAGAGCAATGTCGAGAATTTGCTGGATATCGAC
TTCGATGGCACTGCGCCGGCATCCGCTCAGAAAGAACCGGGTGGTGGGAT
GTCAGGTCTCGAAGGTCTGGCCGGAACGCCCGTCCGGGTGGAATCTCCGG
CCGCAGGGGCACCTTCTGGAAGCAACAACCTGGACGACCTGCTCGGAGTG
TTTGGCGATGGCGCTGCAGCCGCTCCGGCCAGCGGGAGCGGCGCTCCCAA
TGGTGGTGCAGCAGACTTGATGAATGGCTTTGAGGGCTGGACCTGTCTGG
AGGTGGCATGGCCTCACCACCCCCTGGAGGAAGCCAACCGAAGAAGACAA
ATGAGGATATCATGTCGTTATTCTAAGCGCGATGAGCCATGCCTGTATGA
TGGCGCACGAGTTCGTATAGCTGAATCAGAGGTGCGGGAAGGTTGAACCC
AGCTGCAGATCTTGACCGCCGTTGTCAAGCTCTTCCTCAAGCGGCCCGAG
AAGGCTCAGGGGCTTGTCCAGAAAGTGCTGCAGGCGGCCACGGCTGAAAA
TGACAACCCCGATGTCCGCGATAGGGCTTACGTCTATTGGCGCTTGCTGT
CTAACACGAGCGACCCCAATGCTACTAAGAACATCGTGCTCTCTGACAAA
CCGCCGATCGTCACCACAATCCAGTCTCTTCCCCCGAATCTGCTCGATCA
GCTACTGGGTGAACTGTCCACCCTCGCATCTGTCTACCACAAGCCCCCGG
AGCAATTCGTCGGACAGGGCAGATTCGGTGCAGATGCAGTACAAAGAGCT
GCTATCGATCACGCTGGTGTCGTCCGCGCCCGAAGTCCAATATGTGGCTC
TACGGAACATTGATTTATTGCTACAGAAGCAACCGGATATTCTTAACAAG
GAACTCCGGGTCTTCTTCTGCAAGTACAATGACCCGCCGTACGTCAAGTT
CCAGAAGCTAGAGATCATGGTCCGCATAGCGAATGACCGCAACGTCGACC
AGCTCCTGGCCGAGCTGAAGGAGTACGCGCTGGAGGTGGACATGGACTTT
GTGCGCCGTGCTGTCAAAGCGATCGGTCAGGTTGCCATCAAGATCGAGAG
CGCCAGCGAAAAGTGTGTCAACACCTTGCTGGACCTCATTAATACCAAGG
TAAATTATGTGGTGCAGGAGGCGATCGTGGTCATCAAGGACATCTTCCGC
AAATATCCCGGCTACGAAGGAATTATCCCCACACTGTGCAAGTGCATCGA
CGAACTGGATGAGCCCAATGCACGAGCTGCGCTTATCTGGATTGTTGGTC
AGTATGCGGAGAAGATCAGCAACGCGGGTGACATTCTTGCTGGTTTCGTG
GAAGGCTTCAATGAAGAGTTCTCTCAGGAACTACGCCAAATCTCACCCGG
ACCTTTGCATTCTCGCCGTCAACACCTTCGTTCAAGACTCCGAAGACCCG
AACCCCCTGATCAGGGCCCTTGCGATCCGGACAATGGGATGTATCCGTGT
GGACAAGATGGTGGATTATATGGAGGAGCCCCTTCGCAAGACCCTCCGCG
ATGAGTCGCCGTATGTCCGCAAGACTGCCGCGATCTGTGTAGCGAAGCTC
TTCGACCTGAACCCCGCGATGTGCCTGGAAAATGGCTTCCTTGAGATGCT
GCAAGAGATGATTGGGGATCCTAACCCCATGGTGGTCGCCAACTCCGTTA
CCGCACTGTCAGAAATCTACCATGCTGCCCCTGAAACGCAAGCCCTCAAG
GTGACCTCCAACACACTGCGCAAGCTTCTCATGGCCTTGAACGAGTGCAC
GGAATGGGGTCGGGTCACTATTTTGACTACTCTGGCCGAGTACAGAACCA
ATGAAGTGACTGAATCTGAACACATTTGCGAAAGGGTTTCTCCCCAGTTC
CAACATGCCAACCCAAGTGTTGTCCTGGCGGCAGTTAAGGTGGTTTTCCT
TCACATGAGGAACGTCAACTATGAGCTGGCGAAAACCTATCTGAAGAAGA
TGGCTCCCCCGCTAGATGGCCATGACGTTGGGCAAGGATGTTTCCGCTCT
GTTCCCGGATGTCCTCAAGAACATTGCGACCAATGATCTCGAGCAGAAGA
AACTAGTATACCTCTATCTCATGGAACAAATCCAAAACGCTCGGGAGAAT
CCGTTGGCAGCTGCGGCGGCAGCAGCTGCGGTTACTGGCAGTGCTCCACC
TCCGCAGTCCCAGAGCAATGTCGAGAATTTGCTGGATATCGACTTCGATG
GCACTGCGCCGGCATCCGCTCAGAAAGAACCGGGTGGTGGGATGTCAGGT
CTCGAAGGTCTGGCCGGAACGCCCGTCCGGGTGGAATCTCCGGCCGCAGG
GGCACCTTCTGGAAGCAACAACCTGGACGACCTGCTCGGAGTGTTTGGCG
ATGGCGCTGCAGCCGCTCCGGCCAGCGGGAGCGGCGCTCCCAATGGTGGT
GCAGCAGACTTGATGAATGGCTTTGAGGGCTGGACCTGTCTGGAGGTGGC
ATGGCCTCACCACCCCCTGGAGGAAGCCAACCGAAGAAGACAAATGAGGA
TATCATGTCGTTATTCTAAGCGCGATGAGCCATGCCTGTATGATGGCGCA
CGAGTTCGTATAGCTGAATCAGAGGTGCGGGAAGGTTGAACCCAGCTGCA
GATCTTGACCGCCGTTGTCAAGCTCTTCCTCAAGCGGCCCGAGAAGGCTC
AGGGGCTTGTCCAGAAAGTGCTGCAGGCGGCCACGGCTGAAAATGACAAC
CCCGATGTCCGCGATAGGGCTTACGTCTATTGGCGCTTGCTGTCTAACAC
GAGCGACCCCAATGCTACTAAGAACATCGTGCTCTCTGACAAACCGCCGA
TCGTCACCACAATCCAGTCTCTTCCCCCGAATCTGCTCGATCAGCTACTG
GGTGAACTGTCCACCCTCGCATCTGTCTACCACAAGCCCCCGGAGCAATT
CGTCGGACAGGGCAGATTCGGTGCAGATGCAGTACAAAGAGCTGCTATCG
ATCACGCTGGTGTCGTCCGCGCCCGAAGTCCAATATGTGGCTCTACGGAA
CATTGATTTATTGCTACAGAAGCAACCGGATATTCTTAACAAGGAACTCC
GGGTCTTCTTCTGCAAGTACAATGACCCGCCGTACGTCAAGTTCCAGAAG
CTAGAGATCATGGTCCGCATAGCGAATGACCGCAACGTCGACCAGCTCCT
GGCCGAGCTGAAGGAGTACGCGCTGGAGGTGGACATGGACTTTGTGCGCC
GTGCTGTCAAAGCGATCGGTCAGGTTGCCATCAAGATCGAGAGCGCCAGC
GAAAAGTGTGTCAACACCTTGCTGGACCTCATTAATACCAAGGTAAATTA
TGTGGTGCAGGAGGCGATCGTGGTCATCAAGGACATCTTCCGCAAATATC
CCGGCTACGAAGGAATTATCCCCACACTGTGCAAGTGCATCGACGAACTG
GATGAGCCCAATGCACGAGCTGCGCTTATCTGGATTGTTGGTCAGTATGC
GGAGAAGATCAGCAACGCGGGTGACATTCTTGCTGGTTTCGTGGAAGGCT
TCAATGAAGAGTTCTCTCAGGAACTACGCCAAATCTCACCCGGACCTTTG
CATTCTCGCCGTCAACACCTTCGTTCAAGACTCCGAAGACCCGAACCCCC
TGATCAGGGCCCTTGCGATCCGGACAATGGGATGTATCCGTGTGGACAAG
ATGGTGGATTATATGGAGGAGCCCCTTCGCAAGACCCTCCGCGATGAGTC
GCCGTATGTCCGCAAGACTGCCGCGATCTGTGTAGCGAAGCTCTTCGACC
TGAACCCCGCGATGTGCCTGGAAAATGGCTTCCTTGAGATGCTGCAAGAG
ATGATTGGGGATCCTAACCCCATGGTGGTCGCCAACTCCGTTACCGCACT
GTCAGAAATCTACCATGCTGCCCCTGAAACGCAAGCCCTCAAGGTGACCT
CCAACACACTGCGCAAGCTTCTCATGGCCTTGAACGAGTGCACGGAATGG
GGTCGGGTCACTATTTTGACTACTCTGGCCGAGTACAGAACCAATGAAGT
GACTGAATCTGAACACATTTGCGAAAGGGTTTCTCCCCAGTTCCAACATG
CCAACCCAAGTGTTGTCCTGGCGGCAGTTAAGGTGGTTTTCCTTCACATG
AGGAACGTCAACTATGAGCTGGCGAAAACCTATCTGAAGAAGATGGCTCC
CCCGCTAGATGGCCATGACGTTGGGCAAGGATGTTTCCGCTCTGTTCCCG
GATGTCCTCAAGAACATTGCGACCAATGATCTCGAGCAGAAGAAACTAGT
ATACCTCTATCTCAT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0030117 | membrane coat |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0030276 | clathrin binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0015031 | protein transport |
| GO:0016192 | vesicle-mediated transport |
| GO:0006886 | intracellular protein transport |
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 | EggNog:ENOG41 |
| DBxref | InterPro:IPR016024 |
| DBxref | InterPro:IPR011989 |
| DBxref | InterPro:IPR016342 |
| DBxref | InterPro:IPR002553 |
| DBxref | PFAM:PF13646 |
| DBxref | PFAM:PF12717 |
| DBxref | PFAM:PF01602 |
| Product | AP-1 complex subunit beta-1 |
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 |
|---|
| NKJJ01000010.1 | supercontig | NKJJ01000010.1:1611442..1613864 - |
|
