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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:1107372..1109736- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_13885-T1 ID=CAN33_13885-T1|Name=CAN33_13885-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2365bp|location=Sequence derived from alignment at NKJJ01000010.1:1107372..1109736- (Aspergillus niger FDAARGOS_311)
ATGTTCCTCAGTGTGGTTCCTTATACGGCGCAATATGGCTCACCATTTTC
TCGTTCCAAACAGGGCAAAGTCGCCGAGTTGCGACAGGAGTTGAACAGTG
GGGGGAAGAAAGACAAGAACCACTCGGCCAAGAAGATCGCGCTCAAGAAA
ATCGTCGCTAATATGACCATGAGCAATAATGATATGGTTGCTTTGTTTCC
CGACGTGATTGGTTGCATGAACTTGCCCAGCTTGGAAATCAAAAAGATGT
ACGTCTGCCAGAAGATACTGTATCGCATCTTGTTGTATGGGGACTAAGAA
TTTGTCTCACTACAGGTGCTTTCTGTTCCTGGTCAATTACTCGAGAGCGA
AACCCGAGGTTGCGCTCAAAGCCTTGCCGTTCCTCATCGATGTGGGTGTC
ATCCTTTACGCTTGGGGGATGTGATTGCTAACCCGAACCATCTAGGATAT
GGAGGACTCAAATCCCCTGGTGCGTGCCCTGGCACTACGGACCATCTCCT
ACATCCATGTCCGCGAGTTTGTCGAAGCGACGGTGCAACCGGTTAAGCGA
CTGATGAGCGATATGGATCCGTACGTGCGGAAGACCGCCGCTTTCTGCGT
CGCGAAGCTCTACGAGCACGATAAGAAGATGGTCGAGGCGTCAGATCTGA
TTGATCGGTTGAACAGCATGCTCAAGGATGAAAACCCTACGGTGGTTTCT
AGCGTCCTGGCGTCCTTGGTGGACATTTGGGGTCGCAGTGAATCGATCTC
TCTGACTATCGACTACACCAGTGCCTCGAAGCTCGTTTCGATCTTACCAG
ACTGCTCTGAGTATGTGGCCGTGCTCTTGCGTTTGCTGCAGGTTACTGAC
GTTGCGTAGATGGGGCCAGTCTTACATCCTCGAGGCTTTGATGTCCTACG
TCCCTCAAGACTCCGCAGAATCACTATTGCTGGCAGAGCGAATAGCCCCT
CGCCTGTCACACTCCAACTCTGCCGTTGTCCTGACCTCTATCCGCGTTAT
CCTCTACCTCATGAACTACATTGCCGACGAAAGACATGTCACCTCCCTTG
CGAAGAAGCTATCACCACCCCTTGTCACTCTTCTCTCCAAACCACCAGAA
GTACAGTATCTGGCCCTCCGAAACGCCATCCTTATCCTGCAGAAGAGGCC
TGAAGTGCTCCGCAACGATATCCGCTGCTTCTTCTGTAACTACAACGATC
CGATCTACGTTAAAGTCACCAAGCTGGAGTTGATCTTCATGCTGACCACC
AAGGAGAACATTTCCGTGGTTCTTGCAGAACTCAGAGAGTACGTTGGCCC
CTCTCTTCCCCTGGCCCTAGTCGCTAACAGTTCCATAGGTATGCGACCGA
GATCGATGTCCACTTCGTGCGCAAGGCAGTGCGTGCCATTGGAAAGCTCG
CCATCAAGATCGAGTCCGCCGCAAAACAATGCATCGACACCCTGCTGGAA
CTGGTCAACGCGAAGATTCCCTACATCGTCCAGGAGGCGACGGTTGTTAT
CCGTAACATCTTCCGCAAGTACCCCAACCAATACGAGAACATTATCGGCA
ACGTGATTCAGAACATCGACGAGCTCGACGAACCCGAAGCCAAGGCCGCC
ATCATCTGGATTATTGGCCAGTACGCCGACCGCATAGAGAACTCCGACGG
CCTCCTGCAGGACTACCTGGCCACCTTCCACGATGAGACCGTTGAAGTCC
AACTTGCCCTTCTCACAGCCACTGTCAAGTTCTTCATCCAACGTCCTACC
AAGGGCCAACAGCTTGTCCCCCAGGTGCTCAAATGGTGCACCGAAGAAAC
CGACGACCCTGACCTCCGCGACAGAGGCTACATGTACTGGCGTCTGCTAT
CCACCGACCCCAAGACCGCGAAGCAGATCGTCATGGGCGAGAAACCCCCC
ATCAGCGCCGAAAGCGAGAAACTCGACTCCCGCACCCTCGAGGAGCTCTG
CCTCAACGTCGGCACTCTCGCTACCGTGTACCTGAAACCCGTTCAACAAG
TTTTCCGCTCCGCACGCACGAGACGCTTACAGTACAGCCCTGCGCTGCAG
AAACCCAAGGAAGAACCCGGCAATGCTGTCTGGCAATTCCCTGCTCCGTC
GCAATCCAGCAGCCCAACCGCCGCCATGGCAGCCAGCGCATCTGCCCCCG
CCGACATGAACGCGGCCGTCAACGCTGCCGACAGCTACTTCAATAGTGTC
GGTACTCAGCAAATGGCTGCGCTGGACCTGGGCGGTCGTGAAGACGGCGG
TGTTGGCGGTGGCGGTGCTCCCCAGACGCAATATGTCGTCACTCAGAACC
AGCAGCAGGTGTATCAGCCGCAGCTGGCGGGTGGAGCAGCCACGGGTGAG
TTGTTGTTGCTGTGA back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:1107372..1109736- >CAN33_13885-T1 ID=CAN33_13885-T1|Name=CAN33_13885-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10725bp|location=Sequence derived from alignment at NKJJ01000010.1:1107372..1109736- (Aspergillus niger FDAARGOS_311)
GTATGCGACCGAGATCGATGTCCACTTCGTGCGCAAGGCAGTGCGTGCCA
TTGGAAAGCTCGCCATCAAGATCGAGTCCGCCGCAAAACAATGCATCGAC
ACCCTGCTGGAACTGGTCAACGCGAAGATTCCCTACATCGTCCAGGAGGC
GACGGTTGTTATCCGTAACATCTTCCGCAAGTACCCCAACCAATACGAGA
ACATTATCGGCAACGTGATTCAGAACATCGACGAGCTCGACGAACCCGAA
GCCAAGGCCGCCATCATCTGGATTATTGGCCAGTACGCCGACCGCATAGA
GAACTCCGACGGCCTCCTGCAGGACTACCTGGCCACCTTCCACGATGAGA
CCGTTGAAGTCCAACTTGCCCTTCTCACAGCCACTGTCAAGTTCTTCATC
CAACGTCCTACCAAGGGCCAACAGCTTGTCCCCCAGGTGCTCAAATGGTG
CACCGAAGAAACCGACGACCCTGACCTCCGCGACAGAGGCTACATGTACT
GGCGTCTGCTATCCACCGACCCCAAGACCGCGAAGCAGATCGTCATGGGC
GAGAAACCCCCCATCAGCGCCGAAAGCGAGAAACTCGACTCCCGCACCCT
CGAGGAGCTCTGCCTCAACGTCGGCACTCTCGCTACCGTGTACCTGAAAC
CCGTTCAACAAGTTTTCCGCTCCGCACGCACGAGACGCTTACAGTACAGC
CCTGCGCTGCAGAAACCCAAGGAAGAACCCGGCAATGCTGTCTGGCAATT
CCCTGCTCCGTCGCAATCCAGCAGCCCAACCGCCGCCATGGCAGCCAGCG
CATCTGCCCCCGCCGACATGAACGCGGCCGTCAACGCTGCCGACAGCTAC
TTCAATAGTGTCGGTACTCAGCAAATGGCTGCGCTGGACCTGGGCGGTCG
TGAAGACGGCGGTGTTGGCGGTGGCGGTGCTCCCCAGACGCAATATGTCG
TCACTCAGAACCAGCAGCAGGTGTATCAGCCGCAGCTGGCGGGTGGAGCA
GCCACGGGTGAGTTGTTGTTGCTGTGAATGGGGCCAGTCTTACATCCTCG
AGGCTTTGATGTCCTACGTCCCTCAAGACTCCGCAGAATCACTATTGCTG
GCAGAGCGAATAGCCCCTCGCCTGTCACACTCCAACTCTGCCGTTGTCCT
GACCTCTATCCGCGTTATCCTCTACCTCATGAACTACATTGCCGACGAAA
GACATGTCACCTCCCTTGCGAAGAAGCTATCACCACCCCTTGTCACTCTT
CTCTCCAAACCACCAGAAGTACAGTATCTGGCCCTCCGAAACGCCATCCT
TATCCTGCAGAAGAGGCCTGAAGTGCTCCGCAACGATATCCGCTGCTTCT
TCTGTAACTACAACGATCCGATCTACGTTAAAGTCACCAAGCTGGAGTTG
ATCTTCATGCTGACCACCAAGGAGAACATTTCCGTGGTTCTTGCAGAACT
CAGAGAGATATGGAGGACTCAAATCCCCTGGTGCGTGCCCTGGCACTACG
GACCATCTCCTACATCCATGTCCGCGAGTTTGTCGAAGCGACGGTGCAAC
CGGTTAAGCGACTGATGAGCGATATGGATCCGTACGTGCGGAAGACCGCC
GCTTTCTGCGTCGCGAAGCTCTACGAGCACGATAAGAAGATGGTCGAGGC
GTCAGATCTGATTGATCGGTTGAACAGCATGCTCAAGGATGAAAACCCTA
CGGTGGTTTCTAGCGTCCTGGCGTCCTTGGTGGACATTTGGGGTCGCAGT
GAATCGATCTCTCTGACTATCGACTACACCAGTGCCTCGAAGCTCGTTTC
GATCTTACCAGACTGCTCTGAGTGCTTTCTGTTCCTGGTCAATTACTCGA
GAGCGAAACCCGAGGTTGCGCTCAAAGCCTTGCCGTTCCTCATCGATATG
TTCCTCAGTGTGGTTCCTTATACGGCGCAATATGGCTCACCATTTTCTCG
TTCCAAACAGGGCAAAGTCGCCGAGTTGCGACAGGAGTTGAACAGTGGGG
GGAAGAAAGACAAGAACCACTCGGCCAAGAAGATCGCGCTCAAGAAAATC
GTCGCTAATATGACCATGAGCAATAATGATATGGTTGCTTTGTTTCCCGA
CGTGATTGGTTGCATGAACTTGCCCAGCTTGGAAATCAAAAAGATGTATG
CGACCGAGATCGATGTCCACTTCGTGCGCAAGGCAGTGCGTGCCATTGGA
AAGCTCGCCATCAAGATCGAGTCCGCCGCAAAACAATGCATCGACACCCT
GCTGGAACTGGTCAACGCGAAGATTCCCTACATCGTCCAGGAGGCGACGG
TTGTTATCCGTAACATCTTCCGCAAGTACCCCAACCAATACGAGAACATT
ATCGGCAACGTGATTCAGAACATCGACGAGCTCGACGAACCCGAAGCCAA
GGCCGCCATCATCTGGATTATTGGCCAGTACGCCGACCGCATAGAGAACT
CCGACGGCCTCCTGCAGGACTACCTGGCCACCTTCCACGATGAGACCGTT
GAAGTCCAACTTGCCCTTCTCACAGCCACTGTCAAGTTCTTCATCCAACG
TCCTACCAAGGGCCAACAGCTTGTCCCCCAGGTGCTCAAATGGTGCACCG
AAGAAACCGACGACCCTGACCTCCGCGACAGAGGCTACATGTACTGGCGT
CTGCTATCCACCGACCCCAAGACCGCGAAGCAGATCGTCATGGGCGAGAA
ACCCCCCATCAGCGCCGAAAGCGAGAAACTCGACTCCCGCACCCTCGAGG
AGCTCTGCCTCAACGTCGGCACTCTCGCTACCGTGTACCTGAAACCCGTT
CAACAAGTTTTCCGCTCCGCACGCACGAGACGCTTACAGTACAGCCCTGC
GCTGCAGAAACCCAAGGAAGAACCCGGCAATGCTGTCTGGCAATTCCCTG
CTCCGTCGCAATCCAGCAGCCCAACCGCCGCCATGGCAGCCAGCGCATCT
GCCCCCGCCGACATGAACGCGGCCGTCAACGCTGCCGACAGCTACTTCAA
TAGTGTCGGTACTCAGCAAATGGCTGCGCTGGACCTGGGCGGTCGTGAAG
ACGGCGGTGTTGGCGGTGGCGGTGCTCCCCAGACGCAATATGTCGTCACT
CAGAACCAGCAGCAGGTGTATCAGCCGCAGCTGGCGGGTGGAGCAGCCAC
GGGTGAGTTGTTGTTGCTGTGAATGGGGCCAGTCTTACATCCTCGAGGCT
TTGATGTCCTACGTCCCTCAAGACTCCGCAGAATCACTATTGCTGGCAGA
GCGAATAGCCCCTCGCCTGTCACACTCCAACTCTGCCGTTGTCCTGACCT
CTATCCGCGTTATCCTCTACCTCATGAACTACATTGCCGACGAAAGACAT
GTCACCTCCCTTGCGAAGAAGCTATCACCACCCCTTGTCACTCTTCTCTC
CAAACCACCAGAAGTACAGTATCTGGCCCTCCGAAACGCCATCCTTATCC
TGCAGAAGAGGCCTGAAGTGCTCCGCAACGATATCCGCTGCTTCTTCTGT
AACTACAACGATCCGATCTACGTTAAAGTCACCAAGCTGGAGTTGATCTT
CATGCTGACCACCAAGGAGAACATTTCCGTGGTTCTTGCAGAACTCAGAG
AGATATGGAGGACTCAAATCCCCTGGTGCGTGCCCTGGCACTACGGACCA
TCTCCTACATCCATGTCCGCGAGTTTGTCGAAGCGACGGTGCAACCGGTT
AAGCGACTGATGAGCGATATGGATCCGTACGTGCGGAAGACCGCCGCTTT
CTGCGTCGCGAAGCTCTACGAGCACGATAAGAAGATGGTCGAGGCGTCAG
ATCTGATTGATCGGTTGAACAGCATGCTCAAGGATGAAAACCCTACGGTG
GTTTCTAGCGTCCTGGCGTCCTTGGTGGACATTTGGGGTCGCAGTGAATC
GATCTCTCTGACTATCGACTACACCAGTGCCTCGAAGCTCGTTTCGATCT
TACCAGACTGCTCTGAGTGCTTTCTGTTCCTGGTCAATTACTCGAGAGCG
AAACCCGAGGTTGCGCTCAAAGCCTTGCCGTTCCTCATCGATATGTTCCT
CAGTGTGGTTCCTTATACGGCGCAATATGGCTCACCATTTTCTCGTTCCA
AACAGGGCAAAGTCGCCGAGTTGCGACAGGAGTTGAACAGTGGGGGGAAG
AAAGACAAGAACCACTCGGCCAAGAAGATCGCGCTCAAGAAAATCGTCGC
TAATATGACCATGAGCAATAATGATATGGTTGCTTTGTTTCCCGACGTGA
TTGGTTGCATGAACTTGCCCAGCTTGGAAATCAAAAAGATGTATGCGACC
GAGATCGATGTCCACTTCGTGCGCAAGGCAGTGCGTGCCATTGGAAAGCT
CGCCATCAAGATCGAGTCCGCCGCAAAACAATGCATCGACACCCTGCTGG
AACTGGTCAACGCGAAGATTCCCTACATCGTCCAGGAGGCGACGGTTGTT
ATCCGTAACATCTTCCGCAAGTACCCCAACCAATACGAGAACATTATCGG
CAACGTGATTCAGAACATCGACGAGCTCGACGAACCCGAAGCCAAGGCCG
CCATCATCTGGATTATTGGCCAGTACGCCGACCGCATAGAGAACTCCGAC
GGCCTCCTGCAGGACTACCTGGCCACCTTCCACGATGAGACCGTTGAAGT
CCAACTTGCCCTTCTCACAGCCACTGTCAAGTTCTTCATCCAACGTCCTA
CCAAGGGCCAACAGCTTGTCCCCCAGGTGCTCAAATGGTGCACCGAAGAA
ACCGACGACCCTGACCTCCGCGACAGAGGCTACATGTACTGGCGTCTGCT
ATCCACCGACCCCAAGACCGCGAAGCAGATCGTCATGGGCGAGAAACCCC
CCATCAGCGCCGAAAGCGAGAAACTCGACTCCCGCACCCTCGAGGAGCTC
TGCCTCAACGTCGGCACTCTCGCTACCGTGTACCTGAAACCCGTTCAACA
AGTTTTCCGCTCCGCACGCACGAGACGCTTACAGTACAGCCCTGCGCTGC
AGAAACCCAAGGAAGAACCCGGCAATGCTGTCTGGCAATTCCCTGCTCCG
TCGCAATCCAGCAGCCCAACCGCCGCCATGGCAGCCAGCGCATCTGCCCC
CGCCGACATGAACGCGGCCGTCAACGCTGCCGACAGCTACTTCAATAGTG
TCGGTACTCAGCAAATGGCTGCGCTGGACCTGGGCGGTCGTGAAGACGGC
GGTGTTGGCGGTGGCGGTGCTCCCCAGACGCAATATGTCGTCACTCAGAA
CCAGCAGCAGGTGTATCAGCCGCAGCTGGCGGGTGGAGCAGCCACGGGTG
AGTTGTTGTTGCTGTGAATGGGGCCAGTCTTACATCCTCGAGGCTTTGAT
GTCCTACGTCCCTCAAGACTCCGCAGAATCACTATTGCTGGCAGAGCGAA
TAGCCCCTCGCCTGTCACACTCCAACTCTGCCGTTGTCCTGACCTCTATC
CGCGTTATCCTCTACCTCATGAACTACATTGCCGACGAAAGACATGTCAC
CTCCCTTGCGAAGAAGCTATCACCACCCCTTGTCACTCTTCTCTCCAAAC
CACCAGAAGTACAGTATCTGGCCCTCCGAAACGCCATCCTTATCCTGCAG
AAGAGGCCTGAAGTGCTCCGCAACGATATCCGCTGCTTCTTCTGTAACTA
CAACGATCCGATCTACGTTAAAGTCACCAAGCTGGAGTTGATCTTCATGC
TGACCACCAAGGAGAACATTTCCGTGGTTCTTGCAGAACTCAGAGAGATA
TGGAGGACTCAAATCCCCTGGTGCGTGCCCTGGCACTACGGACCATCTCC
TACATCCATGTCCGCGAGTTTGTCGAAGCGACGGTGCAACCGGTTAAGCG
ACTGATGAGCGATATGGATCCGTACGTGCGGAAGACCGCCGCTTTCTGCG
TCGCGAAGCTCTACGAGCACGATAAGAAGATGGTCGAGGCGTCAGATCTG
ATTGATCGGTTGAACAGCATGCTCAAGGATGAAAACCCTACGGTGGTTTC
TAGCGTCCTGGCGTCCTTGGTGGACATTTGGGGTCGCAGTGAATCGATCT
CTCTGACTATCGACTACACCAGTGCCTCGAAGCTCGTTTCGATCTTACCA
GACTGCTCTGAGTGCTTTCTGTTCCTGGTCAATTACTCGAGAGCGAAACC
CGAGGTTGCGCTCAAAGCCTTGCCGTTCCTCATCGATATGTTCCTCAGTG
TGGTTCCTTATACGGCGCAATATGGCTCACCATTTTCTCGTTCCAAACAG
GGCAAAGTCGCCGAGTTGCGACAGGAGTTGAACAGTGGGGGGAAGAAAGA
CAAGAACCACTCGGCCAAGAAGATCGCGCTCAAGAAAATCGTCGCTAATA
TGACCATGAGCAATAATGATATGGTTGCTTTGTTTCCCGACGTGATTGGT
TGCATGAACTTGCCCAGCTTGGAAATCAAAAAGATGTATGCGACCGAGAT
CGATGTCCACTTCGTGCGCAAGGCAGTGCGTGCCATTGGAAAGCTCGCCA
TCAAGATCGAGTCCGCCGCAAAACAATGCATCGACACCCTGCTGGAACTG
GTCAACGCGAAGATTCCCTACATCGTCCAGGAGGCGACGGTTGTTATCCG
TAACATCTTCCGCAAGTACCCCAACCAATACGAGAACATTATCGGCAACG
TGATTCAGAACATCGACGAGCTCGACGAACCCGAAGCCAAGGCCGCCATC
ATCTGGATTATTGGCCAGTACGCCGACCGCATAGAGAACTCCGACGGCCT
CCTGCAGGACTACCTGGCCACCTTCCACGATGAGACCGTTGAAGTCCAAC
TTGCCCTTCTCACAGCCACTGTCAAGTTCTTCATCCAACGTCCTACCAAG
GGCCAACAGCTTGTCCCCCAGGTGCTCAAATGGTGCACCGAAGAAACCGA
CGACCCTGACCTCCGCGACAGAGGCTACATGTACTGGCGTCTGCTATCCA
CCGACCCCAAGACCGCGAAGCAGATCGTCATGGGCGAGAAACCCCCCATC
AGCGCCGAAAGCGAGAAACTCGACTCCCGCACCCTCGAGGAGCTCTGCCT
CAACGTCGGCACTCTCGCTACCGTGTACCTGAAACCCGTTCAACAAGTTT
TCCGCTCCGCACGCACGAGACGCTTACAGTACAGCCCTGCGCTGCAGAAA
CCCAAGGAAGAACCCGGCAATGCTGTCTGGCAATTCCCTGCTCCGTCGCA
ATCCAGCAGCCCAACCGCCGCCATGGCAGCCAGCGCATCTGCCCCCGCCG
ACATGAACGCGGCCGTCAACGCTGCCGACAGCTACTTCAATAGTGTCGGT
ACTCAGCAAATGGCTGCGCTGGACCTGGGCGGTCGTGAAGACGGCGGTGT
TGGCGGTGGCGGTGCTCCCCAGACGCAATATGTCGTCACTCAGAACCAGC
AGCAGGTGTATCAGCCGCAGCTGGCGGGTGGAGCAGCCACGGGTGAGTTG
TTGTTGCTGTGAATGGGGCCAGTCTTACATCCTCGAGGCTTTGATGTCCT
ACGTCCCTCAAGACTCCGCAGAATCACTATTGCTGGCAGAGCGAATAGCC
CCTCGCCTGTCACACTCCAACTCTGCCGTTGTCCTGACCTCTATCCGCGT
TATCCTCTACCTCATGAACTACATTGCCGACGAAAGACATGTCACCTCCC
TTGCGAAGAAGCTATCACCACCCCTTGTCACTCTTCTCTCCAAACCACCA
GAAGTACAGTATCTGGCCCTCCGAAACGCCATCCTTATCCTGCAGAAGAG
GCCTGAAGTGCTCCGCAACGATATCCGCTGCTTCTTCTGTAACTACAACG
ATCCGATCTACGTTAAAGTCACCAAGCTGGAGTTGATCTTCATGCTGACC
ACCAAGGAGAACATTTCCGTGGTTCTTGCAGAACTCAGAGAGATATGGAG
GACTCAAATCCCCTGGTGCGTGCCCTGGCACTACGGACCATCTCCTACAT
CCATGTCCGCGAGTTTGTCGAAGCGACGGTGCAACCGGTTAAGCGACTGA
TGAGCGATATGGATCCGTACGTGCGGAAGACCGCCGCTTTCTGCGTCGCG
AAGCTCTACGAGCACGATAAGAAGATGGTCGAGGCGTCAGATCTGATTGA
TCGGTTGAACAGCATGCTCAAGGATGAAAACCCTACGGTGGTTTCTAGCG
TCCTGGCGTCCTTGGTGGACATTTGGGGTCGCAGTGAATCGATCTCTCTG
ACTATCGACTACACCAGTGCCTCGAAGCTCGTTTCGATCTTACCAGACTG
CTCTGAGTGCTTTCTGTTCCTGGTCAATTACTCGAGAGCGAAACCCGAGG
TTGCGCTCAAAGCCTTGCCGTTCCTCATCGATATGTTCCTCAGTGTGGTT
CCTTATACGGCGCAATATGGCTCACCATTTTCTCGTTCCAAACAGGGCAA
AGTCGCCGAGTTGCGACAGGAGTTGAACAGTGGGGGGAAGAAAGACAAGA
ACCACTCGGCCAAGAAGATCGCGCTCAAGAAAATCGTCGCTAATATGACC
ATGAGCAATAATGATATGGTTGCTTTGTTTCCCGACGTGATTGGTTGCAT
GAACTTGCCCAGCTTGGAAATCAAAAAGATGTATGCGACCGAGATCGATG
TCCACTTCGTGCGCAAGGCAGTGCGTGCCATTGGAAAGCTCGCCATCAAG
ATCGAGTCCGCCGCAAAACAATGCATCGACACCCTGCTGGAACTGGTCAA
CGCGAAGATTCCCTACATCGTCCAGGAGGCGACGGTTGTTATCCGTAACA
TCTTCCGCAAGTACCCCAACCAATACGAGAACATTATCGGCAACGTGATT
CAGAACATCGACGAGCTCGACGAACCCGAAGCCAAGGCCGCCATCATCTG
GATTATTGGCCAGTACGCCGACCGCATAGAGAACTCCGACGGCCTCCTGC
AGGACTACCTGGCCACCTTCCACGATGAGACCGTTGAAGTCCAACTTGCC
CTTCTCACAGCCACTGTCAAGTTCTTCATCCAACGTCCTACCAAGGGCCA
ACAGCTTGTCCCCCAGGTGCTCAAATGGTGCACCGAAGAAACCGACGACC
CTGACCTCCGCGACAGAGGCTACATGTACTGGCGTCTGCTATCCACCGAC
CCCAAGACCGCGAAGCAGATCGTCATGGGCGAGAAACCCCCCATCAGCGC
CGAAAGCGAGAAACTCGACTCCCGCACCCTCGAGGAGCTCTGCCTCAACG
TCGGCACTCTCGCTACCGTGTACCTGAAACCCGTTCAACAAGTTTTCCGC
TCCGCACGCACGAGACGCTTACAGTACAGCCCTGCGCTGCAGAAACCCAA
GGAAGAACCCGGCAATGCTGTCTGGCAATTCCCTGCTCCGTCGCAATCCA
GCAGCCCAACCGCCGCCATGGCAGCCAGCGCATCTGCCCCCGCCGACATG
AACGCGGCCGTCAACGCTGCCGACAGCTACTTCAATAGTGTCGGTACTCA
GCAAATGGCTGCGCTGGACCTGGGCGGTCGTGAAGACGGCGGTGTTGGCG
GTGGCGGTGCTCCCCAGACGCAATATGTCGTCACTCAGAACCAGCAGCAG
GTGTATCAGCCGCAGCTGGCGGGTGGAGCAGCCACGGGTGAGTTGTTGTT
GCTGTGAATGGGGCCAGTCTTACATCCTCGAGGCTTTGATGTCCTACGTC
CCTCAAGACTCCGCAGAATCACTATTGCTGGCAGAGCGAATAGCCCCTCG
CCTGTCACACTCCAACTCTGCCGTTGTCCTGACCTCTATCCGCGTTATCC
TCTACCTCATGAACTACATTGCCGACGAAAGACATGTCACCTCCCTTGCG
AAGAAGCTATCACCACCCCTTGTCACTCTTCTCTCCAAACCACCAGAAGT
ACAGTATCTGGCCCTCCGAAACGCCATCCTTATCCTGCAGAAGAGGCCTG
AAGTGCTCCGCAACGATATCCGCTGCTTCTTCTGTAACTACAACGATCCG
ATCTACGTTAAAGTCACCAAGCTGGAGTTGATCTTCATGCTGACCACCAA
GGAGAACATTTCCGTGGTTCTTGCAGAACTCAGAGAGATATGGAGGACTC
AAATCCCCTGGTGCGTGCCCTGGCACTACGGACCATCTCCTACATCCATG
TCCGCGAGTTTGTCGAAGCGACGGTGCAACCGGTTAAGCGACTGATGAGC
GATATGGATCCGTACGTGCGGAAGACCGCCGCTTTCTGCGTCGCGAAGCT
CTACGAGCACGATAAGAAGATGGTCGAGGCGTCAGATCTGATTGATCGGT
TGAACAGCATGCTCAAGGATGAAAACCCTACGGTGGTTTCTAGCGTCCTG
GCGTCCTTGGTGGACATTTGGGGTCGCAGTGAATCGATCTCTCTGACTAT
CGACTACACCAGTGCCTCGAAGCTCGTTTCGATCTTACCAGACTGCTCTG
AGTGCTTTCTGTTCCTGGTCAATTACTCGAGAGCGAAACCCGAGGTTGCG
CTCAAAGCCTTGCCGTTCCTCATCGATATGTTCCTCAGTGTGGTTCCTTA
TACGGCGCAATATGGCTCACCATTTTCTCGTTCCAAACAGGGCAAAGTCG
CCGAGTTGCGACAGGAGTTGAACAGTGGGGGGAAGAAAGACAAGAACCAC
TCGGCCAAGAAGATCGCGCTCAAGAAAATCGTCGCTAATATGACCATGAG
CAATAATGATATGGTTGCTTTGTTTCCCGACGTGATTGGTTGCATGAACT
TGCCCAGCTTGGAAATCAAAAAGAT 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 |
|---|
| DBxref | InterPro:IPR016024 |
| DBxref | InterPro:IPR016342 |
| DBxref | InterPro:IPR002553 |
| DBxref | InterPro:IPR011989 |
| DBxref | PFAM:PF12717 |
| DBxref | PFAM:PF01602 |
| Product | Adaptin N terminal region family 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 |
|---|
| NKJJ01000010.1 | supercontig | NKJJ01000010.1:1107372..1109736 - |
|
