Pre Gene Modal
BGIBMGA004090
Annotation
PREDICTED:_midasin_isoform_X1_[Bombyx_mori]
Full name
Midasin
Alternative Name
Dynein-related AAA-ATPase MDN1
MIDAS-containing protein
Dynein-related AAA-ATPase REA1
Ribosome export/assembly protein 1
Dynein-related AAA-ATPase mdn1
MIDAS-containing protein
Dynein-related AAA-ATPase REA1
Ribosome export/assembly protein 1
Dynein-related AAA-ATPase mdn1
Location in the cell
Nuclear Reliability : 2.803
Sequence
CDS
ATGTCTATTTCATATATGTTGTCTGGTCTAAACAAAATAGGCTCTGAAACAGGAACCCAGGAGCTCAAGATATTATGTGAAAATCTAAAGACATCTTTATCAAAAAAAGCATTAGAAATTCAAGATATTGTGAAAATTTTATCAGATTACATTCTCAAAATTGATGATGCTATATTGTTCAAAACATATTTATCAAATATACTACTGGCATTAGTGTCATTGAAGATACCACTAAAAGCTATTTTCTCCAGCCCTGATTACATAAAATGTAGTGATTCTGAAAAGATTGCTCATTTGGAGTATTCTGTGATATTAGCTACTTTATGTGATCACCCTGATATTTTGCAATATGCCCTTAAATACTTTGAGATCAATAAAGTACCACCATTTGAGGTGTTCATATATCACGAAGAAGGTTACAATGTTGCTCCAAAGAAACGTCGGCTGCTCGACTGCAGACAGAAGATTAATGATCAACAAATAGTGAACTGCTGCTACACTTTACTTACGAAGCTGCCAAACGAATTGTCTGTTAAATGGGATTGGACCAAATTTGTTGAGAACTTCAGTAATCATGATAACGTTGAGATAAGATGGATGGTTAAAGAATGCATGGTGATCTTAACTAATATGACAGAAGCACAAGCAAAGATACTATCGAACAATATGAAACTCTCTCAACAAGACGTCTTTCACTTTCTCACTCCCAAAAATTTCAAATGCTATACTTTTGATGAAACGGTCAAAGATGAAAAACTTATTATTGATAATGTAGTTAATATTGATGGTATCCTGTTACCATTGTATGATAAGGACAATGTTCAGAATGGTAGTTTGGTTCCTGTAAAATCGACGGTCAATAATTTGAGAAGTCTTGCACTTGCTGTTGCTTCAGGTCAACCACTTTGTCTCATGGGACCAGTAGGCTCCGGGAAAACTACTCTTGTGGAACACTTAGCAGCTATAACAGGTCGAAAAGGTACCGCTTTCAAGAAAGTACAGTTGGGTGATCAGACTGATTCTCGAATGCTACTTGGCTCTCATCAATGTACTGATGTTCCTGGAGAATTTAAATGGGGTCCAGGAGTACTAACTGAGGCTGTACAAAATGGGCATTGGCTTTTATTAGAGGATATTGACTGTGCTGCATTAGACGTTGCTTCAACTCTCAGCTCGCTCATAGAAAGGAACACGCTATGTGTACCCGGGTACAGAGATTCACTACCTGTAACCCCGGGTTTTCAGCTCTTCGTAACTCAGAGAACATTAACAACAAATTATGGTTTCCAAAAGAAAATGTCCAACTCTAGTACACTCTTACAGAAACATTTGACGCAAATCAATGTCGAACCACTTTCTCGGTCCGAGCTATGTGAAATAGTACAGACATTATATCCGAGTTTGAATACAATTTGCTCGAGAATCATCGAGGTATTCATGATGTTCTCCGTAGGAAATCACGACACTTCATTACAGACAACTGAGGTTGTTATTGAAAAAAACTCCAATATAAATTTAATAAGGGGTTCAAGACTTATATCCACAAGAGATTTGATGAAATGGTGTTCCCGAGCTGTCGTAGGTTTTGATGTGTCAAGTCCAGGATCTGCTCTCAAAGTACTGCAAGATGCTCTCGACATATTCACTTGTTCGGTTTCAACACCGGAACATAGGTTGGAGCTAGCAAAAAAAGTCGGAACATGCTTAGGTATTGTTGAAACCAAATCGGAATTTTATTGCAAACACTACAAGCCAAACGTATCGCTACACCCCGCTTGTTTTGAAGTCGGAAGAGCTAAAGTACCACGGCTAGAGAAAAGCTTAGAAACTATTGATTTTGATAATAAGCAAGTGGTCTTTTCATTTACTCGTCAGTCCGCATGCTTATTGGAGAAGATAGCGTGCTGCGTTATGTCTAACGAGCCTGTGTTGCTTGTTGGCGAAACCGGTACAGGGAAAACATCTTCCGTCCAGTACTTGGCTAAGCAGACGGGACATAAGTTAATCGTTATCAATATGAACCAACAGTCGGATTCGGCGGACTTGCTGGGTGGTTATAAGCCGGTCGACTTGAAATACGTCATAAAACCTATCAAAAACGAATTTCAAGAGCTCTTCCGTAATTTTTATAACATACAAAAAAATACCAAGTTTCTGAGTCACGTAGAGACTTGTTATGAAACAGAAAGTTGGACTGCATTGTTGGCACTGATGCAACAGAGTCATAAAGCAGCCGTTAATAGATTAAATGCCGAGAAAAAAGAAATTAAGCTGAAGAGGTGGTTAATGTTTGGCTACAAACTGGCCAAATTGGAACAACAAATCAAAGCCGCTTCTAAATTAACTTTTGCATTTATAGAAGGCTCTCTAGTGAAAGCTATGCAGGAAGGTCATTGGGTGTTACTAGATGAGATAAATTTGGCTTCAGCTGAGATTCTAGAATGCTTAGCTGGACTATTAGAAGACAAGAATGACACTATAGACTTATTAGAAAAAGGTGATAAAGTTCCTATAAAAAGACATGCCGATTTCACATTGTTCGCGTGCATGAATCCAGCCACAGATGTTGGTAAAAAAGATTTACCCGTTGGCCTTAGAAACCGTTTTACCGAATTCTTCATAGATGAGTTAACCGAACGAAATGATTTGATGTTGCTCATAGGGGACTATTTATATCATATGAATCTCACGGGGGCAACTTTGGAAGCAATTTACTCTTTCTATTCTGGTATAAGAAAAGAGGCAAAGTTGAATCTAGTCGACGGCGCAGGTAATGCGCCACACTATTCCCTTCGTACTCTATGCAGAGCCTTAACGGCTGCCTCCAAAGCAAAATGCGGAACAGTGGCAAGGTCACTTTACGAAGCTTTTTGTTTATCTTTCTTAACGCAATTAGATAGCTCTTCGCATCCTATCGTAGAAGCCATGATTGCCAAGGCTGTTATAGGAAAAAAGAACATAAAATCTGTTCTTAATCAAACCATTCCAGAGCCACAGGTTTTAGGCCAAAACTTTCTACTTTTCGAAGGTCATTGGATTCCACAAGGAACATTAGAAGTATGCATTCCAGAAAACTACATTCTCACTCCGACGGTCCGAAAAAATCTAAGGGATATAGCGCGAATCGTATCCTTGGGTCGTTTACCTGTTCTGCTACAAGGCGATACGTCTGTAGGAAAAACTTCTCTTATCACTTACATTGCAAAGGCATCTGGAAACTACTGTGTGAGAATTAACAATCACGAGCACACCGATCTACAAGAATATATTGGTTCGTACGCCACAGATTCAAGTGGTAAATTAGTGTTCAGAGAAGGCGTTCTTGTTGAAGCCATGAGAAAAGGATATTGGATTATTTTGGACGAATTGAACTTAGCTCCGAGTGACGTACTGGAAGCTTTGAACAGAGTATTGGATGATAATAGAGAATTGTTCATACCAGAAACACAACAAGTTATCAAAGCCGATCCTAACTTTATGCTATTCGCGACCCAGAATCCACCAGGCTTGTATGGAGGGCGCAAAATGCTATCTCGCGCCTTCCGAAATAGATTTGTTGAGCTTCATTTCGATGAAATACCCAAACGAGAATTGGAAACGATACTGCATCAAAGATGTCATGTACCTCCAGCGTATAGTAAAAAAATGATAGCTGTTATGGCAGATCTGCAAATAAGACGTCGAGGATCTGCGGCTGTACAGGGTAAAGATGGCTTCATAACTTTAAGAGACTTATTTAGATGGGGTGAAAGATACAAACATGCGTCCAAAGAGTGTCTCACTGATGAGAAGTTTTACGATTGGGATCAACACATAGCCGATGAAGGTTACCTCATACTCGCTGGAAAAGTAAGACAGACCGATGAGAGATACATTATTGAACAAATCGTTCAGAAAAATATCAAAAGAACCGTAAATCCCGACAATCTTTTCAGTCTCCACCAAGGAACGTCGCCAGTGACAAAATCTACATTAGAAAGTCTCTTTAACAATCAACTGGTTGAGTTCTCGCATGTAGTCTGGACCTACAACATGAGGAGATTAGCCATATTGATAGCGAAAGCGTTTAAATTCAATGAACCGGTTTTACTTGTCGGAGAGACTGGATGTGGCAAGACCACGATTTGTCAAGTTCTTGCGGCAATGAACAAACGTCAGCTGCTATCTGTAAATTGTCATATGCACACTGAGAGTTCAGATTTTTTGGGTGGTCTCAGGCCAGTACGTCAGCATAAGAACGATGGTCGGTTGTTCGAATGGGTGGACGGTCCTTTGATCAAGGCCATGGAAACCGGAGATATATTTTTGGCTGATGAAATATCGCTTGCAGACGACAGTGTCCTGGAACGATTGAATTCTTTACTCGAACCTGAACGCCAATTAGTTCTTAGCGAAAGGGGAATGGAGGATAACTCAGACATAGTCGTTATCACTGCCAATGAAAATTTCCATTTTATCGGCACTATGAATCCTGGTGGAGATTTCGGTAAGAAAGAACTATCTCCAGCCCTTCGAAACAGATTCACTGAAATATGGTGCGACAGTGTTACTACCAGGGAAGATTTATTGGGCGTTCTTGAGAAGAGTGTGAATAAAGGTATAGCTTTGGGAAACCAAGAAGATGGAAGCTCTGGCATAGGCACTTCAATACTAGATTTCACTGAATGGTTAAAAACTTCTGAAGTGACCTGCAAGTTTCCTTTCAGTATTCGTGACTTGCTTTCGTGGGTTCAGTTTATTAATGTTACGGTAGCTAAAGGACTATTAGATGTACCTGAAGCATATGTGCATGGAGCATGTATGACATTTTTGGATTGTTTTGGCACAGCATTGACGGGTCAGATTGATTCAGCATCTCTAACTGCATTGCGAAATTCCGCTATCGATTTCTTGTTAGACCAAATCAAGACTATAGGGCCGGAATATTTGAATAATCTCCGATCTATGCTTGGTAACAAACAAAACGAGTTCACAGCTGAAATGGATTGCAGTAAATTTGGAATAAAGCCTTTTTACATAGAAGTTGGTCCTAACTATGACGTCAGTGGTGAACGCGACAAGTTTACGTTCACAGCTCCTACAACAGGTGCTAATACATTGCGGCTTTTACGCGGCCTGCAATTAAATAAGGCAATACTCCTCGAAGGGAATCCAGGCGTTGGAAAGACGAGCTTAGTCACGGCTATAGCAAAATCATCGGGCCACAAAGTTGTGAGGATAAATTTAAGTGACCAAACTGATATAACTGATTTATTTGGTACCGATTTGCCTTCTGAAGATGGATCTTTCACATTCAAGGAGGGTTCATTTCTGAGTGCGCTCCAAAACGGCGATTGGATTTTATTGGACGAATTAAACTTAGCTCCCCAACCTGTATTAGAAGGTCTCAACGCTTGCCTAGATCACAGGGGAGAAGTTTTCATACCTGAATTAGGCAGAACGTTTAAAGTGAAAGAACAGACAAGATTGTTCGCTTGTCAGAATCCTTTGAAACAAGGCGGAGCAAGAAGAGGTCTCCCAGTTTCATTCTTGAATAGATTCACTCAAGTGTACATTGATACTTTAACTAAAGCTGACTTGATTTATATTGTCGAATCTCAATATCCATCCATACCCAAAGATATTCTCCACAGAATTGTGCATTTTAACTGTAAAGTCGCCCATGATATTATTGAGCTACAGTCTTGGGCACATAGAGGTAGCCCTTGGGAGATGAATTTGAGAGACATACAAAGATGGTGTGAAGCTATTATTAAAGATCAAAACGGTGACAGTAAAATTTGTCCTGGGAAATATGTTGATATGCTGTATGTGAATCGCATGAGGACCGCCGAAGACAAAGGCAAAATGATCCAAACATATACTGAATTTTTCGAACCCGACTACCCGAGAAGCGATGGCATACCACAGTTCTTAATAAACGAAAAAGAAGTTATAATCGGCGATGTATCTATCGAAAGAAACGTCGAAAAACAGTTCAAAAACAGAAGATCCATTCAAACGAATCTCTTAGTTTTAAGAAATCAACTTTCTACTTTGAAAGCCCTGGCACAGAGCGTCAACATGAACTGGCTGTCAATACTTGTGGGTTCGTCGGCCACAGGCAAAAGCAGTGCTGTTCAATTACTTGCCGATTTGACTGGTAACGACTTGCAAGTAGTTCCCGTGACGTCGGCCATGGATGTCTCCGACTTACTAGGCGGCTTCGAGCAAGTCGACTATAATAGAAACCTCGAAATCATTTATGACAAAATAGAAACTATAACGATACAAACGGTCAGAAACATCTGGTTGGACAGTAAAAAGGATGAGTTGAAAACAAAGTGTCTATTGAGTAACTTGTATGAGTACAAAACGTTGCAAAGCACTAGTTGTGACAGAAACGACGATACAAAAGAGTTCCAAGGGAAAATACAATTCCTCAAAAAACACAGTGAACAGCTACTTCAGTACAACGCCACTTGTACCAGTATGAGCGAAAAAATAACAAAAATTGTAAACGTCTTGGATTTATTAGCATTCAGAGTTTCAAAAGGAAAGTCGATAAATGTAGGTGGAAAATTTGAGTGGGTCGATTCTTTACTAGTGAAGACTATGATGGAAGGGTCGTGGCTCCTTCTCGATAACGTAAATCTCACGTCAGCAGCTGTTTTAGATCGTCTAAATGGTCTATTAGAACCCAACGGAGTGTTGAGTATACTGGAGAGAGGGGACGTAAGTGAAATCAAGCCACATCCGAATTTCAGAGTTTTTTTCACTATGGATCCGAAATATGGTGAAATATCGCGAGCTATGAGAAATCGAGGTGTCGAGATTTTCTTACTCAGATCTGATGATTGGAACGCGAGCTTGTCGGAGACCTTGACTTATTTGGATTTAGTGGCCTTGTTGTCTTCATGCGACTTGCCAAGCGAATACCATGAGATATCCATCAAATGTCACGAAGCGATGGCAGCTTTCGTTCAAGGTTTTGAAAGACCAACCATATCGCATCTATTACAAGCATCGCATCTGACTTGGCAGCAAATCGTAAGGGGTATATCGGTTAAAACAGCTCTCGTTAACAGTTTTTCGGATATATATGTAAAACCAAGATGCGGAGGAGATTTCGCCTCAAATGTCATAGCGTCACTGGCCGAAAACAAAAACTGCATGCTGAGAGCTTTGAATCAGTTAATTGATGGTTTTGAATTCAAGGAACCTAGTGATACAACGCATACGTTAAGAGCGAAAGGTCTTTGCGCGAACTCATCATTGGAGATCGCTCAGCAAATAGCTTACATCGCAAGTCGAGAATTCACTGATACAGACTATACAACTGAAAAAGTTCTATACACTATATTCAGTTTATTGACAACCTATTTTAAGTGTTCCAAAGAAACATTCCACATAACCTACACAATCATTGAAGATATTTTAAAACATAAAAAAACGGATAGCATCGATTTAGTTTCAAAATTGAATAAACAAATCAAAGTTCACTTCAACGAAACCGTTGGAATGGATTTCATGTATAAAAGATACTTCCCGGAGTCTCAAAGTGTTAGTGATAACGTTCTTAAAGTGATAAATGTCGAAACTTTATTGCTTTACAACGAACTTTTGTCTGTATACCTTTCGTCGTTACATTGTAAAGATTATTTTTCTGCATACGACTATTCGAAGGCCGTCCTAAAAGGTCAAATGACTAATGATTTCGTCGAGTATCCTATACTGAAACAGTGCACTGTATATTTGAGAACTATTAATCTTTTTATTGAACGAGCTATTATGGAAGCTGAGCACAATTTAGACGACAAGTCTTCGTGTCGCGTGTTACAGCTACTCAGCTGGAGAGACAGACTTATAAGACTGACATACGAACCACTGTTTATTAAATCTGGATCGAAAAAACGTCAGACTCTGAGAGAGGACATCGTTCCTTTGATATATCTTCACATGAAATGGACCCACAAGTATTTGATTCATGAACTTTTTAAGATGTCAAATAACGACGCGATGGTCGAGGAATTCGCGAAGTCCGTTCGTATTATAGATCTGAATAATGATCAACTTAGTTCGGAAAAAACGAAATTGAGCAAGAAGCTGAGAAAGCTCTACGGCCAGCCCAAATTGTATGTGAACAAAGCAGAATATGATCTATGTAAAATCAGAACGGACATTTATAACAGATTGTCTTTGAATATGAACATACCGCTTGAAAGACAGACAGACAAACTTTCGATAGATCTTGCTACAGTATCTGACGTGACCTTAGCGTTGGACGTACCTGATGAAGATAAACTGGCAATAATAAAAGAAAACTTAACCAAATTAGAGTCCGCCATGATATCAGTAAACACGAAACGAGACATTAAATTGTTACCAGTAGCATCGTATGTCATACAAAGAGTATTGAGCTCGTTAAAGCTGATTTTCTTAAAATTGACGAATAAACTATCAACATCAGAAGGTGAGGTGTTGGAGGGAAATTGCAGCGAAGTTTTGAAATACATTGTTCAAATAGCCACAGCTACAAAAGGATTGCCGATTGCTTTGCTGGACGTGCTTAGAGTGCTTGCGAAGTTACTGGGGAATGATCAAGAACTTCGAAATGAGAGACTTTCGTCAATACCAGCGAGATTTTGGGACGAGTTATTCAAAGCGTTTATTAACTCGCCAGCGATGTATCCGACACCGTTCTTGAATATAGATAAAGCCACATCTGATGAAGAATTACAAGAAGCCATCGTCAACACGAAAAAGTTGTCTGAGAACCTTCCTGTATTACCTTATTATGTCCAGAAAGTTACCGTCTCCCCTGTTGAAAACGGCGATCGTCATGTATTGGCTTATGAGACAATATCTATTGAAGACAGAGCTCAATATTCTTTGCATTTAGATTCATTGTTGAATATTATTTGGAAGAATATCGCTACATTACATGCAACGGCTACTTCTAAAACGAAATCAGATGCTGAATTTGAACTGAAAAAATTTGAACAGCTCACGTTGTATTTAAAATCAATCGTAAGTCAAACCAAACCAGCGAACACAGATACAAATACTTCAAACATCGACACAGTACTACAATTGAAAGATAAAAGATTAACAGACATGCTTACTGAAACTCTGAAAGTTTACAACGAATTAAAGGCGACGGAAGATAAAACTAAAATGAAAATATTAACAGCACAACTGTCGTTACTAACGAGTCTTTTGTTCGTCGAAGTCATGGCCGAAGTGAATCCGGTGGATCAGATAGAAATATACCGCCTTAAAGCAAAATACATTGAAGAAGACATAAAAATGTTCGATGGTCTACTTAGCGTTTATTATATTCACGGTTTGACCAGTGGTACGATTACGAGTGCGGTGGACATCAGAAAACCTTCGTCTGTGCCCAGAGAATACCTGCAGGATCCCGAAATCAAAAACTGTTTGAATAAAGTACATCCATATTGTAGTCAGATATTCCAATTAAAAGAACAAACGCTGGCGACAGTGGAAAAATATGCTTTGGGTAATACATACAGACCCGAAACACCAACGTACGGTAGTTTCGTGAAGGACTGCAAACACTTCGCTAAATCCGTGCTCTCAGAGAAAACGGTGAAAGACGTTACCGTCAACTTGATAACCGCATCAAATAGTTTATATCAAAATGGCGCGGGACCGAACAAATCACTCGTACAGAACGCACATACGGTCGTCAAAGAAACAGCTTCGTGGCTTTATTCTGTTGAAGCATTTTATAAGAAGATCATCGAAACATATTCGGATGCCTTCCCCGATTTAGCGAAGCCCTTACAATATTCCTTATCGCAAACTGTGTATAGCGTTACACGTATAAGCGATGTTATAAAGGAATTAATGGTTAAAATCGAACAAGGGCCGACACAGAGAGAAATCGTATCGGCTTTGATAGAGTACCCAATTGCAATATCGAATAAGGACGCGAAAGGAGAGCACTTGAATCGTTTCGTGAATCCGAAATTCCTTCAGTTCTTGAACAAGAATTTGCTGGGATCGAACGTGGATACATTTAATGTTGAGTCGGAATGGATTTCTGTGCTAAAAATGAATTTAGTGGAGTTAAAAATGCATTGTATTGCATCAGAGAAGATCGATAAGATGTCCGTAGATGCCATGCTCGGTACACTCAGCGCTATCGTCACCGCCTGGGAACAACAGCAGAGAGACATTGAAAAGAAAAAACAAGACGACGAGGCCTTATATGTCACGAAATCCAAATGCGAAGATGAAGATGAGGACGCTATGGCTGATGAAGAAATTCTCGAAATGTTCCCCTCGTACTCAGATGAAGACTTCTCAGAGTTCAAACCTCCGACTCTCGAACAGAAACCGATCAAACAGAAGCCACTGACCGATAATAAACTAAAGCAACTCATTTCTTTAGACGACGTATCTTTAATTTATAAATGGCATTCGAACTTTGTACGTCACATGACTGAAGCGGAATGGTTACCCAGTCGAAAAAAGTTGGTCGGAAACGATTTAGTATCCGCGTTCTTTGAACGCTATCCGACATTCAGTCGTGTCATACAGAACAGCTGGGAGGCTCTGGATGCAGATTTTGAAGGAATCATATCACCCAGTTTAATGGTTATCATATCGCAGATTAAAGAGAAGGTTAATGGACAAGAATTCTCAAGCGGCAAAGCCGATTTCTATCGGTCACCGTGGGTATCGGAAACAAAACAATGTGTACCATTGCTACATAAAGTTAAAGAGAGCACCAATGAATTATTAGATCAATGGCCAGATTTCCCCACTTTGAAAGAGATAATCATAATAGTGAATAGGATACTATGTTTCCCGCTAGTGAGCCCGGTATCGCGTTTCTTGACCGGTCTTGAGTTGCTTCGAGATAAGATTGAGGAATGGAACAAAAACGCTCATAAAGGCAACAATTTAATTGAAATATCATTGGCCGTTGGACAACAGATTATAAACTGGAGAAAACTTGAGATGGCTCATTGGAAGGAGTGCCTGAACAATCTATATCAAAGGAAACAATCAGAGGCCCACAAATACTGGTTTTACTTATATTCCGTGATAAAAACTTACCTGGACACGACCTCTGATGAGCCCGTCCCAGCTGACAGGGTTATATCCGTATTGAAGGATTTCATGGAAAAATCTAATTTGGCCGAGTATGAAGTCAGGCTGGATATATTGTATGTGTATCATTGTCACTTAATACACCTTGAGTCTAGTCCGAGACGAGATGAACTCCTCTCCATACTGTGGAATACATACAATTACTACGCTCAATTCAGCGGGCAAGTGCTGGCGTTGATAAAGGACAAACGCGCTCCCATAGAAAAGAAACTGCGCGACTACGTCAAGATCTGCACCTGGGATCGTGATCTCAGCTACTGGAGTGTTAAAGACACTGTCGAAAAAGCTCATAAAGCTTTACATAAACACACGAAGGAGTTTGAGAAAGTGCTCAAGGAAAGCGTTCTAAGCTGCCTGGTGGATAGCACTTCGGACGTGACAACAGATCACGTCGGTATATGGGACAGGCCGAAAAGGGCCACAGCGACGGCTCCAACTGGGGGCGCGTACATGATCGACCCACAAAACCATCTCGTTCTGCCAAGGAATATCAAGAAATATTTAGATCAAGCGGAGCAGCCGTCCAAAGTTTTGGCGGAAGGAAGCCTGCTAGCAAAAATTCCTAGTTTATTCAACAAAGCGAAGACCCTTTGTAAGGATACGATCGCGAATACCGGATATCCGTCACTGGTACAAGCTCTGGACGATTTCGTGACGACAATTATTGAGACGAACACCCATCTAGGATCTTTAGAGGTCGACACGTCCCTGGCCAAAGAAAAACAAAAATCTCAAGCGAAAAATATAATTCAACAAAAGCGCAAGGCACTCGCCGATTTGTTCAAGTACCTCGCCAAATTGGGCCTCAACTATCGAACGGGTCTGGTTGTCCTGTCAACGTCAGATGACCTGTACGATTTCACGATACCGCCCGTTGACTTAGATGCCGCTATGGGATATTTGAAGAGCAGACGCTGTGACGCTTCGCTGTCGTTGCTCTGGTCCGGTTGCGAGAAATACTTCCAAAAAAATATAGCACGTCACCGATTCTTAACGTTAGCTCTACAATCACCGCACGAAGATTTGGGCATGCAGAACATAGAGAGATGTAAAGGTTTCGCCGCTCAGTTAATGAAATTAACAAACACACAGAAGAAATCAATATCAAAATATTCGCGTTTGCTTTGCGATTTACGAACTGCCACAACGAATCTGACCAACGCTTTAGACATTGATACAGACGGCATCAACATATCTACAATAAATTCGAAAATTGACATTCTTTGCGAGTGTTACGCAAATTGTAGTCTTGTATTAGAACAGTTCAATATAGTTTTAAAATCTTGTCCAGAACAAGGTCTGAGATCAGATGTAGAACCGGAATTCGACTCAATAGTATCTGGATCTCAAATTGTAAAGTGCTTCAAAAACTCTGACGAATGGTGTGAACTTAATAAAAAAATAAAATCTCTAATAACGAACGTTAATAAAAAGAAAAGTGCATTGCTCAAGTTGTCCTGTACTATACCAAAGAAAATAGGACTAAACTCGGAGCTCCCGTTGGTTTCCCAGAATCATATAGACGTAGTTGACGAATGTTACGCCAATTTAGAAACTATGATCAACGAAATAGAGGCCATTCTAGACGAATATAAATTTGTATTAAATATCGAAATCGGCTTTGCGGCCCCAGAACATCCAATCTTGAGAAGTGTAAGAGATTTATCGTTATATATGAAACAAACTTTGGTACAACTAGGCAGTTTGGACGGGAACAACGACATAACTACACCACAAATTTCGAGGGATGTCGTGATAAGTAAAACAGAAGATCTAATAGCCACAATGCTATTAATCATACAATCAATATACAAAAAACATTTGGGAGATAATTTGAATGAAAGCACTGAGGTCATTAATGCTATCGATGAGATAATTGATAGCGAAAAAGAATCCAAAGATATACTTGAAGACAAACATTTGAAAGAGCTTTTGCAAGATAAAATATCGAATGATTCAAAAATGCTACAATTAGACGTTTTAATAAATAAAACATCCGGCCTGTTGAACAACTATGTACAATATTTGGCTAGTGGAGGCGATGTTTGCGATGTAAAGGACATTGTGATGAGATCTGTACCGATATTGGAACAAACTATGTTATTCGTCCAATATTTCGTAACGCAAAAAGTAGCTGTCCATAGAGTGTCTTGTAAGATGTTATCCGTTTTGTTGAAAATATTCTCCGACTTATCGTCCAAAGGATTCTGCAAACCCTCTGATTTGGATATGGAGGAAGGTGAAGGTGAGGGTGGACCAGGTAAATTATCTGGAGGTGTCGGGTTAGGCGAGGGAGAGGGACAGAAAGATGTATCAGATAAAATAGAAAATCAGGACCAATTAGACGATGCTCAACGTCCAGGAGAAGAGCAGAAAGAAGAAGATAGGGATTGTAAAGAAGAAGAAAAGGGTGTAAACATGACTGATGATTTCGATTCTCACTTGCAAGATGTTGACAAAAAAGGTGACGATTCAGAACAAGAGGACGATGAAGACGACGCCGACAAACAAATGGGCGACACTGATAATGCCGCGGAAAAGTTGGATCAACAAATCTGGGGTTCAGAAGACGAAGAAGATCTCGATGAACAAGAAGGGAAGAAGGATAAAGAGGAAAAAGGTAAAGGTGAGAGCACGGGCGAGAAGGAAATGGGTGCTAAAGAGGAAGAACAAGGTACCGACGACGGCGCTGAAGGGAAAGACCGAAAACAAAAGAAAGACATAAATACAATGGAAGAACCGGAAGTCGATGATGATCATGTGGATCCATATCATGGCAACGCGCCCCAACTTCCAGAACCAGAAGATTTCGATCTCCCTGAGAACATGGATATTGATGGTGAAGAGCCAGGTGAAGATGAAGGTGAAACAGAAACGGAGAATCCATTTGAGATAGACGTCACGAAGGATGTTCCGGAAGAGTCGAAGGAAGAGAACGTTGAGGAAAAAGAGAATAATAAGAACGGACTAGAAGTATCCAGTGACGAGGAAGAAGGCGATGACCAAAACGACGGAGAAAAAAATAACATGGAACAAGAGGAAAAGCAAGATGAAACGCAAGAAAAAGACAAGGAATCGACAGAAAATGAAGAAGAAAAAGAAGAAGACGATCAAACCAATACAGACGGCGAAGCTCAGTCGTCCGAGCCGACCCAAGAACAGGAACCGGAACAAAAAGAAGACAAACTTCCACCAAACGAAGAGAAGATTGATGAAGATGATGATGTACAGGAAAAAGGCCAGGAACCTAATCCACAAGCCAATCCATCAAATAATGATGAGGCTGCGGGAGAGAAGGCAGAGAACGCTGAAATCGATCGCGGTACTAGCGATAATGTCGAGACTAACGATGAACAGGCTAAAGATGAAGACGCAGCGCCTTTCGAACAAGCTCAGGAACAAGTGGGCGAAGATAAACAGTCAATGGGCCGTTCGGAACTCGACAAGAGCGATAAAGGTCATCGCGGTGAGAAGCAGGTCGCGAACCGGGCTGACGCGACACAGGAGAAAAAGAACAAACACGAGAACAAACCAGGGAAAACAGACGAGGAACGAATACTAGGTGACATTACTGAGAGGAAACATAAACAAATGCAGACATTGAACGTTGAGCGGGAAGATGATAACGCAGAAGAGGGCGGCGATGTCAATGATGAAGATGAAAGCGACGCCGATGCCTTCCAACATGTGAAACAAGCTAAAAAGGATGATTTACAGGCGTTAGACGCAGCAACCAAAGAACAAGCCAATGAACAGCCGGTGATACAGAAAGAAGAAGATGAAGGCGAAGAACTGAAGGAAGATGAACAAGTTCCTATGGAAGTTGACGATGAAGAATTACAGGTTGAGAAATCGAAAGAACTTAAACCGGAAAAGATGGGAGAAAGTGCTGAAAAAGACAAAGATAAATCTGGCAACAAAAATGAAACCGGAGAGGAGCCCACTGGCGAAACCGGTATGGAAGTGGAAGGAGAAAAAATTGATACCTCTAGTGTTGCCAGAGGAACTGACACTACTTATCATACACGATTGGAGCAAGAGGATGTCCAACCGGAGGAGATGACGATCGAGCAGTACATGAGTATACGGGAGTGGCTGGCGTGCGGTAGGGCGGGGGGTGCGGGGGGCGCGGCGGCGTGGCGCGCGCTGTGGCGGGACTCGGCCGCGTCCGCGCGCGCGCTCTGCGAACGGCTGCGTCTGGTGCTAGAACCCACTGGACGGTCGCGACGAGCGGGCGATTTTCGAACTGGTCGTGCCATTAACATGCGTCGAATTATTCCATACATCGCGTCACACTTCCGCAAGGATCGCATCTGGCTGCGGAGGACAAAGCCGGCAAAACGAGAGTACAAGATCGCTATAGCCGTCGACGATTCCAGTTCTATGTCCGATAACAGGAGCAAAGAGTTGGCCTTCGAGAGCTTAGCGCTCGTATCTCAGGCTTTAAATCTACTGGAATCAGGTGATTTAGCCGTTTTGAGTTTCGGCGAGAAACCGAACCTCTTGCACCCGTTCACCGAACAATTCTCAGAACATTCCGGCTCGAAGATTCTCGAACAGTTACGTTTCGAACAGAATAAAACTAAGATAGCTCAACTGCTGGACTATTGTACGGTTTTATTCGAAGAACAGACCGTGAAGAGTGATGCCCTGAACGCTAAATTGTTAGTTATAGTAAGCGACGGTAGAGGAATATTCTCTGAAGGTGAAACGAAGGTACTCCAGGCGGTCAGAAGGGCGAAACAGCAAGGGATATTCTTAGTTTACGTCATCATCGACAACCCTCATAATAAGGACTCGATAATGGACATCAGACGACCGATACTAGACCCCGCTACGAACAGCCTGTTGAGATTCGAGTCGTATTTAGACTCGTTCCCGTTCCCGTTCTATCTAATATTGCGGGATATATCCGCGCTACCAACTGTACTGGGAGACGCGCTGCGGCAATGGTTCGAACTGGCCGCTAATGTTAGCTAA
Protein
MSISYMLSGLNKIGSETGTQELKILCENLKTSLSKKALEIQDIVKILSDYILKIDDAILFKTYLSNILLALVSLKIPLKAIFSSPDYIKCSDSEKIAHLEYSVILATLCDHPDILQYALKYFEINKVPPFEVFIYHEEGYNVAPKKRRLLDCRQKINDQQIVNCCYTLLTKLPNELSVKWDWTKFVENFSNHDNVEIRWMVKECMVILTNMTEAQAKILSNNMKLSQQDVFHFLTPKNFKCYTFDETVKDEKLIIDNVVNIDGILLPLYDKDNVQNGSLVPVKSTVNNLRSLALAVASGQPLCLMGPVGSGKTTLVEHLAAITGRKGTAFKKVQLGDQTDSRMLLGSHQCTDVPGEFKWGPGVLTEAVQNGHWLLLEDIDCAALDVASTLSSLIERNTLCVPGYRDSLPVTPGFQLFVTQRTLTTNYGFQKKMSNSSTLLQKHLTQINVEPLSRSELCEIVQTLYPSLNTICSRIIEVFMMFSVGNHDTSLQTTEVVIEKNSNINLIRGSRLISTRDLMKWCSRAVVGFDVSSPGSALKVLQDALDIFTCSVSTPEHRLELAKKVGTCLGIVETKSEFYCKHYKPNVSLHPACFEVGRAKVPRLEKSLETIDFDNKQVVFSFTRQSACLLEKIACCVMSNEPVLLVGETGTGKTSSVQYLAKQTGHKLIVINMNQQSDSADLLGGYKPVDLKYVIKPIKNEFQELFRNFYNIQKNTKFLSHVETCYETESWTALLALMQQSHKAAVNRLNAEKKEIKLKRWLMFGYKLAKLEQQIKAASKLTFAFIEGSLVKAMQEGHWVLLDEINLASAEILECLAGLLEDKNDTIDLLEKGDKVPIKRHADFTLFACMNPATDVGKKDLPVGLRNRFTEFFIDELTERNDLMLLIGDYLYHMNLTGATLEAIYSFYSGIRKEAKLNLVDGAGNAPHYSLRTLCRALTAASKAKCGTVARSLYEAFCLSFLTQLDSSSHPIVEAMIAKAVIGKKNIKSVLNQTIPEPQVLGQNFLLFEGHWIPQGTLEVCIPENYILTPTVRKNLRDIARIVSLGRLPVLLQGDTSVGKTSLITYIAKASGNYCVRINNHEHTDLQEYIGSYATDSSGKLVFREGVLVEAMRKGYWIILDELNLAPSDVLEALNRVLDDNRELFIPETQQVIKADPNFMLFATQNPPGLYGGRKMLSRAFRNRFVELHFDEIPKRELETILHQRCHVPPAYSKKMIAVMADLQIRRRGSAAVQGKDGFITLRDLFRWGERYKHASKECLTDEKFYDWDQHIADEGYLILAGKVRQTDERYIIEQIVQKNIKRTVNPDNLFSLHQGTSPVTKSTLESLFNNQLVEFSHVVWTYNMRRLAILIAKAFKFNEPVLLVGETGCGKTTICQVLAAMNKRQLLSVNCHMHTESSDFLGGLRPVRQHKNDGRLFEWVDGPLIKAMETGDIFLADEISLADDSVLERLNSLLEPERQLVLSERGMEDNSDIVVITANENFHFIGTMNPGGDFGKKELSPALRNRFTEIWCDSVTTREDLLGVLEKSVNKGIALGNQEDGSSGIGTSILDFTEWLKTSEVTCKFPFSIRDLLSWVQFINVTVAKGLLDVPEAYVHGACMTFLDCFGTALTGQIDSASLTALRNSAIDFLLDQIKTIGPEYLNNLRSMLGNKQNEFTAEMDCSKFGIKPFYIEVGPNYDVSGERDKFTFTAPTTGANTLRLLRGLQLNKAILLEGNPGVGKTSLVTAIAKSSGHKVVRINLSDQTDITDLFGTDLPSEDGSFTFKEGSFLSALQNGDWILLDELNLAPQPVLEGLNACLDHRGEVFIPELGRTFKVKEQTRLFACQNPLKQGGARRGLPVSFLNRFTQVYIDTLTKADLIYIVESQYPSIPKDILHRIVHFNCKVAHDIIELQSWAHRGSPWEMNLRDIQRWCEAIIKDQNGDSKICPGKYVDMLYVNRMRTAEDKGKMIQTYTEFFEPDYPRSDGIPQFLINEKEVIIGDVSIERNVEKQFKNRRSIQTNLLVLRNQLSTLKALAQSVNMNWLSILVGSSATGKSSAVQLLADLTGNDLQVVPVTSAMDVSDLLGGFEQVDYNRNLEIIYDKIETITIQTVRNIWLDSKKDELKTKCLLSNLYEYKTLQSTSCDRNDDTKEFQGKIQFLKKHSEQLLQYNATCTSMSEKITKIVNVLDLLAFRVSKGKSINVGGKFEWVDSLLVKTMMEGSWLLLDNVNLTSAAVLDRLNGLLEPNGVLSILERGDVSEIKPHPNFRVFFTMDPKYGEISRAMRNRGVEIFLLRSDDWNASLSETLTYLDLVALLSSCDLPSEYHEISIKCHEAMAAFVQGFERPTISHLLQASHLTWQQIVRGISVKTALVNSFSDIYVKPRCGGDFASNVIASLAENKNCMLRALNQLIDGFEFKEPSDTTHTLRAKGLCANSSLEIAQQIAYIASREFTDTDYTTEKVLYTIFSLLTTYFKCSKETFHITYTIIEDILKHKKTDSIDLVSKLNKQIKVHFNETVGMDFMYKRYFPESQSVSDNVLKVINVETLLLYNELLSVYLSSLHCKDYFSAYDYSKAVLKGQMTNDFVEYPILKQCTVYLRTINLFIERAIMEAEHNLDDKSSCRVLQLLSWRDRLIRLTYEPLFIKSGSKKRQTLREDIVPLIYLHMKWTHKYLIHELFKMSNNDAMVEEFAKSVRIIDLNNDQLSSEKTKLSKKLRKLYGQPKLYVNKAEYDLCKIRTDIYNRLSLNMNIPLERQTDKLSIDLATVSDVTLALDVPDEDKLAIIKENLTKLESAMISVNTKRDIKLLPVASYVIQRVLSSLKLIFLKLTNKLSTSEGEVLEGNCSEVLKYIVQIATATKGLPIALLDVLRVLAKLLGNDQELRNERLSSIPARFWDELFKAFINSPAMYPTPFLNIDKATSDEELQEAIVNTKKLSENLPVLPYYVQKVTVSPVENGDRHVLAYETISIEDRAQYSLHLDSLLNIIWKNIATLHATATSKTKSDAEFELKKFEQLTLYLKSIVSQTKPANTDTNTSNIDTVLQLKDKRLTDMLTETLKVYNELKATEDKTKMKILTAQLSLLTSLLFVEVMAEVNPVDQIEIYRLKAKYIEEDIKMFDGLLSVYYIHGLTSGTITSAVDIRKPSSVPREYLQDPEIKNCLNKVHPYCSQIFQLKEQTLATVEKYALGNTYRPETPTYGSFVKDCKHFAKSVLSEKTVKDVTVNLITASNSLYQNGAGPNKSLVQNAHTVVKETASWLYSVEAFYKKIIETYSDAFPDLAKPLQYSLSQTVYSVTRISDVIKELMVKIEQGPTQREIVSALIEYPIAISNKDAKGEHLNRFVNPKFLQFLNKNLLGSNVDTFNVESEWISVLKMNLVELKMHCIASEKIDKMSVDAMLGTLSAIVTAWEQQQRDIEKKKQDDEALYVTKSKCEDEDEDAMADEEILEMFPSYSDEDFSEFKPPTLEQKPIKQKPLTDNKLKQLISLDDVSLIYKWHSNFVRHMTEAEWLPSRKKLVGNDLVSAFFERYPTFSRVIQNSWEALDADFEGIISPSLMVIISQIKEKVNGQEFSSGKADFYRSPWVSETKQCVPLLHKVKESTNELLDQWPDFPTLKEIIIIVNRILCFPLVSPVSRFLTGLELLRDKIEEWNKNAHKGNNLIEISLAVGQQIINWRKLEMAHWKECLNNLYQRKQSEAHKYWFYLYSVIKTYLDTTSDEPVPADRVISVLKDFMEKSNLAEYEVRLDILYVYHCHLIHLESSPRRDELLSILWNTYNYYAQFSGQVLALIKDKRAPIEKKLRDYVKICTWDRDLSYWSVKDTVEKAHKALHKHTKEFEKVLKESVLSCLVDSTSDVTTDHVGIWDRPKRATATAPTGGAYMIDPQNHLVLPRNIKKYLDQAEQPSKVLAEGSLLAKIPSLFNKAKTLCKDTIANTGYPSLVQALDDFVTTIIETNTHLGSLEVDTSLAKEKQKSQAKNIIQQKRKALADLFKYLAKLGLNYRTGLVVLSTSDDLYDFTIPPVDLDAAMGYLKSRRCDASLSLLWSGCEKYFQKNIARHRFLTLALQSPHEDLGMQNIERCKGFAAQLMKLTNTQKKSISKYSRLLCDLRTATTNLTNALDIDTDGINISTINSKIDILCECYANCSLVLEQFNIVLKSCPEQGLRSDVEPEFDSIVSGSQIVKCFKNSDEWCELNKKIKSLITNVNKKKSALLKLSCTIPKKIGLNSELPLVSQNHIDVVDECYANLETMINEIEAILDEYKFVLNIEIGFAAPEHPILRSVRDLSLYMKQTLVQLGSLDGNNDITTPQISRDVVISKTEDLIATMLLIIQSIYKKHLGDNLNESTEVINAIDEIIDSEKESKDILEDKHLKELLQDKISNDSKMLQLDVLINKTSGLLNNYVQYLASGGDVCDVKDIVMRSVPILEQTMLFVQYFVTQKVAVHRVSCKMLSVLLKIFSDLSSKGFCKPSDLDMEEGEGEGGPGKLSGGVGLGEGEGQKDVSDKIENQDQLDDAQRPGEEQKEEDRDCKEEEKGVNMTDDFDSHLQDVDKKGDDSEQEDDEDDADKQMGDTDNAAEKLDQQIWGSEDEEDLDEQEGKKDKEEKGKGESTGEKEMGAKEEEQGTDDGAEGKDRKQKKDINTMEEPEVDDDHVDPYHGNAPQLPEPEDFDLPENMDIDGEEPGEDEGETETENPFEIDVTKDVPEESKEENVEEKENNKNGLEVSSDEEEGDDQNDGEKNNMEQEEKQDETQEKDKESTENEEEKEEDDQTNTDGEAQSSEPTQEQEPEQKEDKLPPNEEKIDEDDDVQEKGQEPNPQANPSNNDEAAGEKAENAEIDRGTSDNVETNDEQAKDEDAAPFEQAQEQVGEDKQSMGRSELDKSDKGHRGEKQVANRADATQEKKNKHENKPGKTDEERILGDITERKHKQMQTLNVEREDDNAEEGGDVNDEDESDADAFQHVKQAKKDDLQALDAATKEQANEQPVIQKEEDEGEELKEDEQVPMEVDDEELQVEKSKELKPEKMGESAEKDKDKSGNKNETGEEPTGETGMEVEGEKIDTSSVARGTDTTYHTRLEQEDVQPEEMTIEQYMSIREWLACGRAGGAGGAAAWRALWRDSAASARALCERLRLVLEPTGRSRRAGDFRTGRAINMRRIIPYIASHFRKDRIWLRRTKPAKREYKIAIAVDDSSSMSDNRSKELAFESLALVSQALNLLESGDLAVLSFGEKPNLLHPFTEQFSEHSGSKILEQLRFEQNKTKIAQLLDYCTVLFEEQTVKSDALNAKLLVIVSDGRGIFSEGETKVLQAVRRAKQQGIFLVYVIIDNPHNKDSIMDIRRPILDPATNSLLRFESYLDSFPFPFYLILRDISALPTVLGDALRQWFELAANVS
Summary
Description
Nuclear chaperone required for maturation and nuclear export of pre-60S ribosome subunits (PubMed:27814492). Functions at successive maturation steps to remove ribosomal factors at critical transition points, first driving the exit of early pre-60S particles from the nucleolus and then driving late pre-60S particles from the nucleus (By similarity). At an early stage in 60S maturation, mediates the dissociation of the PeBoW complex (PES1-BOP1-WDR12) from early pre-60S particles, rendering them competent for export from the nucleolus to the nucleoplasm (By similarity). Subsequently recruited to the nucleoplasmic particles through interaction with SUMO-conjugated PELP1 complex (PubMed:27814492). This binding is only possible if the 5S RNP at the central protuberance has undergone the rotation to complete its maturation (By similarity).
Nuclear chaperone required for maturation and nuclear export of pre-60S ribosome subunits. Functions at successive maturation steps to remove ribosomal factors at critical transition points, first driving the exit of early pre-60S particles from the nucleolus and then driving late pre-60S particles from the nucleus (PubMed:15260980, PubMed:15528184, PubMed:19737519, PubMed:20542003). At an early stage in 60S maturation, mediates the dissociation of the NOP7 complex (YTM1-ERB1-NOP7) from early pre-60S particles, rendering them competent for export from the nucleolus to the nucleoplasm (PubMed:20542003). Subsequently recruited to the nucleoplasmic particles through interaction with the RIX1 complex. This binding is only possible if the 5S RNP at the central protuberance has undergone the rotation to complete its maturation (PubMed:26619264). After remodeling, removes the ribosome biogenesis factor RSA4 in an ATP hydrolysis-driven step from pre-60S ribosomal subunits, rendering them competent for export from the nucleoplasm to the cytoplasm (PubMed:19737519, PubMed:20542003). Activates the GTPase activity of NOG2, which disengages from the pre-60S particle upon GTP hydrolysis, thus freeing its binding site for the nuclear export factor NMD3 (PubMed:24240281).
Nuclear chaperone required for maturation and nuclear export of pre-60S ribosome subunits. Functions at successive maturation steps to remove ribosomal factors at critical transition points, first driving the exit of early pre-60S particles from the nucleolus and then driving late pre-60S particles from the nucleus.
Nuclear chaperone required for maturation and nuclear export of pre-60S ribosome subunits. Functions at successive maturation steps to remove ribosomal factors at critical transition points, first driving the exit of early pre-60S particles from the nucleolus and then driving late pre-60S particles from the nucleus (PubMed:15260980, PubMed:15528184, PubMed:19737519, PubMed:20542003). At an early stage in 60S maturation, mediates the dissociation of the NOP7 complex (YTM1-ERB1-NOP7) from early pre-60S particles, rendering them competent for export from the nucleolus to the nucleoplasm (PubMed:20542003). Subsequently recruited to the nucleoplasmic particles through interaction with the RIX1 complex. This binding is only possible if the 5S RNP at the central protuberance has undergone the rotation to complete its maturation (PubMed:26619264). After remodeling, removes the ribosome biogenesis factor RSA4 in an ATP hydrolysis-driven step from pre-60S ribosomal subunits, rendering them competent for export from the nucleoplasm to the cytoplasm (PubMed:19737519, PubMed:20542003). Activates the GTPase activity of NOG2, which disengages from the pre-60S particle upon GTP hydrolysis, thus freeing its binding site for the nuclear export factor NMD3 (PubMed:24240281).
Nuclear chaperone required for maturation and nuclear export of pre-60S ribosome subunits. Functions at successive maturation steps to remove ribosomal factors at critical transition points, first driving the exit of early pre-60S particles from the nucleolus and then driving late pre-60S particles from the nucleus.
Subunit
Associates with pre-60S ribosomes in the nucleoplasm. Interacts (via its hexameric AAA ATPase ring) with the PELP1 complex (via PELP1); the interaction is regulated by SUMO conjugation of PELP1 and is crucial for recruitment of MDN1 to the pre-ribosomal particle (PubMed:27814492). Interacts (via VWFA/MIDAS domain) with WDR12 (via UBL domain) (PubMed:26601951). Interacts (via VWFA/MIDAS domain) with NLE1 (via UBL domain) (PubMed:26601951).
Associates with pre-60S ribosomes in the nucleoplasm (PubMed:11583615, PubMed:12374754, PubMed:15260980, PubMed:19737519). Interacts (via its hexameric AAA ATPase ring) with the RIX1 complex (via RIX1); this interaction is crucial for recruitment of MDN1 to the pre-ribosomal particle (PubMed:15260980, PubMed:26619264). Interacts (via VWFA/MIDAS domain) with YTM1 (via UBL domain) (PubMed:20542003). Interacts (via VWFA/MIDAS domain) with RSA4 (via UBL domain) (PubMed:19737519, PubMed:20542003).
Associates with pre-60S ribosomes in the nucleoplasm.
Associates with pre-60S ribosomes in the nucleoplasm (PubMed:11583615, PubMed:12374754, PubMed:15260980, PubMed:19737519). Interacts (via its hexameric AAA ATPase ring) with the RIX1 complex (via RIX1); this interaction is crucial for recruitment of MDN1 to the pre-ribosomal particle (PubMed:15260980, PubMed:26619264). Interacts (via VWFA/MIDAS domain) with YTM1 (via UBL domain) (PubMed:20542003). Interacts (via VWFA/MIDAS domain) with RSA4 (via UBL domain) (PubMed:19737519, PubMed:20542003).
Associates with pre-60S ribosomes in the nucleoplasm.
Miscellaneous
Present with 538 molecules/cell in log phase SD medium.
Similarity
Belongs to the midasin family.
Keywords
Acetylation
ATP-binding
Chaperone
Complete proteome
Cytoplasm
Nucleotide-binding
Nucleus
Phosphoprotein
Polymorphism
Reference proteome
Repeat
3D-structure
Feature
chain Midasin
sequence variant In dbSNP:rs4707569.
sequence variant In dbSNP:rs4707569.
Pubmed
12102729
14574404
9205841
17081983
18691976
18669648
+ More
19413330 19369195 19690332 19608861 20068231 21269460 21406692 22002106 23186163 26601951 27814492 9169871 24374639 9090053 11583615 12374754 14562106 15528184 15260980 18407956 19737519 19779198 20542003 24240281 26619264 11859360 16823372 18257517 12097910 15875012 10930750
19413330 19369195 19690332 19608861 20068231 21269460 21406692 22002106 23186163 26601951 27814492 9169871 24374639 9090053 11583615 12374754 14562106 15528184 15260980 18407956 19737519 19779198 20542003 24240281 26619264 11859360 16823372 18257517 12097910 15875012 10930750
EMBL
Proteomes
Interpro
Gene 3D
PDB
6I27
E-value=0,
Score=3552
Ontologies
GO
Topology
Subcellular location
Nucleus
Nucleolus
Nucleoplasm
Cytoplasm
Nucleolus
Nucleoplasm
Cytoplasm
Length:
5367
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.1112
Exp number, first 60 AAs:
0.01279
Total prob of N-in:
0.00425
outside
1 - 5367
Population Genetic Test Statistics
Pi
226.784778
Theta
170.963229
Tajima's D
0.788797
CLR
0.393281
CSRT
0.59982000899955
Interpretation
Uncertain
