Gene
KWMTBOMO02802
Pre Gene Modal
BGIBMGA003690
Annotation
PREDICTED:_LOW_QUALITY_PROTEIN:_dynein_heavy_chain_8?_axonemal-like_[Bombyx_mori]
Full name
Dynein heavy chain 5, axonemal
+ More
Dynein heavy chain 8, axonemal
Dynein gamma chain, flagellar outer arm
Dynein heavy chain 11, axonemal
Dynein heavy chain 2, axonemal
Dynein-1-beta heavy chain, flagellar inner arm I1 complex
Dynein heavy chain 6, axonemal
Dynein-1-alpha heavy chain, flagellar inner arm I1 complex
Cytoplasmic dynein 1 heavy chain 1
Dynein beta chain, ciliary
Dynein heavy chain 17, axonemal
Dynein heavy chain 10, axonemal
Dynein heavy chain 8, axonemal
Dynein gamma chain, flagellar outer arm
Dynein heavy chain 11, axonemal
Dynein heavy chain 2, axonemal
Dynein-1-beta heavy chain, flagellar inner arm I1 complex
Dynein heavy chain 6, axonemal
Dynein-1-alpha heavy chain, flagellar inner arm I1 complex
Cytoplasmic dynein 1 heavy chain 1
Dynein beta chain, ciliary
Dynein heavy chain 17, axonemal
Dynein heavy chain 10, axonemal
Alternative Name
Axonemal beta dynein heavy chain 5
Ciliary dynein heavy chain 5
Axonemal beta dynein heavy chain 8
Ciliary dynein heavy chain 8
Axonemal beta dynein heavy chain 11
Ciliary dynein heavy chain 11
Axonemal beta dynein heavy chain 2
Ciliary dynein heavy chain 2
1-beta DHC
Dynein-1, subspecies f
Axonemal beta dynein heavy chain 6
Ciliary dynein heavy chain 6
1-alpha DHC
Cytoplasmic dynein heavy chain 1
Dynein heavy chain, cytosolic
MAP 1C
Axonemal beta dynein heavy chain 17
Ciliary dynein heavy chain 17
Axonemal beta dynein heavy chain 10
Ciliary dynein heavy chain 10
Axonemal dynein heavy chain-like protein 1
Ciliary dynein heavy chain-like protein 1
Dynein light chain 2, axonemal
Ciliary dynein heavy chain 5
Axonemal beta dynein heavy chain 8
Ciliary dynein heavy chain 8
Axonemal beta dynein heavy chain 11
Ciliary dynein heavy chain 11
Axonemal beta dynein heavy chain 2
Ciliary dynein heavy chain 2
1-beta DHC
Dynein-1, subspecies f
Axonemal beta dynein heavy chain 6
Ciliary dynein heavy chain 6
1-alpha DHC
Cytoplasmic dynein heavy chain 1
Dynein heavy chain, cytosolic
MAP 1C
Axonemal beta dynein heavy chain 17
Ciliary dynein heavy chain 17
Axonemal beta dynein heavy chain 10
Ciliary dynein heavy chain 10
Axonemal dynein heavy chain-like protein 1
Ciliary dynein heavy chain-like protein 1
Dynein light chain 2, axonemal
Location in the cell
Cytoplasmic Reliability : 2.178
Sequence
CDS
ATGTCGGATGATGCTGAAAATGTACCCGAAAACACAGAAAAGACAGAGGCTGGTGGCCAGGATATTTCTGACGAACACGCAGAAGATGTAGCTCAAACTGCTGTAATAATTAATGAAATAGAAACAAGACCTTCTAAAAGAGATTCTCTATTCCCATTTTCTTTTGGCGATGATGAAGAACGTGTAGATGTTGATAGAACAGCTTTAGAAGCAATTTTAGATGTCGGCGCTCGATTACAAGATATTCAAAAGAAAAGTAGGGTGTCTATGAGTACATTGGCTTTGGCACATGAGTCTTATAAAGATAAACAAGCCAAAGCTAAAGAAGCCAGGAATAACCGCATGGGTGGTCTTAAAACCCAACACAGATTTTTGCTGGAAAATGCAGCAGCCATTTTAAACCGACCAGTTGAATATGTTTTGGATGGTGTGTTTGATGCAGACATTAATATTGAACTACTGGATAGTGCTGTAGTTGAAGGTGGAAGAAATTGTGTTGTGGTCTGTGATGCGGTGCTGCCACAACTAAAAATGGAGTCTGGGAGATATATTCCGAACCAGAAAGGAAGAATGGAGAGGGTTTATTTATCAGATGGAGCAACAATTGCAACTGAGGGTGTTTGTGTTGCAATGTACAGAATAAAAAATAAAGCCATTGATACAAAAAATATGGCTGATGATTATTATTTAGTCTATCTTGACATGAATCAAGAAACCGAAAATGTGGTTTCTGGTATTTTTAAAACCATGGATCGTGTTTATATACCCGCCATAAAATGTTGTAAAGCTTGGGGCGATCTTAATCCACCAAAACCGAATAGTGAGGACATCATCAAAACTTACATTTCGAAGGTGATGCTGTTCATTGACTATCTAGCAAAAACAAAAACTGACTTGGACTGTTGTACGAAGTTTAAAATAAATTTGACTCTCTATGAAGATGAGTTGTCAGATCAAGAGAAAATGAAACACGCAGTAACAAAGATGCATGTTTTGGAAGAGATATGCGCATTTGTTAAACAATGGATGAAACAAATTACTATGGTATTAGTGCAAAGTCAGCAGTTAAGACGTGAACCGTCCAACATAGGTCCTTTGGCTGAGCTGGATCATTGGCGGCGACAACTCACCACTTTTACATCGATTATTGAACACATAAAAAGCGATCCTTGTCAGATGTACATTCACACGCTTATAAGAGCCAAGTCGAAACTGATTAAGAAATGGAGGCTCTTAGATAATCAAGTAACGGACTATTACAATGAAGCTTCAGACAATGTTAAATATTTATATGCTTTGGAAAAGTACTGTGAACCACTTTACAGATGTGATCCAAAGTCAATGCAGCAGTACATACCGGGCTTGCTGTACACGGTCCGAATGGTTTTTGCGACATCTAGATATTACAATACGACTAAACAAATCTCTACCCTGCTTGTTAAAGTTACGAATCAGATACTTAACATGTGCATGGAATATCTAACCAATGGCGGAAAGAAAACTATATGGAACCAAGATAAATTGAATTTCATTGAAAAAGCCAAGTTATGCCTTGATTTATATGGGTTTTATCGAGAATGTTATATGGAAACGCAAAAAGAAATGATAGCAGCGGCAGACGAACGTCCATTCGATTGCTCTGAAATGTATATATTTGGAAAATTCGAAACATTTCGAAAACGATTATTAAAGATAATGGATCTTTTCCAAAACTACATCACCTATTATGTTTTGAATAAGACCACACTGGAAGGTATTGAAGAATACGCTACAAATTTCAACAAACTATTCAAAGCTATTTCCACAAAAACATATGATGCCTTGGACCATAGACGTCCTGATTTCGATAAAGATTACAAAGTGTATAAAGATGGAGTTGCGAATCAAGAGTTATTACTGGAAAATTTCATGATCGCGAGCGTCAATAAATGCCCAACCACAGAAATAGCGTTACATCTATTGAAACGTTTTGAAAAGCTTCAATTAGATTGTTTGTACTTGGAAGATCAATATTATGATTTGATTAGTAATTACACAGCTGAAATTGAAGCAATCAGGGACAGGTATAATGAAATCAGGGAAAACCCGGAATTGCCTCGAAATATGCCACCGGTAGCCGGCAGGGTTATGTGGATAAGGTTCTATAACAAAAATATCAAAGGACCGATGGAAGAATTCAAAAAACATTATGAAGTTATCACACATATGAATACACAAAGATGCATAAAACTGTATAATGTTATGACTATTGTATTCACCGAATTCGAATTAATTTACCATAGCGCTTGGGCGGAAAATGTTGGTCAGGTCAGACTCGGTTTAGTCGCACCCCTACTGATACGTCATCCATCTACGAATATGTACATTGTGAATTTCAGTATTTATATACCGGAGTGTATAAGGGAAGTTGAATACATGTGGCAATTGGGATTACGTGTTCCCGAAGGAGCTCAAATTGTAGCTTTCTGCAAGGAAAAAATATTGGGGAATTACGAGCGCATAAAATTCTTGGTGGAGAGAAATAATCAAATTAGAAAGAGTATGCCGAAATTATATTTACCGCTCCTTCGAGCACAGTTGATAAAAATAGAAAAAGCCTTCCAACCTGGGCTGTCAACAATAACGTGGACTTCTTTAGAAATACCCTCGTATTGTGATAATATCGAAGCTATTCTCGATGAAGTCGATTTGTTTGTCAAAGAAGTGGTGGACATGAAGGAAGCTCGAATTGATGCAATCTTGCAGTCAATATCTAAAATGTTGCTTGTGTATTTGCCTGAGCAAGCTGTAGAGCCTGCGGTGTTTTATGAAGAGAATCTTTTACGACGAGATGAAATCGCAATTGAATTGCAACAGAAATCTTGGAATGCCGAGATTGCTGTGATTGAATTGATACACAAGTTTCTCGACAGTGTGCCATCGAAACAGATTCAAGATTTAAAGGACAATTGGTTAGATATAGAAAAAGCGCTAAAACAAGTTACCTCTGCTACAAGAGTATTTCCTGAAGATGCTGCATTTTTGGAAATTGAAAATCCTGACCGATTCGACGTATTGCCCACTATAAACGAATGCAATGAATTATTCGCGTATTTCGCAACGAAATGCTTGGAGTCGCTCATCAAGTGTACCAGGCAGAGTCTTGATATATTACGGAAGCGAGCTTCAGTGTCCAGCTTTTTAACAATGACAACCGATCCTGAAGAACAAAAGAAACTAAAACCACTCATGCTAACGAAGATGTTCCTTCAAATTCCCAGAATACTCATTAAACCAGCGCTTGAAGAAATTCAGGCAGCTTTCTCTCAGGTAGTTTTGAATTGCGTGATGGATACGCATCGTAGCGTGTTCATGTGGGGTCAGCAGGAACAAATCAAGAAGGAACAAATGAGGGGAGTGTCGTTGACTACGAGTAGAAGTGTGAGCGGCTCGAAAACAGGGTCGAGTCTCGCCGGTATTAGAAATTATTTTCGAATGGTATCCGAACATAAAGATATCGTACGTTCTGTAATGGCCTTACAAGGCATGATGTTTATGTACAAGCCTGATATTGAGAAGCTGTTGAAGACCTACTCCCGATTTTCGTATCTTTGGGCTGAAGATAGGGTACAACAGGTCCAAGACTTCGTAGATTCCAATCCATTGAATGTGATTATCAGAGATATGCTCAAAAAATATGAAGGACAAACTGAAGAAGTGCTGAATTTACCGGAACGACACATTATTGGGTCAATAGAAATTAATATGGATAACATAAAGCTTGCCCTACATGTCGAATCGGTGGAATGGAAACGGATTCTGGGTAAATTACTCAGTCAGGCGTACAAAGAACGAGTAATTAAATTGATGCAGTTTATAAACGACCGCATGAAGACTATGGGAAAGAAAATCAAAGATTTGGACGATGTCAGATTAGCTATGATGTGCCTCGAACTAATCAGAGAAGAATTTATTGGTATGGACATGGAATTGGATCTAATTGAAGAAAGTTACGCCACGTTTGCACAGTTCAGTATTGATATTCCCAAAGAAGACATAGATTTGGTGTATGGATTGCGTTACGCTTTTCAGAATATGTTAATAACGTCTCAACAAGTTCAACAAAAAATAGTGGACATGCAAGGCCCGCTTCAAAAAGAGTTGACCGAAGGTGTAGCGTCATTCTTGGCCGATGTCTTGAAGTTTGATGCTGACTATGATGCATACGGTCCTATGACGCCTGGACTAAGCGCTAGAGAAGCTAGTGACAGGGTAATATTGTTCCAGTCGAGGTTCGATGAACTATGGAGAAGGTTCGAAATGTATTCAAATGGTGAAAAATTGTTCGGCATGGAGGTTAAGGATTATCCGATTCTTCACCAGAAGAAGAAGGAATTTAATTTATTGAGCAAACTGTACAGTTTATATTTGGCCGTTATGAATTCAATAGACGGGTACTTTGAAACTCCGTGGAGTGAGATTGATATTGAGCAAATTGTTGCGCAGCTAGCGGACTTTGACTTAAGATGTCGAAAATTACCGCGAGGTATGAAAGATTGGCCTGCGTTCATAGAGTTGAAGAACAAAATAGATGATTTCAACCAAACCTGCCCATTACTAGAATTGATGGCAGATAAATCAATGAAAGATCGACACTGGAAGAGATTAGAAAAATTGATGAATTGTATTCTGGATGTCGAATCTGAATCATTTACGCTGGCCAATGTCATGGAAGCTCCGCTACTGAAATATAAAGAAGATGTTGAGGACATCTGTATAAGTGCAGTGAAAGAAAAAGACATAGAAGCAAAGTTAAAGCAAGTTATAGCTGATTGGGCTGTCATTGATCTCACATTTGCTCCATTCAAGAACAGGGGAGAGCTGCTCGTCAAACCTCAAGAAACCCTTGACATAATCACGTTATTGGAGGACTCGTTAATGATTCTCAACTCATTAGCTTCGAATAGATACAATGCACCGTTCAAAAAAGATATTCTTCTTTGGATTAATAAGCTAGTCGGTACAGCCGAGATCCTAGAGAAATGGCTTCAAGTACAAAACTTGTGGATGTATTTGGAGGCTGTATTTGTTGGCGGCGATATCGCCAAACAGCTGCCCGCTGAAGCTAAGAGATTCGCTTCGATCGACAAGTCATACGTGAAAATCATGTATCGGGCTCGAGACATAGTGAACTGCGTTGAAACTTGCACGTGCGATGATACATTGAAGCAACTCCTGCCGCACCTGTACGAACAACTGGAAGCGTGTCAGAAATCGCTCACCGGGTACCTCGAAACAAAACGTTTGATATTTCCGAGATTTTTCTTCGTGTCCGATCCAGTTTTGCTCGAGATCCTTGGACAAGCCTCGGATCCGCACTCTATACAGCCTCATTTGCCCAGTATTTTCGACGCGATGTACACAGTCGATTTTGACGACAAGGAGAGGATAATCAATATGAATTCGGACAACGGCGAGACTATTCCACTGGAAAGACCTGTAGTGTGCACTGGTGGTGTAGAAATTTGGTTGAACACTTTGTTAGACACAATGAAAGATACCGTCAGGAATATAATCGCTAATATCTCACAAACGATGTCTGGTGATCCGGAATTTGAGTTCTTAGTCGGATTCTGGTTTTTCCCTGGCCAGGCTGGTTTGTTGGGTATGCAAATTCTGTGGACCAGTGACGCGGAATATGCATTAAAAAAAGCTAAAGCCGATCGATTTATAATGAGGTTGACGAATCAGAAGTTCTTGGATTTGTTGAATGGTCTCATCGACTTGACGGTGACTGATCTTGTATCTTTGGATAGAACCAGGGTCGAAACTATGATCACTATACACGTGCATCAAAGGGATATCTTTGATGATCTAGTAAGGATGAGAATAAAGTCTCCTATTGATTTCGAATGGCAAAAGCAAGCACGTTTCTATTACAACGAAGATTCAGATGACTGTATTGTTTCCATAACTGATGTTGATTTCTTGTATCAGAATGAATATCTGGGTATAACTGAGCGTCTTGTGATCACGCCGTTGACCGATCGATGCTACATCACGCTCTCCCAAGCTATCGGCATGAGTATGGGCGGGGCGCCGGCGGGTCCGGCCGGCACGGGTAAGACTGAAACCACCAAGGACATGGCTCGAACACTCGGGAAACTGGTCATCGTGTTCAATTGCTCCGATCAAATGGATTTCAGAGGCTTGGGTCGCATATACAAGGGCTTAGCACAGTCGGGCACTTGGGGTTGCTTCGACGAATTCAATCGTATAGAATTGCCGGTGCTATCTGTGGCTGCTCAGCAGATTTATATTTGTCTCACGGCGAGACGAGAGAAGCGTGACTTCTTCATATTCAGCGACGGTGACGTTGTCACTTTAAATCCGGAGTTCGCGTTCATAATCACGATGAATCCGGGATACGCTGGAAGGCAAGAGCTGCCCGAAAATCTAAAGATTCAGTTCCGTTCGGTGGCCATGATGGTGCCCGACAGACAGATTATCATACGAGTGAAACTTGCTAGTTGCGGTTTTAAGGATAATATTTTGCTTGCCCGGAAATTCTTTACCTTGTACAAGCTATGCGAAGAGCAGTTATCTAAGCAAGTGCACTATGATTTTGGACTACGTAACATTCTGTCTGTGTTGCGTACTATGGGCTCGCAGAAACGAGCCAATCCCGAGAGCACTGAGGAGAATATTATGATGAGAGTATTGAAGGAAATGAATGTATCAAAGCTGGTGGACGAAGACGAACCGCTGTTTGTGTCTTTGATTGAAGATTTGTTCCCTGGAATTAAGTTGAGTCAAACCGTTCACAGGGAAATGCAACGCGCCATCGCATTAGTGACAGATCGTACAGGTCTAGTCAATCATCCTGAGTGGAATTTGAAGATCATTCAACTGTATGAAACTTCGTTAGTGCGACACGGTCTAATGACGATGGGACCCACTGGTTCAGGGAAAACGACATGCATTCACACACTCATGGCGGCTTTGACGGAAGTAGGGAGACCGCACAGGGAGATGAGGATGAATCCAAAAGCCATCACTGCTCCGCAAATGTTTGGACGCTTGGATGTTGCAACCAACGATTGGACGGATGGTATTTTTTCCACTTTGTGGAGAAGAGCTTTGAAGGTCAAGAAGTCTGATACCACCTGGATAGTTTTAGATGGTCCCGTGGACGCTGTTTGGATTGAAAACTTAAATTCAGTGTTGGATGATAACAAGACTTTGACTTTGGCCAATGGAGATCGTATTACAATGGCGCAGAATAGTAAGCTGGTGTTCGAACCAGACAACGTGGACAATGCTTCGCCTGCCACCGTCAGCCGTATGGGGATGGTCTTCCTATCTTCTTCCGTCTTAAAGTGGCAGCCCATCTTAGAGGGTTGGTTGAAAAAGAGATCGCAAAAAGAATCGGATGCTTTGAGGAACGCATTCAATAAAGTATACGATGATATACATTCGTTCGTGCAACAAAAGTTGCCAGCTAAAATGAAACTGCTCGAGGCTATATATGTCAGGCAATGTATCGATGTTTTGATTGGTCTCCTTCAAATAGAAGTACCCGGTGGAAAGATACACACAGACCGACATCTAGAACGTCTGTTTATATTTGCGATGATGTGGTCGCTCGGCGCCGTCTTGGAGCTGGACTCTCGGACTCGTTTGGCCGAATTCGCGACAAAGTTGCCCGTGAGAATGGATTGGCCCGGAGCCAAGTCTAAAGAGTGGGTGATGCCATTCGAGTATATGGTTAACGAGGCCGGAGTGTGGCAACATTGGTCAGAGAGTGTAGAAAACTATATTTATCCTTCGGACAGCATTCCGGAATACGCATCGATTTTAGTACCGAATATCGATAACGTATGCATATCATTTCTCATTGAAACTATTGCGAAGCAGAATAAAGCTGTACTGTTGATAGGCGAGCAAGGCACCGCCAAAACAGTGATGCTGAAGAGCTATATGCAGAAATATAACAATGAAGTTAAATTGTACAAGATGATCAATTTCTCTTCTGCGACCACACCTAATATGTTTCAGAGAATTGTCGAATCGTACGTTGAGAAGCGCGTCGTGGGGAGATCAGGTGGTGGAAGAAACGACATTCCACCTCGTTTAAAAAGGCAGTTCAACATTTTTAACTGCACCTTACCGAGTAATATTTCAATGGATCGTATTTTTGAAACTATAAGTGCCGGATACTTCTGTAAGACAAGGTTCGAGAAAAAAATTGTGGATTTCATGCCGAGGCTTGTGCCTGTCACGCGAATAATTTGGCAGCAAACAAAAGCAAAAATGTTGCCGACTCCTGCAAAGTTTCATTACGTGTTTAATCTTCGAGATCTATCTAGAATATGGGAAGGGATTTTGTTTATTAAGAAAGATGAACTGCCGACAATTACAACGGCTCTAAAGCTATGGTTCCACGAATGCTTAAGAGTCATATGTGATAGATTCACTACATTCGATGACAAGGACTGGTTCGTGGCAAACTTCTGGAAGACCGCCGCCCAAGAGTTGCCTGAACTCGTCAGCGAATTTCCTGAAGAGGAAACATTTTTCGTGAACTTTCTCCGAGAACCCGCAGATCCCACCGGCGACGAGGAAGAAGATTTTAGCACTGACGCGCCAAAGATCTACGAAGAGCTACCAACATGGGATTTCGTTTTGATGAAACTTGGTCAATTCCAAGAACAATTTAACGATCAAGTCAGAGGCGCTCATTTAGACTTGGTGTTTTTCCACGACGCCATGGTACATTTGTTCATTATATCACGGATCATAAATACGCCGAGAGGCAACGCTTTGCTTGTCGGTGTCGGTGGATCGGGGAAGCAAAGTTTGACCAAGCTTGCGTCTTATATTGCGAATTTTTCGTTTTATCAAATCACGTTAACGAGATCATATAACGTGGGAAATTTCATGGATGACATTAAAATATTGTACCGAATCGCCGGCTTGCAAGGTCAAGGTATAACGTTTATATTCACCGACAACGACATAAAAGACGAACAGTTTTTGGAATTTTTAAATAACATTCTCAGTTCGGGAGAGATTGCCAATTTATTTGCTAAAGACGAAATGGATGAAATTCTAAACGAATTGACTCCGATAATGAAGAAATATGCACCGAAAAGGATTCCGGTACCTGATGTGCTGTACGAATACTTTATAATGCGTTCGAGGGCAAATCTACACGTTGTATTATGTTTTTCGCCCGTCGGAGAAAAGTTTAGAAGCAGAGCCCTAAAATTCCCGGGACTCATTTCTGGGTCAACCATGGATTGGTTCCAGAAGTGGCCGAGAGTTGCACTTATCGAAGTTGCTCATCATTTCCTCGCGGACTTTCATGTTGTGTGCTCTCCAGAAACGAAACAACAGCTAATCGAGATTATGGGAATGGTGCAAGACAACGTGGCCGATACTTGCACAACTTATTACGATAGGTTCAGAAGACAGACACACGTAACTCCGAAGTCGTATCTTTCGTTCTTGGAAGGTTACAAAGTATTGTACAAGGAAAAACATGTCAATATCGCCGAAATGGCTCGCAGAATGACGACTGGCTTAGATAAACTTGTGGAGGCGGCCGCAAGCGTCGACGTACTAAAGAAGGAACTTGAATTAAAAGATTACGAGATTAAAGTTGCAACAGCGAAAGCTGAAGAGGTCTTGGCCGCGGTAGCTGAGTCGGCGGCTGCAGCAGAAGTGGTTAAAACGGAAGTGTTAGATGTTAAGGACCGCGCTGTGAAGTTGGTGGGCGTGATCGCCGCGGAAACAGCAGTGGCCGAAGAGAAGTTGGCTGCAGCCAAGCCGGCCCTAGACGCCGCCGAAGCTGCCCTACAAACGATTAACGCAGCGGATATAGCAACAGTGAGAAAGTTGGGGAAACCGCCCTACCTTATCACGCTCATTATGGACGCTGTAATACTCTTGTTTAGAAAGAGGATTGATCCAATCAGACCGGACCCCGAAAGGTTGTTCCTGATGGCGTCATGGGCAGAATCTCTTAAATCAATACACGCTAATCTAGCTATAATGCAAGGAAAGTACCAGGCAGCCAAAAAGGAATTGGAAGGTGCAGAAGCACTGCTCGAAGCTAAAGAGCTAGAACTAGCGGAAGTACAGAAGCAATTCGACGAGGCGATGGCTCTGAAGCAGGCCGTATTGGACGACGCGGCCAAGTGCCAACAGAAAATGGACGCCGCTACTGCTCTGATTAACGGACTCAGCGGAGAGAGGATCCGATGGACAGAACAATCGGCGTTGTTCAAATCCGAGATAGAAAGACTCGTCGGCGATATACTATTGCTTACCGGATTCCTGTCTTACTCTGGACCATTCAATCAAGAATTCCGAGCATTTTTGATAAACAGTTGGCTCGGTGAACTGTTGAAAAGAAAAATACCCGTTTCTATGAATTTGAATATCACGGAACAACTGACGGACACAGCCACGATTGGTGATTGGAACCTTTGCGGCTTACCAACTGACGAACTTTCCATACAAAATGGTATAATTGTTACGAAAGCTGCGCGTTTTCCATTGCTCATTGATCCCCAGACGCAAGGCAAGAACTGGATAAAGAACATGGAAAGATATAATGAGTTGATTGTTACGACCCTCAATCATAAATACTTTAGAAATCATATCGAAGATTGCGTATCTCTAGGCAGACCGTTACTCATCGAGGACGTTGCAGAAGAATTAGATCCGGCACTTGATAATGTGCTTGAGAGAAATTACATTAAGATCGGATCCTCTTATAAGGTGAGGTTGGGTGATAAAGAAATAGACGTGACAGCGGGACACAAGATATACATAACAACAAAACTGCCTAATCCGGCGTACACGCCCGAGATCTCCGCGCGAACCTCGATCATCGATTTCACGGTCACCATGCAAGAGTACCGCTACCGAGGCGGTGCTGCTTTAGATCTAAACGCTTGTCCTCCAAAGCCCTTCAAATGGGTGACCGACATGTCATGGCTCAATTTAGTACAGCTTTCCGGCTTGAGACAATTCACTAATATCCTAAACCAAGTAGTGAACAATGAGAAGGGATGGAAGAATTGGTTCGATAAAGAGGCTCCAGAAGACGAGCCCTTGCCTGATGGATATCACACGTTGGACGTTTTCAGGAAATTGCTCGTTGTACGCGCGTGGTGTCCAGACCGAACCTTAGCTCAGAGTCTGAAATATGTTATATCATCAATGGGCGCAAGATTTTCAGAAGCTGTCATTGTCAATTATGAGCAAATGGTACTAGAATCCCGTCCTCTTGTGCCTTTGATTGGATTTTTAGCCATGGGCTCTGACCCGACACCATCTATTGAAGGTACAGCGAAGAGATTAGAGTGTCTTTGTTCGTCCATTTCTATGGGGCAAGGACAAGAAATTCATGCCAGGAAACTCATCGACCGTGGACTTAAGGAGGGGTTATGGGTGCTTCTACAAAATTGTCACTTGGGTCTCGAATATATGGTTGAAATCATAGAACAGTTTGCGGAACTAGAGAAGTACCCGGAAAAGGTGCATGAAACTTTTAGGCTCTGGATCACAACTGAGCCGCACGATAAGTTCCCGATAACGTTACTGCAGATGTCGATTAAGTACACTTGCGAGCCGCCGTCAGGAATAAAGGCAGGCCTCATGAGAACTTACGATTCAATGAGCCAAGATTTCCTGGACTACAGCGATAGTCCTTTTTATCTACCCCTCATATATACTATCTCGTTCTTACACACTGTTGTGCAAGAGAGACGTAAATTCGGACCTCTTGGTTGGAACATCCCCTACGAATTCAATTCTGCGGACTGGCTTGCTTCTTGTATGTTTGTTCAAAATCATTTGGATGGTTTGGAACAGGGGCAGTCAATAAGCTGGACAACTGTACGATATATGGTTTCGGCGGTGCAGTACGGTGGACGGGTGACGGACGATTATGACAATCGCTTATTGGGCACTTTCTGCAGGGTCTGGTTAACGGATCAACTGTTCCAAGAGGATTTTCAGTTTTACAAGAACTACGGCATCATGAAATTTCGTAACATTCCGGAATATCTTGAAGAGATCGATAAAATGAAGATGGTCGATCCCCCGCAGGCGTATGGGCTGCACACAAACGCTGATATAACATATCAAAGAAGCAAAACCCAAGAGCTGTTGGACACAATACTTTCTATCCAACCAAAAGAGTCCAGTTCTGGTGGTGGTGAAACTAGAGAAGCTTCAGTGTATCGACAAGCTAAAGAAATGCTCGATAAAGTTCCTCCTAATTTTGATCCACACGAAGTAAAGGAAAGATTGAAATTTTACGGTATACTAAATTCCATGGTGATTTTCTTGCGGCAAGAAATAGATCGAATGCAAAAAGTAATTTCCTTAGTTCGTATAACATTAAAGGATTTGTTGCTCGCTATCGATGGTACTATTATTATGAACGAGGCTCTTCGTGATTCCCTAGATAATATATATGACGCGAAGGTTCCGAATATCTGGTTGAAGAGTTCGTGGTCGTCATCCACGCTTGGATTCTGGTTCACAGAGTTCTTGGAGAGGAACACGCAGTTCTCGACTTGGTGTTTCCAGGCGAGACCAAACTCGTTTTGGATGACTGGATTCTTCAATCCTCAAGGTTTCCTGACTGCGATGCGTCAGGAAGTGACTCGGGCTCACAAAGGATGGGCCCTGGATATGGTGGCGTTGCACAATGACGTCACTAAGTATACTTATGACGAAATTAAGGCCCCGCCGCCGGAAGGTGTATTTATTCACGGCGTGTTCTTGGACGGTGCCGGCTGGGACAGACGTAATATGCGTCTCACTGAATCGATACTAAAGGTTTTGTACACGCCAGTACCCGTGATACATGTGTACGCAATCAATTCAACGGCCCCGAAGGATCCTAAACTGTATCAGTGTCCAGTTTATAAAAAGCCTCGTCGTACTGATCTAACCTTCATCACACCTCTGTGGTTGCCAACTATAAAAAATCCTGATCATTGGATTTTGAGAGGTGTTGCCATTTTGTGTGATACTAAGTAG
Protein
MSDDAENVPENTEKTEAGGQDISDEHAEDVAQTAVIINEIETRPSKRDSLFPFSFGDDEERVDVDRTALEAILDVGARLQDIQKKSRVSMSTLALAHESYKDKQAKAKEARNNRMGGLKTQHRFLLENAAAILNRPVEYVLDGVFDADINIELLDSAVVEGGRNCVVVCDAVLPQLKMESGRYIPNQKGRMERVYLSDGATIATEGVCVAMYRIKNKAIDTKNMADDYYLVYLDMNQETENVVSGIFKTMDRVYIPAIKCCKAWGDLNPPKPNSEDIIKTYISKVMLFIDYLAKTKTDLDCCTKFKINLTLYEDELSDQEKMKHAVTKMHVLEEICAFVKQWMKQITMVLVQSQQLRREPSNIGPLAELDHWRRQLTTFTSIIEHIKSDPCQMYIHTLIRAKSKLIKKWRLLDNQVTDYYNEASDNVKYLYALEKYCEPLYRCDPKSMQQYIPGLLYTVRMVFATSRYYNTTKQISTLLVKVTNQILNMCMEYLTNGGKKTIWNQDKLNFIEKAKLCLDLYGFYRECYMETQKEMIAAADERPFDCSEMYIFGKFETFRKRLLKIMDLFQNYITYYVLNKTTLEGIEEYATNFNKLFKAISTKTYDALDHRRPDFDKDYKVYKDGVANQELLLENFMIASVNKCPTTEIALHLLKRFEKLQLDCLYLEDQYYDLISNYTAEIEAIRDRYNEIRENPELPRNMPPVAGRVMWIRFYNKNIKGPMEEFKKHYEVITHMNTQRCIKLYNVMTIVFTEFELIYHSAWAENVGQVRLGLVAPLLIRHPSTNMYIVNFSIYIPECIREVEYMWQLGLRVPEGAQIVAFCKEKILGNYERIKFLVERNNQIRKSMPKLYLPLLRAQLIKIEKAFQPGLSTITWTSLEIPSYCDNIEAILDEVDLFVKEVVDMKEARIDAILQSISKMLLVYLPEQAVEPAVFYEENLLRRDEIAIELQQKSWNAEIAVIELIHKFLDSVPSKQIQDLKDNWLDIEKALKQVTSATRVFPEDAAFLEIENPDRFDVLPTINECNELFAYFATKCLESLIKCTRQSLDILRKRASVSSFLTMTTDPEEQKKLKPLMLTKMFLQIPRILIKPALEEIQAAFSQVVLNCVMDTHRSVFMWGQQEQIKKEQMRGVSLTTSRSVSGSKTGSSLAGIRNYFRMVSEHKDIVRSVMALQGMMFMYKPDIEKLLKTYSRFSYLWAEDRVQQVQDFVDSNPLNVIIRDMLKKYEGQTEEVLNLPERHIIGSIEINMDNIKLALHVESVEWKRILGKLLSQAYKERVIKLMQFINDRMKTMGKKIKDLDDVRLAMMCLELIREEFIGMDMELDLIEESYATFAQFSIDIPKEDIDLVYGLRYAFQNMLITSQQVQQKIVDMQGPLQKELTEGVASFLADVLKFDADYDAYGPMTPGLSAREASDRVILFQSRFDELWRRFEMYSNGEKLFGMEVKDYPILHQKKKEFNLLSKLYSLYLAVMNSIDGYFETPWSEIDIEQIVAQLADFDLRCRKLPRGMKDWPAFIELKNKIDDFNQTCPLLELMADKSMKDRHWKRLEKLMNCILDVESESFTLANVMEAPLLKYKEDVEDICISAVKEKDIEAKLKQVIADWAVIDLTFAPFKNRGELLVKPQETLDIITLLEDSLMILNSLASNRYNAPFKKDILLWINKLVGTAEILEKWLQVQNLWMYLEAVFVGGDIAKQLPAEAKRFASIDKSYVKIMYRARDIVNCVETCTCDDTLKQLLPHLYEQLEACQKSLTGYLETKRLIFPRFFFVSDPVLLEILGQASDPHSIQPHLPSIFDAMYTVDFDDKERIINMNSDNGETIPLERPVVCTGGVEIWLNTLLDTMKDTVRNIIANISQTMSGDPEFEFLVGFWFFPGQAGLLGMQILWTSDAEYALKKAKADRFIMRLTNQKFLDLLNGLIDLTVTDLVSLDRTRVETMITIHVHQRDIFDDLVRMRIKSPIDFEWQKQARFYYNEDSDDCIVSITDVDFLYQNEYLGITERLVITPLTDRCYITLSQAIGMSMGGAPAGPAGTGKTETTKDMARTLGKLVIVFNCSDQMDFRGLGRIYKGLAQSGTWGCFDEFNRIELPVLSVAAQQIYICLTARREKRDFFIFSDGDVVTLNPEFAFIITMNPGYAGRQELPENLKIQFRSVAMMVPDRQIIIRVKLASCGFKDNILLARKFFTLYKLCEEQLSKQVHYDFGLRNILSVLRTMGSQKRANPESTEENIMMRVLKEMNVSKLVDEDEPLFVSLIEDLFPGIKLSQTVHREMQRAIALVTDRTGLVNHPEWNLKIIQLYETSLVRHGLMTMGPTGSGKTTCIHTLMAALTEVGRPHREMRMNPKAITAPQMFGRLDVATNDWTDGIFSTLWRRALKVKKSDTTWIVLDGPVDAVWIENLNSVLDDNKTLTLANGDRITMAQNSKLVFEPDNVDNASPATVSRMGMVFLSSSVLKWQPILEGWLKKRSQKESDALRNAFNKVYDDIHSFVQQKLPAKMKLLEAIYVRQCIDVLIGLLQIEVPGGKIHTDRHLERLFIFAMMWSLGAVLELDSRTRLAEFATKLPVRMDWPGAKSKEWVMPFEYMVNEAGVWQHWSESVENYIYPSDSIPEYASILVPNIDNVCISFLIETIAKQNKAVLLIGEQGTAKTVMLKSYMQKYNNEVKLYKMINFSSATTPNMFQRIVESYVEKRVVGRSGGGRNDIPPRLKRQFNIFNCTLPSNISMDRIFETISAGYFCKTRFEKKIVDFMPRLVPVTRIIWQQTKAKMLPTPAKFHYVFNLRDLSRIWEGILFIKKDELPTITTALKLWFHECLRVICDRFTTFDDKDWFVANFWKTAAQELPELVSEFPEEETFFVNFLREPADPTGDEEEDFSTDAPKIYEELPTWDFVLMKLGQFQEQFNDQVRGAHLDLVFFHDAMVHLFIISRIINTPRGNALLVGVGGSGKQSLTKLASYIANFSFYQITLTRSYNVGNFMDDIKILYRIAGLQGQGITFIFTDNDIKDEQFLEFLNNILSSGEIANLFAKDEMDEILNELTPIMKKYAPKRIPVPDVLYEYFIMRSRANLHVVLCFSPVGEKFRSRALKFPGLISGSTMDWFQKWPRVALIEVAHHFLADFHVVCSPETKQQLIEIMGMVQDNVADTCTTYYDRFRRQTHVTPKSYLSFLEGYKVLYKEKHVNIAEMARRMTTGLDKLVEAAASVDVLKKELELKDYEIKVATAKAEEVLAAVAESAAAAEVVKTEVLDVKDRAVKLVGVIAAETAVAEEKLAAAKPALDAAEAALQTINAADIATVRKLGKPPYLITLIMDAVILLFRKRIDPIRPDPERLFLMASWAESLKSIHANLAIMQGKYQAAKKELEGAEALLEAKELELAEVQKQFDEAMALKQAVLDDAAKCQQKMDAATALINGLSGERIRWTEQSALFKSEIERLVGDILLLTGFLSYSGPFNQEFRAFLINSWLGELLKRKIPVSMNLNITEQLTDTATIGDWNLCGLPTDELSIQNGIIVTKAARFPLLIDPQTQGKNWIKNMERYNELIVTTLNHKYFRNHIEDCVSLGRPLLIEDVAEELDPALDNVLERNYIKIGSSYKVRLGDKEIDVTAGHKIYITTKLPNPAYTPEISARTSIIDFTVTMQEYRYRGGAALDLNACPPKPFKWVTDMSWLNLVQLSGLRQFTNILNQVVNNEKGWKNWFDKEAPEDEPLPDGYHTLDVFRKLLVVRAWCPDRTLAQSLKYVISSMGARFSEAVIVNYEQMVLESRPLVPLIGFLAMGSDPTPSIEGTAKRLECLCSSISMGQGQEIHARKLIDRGLKEGLWVLLQNCHLGLEYMVEIIEQFAELEKYPEKVHETFRLWITTEPHDKFPITLLQMSIKYTCEPPSGIKAGLMRTYDSMSQDFLDYSDSPFYLPLIYTISFLHTVVQERRKFGPLGWNIPYEFNSADWLASCMFVQNHLDGLEQGQSISWTTVRYMVSAVQYGGRVTDDYDNRLLGTFCRVWLTDQLFQEDFQFYKNYGIMKFRNIPEYLEEIDKMKMVDPPQAYGLHTNADITYQRSKTQELLDTILSIQPKESSSGGGETREASVYRQAKEMLDKVPPNFDPHEVKERLKFYGILNSMVIFLRQEIDRMQKVISLVRITLKDLLLAIDGTIIMNEALRDSLDNIYDAKVPNIWLKSSWSSSTLGFWFTEFLERNTQFSTWCFQARPNSFWMTGFFNPQGFLTAMRQEVTRAHKGWALDMVALHNDVTKYTYDEIKAPPPEGVFIHGVFLDGAGWDRRNMRLTESILKVLYTPVPVIHVYAINSTAPKDPKLYQCPVYKKPRRTDLTFITPLWLPTIKNPDHWILRGVAILCDTK
Summary
Description
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Required for structural and functional integrity of the cilia of ependymal cells lining the brain ventricles.
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly.
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly (By similarity).
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP (By similarity).
Cytoplasmic dynein 1 acts as a motor for the intracellular retrograde motility of vesicles and organelles along microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Plays a role in mitotic spindle assembly and metaphase plate congression.
Cytoplasmic dynein 1 acts as a motor for the intracellular retrograde motility of vesicles and organelles along microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Plays a role in mitotic spindle assembly and metaphase plate congression (PubMed:27462074).
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly (By similarity). Probable inner arm dynein heavy chain.
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly.
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly (By similarity).
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP (By similarity).
Cytoplasmic dynein 1 acts as a motor for the intracellular retrograde motility of vesicles and organelles along microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Plays a role in mitotic spindle assembly and metaphase plate congression.
Cytoplasmic dynein 1 acts as a motor for the intracellular retrograde motility of vesicles and organelles along microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Plays a role in mitotic spindle assembly and metaphase plate congression (PubMed:27462074).
Force generating protein of respiratory cilia. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Involved in sperm motility; implicated in sperm flagellar assembly (By similarity). Probable inner arm dynein heavy chain.
Subunit
Interacts with DNAL1 (PubMed:21496787). Consists of at least two heavy chains and a number of intermediate and light chains.
Interacts with DNAL1 (By similarity). Consists of at least two heavy chains and a number of intermediate and light chains.
Consists of at least two heavy chains and a number of intermediate and light chains.
Consists of at least 3 heavy chains (alpha, beta and gamma), 2 intermediate chains and 8 light chains.
The I1 inner arm complex (also known as the f dynein complex) is a two-headed isoform composed of two heavy chains (1-alpha and 1-beta), three intermediate chains and three light chains. I1 occupies a specific position proximal to the first radial spoke and repeats every 96 nm along the length of the axoneme.
The dynein complex consists of at least two heavy chains and a number of intermediate and light chains.
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer. Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (By similarity). Interacts with BICD2 (PubMed:22956769).
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer. Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (By similarity). Interacts with BICD2 (PubMed:25512093).
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer (PubMed:2140361). Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (PubMed:10893223). Interacts with BICD2 (By similarity).
Consists of at least two heavy chains (alpha and beta), three intermediate chains and several light chains.
Interacts with DNAL1 (By similarity). Consists of at least two heavy chains and a number of intermediate and light chains.
Consists of at least two heavy chains and a number of intermediate and light chains.
Consists of at least 3 heavy chains (alpha, beta and gamma), 2 intermediate chains and 8 light chains.
The I1 inner arm complex (also known as the f dynein complex) is a two-headed isoform composed of two heavy chains (1-alpha and 1-beta), three intermediate chains and three light chains. I1 occupies a specific position proximal to the first radial spoke and repeats every 96 nm along the length of the axoneme.
The dynein complex consists of at least two heavy chains and a number of intermediate and light chains.
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer. Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (By similarity). Interacts with BICD2 (PubMed:22956769).
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer. Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (By similarity). Interacts with BICD2 (PubMed:25512093).
Homodimer. The cytoplasmic dynein 1 complex consists of two catalytic heavy chains (HCs) and a number of non-catalytic subunits presented by intermediate chains (ICs), light intermediate chains (LICs) and light chains (LCs); the composition seems to vary in respect to the IC, LIC and LC composition. The heavy chain homodimer serves as a scaffold for the probable homodimeric assembly of the respective non-catalytic subunits. The ICs and LICs bind directly to the HC dimer and dynein LCs assemble on the IC dimer (PubMed:2140361). Interacts with DYNC1LI1; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1LI2; DYNC1LI1 and DYNC1LI2 bind mutually exclusive to DYNC1H1. Interacts with DYNC1I2 (PubMed:10893223). Interacts with BICD2 (By similarity).
Consists of at least two heavy chains (alpha and beta), three intermediate chains and several light chains.
Similarity
Belongs to the dynein heavy chain family.
Keywords
ATP-binding
Cell projection
Ciliopathy
Cilium
Coiled coil
Complete proteome
Cytoplasm
Cytoskeleton
Disease mutation
Dynein
Kartagener syndrome
Microtubule
Motor protein
Nucleotide-binding
Polymorphism
Primary ciliary dyskinesia
Reference proteome
Repeat
Alternative splicing
Flagellum
Phosphoprotein
Direct protein sequencing
TPR repeat
3D-structure
Acetylation
Cell cycle
Cell division
Mitosis
Transport
Charcot-Marie-Tooth disease
Mental retardation
Neurodegeneration
Neuropathy
Kelch repeat
Glycoprotein
Feature
chain Dynein heavy chain 5, axonemal
sequence variant In dbSNP:rs339445.
splice variant In isoform 2.
sequence variant In dbSNP:rs339445.
splice variant In isoform 2.
Uniprot
Pubmed
11788826
11062149
8812413
10997877
14702039
21496787
+ More
16627867 25186273 15057822 11912187 19468303 16141072 15269178 21183079 12297094 10602986 9373155 16054618 14574404 18691976 16959974 7516341 12142464 12853948 18022865 10888669 10069812 2957507 2137128 9008712 17974005 15815621 15489334 11175280 11214970 28206990 10459015 8889521 9247642 12730604 18034455 22956769 23806337 9205841 8666668 8227145 14654843 17081983 18669648 19690332 19608861 20068231 21269460 22223895 23186163 24275569 25944712 27462074 21076407 21820100 22368300 22847149 22459677 23033978 23603762 25512093 24307404 25484024 26846447 28193117 7690137 7684232 2140361 10893223 1830928 1830927 1833761 11250194 15368895 16541075 19159218 16625196 9545504
16627867 25186273 15057822 11912187 19468303 16141072 15269178 21183079 12297094 10602986 9373155 16054618 14574404 18691976 16959974 7516341 12142464 12853948 18022865 10888669 10069812 2957507 2137128 9008712 17974005 15815621 15489334 11175280 11214970 28206990 10459015 8889521 9247642 12730604 18034455 22956769 23806337 9205841 8666668 8227145 14654843 17081983 18669648 19690332 19608861 20068231 21269460 22223895 23186163 24275569 25944712 27462074 21076407 21820100 22368300 22847149 22459677 23033978 23603762 25512093 24307404 25484024 26846447 28193117 7690137 7684232 2140361 10893223 1830928 1830927 1833761 11250194 15368895 16541075 19159218 16625196 9545504
EMBL
AY045575
AY049075
U61735
AB046823
AK026756
AABR07008948
+ More
AF466704 AC131997 AC154880 AK052643 AF356520 AF356521 AF356522 AF356523 AF363577 AF342999 AC165951 AC165962 AC166166 AC174471 AF117305 Z83817 AK133238 AF356519 AL034345 AL035555 AL035690 AL353700 AL391415 Z83806 AJ132091 U15303 AJ320497 AC004595 AC102952 AC073102 AC013481 AC005078 AC004002 AC099653 AJ132087 AL596125 AL731687 Z83813 AK029791 AJ242523 AJ242524 AJ242525 AJ132799 AK027182 AK094676 AL512706 AC010087 AC096770 AC098975 AC109827 CH471053 BC015442 BC104884 BC113424 BC117259 BC143666 U61736 AJ132086 AB051484 AJ243806 U61364 AY004877 AC152827 AB002323 AB290157 AY682080 U53530 L23958 BC021297 D13896 L08505 D01021 X59603 AL591204 AL591433 Z83807 AK173343 AC079315 AC117503 AK095581 AK125475 AK125796 AB095937 AJ132089 AC016182 AC061992 KF510431 AK097776 BC105107 Z83799 AL122077 AJ000522
AF466704 AC131997 AC154880 AK052643 AF356520 AF356521 AF356522 AF356523 AF363577 AF342999 AC165951 AC165962 AC166166 AC174471 AF117305 Z83817 AK133238 AF356519 AL034345 AL035555 AL035690 AL353700 AL391415 Z83806 AJ132091 U15303 AJ320497 AC004595 AC102952 AC073102 AC013481 AC005078 AC004002 AC099653 AJ132087 AL596125 AL731687 Z83813 AK029791 AJ242523 AJ242524 AJ242525 AJ132799 AK027182 AK094676 AL512706 AC010087 AC096770 AC098975 AC109827 CH471053 BC015442 BC104884 BC113424 BC117259 BC143666 U61736 AJ132086 AB051484 AJ243806 U61364 AY004877 AC152827 AB002323 AB290157 AY682080 U53530 L23958 BC021297 D13896 L08505 D01021 X59603 AL591204 AL591433 Z83807 AK173343 AC079315 AC117503 AK095581 AK125475 AK125796 AB095937 AJ132089 AC016182 AC061992 KF510431 AK097776 BC105107 Z83799 AL122077 AJ000522
Proteomes
PRIDE
Pfam
Interpro
IPR027417
P-loop_NTPase
+ More
IPR024743 Dynein_HC_stalk
IPR024317 Dynein_heavy_chain_D4_dom
IPR041589 DNAH3_AAA_lid_1
IPR035706 AAA_9
IPR042222 Dynein_2_N
IPR041228 Dynein_C
IPR042228 Dynein_2_C
IPR041658 AAA_lid_11
IPR035699 AAA_6
IPR013594 Dynein_heavy_dom-1
IPR004273 Dynein_heavy_D6_P-loop
IPR013602 Dynein_heavy_dom-2
IPR042219 AAA_lid_11_sf
IPR003593 AAA+_ATPase
IPR041466 Dynein_AAA5_ext
IPR026983 DHC_fam
IPR024743 Dynein_HC_stalk
IPR024317 Dynein_heavy_chain_D4_dom
IPR041589 DNAH3_AAA_lid_1
IPR035706 AAA_9
IPR042222 Dynein_2_N
IPR041228 Dynein_C
IPR042228 Dynein_2_C
IPR041658 AAA_lid_11
IPR035699 AAA_6
IPR013594 Dynein_heavy_dom-1
IPR004273 Dynein_heavy_D6_P-loop
IPR013602 Dynein_heavy_dom-2
IPR042219 AAA_lid_11_sf
IPR003593 AAA+_ATPase
IPR041466 Dynein_AAA5_ext
IPR026983 DHC_fam
SUPFAM
SSF52540
SSF52540
Gene 3D
ProteinModelPortal
PDB
5NUG
E-value=0,
Score=1913
Ontologies
GO
GO:0036157
GO:0008569
GO:0097729
GO:0003341
GO:0045505
GO:0021670
GO:0007368
GO:0005524
GO:0005930
GO:0005874
GO:0036158
GO:0060271
GO:0045503
GO:0007018
GO:0051959
GO:0030286
GO:0007507
GO:0030317
GO:0003777
GO:0005858
GO:0097228
GO:0031514
GO:0060285
GO:0005737
GO:0060294
GO:0035545
GO:1905419
GO:0061371
GO:0007611
GO:0120134
GO:0003356
GO:0060411
GO:0060287
GO:0097728
GO:0036156
GO:0036159
GO:0008017
GO:0031122
GO:0005881
GO:0072382
GO:0090235
GO:0051301
GO:0034063
GO:0000278
GO:0032388
GO:0030424
GO:1904115
GO:0005813
GO:0033962
GO:0043025
GO:1905832
GO:0005868
GO:0030175
GO:0005938
GO:0005635
GO:0007097
GO:0051293
GO:0002177
GO:0008090
GO:0120162
GO:0060236
GO:0007052
GO:0097711
GO:0070062
GO:0043312
GO:0010389
GO:0035578
GO:0000086
GO:0005829
GO:0019886
GO:0003723
GO:0016020
GO:0006888
GO:0005576
GO:1905243
GO:1990090
GO:0007286
GO:0030030
GO:0016539
GO:0016887
GO:0005216
GO:0045211
GO:0006281
GO:0048384
PANTHER
Topology
Subcellular location
Cell projection
Cilium
Flagellum
Cytoplasm
Cytoskeleton
Flagellum axoneme
Length:
4347
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.0890500000000005
Exp number, first 60 AAs:
0
Total prob of N-in:
0.00037
outside
1 - 4347
Population Genetic Test Statistics
Pi
24.267953
Theta
18.385375
Tajima's D
1.021424
CLR
0.478634
CSRT
0.676766161691915
Interpretation
Uncertain
