ライフサイエンスコーパス: axonemal dynein

1 mmaplysilla purea, which is known to inhibit axonemal dynein.

2 a specific centrin function associated with axonemal dynein.

3 identified as subunits of cytoplasmic and/or axonemal dyneins.

4 d to be light chains of both cytoplasmic and axonemal dyneins.

5 LCs) have been found in both cytoplasmic and axonemal dyneins.

6 e analogous to the B-link described for some axonemal dyneins.

7 do different things, as is the case for the axonemal dyneins.

8 but not the other components, corresponds to axonemal dyneins.

9 play an essential role in the regulation of axonemal dynein activity and thus of ciliary and flagell

10 The addition of kinase inhibitor restored axonemal dynein activity concomitant with the dephosphor

11 In vitro axonemal dynein activity was reduced by the mia1-1 and m

12 amily proteins were originally identified in axonemal dyneins and subsequently found to function in m

13 fd3F regulates genes for Ch-specific axonemal dyneins and TRPV ion channels, which are requir

14 Axonemal dyneins are evolutionarily and biochemically di

15 Axonemal dyneins are molecular motors that drive the bea

16 Axonemal dyneins are multisubunit enzymes that must be p

17 Axonemal dyneins are tethered to doublet microtubules in

18 I1) and DNAI2, the first appreciated step in axonemal dynein arm assembly.

19 ilB homologs with presence of genes encoding axonemal dynein arm components.

20 mport into cilia and flagella, multi-subunit axonemal dynein arms are thought to be stabilized and pr

21 unchanged or become elevated, the density of axonemal dynein arms is reduced in reptin(hi2394) mutant

22 cluding the intraflagellar transport system, axonemal dynein arms, radial spokes, the 96-nm ruler, an

23 toplasmic assembly and/or trafficking of the axonemal dynein arms.

24 n and the other essential for assembling the axonemal dynein arms.

25 ized oda mutants, but only a partial loss of axonemal dyneins as shown by both electron microscopy an

26 Assembly Factors; DNAAFs) are necessary for axonemal dynein assembly, although the detailed mechanis

27 nked form of PCD causing disruption of early axonemal dynein assembly.

28 Axonemal dynein ATPases direct ciliary and flagellar bea

29 provide direct evidence that mutations in an axonemal dynein can cause hydrocephalus.

30 The slanted conformation of the axonemal dynein causes interaction of its motor domains

31 These results show that axonemal dynein directly deciphers the tubulin code, whi

32 bules with MTBDs of cytoplasmic dynein-1 and axonemal dynein DNAH7 and determined their cryo-EM struc

33 oward visualizing the ATPase activity of the axonemal dyneins during bending, we have investigated th

34 most of its length, motor proteins from the axonemal dynein family.

35 , and DIS3 as well as DNAH5, a member of the axonemal dynein family.

36 Dense populations of microtubules driven by axonemal dynein form large vortices, providing insights

37 ability of inner dynein arm I1 and wild-type axonemal dynein function.

38 arious cellular transport systems, including axonemal dyneins generating the force for ciliary and fl

39 Because axonemal dynein gliding assays are usually done using he

40 Gliding assays with axonemal dyneins have the unusual feature that the micro

41 allele of the testis-specifically expressed axonemal dynein heavy chain (axDHC) gene, Dnahc8, has be

42 acterized an insertional mutation in a mouse axonemal dynein heavy chain gene (Mdnah5) that reproduce

43 The axonemal dynein heavy chain gene Mdnah5 is specifically

44 culture demonstrated that the expression of axonemal dynein heavy chains correlated with the develop

45 fication and partial cloning of seven unique axonemal dynein heavy chains from rat tracheal epithelia

46 cells in culture regulated the expression of axonemal dynein heavy chains in a parallel fashion.

47 r specifically required for the stability of axonemal dynein heavy chains in cytoplasm and suggest th

48 gulate the cell-specific expression of these axonemal dynein heavy chains will further our understand

49 level of conservation does not extend to the axonemal dynein heavy chains, suggesting functional diff

50 Here we report the positional cloning of an axonemal dynein heavy-chain gene, left/right-dynein (lrd

51 ity, can influence the activity of outer arm axonemal dynein in motility assays using purified protei

52 We resolve axonemal dyneins in their prestroke states, illuminating

53 Pontin is essential for the stabilization of axonemal dynein intermediate chain 1 (DNAI1) and DNAI2,

54 This allows for the incorporation of these axonemal dyneins into the axoneme directly from the cyto

55 Axonemal dynein is the molecular motor responsible for t

56 formation and prevents incorporation of the axonemal dyneins, leading to sterility.

57 motile node cell monocilia and requires the axonemal dynein, left-right dynein (lrd).

58 epends on efficient sperm movement driven by axonemal dynein-mediated microtubule sliding.

59 An individual axonemal dynein molecule is capable of both unidirection

60 K40 acetylation increases and CTTs decrease axonemal dynein motility.

61 ximal zone axoneme also being decorated with axonemal dynein motor complexes.

62 a novel RNP granule containing the mRNAs for axonemal dynein motor proteins becomes highly polarized

63 Axonemal dynein motors drive ciliary motility and can co

64 We captured axonemal dynein motors in their pre-power stroke state.

65 noregulatory complexes with their associated axonemal dynein motors provide a mechanism for the long-

66 We address how cytoplasmic and axonemal dynein MTBDs bind microtubules at near atomic r

67 tory beating patterns, the activities of the axonemal dyneins must be coordinated both spatially and

68 Axonemal dyneins must be precisely regulated and coordin

69 cle cryo-EM reconstruction of a three-headed axonemal dynein natively bound to doublet microtubules i

70 ubunits, and cytoplasmic factors involved in axonemal dynein preassembly (DNAAFs) are associated with

71 Axonemal dyneins produce the motive force for ciliary an

72 Here, we unveil an axonemal dynein production and assembly hub enriched wit

73 We show that the axonemal dyneins, radial spokes, and central pair comple

74 To gain a further understanding of axonemal dynein regulation, mutant strains of Chlamydomo

75 these, we identify C16orf71/Daap1 as a novel axonemal dynein regulator.

76 melanogaster that codes for a sperm-specific axonemal dynein subunit.

77 oducts, including constituents of BBSome and axonemal dynein subunit.

78 Ciliary motility is driven by axonemal dyneins that are assembled in the cytoplasm bef

79 tains an 18-residue insertion, found in many axonemal dyneins, that contacts the adjacent protofilame

80 Axonemal dynein, the macromolecular machine that powers

81 sity directly influences the activity of the axonemal dyneins, the motors that drive the beating of t

82 Recent work demonstrates that axonemal dyneins, their specific assembly factors, and b

83 to a higher rate of binding of Chlamydomonas axonemal dynein to Chlamydomonas microtubules than to po

84 x specifically localizes the linear array of axonemal dyneins to the doublet microtubule by directly

85 ersity can directly regulate the activity of axonemal dyneins, we asked whether in vitro acetylation