ライフサイエンスコーパス: cytoplasmic microtubule

1 of BIM1 eliminated Kar9p localization along cytoplasmic microtubules.

2 the cell, often coincident with the ends of cytoplasmic microtubules.

3 im1p localizes to dots at the distal ends of cytoplasmic microtubules.

4 envelope proteins, such as SUN-1, to access cytoplasmic microtubules.

5 e mitotic spindle and the orientation of the cytoplasmic microtubules.

6 the pheromone-induced reorganization of the cytoplasmic microtubules.

7 t of a cortical adaptor complex that orients cytoplasmic microtubules.

8 d for the Kar9p-dependent orientation of the cytoplasmic microtubules.

9 reas GFP-Kip3p localized to both spindle and cytoplasmic microtubules.

10 gene product, neurofibromin, interacts with cytoplasmic microtubules.

11 les and chromosomes toward the minus ends of cytoplasmic microtubules.

12 d other chemical treatments that disassemble cytoplasmic microtubules.

13 onemes to stabilize flagellar beat or within cytoplasmic microtubules.

14 ses of the cell cycle, connecting the DSB to cytoplasmic microtubules.

15 and flagellar enrichment are facilitated by cytoplasmic microtubules.

16 f Drosophila melanogaster that depolymerizes cytoplasmic microtubules.

17 interact with the nuclear envelope (NE) and cytoplasmic microtubules.

18 microtubules without significantly altering cytoplasmic microtubules.

19 rtant for the organization/nucleation of all cytoplasmic microtubules.

20 oogenesis for the structure and function of cytoplasmic microtubules.

21 onfunctional spindle poles or the absence of cytoplasmic microtubules.

22 tion of KAR3 leads to a dramatic increase in cytoplasmic microtubules, a phenotype which is most pron

23 ether, we propose that kinesin-1 slides free cytoplasmic microtubules against cortically immobilized

24 In yeast, oriented cytoplasmic microtubules align the mitotic spindle betwe

25 of dynein-green fluorescent protein (GFP) to cytoplasmic microtubules allowed us to obtain one of the

26 ther and bud via dynein-dependent sliding of cytoplasmic microtubules along the cortex of the bud.

27 her-bud neck via dynein-dependent sliding of cytoplasmic microtubules along the cortex of the bud.

28 somal region, induces profound disruption of cytoplasmic microtubules and a nuclear distortion phenot

29 In the yeast Saccharomyces cerevisiae, both cytoplasmic microtubules and actin filaments are needed

30 ates, repair-protein condensates, nuclear or cytoplasmic microtubules and actin filaments, kinesin or

31 tribution but retain the ability to organize cytoplasmic microtubules and actin in anucleate hyphae.

32 ing of the mitotic spindle requires both the cytoplasmic microtubules and actin.

33 lights a framework for communication between cytoplasmic microtubules and chromatin.

34 ivity resulted in assembly of unusually long cytoplasmic microtubules and defects in spindle position

35 These bidirectional movements require cytoplasmic microtubules and microfilaments and depend o

36 uring mitosis, leading to the coexistence of cytoplasmic microtubules and nuclear spindles with massi

37 sembly of subdistal appendages, which anchor cytoplasmic microtubules and prime the mother centriole

38 iae that is mediated by interactions between cytoplasmic microtubules and the cell cortex.

39 in fungi have been shown to be dependent on cytoplasmic microtubules and the microtubule-associated

40 t depends on persistent interactions between cytoplasmic microtubules and the mother-bud neck, the fu

41 3], but the rapid apical enrichment requires cytoplasmic microtubules and the retrograde IFT motor, d

42 tes with an apico-basally polarized array of cytoplasmic microtubules, and returns to the cell surfac

43 show that Myo2 localizes to the plus ends of cytoplasmic microtubules, and that the rate of movement

44 Secondly, abnormally long cytoplasmic microtubules appear that do not stop at the

45 Cytoplasmic microtubules are critical for establishing a

46 Here, we show that cytoplasmic microtubules are mechanically coupled to the

47 In vivo, cytoplasmic microtubules are nucleated and anchored by t

48 Consistent with this, cytoplasmic microtubules are often highly curved and app

49 yeast Schizosaccharomyces pombe, interphase cytoplasmic microtubules are organized into antiparallel

50 Our findings suggest that cytoplasmic microtubules are used to monitor the locatio

51 portant for establishing a normal interphase cytoplasmic microtubule array.

52 At 30 degrees C cytoplasmic microtubule arrays are abnormal and bundle i

53 rmal mitotic spindles and some have abnormal cytoplasmic microtubule arrays.

54 layed unusually long and numerous bundles of cytoplasmic microtubules as revealed by immunofluorescen

55 targeted to the distal plus ends of dynamic cytoplasmic microtubules, as is HC, and their targeting

56 t anaphase onset, the FEAR pathway activates cytoplasmic microtubule-associated forces that facilitat

57 d lack of TINA causes enhanced production of cytoplasmic microtubules at metaphase arrest, we suggest

58 osaccharomyces pombe, longitudinal arrays of cytoplasmic microtubule bundles regulate cell polarity a

59 A simple self-assembly pathway generates cytoplasmic microtubule bundles that can locate the cell

60 lpha 85E does not disrupt meiotic spindle or cytoplasmic microtubules but causes defects in morphogen

61 g a stochastic simulation that confirms that cytoplasmic microtubules can compete with flagella for a

62 stent with Bud6's role as a cortical cue for cytoplasmic microtubule capture.

63 other- bud axis through interactions between cytoplasmic microtubules (CMs) and the cell cortex.

64 The 'cMT-bud neck model' posits that cytoplasmic microtubule (cMT)-bud neck interactions prev

65 to the conclusion that biased nucleation of cytoplasmic microtubules (cMTs) is essential for directi

66 ughter cell by linking the associated set of cytoplasmic microtubules (cMTs) to the polarized actin n

67 sponsible for establishing cell polarity and cytoplasmic microtubules collaborate to establish MEN as

68 pression of the entire SPC72 results in more cytoplasmic microtubules compared with wild-type.

69 ed to returned to interphase retain a normal cytoplasmic microtubule complex.

70 st cell elongates toward its mating partner, cytoplasmic microtubules connect the nucleus to the cell

71 rity relies on a precise temporal program of cytoplasmic microtubule-cortex interactions throughout s

72 Naegleria amoebae lack a cytoplasmic microtubule cytoskeleton and assemble microt

73 The average number of cytoplasmic microtubules decreased from 3 in wild-type t

74 This correlated with cytoplasmic microtubule defects.

75 induced rapid, anterograde IFT-independent, cytoplasmic microtubule-dependent redistribution of the

76 Stathmin (STMN), a cytoplasmic microtubule-destabilizing phosphoprotein, re

77 Saccharomyces cerevisiae cells lacking She1, cytoplasmic microtubules detach from the spindle pole bo

78 lagellar transport and cargo transport along cytoplasmic microtubules, differ from motors in the cano

79 In germlings, cytoplasmic microtubules disassembled completely in mito

80 ghout the vegetative cell cycle as they bind cytoplasmic microtubules during interphase, spindle micr

81 nation of metachronic cilia beating, whereas cytoplasmic microtubule dynamics are required for local

82 Our findings highlight the regulation of cytoplasmic microtubule dynamics as a role of the IFT54

83 The reduction in cytoplasmic microtubule dynamics is due primarily to dec

84 The pattern and extent of cytoplasmic microtubule dynamics modulation through the

85 highly conserved EB1 family, Bim1p, promotes cytoplasmic microtubule dynamics specifically during G1.

86 These movements depend on cytoplasmic microtubules emanating from the nuclei that

87 oncentrate at cell ends by attaching it to a cytoplasmic microtubule end-binding protein.

88 chanism to delay cell cycle progression when cytoplasmic microtubules fail to orient the spindle.

89 gests a model in which flagella compete with cytoplasmic microtubules for a fixed pool of tubulin, wi

90 lium, with Gli2 but not Smo requiring intact cytoplasmic microtubules for ciliary entry and both requ

91 that a novel complex links the nucleus with cytoplasmic microtubules for the promotion of DNA repair

92 To ensure proper mitotic spindle and cytoplasmic microtubule formation, the cell must maintai

93 leted variant of SPC72 (DeltaN-SPC72) impair cytoplasmic microtubule formation.

94 cells, mitotic exit was preceded by loss of cytoplasmic microtubules from the neck.

95 f TINA enhanced the nucleation of bundles of cytoplasmic microtubules from the spindle pole bodies.

96 Removal of the forces exerted by the cytoplasmic microtubules had no effect on fragmentation.

97 Although effects of XMAP215/TOG proteins on cytoplasmic microtubules have not previously been shown

98 functions to limit the number and length of cytoplasmic microtubules in a cell cycle-specific manner

99 ons essential to mitosis and organization of cytoplasmic microtubules in addition to its well-documen

100 nuclear distribution phenotype but affected cytoplasmic microtubules in an unexpected manner.

101 ion of Stu2p leads to fewer and less dynamic cytoplasmic microtubules in both G1 and preanaphase cell

102 We also identify defects in cytoplasmic microtubules in both the germ and follicle c

103 tion of microtubules in vitro and stabilizes cytoplasmic microtubules in heterologous cells.

104 assembly and cause breakdown of preassembled cytoplasmic microtubules in human polymorphonuclear leuk

105 EB1 colocalized both to cytoplasmic microtubules in interphase cells and to spin

106 By indirect immunofluorescence, the cytoplasmic microtubules in kip2Delta were consistently

107 a similar process plays a role in orienting cytoplasmic microtubules in mating yeast cells.

108 , the bni1Delta mutant exhibited misoriented cytoplasmic microtubules in shmoos.

109 localized to the plus ends (distal tips) of cytoplasmic microtubules in the bud.

110 unctions without Lte1p and apparently senses cytoplasmic microtubules in the mother/bud neck [7-9].

111 avy chain Dyn1 also localized to the tips of cytoplasmic microtubules in wild-type cells.

112 nd yeast cells, this process is dependent on cytoplasmic microtubules interacting with the cortical a

113 By indirect immunofluorescence, cytoplasmic microtubules intersected the GFP-Kar9p dot.

114 and cell polarization, as well as Kar9p and cytoplasmic microtubule localization.

115 niversal function of kinesin-1 is to mediate cytoplasmic microtubule-microtubule sliding.

116 These results suggest that cytoplasmic microtubules might be arranged with plus end

117 beta4B-tubulin was localized to cytoplasmic microtubules, mitotic spindles, manchette, a

118 The cytoplasmic microtubule modulator RanBP10 is a Ran and b

119 Cytoplasmic microtubules (MTs) continuously grow and sho

120 Cytoplasmic microtubules (MTs) continuously grow and sho

121 evisiae kinesin-14 that functions to shorten cytoplasmic microtubules (MTs) during yeast mating yet m

122 CB also disrupted the organization of cytoplasmic microtubules (MTs) in stage VI oocytes.

123 The ability to nucleate cytoplasmic microtubules (MTs) is a property of the surr

124 Cytoplasmic microtubules (MTs) serve as a rate-limiting

125 osome positioning requires a radial array of cytoplasmic microtubules (MTs) that can exert pushing or

126 Polarized radial arrays of cytoplasmic microtubules (MTs) with minus ends clustered

127 n fission yeast (Schizosaccharomyces pombe), cytoplasmic microtubules must be reorganized into the sp

128 They have a reduced cytoplasmic microtubule network and display severe morph

129 d molecular motors and they travel along the cytoplasmic microtubule network towards the minus end of

130 iod marked by dramatic reorganization of the cytoplasmic microtubule network, endogenous MLK3 transie

131 nters establish transient connections to the cytoplasmic microtubule network.

132 knockdown causes the disorganization of the cytoplasmic microtubule network.

133 KIF3A but not by chemical disruption of the cytoplasmic microtubule network.

134 Furthermore, in the bim1 mutants, the cytoplasmic microtubules no longer intersected the corti

135 in fission yeast Schizosaccharomyces pombe, cytoplasmic microtubule nucleation ceases simultaneously

136 Cytoplasmic microtubule nucleation in fission yeast depe

137 rmation of these microtubule bundles include cytoplasmic microtubule nucleation, microtubule release

138 ein is targeted to the dynamic plus end of a cytoplasmic microtubule, offloads to the cortex, becomes

139 nclude that Kar9p's function is specific for cytoplasmic microtubule orientation and that Kar9p's rol

140 In fission yeast, interphase cytoplasmic microtubules originate from poorly character

141 important to prevent excessive detachment of cytoplasmic microtubules, particularly in G1 cells.

142 Unexpectedly, BBIP10 is required for cytoplasmic microtubule polymerization and acetylation,

143 tip-ward movement is similar to the rate of cytoplasmic microtubule polymerization toward the hyphal

144 Thus, SPBs are able to sense cytoplasmic microtubule properties and regulate the Bfa1

145 Further, Kms1 and the cytoplasmic microtubule regulator Mto1 promote the repai

146 The behavior of cytoplasmic microtubules revealed distinct interactions

147 2, bld1 mutants have normal basal bodies and cytoplasmic microtubule rootlets.

148 ted tubulin pool, showing that alteration of cytoplasmic microtubule severing could be sufficient to

149 We further observe cytoplasmic microtubule sliding in Xenopus and Ptk2 cell

150 On cytoplasmic microtubules, Stu2 and Bim1 act cooperativel

151 cells lack cytoplasmic microtubules; the few cytoplasmic microtubules that are observed are excessive

152 ch a highly elastic nucleus is surrounded by cytoplasmic microtubules that behave as a jelly-like vis

153 oison thiabendazole and have abnormally long cytoplasmic microtubules that can curl around the ends o

154 ubules anchored to the actin cortex and free cytoplasmic microtubules that moved in the ooplasm.

155 In addition, most spc72 mutant cells lack cytoplasmic microtubules; the few cytoplasmic microtubul

156 Klp5p-GFP and Klp6p-GFP both localize to cytoplasmic microtubules throughout the cell cycle and t

157 alization studies found Kip2p exclusively on cytoplasmic microtubules throughout the cell cycle, wher

158 marker protein, Tea1, that is transported by cytoplasmic microtubules to cell tips and recruits other

159 Others operate on the cytoplasmic microtubules to effect spindle and nuclear p

160 These findings support that nuclei use cytoplasmic microtubules to establish "cells within cell

161 In response to defects of cytoplasmic microtubules to interact with the cell corte

162 the cell because they impede the ability of cytoplasmic microtubules to orient the spindle.

163 ules, and that the rate of movement of these cytoplasmic microtubules to the bud neck depends on the

164 elative contributions of the kinetochore and cytoplasmic microtubules to the forces involved in forma

165 mutants retain the ability to generate long cytoplasmic microtubule tracks, suggesting that the nucl

166 rc activity regulates the transition between cytoplasmic microtubule transport and actin-based motili

167 Indeed, while cytoplasmic microtubules vanish, the spindle pole body (

168 Cytoplasmic microtubules were largely bundled, spindle a

169 cells with nuclear positioning defects, the cytoplasmic microtubules were misoriented and failed to

170 tic nuclei remained widely separated and the cytoplasmic microtubules were misoriented.

171 In contrast, in kip3Delta strains, the cytoplasmic microtubules were significantly longer than

172 e pole body (SPB), organizes the nuclear and cytoplasmic microtubules which are functionally and spat

173 ver, alp16 deletion displays abnormally long cytoplasmic microtubules, which curve around the cell ti

174 itotic spindle depends on the interaction of cytoplasmic microtubules with the cell cortex.

175 Both movements depend on interactions of cytoplasmic microtubules with the cortex.

176 eriments demonstrate that the interaction of cytoplasmic microtubules with the Kar9p cortical attachm

177 It is the differential interaction of cytoplasmic microtubules with the mother and bud cortex