ライフサイエンスコーパス: retraction

1 ed presses (lever approach followed by rapid retraction).

2 ting endothelial cell motility and filopodia retraction.

3 receptor that initiates neuronal growth cone retraction.

4 d with the initiation of tracheal filopodial retraction.

5 eby increasing effective pulling time during retraction.

6 at the cortex and its ability to drive bleb retraction.

7 ow that CTXphi uptake requires TcpB-mediated retraction.

8 particular focus on recent insights into T4P retraction.

9 Article has been retracted; see accompanying Retraction.

10 both contribute to its ability to drive bleb retraction.

11 mechanisms of cytoskeleton assembly and bleb retraction.

12 All authors agree with the retraction.

13 den decreases in traction force, and neurite retraction.

14 f shape transformation, vis-a-vis beading or retraction.

15 as BAI1 overexpression precipitates dendrite retraction.

16 emble the cytoskeleton, which can drive bleb retraction.

17 ranch maturation mainly by preventing branch retraction.

18 ular bag were both found to prevent the iris retraction.

19 cale rather than sudden and widespread range retraction.

20 human platelet aggregation but preserve clot retraction.

21 i undergoing dynamic cycles of extension and retraction.

22 in M. xanthus as the putative trigger of T4P retraction.

23 sequential steps of proboscis extension and retraction.

24 spreading, thrombus consolidation, and clot retraction.

25 Silencing this feedback alters retraction.

26 of fibrin polymers markedly facilitated clot retraction.

27 f ephrin-A1-induced PC3 prostate cancer cell retraction.

28 fibrinogen and thrombin-mediated fibrin clot retraction.

29 ed that Rac1 was specifically reduced during retraction.

30 e absence of Fat3, during both migration and retraction.

31 h undergo cycles of extension, adhesion, and retraction.

32 which respectively drive McTN extension and retraction.

33 w levels of c-di-GMP correlate with enhanced retraction.

34 hances acto-myosin II contractility and cell retraction.

35 lar wall in unmanipulated vessels and during retraction.

36 Hua Zhou with regard to this retraction.

37 membrane ruffling, and process extension or retraction.

38 germband extension and is then used to drive retraction.

39 ases: bleb nucleation, bleb growth, and bleb retraction.

40 e prediction and planning for species' range retractions.

41 opulation retention rather than abrupt range retractions.

42 Rac1/Rho oscillations drive protrusions and retractions.

43 decrease from 100%; 1.09, 1.01-1.18), chest retractions (1.88, 1.26-2.79), network (p=0.00050), and

44 blocking RhoA signalling to facilitate cell retraction(2).

45 following steps: 1) port placement, 2) liver retraction, 3) liver biopsy, 4) gastrocolic ligament dis

46 high upper eyelid crease (64%), lower eyelid retraction (60%), abnormal upward slanting palpebral fis

47 t sequential phases of stochastic growth and retraction achieve efficient dendritic trees both in ter

48 f regeneration was associated with increased retraction after axotomy.

49 The EMR+ technique allows tissue retraction and a degree of triangulation during endoscop

50 TCP are retractile, with both retraction and assembly initiated by TcpB.

51 cro-CT results indicates an increase of bone retraction and BMD values and a decrease of BV/TV value

52 e Galphaq/PLCbeta/PI(4,5)P(2) pathway during retraction and correlated these with the retraction of t

53 ns prevented HIV-1 Vpr-mediated cell process retraction and death.

54 limits pelvic rotation, which reduces femur retraction and decreases step length.

55 essive control of TFP extension, attachment, retraction and detachment suggests that sequential contr

56 proximal axons, and these axons showed less retraction and enhanced regeneration after axotomy.

57 c immunostaining, or whether there is actual retraction and extension of neurites and/or synaptogenes

58 xperiments that can induce either beading or retraction and follow the time evolution of these respon

59 According to this hypothesis, forest retraction and fragmentation during glacial periods woul

60 P inhibits Ras activity and mediates neurite retraction and growth cone collapse in response to repul

61 main transients promotes tracheal filopodial retraction and in turn modulate CNS gas exchange.

62 earrangements to facilitate endothelial cell retraction and increased permeability.

63 Higher purine doses caused process retraction and membrane ruffling, which were blocked by

64 which is typically followed by rapid neurite retraction and mitotic entry.

65 Despite bipolar cell dendritic retraction and moderate loss of horizontal cells, the su

66 cs resulting in periodic waves of protrusion/retraction and propagating waves along the cell edge.

67 ion of ChR2 expressed in muscles controlling retraction and protraction.

68 so allows us to control membrane protrusion, retraction and ruffling by local illumination in both CO

69 of the steroid resulted in apical dendritic retraction and spine loss in the same cell population, w

70 collagen I under flow, and accelerated clot retraction and spreading on fibrinogen.

71 wever, the mechanisms of its actions on cusp retraction and stiffening are unclear.

72 t to abolish the Gi-coupled GPCR-governed TE retraction and subsequent migration of RAW cells.

73 migrating osteoblasts readily induces local retraction and, unexpectedly, distal protrusions to stee

74 g environmental conditions by the formation, retraction and/or stabilization of new synaptic contacts

75 nduction of E-selectin-dependent endothelial retractions and a subsequent modulation of tight junctio

76 there has been an increase in the number of retractions and corrections of published articles due to

77 ociation between the blood clot contraction (retraction) and the incidence of postoperative venous th

78 s of dynamic neurite initiation, elongation, retraction, and branching cycles that are likely to be r

79 otubule-driven protrusion, actomyosin-driven retraction, and CD44-mediated adhesion, where adhesive a

80 per eyelid ptosis, upper and/or lower eyelid retraction, and eyelid skin atrophy with presence of tel

81 temporal coordination of membrane protrusion/retraction, and how cells within each mode reorganize wi

82 g the mechanism of pseudopilus extension and retraction, and how this is coupled with the choreograph

83 ncement, breast edema, areola-nipple complex retraction, and lymph-node involvement were associated w

84 with larger rotator cuff tears, more tendon retraction, and more severe tendon degeneration have wor

85 cerating skin plaque, more noticeable nipple retraction, and new onset of retroareolar aching.

86 tic system as an important regulator of clot retraction, and show that promoting clot retraction is a

87 t not Cdc42 activity was reduced during tail retraction, and specific protrusions had reduced Cdc42 a

88 ctin protrusion at the boundary counters the retraction, and the balance of the protrusion and retrac

89 nesis is reversed from germband extension to retraction, and this reversal coordinates the forces nee

90 e neurons dysfunctional by promoting neurite retraction, and we also demonstrate that E2F3 is a speci

91 of a series of swellings along the axon, and retraction are commonly observed shape transformations t

92 These retractions are coordinated by dynamic microtubules; whe

93 the bleb life cycle (expansion, pausing, and retraction) are characterized by specific features of cy

94 pe IV pilus retraction, we can exclude pilus retraction as a mechanism for DNA uptake.

95 We quantify polyp retraction as a photosensitive behavioural response and

96 es for KIFC1 in regulating axonal growth and retraction as well as growth cone morphology.

97 Insights into the mechanisms regulating clot retraction at sites of vascular injury have been hampere

98 nt are instantaneously coupled to changes in retraction at the cell rear, while myosin II accumulatio

99 uditory neuron functions, and latent neurite retraction at the hair cell-auditory neuron synapse.

100 rotubules, leading to local degeneration and retraction at the tips of dendritic branches.

101 that involve cellular process extension and retraction, axonal ensheathment, and myelin membrane wra

102 vein caliber by ultrasound examination; bone retraction, bone mineral density (BMD), bone volume/tiss

103 Molecular motors drive TFP extension and retraction, but whether and how these movements are coor

104 eproduces the detailed kinematics of in vivo retraction by fitting just one free model parameter, the

105 ies, free Gbetagamma subunits also govern TE retraction by operating two independent, yet synchronize

106 establish positive feedback control of rear retraction by sensing membrane tension.

107 rate, systolic blood pressure, oxygenation, retractions, capillary refill, atelectasis or pneumonia

108 observed for other MAPs, can prevent branch retraction caused by laser-induced severing or nocodazol

109 r cell spreading, we show that periodic edge retractions coincide with peak forces produced by local

110 eading on Fg and fibronectin and faster clot retraction compared with wild-type.

111 Both cell extension and retraction critically depend on the organization and dyn

112 e initial lever presentation (CS1) and lever retraction (CS2).

113 tact mechanics to model both indentation and retraction curves.

114 ted proteins during the filopodial extension-retraction cycle in a variety of cell types in vitro and

115 blebs at different stages of their expansion-retraction cycle.

116 ity sensing, loss of CUs, loss of protrusion-retraction cycles, and, surprisingly, enables the cells

117 ble of force generation via linear extension/retraction cycles, to generate surface motions collectiv

118 g edges of cells undergo periodic protrusion-retraction cycles.

119 istinct length and time scale regions in the retraction domain: a steady filament section, a growing

120 ules in nascent branches and prevents branch retraction during branch maturation or after laser-induc

121 e we show that MIIA specifically drives bleb retraction during cytokinesis.

122 ty, thus regulating MSHA pilus extension and retraction dynamics, and modulating V. cholerae surface

123 ter quadrant of the left breast with no skin retraction, edema, or erythema.

124 al calcium handling contributes to dendritic retraction elicited by the LRRK2-G2019S and -R1441C muta

125 Cycles of pilus extension, binding and retraction enable T4P to perform a phenomenally diverse

126 phage binds to the F-pilus and through pilus retraction engages with the distal end of the T4SS chann

127 d tear width (estimate, 2.05), measured tear retraction (estimate, 3.52), and tendon degeneration gra

128 s also in cells and leads to delayed neurite retraction even before aggregates are visible.

129 lly visualized TFP extension, attachment and retraction events at high resolution in four dimensions

130 We found that neurite retraction evoked by Galpha12/13-dependent lysophosphati

131 In vitro clot retraction experiments indicated that subthreshold doses

132 Loss of retraction facilitated by the ATPase PilT increases near

133 fically, to the maintenance of adhesions and retraction fibers in mitosis [1-6], which are thought to

134 tes a significant reduction in injection and retraction forces.

135 beyond the classic result of the velocity of retraction found by Taylor and Culick.

136 dentate molecular layer and a parallel fiber retraction from the dentate hilus.

137 rders of the nervous system involving axonal retraction given that KIFC1 is expressed in adult neuron

138 The retraction has been issued following an investigation co

139 Interestingly, TE retraction has been linked to the activation of the smal

140 on in blood clot volume (clot contraction or retraction) has been implicated to play a role in hemost

141 from rapid spread to border stasis and even retraction, highlight future opportunities to test mecha

142 ture; (ii) capturing via the tip followed by retraction; (iii) combinations of surfing and retraction

143 We reveal a mechanism of rear retraction in 3D matrix and durotaxis controlled by cave

144 antennal lobe glomeruli and subsequent axon retraction in a dose-dependent mechanism.

145 kine treatment offsets age-related dendritic retraction in middle-aged (MA) rats.

146 sted by directional extension and subsequent retraction in polymers are attributed to stored conforma

147 harmacological NMII inhibition reverses axon retraction in PS-deficient neurons suggesting that NMIIA

148 -coupled GPCRs at the LE orchestrates the TE retraction in RAW264.7 macrophages.

149 y for directed movement, and the role of T4P retraction in surface sensing.

150 Neuritic retraction in the absence of overt neuronal death is a s

151 ll's leading edge to stimulate trailing edge retraction in the cell ahead.

152 Surprisingly, retraction in the model is robust to changes in cellular

153 inase with Y27632, blocked TNF-alpha-induced retraction in three-dimensional VIC hydrogels, suggestin

154 ent in vitro and potently elicited lower lip retraction in vivo, a component of "serotonergic syndrom

155 lar dynamics by coordinating protrusions and retractions in space and time.

156 Tat alters these factors, leading to neurite retraction inhibition.

157 stances of amoeboid migration, trailing edge retraction involves ephrinB1-dependent macropinocytosis

158 neighbor exchanges in the germband, whereas retraction involves only changes in cell shape.

159 lot retraction, and show that promoting clot retraction is a novel and complementary means by which f

160 Tongue protrusion-retraction is critical to early nutrition but is also a

161 the embryo and then retracts back; however, retraction is not simply the reversal of extension.

162 The coupling between calcium and neurite retraction is shown to be operative in the Caenorhabditi

163 It differs in that retraction is triggered by joint activation of P2Y1/P2Y1

164 Platelet-driven blood clot contraction (retraction) is thought to promote wound closure and secu

165 nching of the proximal fragment and with the retraction length and degeneration of the separated segm

166 The retraction length of geometrically isolated SFs after cu

167 Reversible synaptic retraction may be a previously unrecognized cofactor alo

168 We elaborate the retraction mechanism of the entrapped air film in terms

169 urther demonstrates that positioning of rear retraction, mediated by signals concentrated near the ce

170 ation Ca(2+) transients in sheaths prefigure retractions, mediated by calpain.

171 Rehabilitation for poor tongue base retraction might benefit from including suprahyoid muscl

172 leading and trailing cells' protrusions and retractions (motility cycles) aided by the cell-cell adh

173 By measuring TFP dynamics, we found that the retraction motor PilT was sufficient to generate tension

174 to QS is affected by the type IV pilus (TFP) retraction motors and the minor pilins.

175 For tendon retraction, MTSWV varies significantly between patients

176 with the former being known to stimulate T4P retraction needed for community expansion and a function

177 article has been retracted; see accompanying Retraction Note, which can be accessed via a link at the

178 Article has been retracted; see accompanying Retraction Note.

179 Mild conjunctival retraction occurred in 4 eyes (8.9%) between 1 and 12 mo

180 s show that a surprising degree of dendritic retraction occurs by middle age and that this can be mos

181 The retraction of >30 falsified studies by Anversa et al. ha

182 We study the capillary retraction of a Newtonian semi-infinite liquid filament

183 Retraction of a pDA-coated cantilever from an oxide surf

184 can cause the destabilization and secondary retraction of axon terminals.

185 nges in their morphology, characterized by a retraction of cell processes.

186 eling of dendritic arborization results from retraction of dendrites by thinning and fragmentation at

187 e it is activated by TBI and can promote the retraction of dendritic spines/synapses, which are criti

188 NRG1)/ErbB4 signaling in PV neurons, causing retraction of excitatory inputs to PV neurons.

189 us fibrinolysis with tranexamic acid reduced retraction of fibrin polymers in vivo.

190 ay and left behind during the projection and retraction of filopodia and lamellipodia.

191 arzea and terra firme forests and consequent retraction of igapo forests, with a millennial-scale rec

192 Protrusion and retraction of lamellipodia are common features of eukary

193 xpression, diminishment of RPE pigments, and retraction of microvilli and basal infoldings.

194 prolonged Galphaq stimulation results in the retraction of neurites in PC12 cells and the rupture of

195 ctions stimulate astrocyte migration and the retraction of neuronal prolongations, both processes in

196 Attraction and retraction of particles perpendicular to the surface by

197 into the peritoneal cavity, adhesion to and retraction of peritoneal mesothelial cells and subsequen

198 Upon retraction of pili filaments, the monomeric pilin reserv

199 step of contraction is sequential extension-retraction of platelet filopodia attached to fibrin fibe

200 , displaying robust and active formation and retraction of protrusions.

201 boid cell migration by locally promoting the retraction of protrusions.

202 olves the loss of corneal sensitivity due to retraction of sensory nerves and subsequent hyperinnerva

203 Retraction of the "effector loop" required for AMP bindi

204 enin uncoupled this coordination, leading to retraction of the apical dendrite without altering basol

205 The mitotic retraction of the basal process is recapitulated by NE c

206 Transfer coincided with rapid retraction of the cell projections, suggesting a hydrody

207 ite side of the cell and actomyosin-mediated retraction of the cell rear.

208 ing-edge protrusion, substrate adhesion, and retraction of the cell's rear.

209 ously, the cell viability was decreased with retraction of the cellular/neuronal processes.

210 disorder defined by limited outward gaze and retraction of the eye on attempted inward gaze.

211 hrough the rotation of the pelvic girdle and retraction of the femur.

212 In turn, partial retraction of the L1 stalk is coupled to a conformationa

213 raction via myosin redistribution and causes retraction of the lamellipodial boundary.

214 d therefore has made the decision to issue a retraction of the manuscript.

215 ing retraction and correlated these with the retraction of the membrane and cytoskeletal elements imp

216 There was more conspicuous retraction of the nipple when compared with that seen at

217 es fluid adhere to the peritoneum and induce retraction of the peritoneal mesothelial monolayer prior

218 is first pulled toward the outer membrane by retraction of the pilus and then taken up by binding to

219 anterior-posterior width and medial-lateral retraction of the rotator cuff tear on the preoperative

220 Such drop dynamics result in the rapid retraction of the spreading drop and thereby a more than

221 ough the loss of self-incompatibilty and the retraction of the stigma within the antheridial cone.

222 depths since the mid-1990s, a weakening and retraction of the subpolar gyre and an associated increa

223 ading edge (LE), and triggers the concurrent retraction of the trailing edge (TE).

224 es a form of surface motility powered by the retraction of the type IV pilus (T4P).

225 ating cells need to coordinate extension and retraction of their protrusions to avoid fragmenting.

226 bition of tyrosine kinase activity induces a retraction of these projections.

227 ity of cell groups through the extension and retraction of type IV pili (TFP) on solid surfaces, whic

228 (S) motility is powered by the extension and retraction of type IV pili and requires the presence of

229 cial motility, is dependent on extension and retraction of Type-IV pili (T4P) and production of extra

230 The application of metronidazole led to retractions of major processes associated with a reduced

231 cation of biogeographical theory, widespread retractions of species' rear edges should be seen in res

232 Thus, in addition to its role in tail retraction on 2D surfaces, Rho is critical for movement

233 n, while its partner ATPase PilU may improve retraction only in high-friction environments.

234 etraction; (iii) combinations of surfing and retraction; or (iv) sweeping actions.

235 nce of PAK-1 and SPC-1 induced complete axis retraction, owing to defective epidermal actin stress fi

236 y between patients with different degrees of retraction (P = .047).

237 were compared with tendon integrity, tendon retraction (Patte classification), fatty muscle infiltra

238 TNF-alpha increased retraction (percentage of diameter), stiffness, and form

239 front has been extensively studied, but the retraction phase of the migration cycle is not well unde

240 ed work of breathing (grunting, flaring, and retractions; positive LR, 2.1 [95% CI, 1.6-2.7]) were si

241 at undergo cycles of extension, adhesion and retraction powered by the cell-envelope spanning type IV

242 This was a genuine retraction process, as treating thrombi with blebbistati

243 g mechanistic insights into the assembly and retraction processes.

244 Continued pilus retraction pulls the Mat-gRNA complex out of the virion

245 We evaluated the clot retraction rate (CRR), fibrinolysis rate (FR), clot dens

246 Clot retraction rate negatively correlated with FENO and posi

247 ough Dispatched-mediated slowing of cytoneme retraction rates.

248 Given that prolonged tentacle retraction reduces foraging opportunities and can negati

249 Clot retraction refers to the process whereby activated plate

250 a blastoderm embryo show rapid extension and retraction regulated by actin-remodeling proteins.

251 sent an implantation option for lower eyelid retraction repair.

252 s a novel factor contributing to endothelial retraction required for efficient lung metastasis.

253 wounds), musculoskeletal (due to atrophy and retraction scars limiting movement) or neuropathic pain.

254 spreading on fibrinogen and accelerates clot retraction (see figure).

255 ction, and the balance of the protrusion and retraction shapes the lamellipodium.

256 y for initiating copulation by the male, its retraction signals female acceptance.

257 In particular, the prominent retraction speed dependence of k(F) was a clear indicati

258 Furthermore, we have found that for moderate retraction speeds at intermediate force values, k(F) exh

259 s (prepared under identical conditions), and retraction speeds of the AFM cantilever, could not be de

260 tivity, may be responsible for valvular cusp retraction, stiffening, and formation of calcified nodul

261 Finally, we show that obstruction of pilus retraction stimulates the synthesis of the cell-cycle re

262 Duane retraction syndrome (DRS) is a congenital eye-movement d

263 Duane retraction syndrome (DRS) is the most common form of con

264 of the extraocular muscles (CFEOM) and Duane retraction syndrome (DRS), and discuss what they have ta

265 eases, we may expect more patients with iris retraction syndrome in the future.

266 iris prosthesis can lead to a residual iris retraction syndrome.

267 During primate swallowing, tongue base retraction (TBR) drives the food bolus across the oropha

268 eview considers the recent increase in paper retractions, the role of social media in scientific ethi

269 Notice of retraction: the article "Role of Cerebral Spinal Fluid i

270 t subthreshold doses of tPA facilitated clot retraction through a plasmin-dependent mechanism.

271 zoLPA enabled the optical control of neurite retraction through its activation of the LPA(2) receptor

272 nefficient on the ATPase that promotes pilus retraction, thus leading to rapid pilus disappearance fr

273 ignaling and membrane tension leads to rapid retraction to complete the migration cycle in fast-movin

274 al data, and that these inaccuracies warrant retraction to correct the scientific record.

275 lus for adhesion, and a cork for terminating retraction to maintain a priming complex for the next ro

276 they sense cell shape and control actomyosin retraction to sustain cellular coherence.

277 A Retraction to this paper has been published and can be a

278 cial "gesture," namely tongue protrusion and retraction (TP/R).

279 nits encode rough-smooth texture better than retraction-tuned units and encode the precise spatial lo

280 However, prolonged retraction upon surface attachment results in reduced MS

281 to show how signaling events are coupled to retraction velocity, membrane tension, and actin dynamic

282 synaptic adhesion, Schwann cell invagination/retraction, vesicle accumulation and acetylcholine recep

283 Papillary muscle retraction was combined with apical MI created by corona

284 A retraction was performed to harvest the FHL through the

285 rce relation of DNA uptake and type IV pilus retraction, we can exclude pilus retraction as a mechani

286 For twitching, powered by type-IV pilus retraction, we find that individual cells exert local tr

287 nization, and cellular forces drive germband retraction, we investigate this process using a whole-em

288 precise timing of successive attachment and retraction, we show that P. aeruginosa engages PilT moto

289 NTR) forms support proNT-induced growth cone retraction: We show that receptor surface accumulation i

290 nule secretion, platelet spreading, and clot retraction were not markedly affected.

291 pathogens and were more likely to have chest retractions, wheezing, and a history of underlying asthm

292 tress using laser dissection and failures of retraction when amnioserosa cells are removed via mutati

293 itors of NF-kappaB blocked TNF-alpha-induced retraction, whereas simultaneous inhibition of c-Jun N-t

294 oints opposite to the direction of the pilus retraction, which may facilitate the translocation of th

295 MII then drives the final phase, bleb retraction, which results in reintegration of the bleb i

296 udies indicated that oligodendrocyte process retraction, which was linked to reduced glycolytic respi

297 ly blocking pili imposed resistance to pilus retraction, which was sufficient to stimulate holdfast s

298 s conditions that induce significant process retraction with only marginal cell death, human OLs exhi

299 e number of post-publication corrections and retractions, with the ultimate goal of increasing confid

300 nt membrane triggers rapid, massive vascular retraction without loss of barrier function.