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1 e metabolism, lipid droplet trafficking, and cytoskeletal organization.
2 plicable to proteins acting in chromatin and cytoskeletal organization.
3 disrupt Rho-dependent regulation of TM cell cytoskeletal organization.
4 mmunity in wheat via the modulation of actin cytoskeletal organization.
5 Binding of pro-PrP to FLNa disrupted cytoskeletal organization.
6 onal structures, and defects in apical actin cytoskeletal organization.
7 ated the receptor switch and altered tubulin cytoskeletal organization.
8 t on Rho GTPase-regulated integrity of actin cytoskeletal organization.
9 endocytosis, endosomal protein sorting, and cytoskeletal organization.
10 genes promoting myogenic differentiation and cytoskeletal organization.
11 llular adhesion and signal transduction, and cytoskeletal organization.
12 TPase function in cellular morphogenesis and cytoskeletal organization.
13 duced angiogenic effects by modulating actin cytoskeletal organization.
14 GTPases are key regulators of cell shape and cytoskeletal organization.
15 s fibers that indicated a profound change in cytoskeletal organization.
16 recognition as powerful regulators of actin cytoskeletal organization.
17 iting marked abnormalities in cell shape and cytoskeletal organization.
18 2) is an actin-binding protein implicated in cytoskeletal organization.
19 an essential regulator of Wnt signaling and cytoskeletal organization.
20 ced (RANKL-induced) osteoclast formation and cytoskeletal organization.
21 ect restrictive effect on cell spreading and cytoskeletal organization.
22 nce signals exert their initial influence on cytoskeletal organization.
23 ription, immunity/inflammation response, and cytoskeletal organization.
24 of Ca2+ influx, partly through regulation of cytoskeletal organization.
25 tory effects through regulation of leukocyte cytoskeletal organization.
26 ing protein essential for osteoclastic actin cytoskeletal organization.
27 proteins are important upstream mediators of cytoskeletal organization.
28 r through their effects on processes such as cytoskeletal organization.
29 ct the spheroid in relation to viability and cytoskeletal organization.
30 e diverse cellular functions including actin cytoskeletal organization.
31 ion of the outside-in signaling that confers cytoskeletal organization.
32 er function: integrin-mediated influences on cytoskeletal organization.
33 on kinase (FAK), is implicated in regulating cytoskeletal organization.
34 n and cofilin-1, belonging to or involved in cytoskeletal organization.
35 ved in the regulation of cell morphology and cytoskeletal organization.
36 intermediate filaments that are critical in cytoskeletal organization.
37 nication between neighboring cells regulates cytoskeletal organization.
38 ecent studies indicate an additional role in cytoskeletal organization.
39 (WASP) is a multi-domain protein involved in cytoskeletal organization.
40 l cell morphogenesis, polarity, adhesion and cytoskeletal organization.
41 activated kinases (PAKs) and deregulation of cytoskeletal organization.
42 arked alterations in synaptic morphology and cytoskeletal organization.
43 rmation, directly regulate subcellular actin cytoskeletal organization.
44 ndomembrane trafficking during interphase or cytoskeletal organization.
45 ll Rho GTPase Rac1, 3'-phosphoinositide, and cytoskeletal organization.
46 ing GTPase regulators and proteins affecting cytoskeletal organization.
47 am effector of Rho GTPase-induced changes in cytoskeletal organization.
48 ssential for developing predictive models of cytoskeletal organization.
49 nstream beta1 integrin-mediated adhesion and cytoskeletal organization.
50 regulator of Wnt signaling and functions in cytoskeletal organization.
51 hesion molecules and possess different actin cytoskeletal organizations.
52 defective acinar cell polarity, an abnormal cytoskeletal organization, a loss of tight junctions, an
54 motility is intimately connected to cellular cytoskeletal organization, a process that is also import
55 e III1 module of FN modulates cell growth or cytoskeletal organization, a recombinant FN with propert
56 lar network of fibrils that serve to support cytoskeletal organization, actomyosin-dependent tension,
58 P/GTP exchange factor, plays a vital role in cytoskeletal organization, affecting process initiation
59 tyrosine-phosphorylated protein involved in cytoskeletal organization, also interacts with pyrin.
60 ation of RalB at S198 is necessary for actin cytoskeletal organization, anchorage-independent growth,
63 show that Apxl is involved in regulating the cytoskeletal organization and architecture of endothelia
65 that Pcdh10 may influence subcellular actin cytoskeletal organization and axon-axon interactions in
66 sterile 20-like kinase (PSK) 1 alters actin cytoskeletal organization and binds to microtubules, reg
67 ing apoptosis, cell adhesion, cell motility, cytoskeletal organization and biogenesis, mitosis, trans
68 d that inhibition of ROCK activity disturbed cytoskeletal organization and blocked the formation of l
71 ed to the role for PAK4 in the regulation of cytoskeletal organization and cell and/or extracellular
73 gulate diverse cellular processes, including cytoskeletal organization and cell cycling, and more rec
75 ndispensable for the regulation of the actin cytoskeletal organization and cell migration in fibrobla
76 l action of NADPH oxidases (Nox) to modulate cytoskeletal organization and cell migration through unk
78 TNs) are known for their ability to modulate cytoskeletal organization and cell motility by cross-lin
85 ignal transduction, transcriptional control, cytoskeletal organization and cell wall construction.
88 results demonstrate that interdependence of cytoskeletal organization and chondrogenic gene expressi
89 actin induce changes in cell shape and actin cytoskeletal organization and decrease MLC phosphorylati
90 gest an important role for tau in regulating cytoskeletal organization and dynamics during growth con
91 Formins are conserved regulators of actin cytoskeletal organization and dynamics that have been im
95 urface in flies resulted in defects in actin cytoskeletal organization and egg morphology during ooge
96 abolism, epigenetic control of neurogenesis, cytoskeletal organization and extracellular matrix (ECM)
98 astrocytes showed abnormalities in the actin cytoskeletal organization and function but no detectable
101 epithelial cells showed proteins related to cytoskeletal organization and gene expression and epigen
103 egulate, either directly or indirectly, both cytoskeletal organization and gene expression associated
106 nto lipid rafts and differentially regulates cytoskeletal organization and growth, in part, through t
107 as a major suppressor of RhoA-mediated actin cytoskeletal organization and in the acquisition of an i
108 hat Inca and PAK5 cooperate in restructuring cytoskeletal organization and in the regulation of cell
110 plated on laminin or fibronectin stimulated cytoskeletal organization and increased focal adhesion s
111 involved in cell wall biosynthesis influence cytoskeletal organization and indicate that this influen
113 lial permeability via their actions on actin cytoskeletal organization and integrity of interendothel
115 em cell niche, and it is a gene required for cytoskeletal organization and is associated with syndrom
117 strate that RAFTK is involved in NGF-induced cytoskeletal organization and may play a role in neurite
118 extended passaging, and we demonstrate that cytoskeletal organization and mechanical stiffness of at
119 eshwork structure, which could contribute to cytoskeletal organization and membrane morphogenesis.
120 lating numerous cellular processes including cytoskeletal organization and membrane trafficking.
122 toplasm, strongly inhibited spreading, actin cytoskeletal organization and migration on TSP-1 and als
123 ovide a mechanistic connection between actin cytoskeletal organization and MMP-2 activation in TM cel
125 d, Gpg6 homozygous kidneys exhibited altered cytoskeletal organization and modulation of Wnt signalin
126 ca electron microscopy, we characterized the cytoskeletal organization and molecular composition of d
128 ence suggests close coupling between F-actin cytoskeletal organization and nuclear morphology however
129 amily small G proteins are key regulators of cytoskeletal organization and oncogenic transformation w
130 of the Src adaptor and kinase activities in cytoskeletal organization and osteoclast function, we ex
131 The mechanisms by which PYK2 regulates actin cytoskeletal organization and osteoclastic activation re
132 omposition, is a critical factor in defining cytoskeletal organization and phosphorylation at adhesio
133 ceptor signaling to pathways linked to actin cytoskeletal organization and regulated exocytosis.
134 ed in cellular response to external stimuli, cytoskeletal organization and regulation of molecular ac
135 lha15), previously shown to be essential for cytoskeletal organization and secretory activity, also f
136 Pase signaling pathway is required for actin cytoskeletal organization and serum response factor-depe
137 ulate TPM1's alternative splicing to promote cytoskeletal organization and terminal differentiation a
138 ammatory responses at the level of leukocyte cytoskeletal organization and that the unique therapeuti
139 cted with EXOC1 and Ndel1, which function in cytoskeletal organization and the cell division cycle.
140 ial cells was sufficient to disrupt neuronal cytoskeletal organization and trafficking pathways, resu
141 and implicates specific processes including cytoskeletal organization and transcriptional control in
142 ls and can be readily applied to investigate cytoskeletal organization and transport in other organis
143 ho and Rab family GTPases play a key role in cytoskeletal organization and vesicular trafficking, but
144 serve as a platform for signal transduction, cytoskeletal organization and vesicular trafficking.
145 ostatic pathways, 10 into pathways governing cytoskeletal organization, and 8 into pathways governing
146 hologic changes, an increase in stress fiber cytoskeletal organization, and a decrease in cell prolif
147 ges in cell-matrix and cell - cell adhesion, cytoskeletal organization, and activation of mitogen-act
151 t, during phagocytosis, membrane remodeling, cytoskeletal organization, and biochemical signaling are
152 play important roles in myofibrillogenesis, cytoskeletal organization, and cell adhesion and are imp
158 the effects of statins on cell shape, actin cytoskeletal organization, and cell-extracellular matrix
159 The Pak4 serine/threonine kinase regulates cytoskeletal organization, and controls cell growth, pro
161 s in angiogenesis, cell motility, apoptosis, cytoskeletal organization, and extracellular matrix orga
162 ic forces; these forces determine the shape, cytoskeletal organization, and function of endothelial c
163 as signal transduction, cell proliferation, cytoskeletal organization, and intracellular membrane tr
164 odulated pathways related to cell migration, cytoskeletal organization, and intracellular vesicle for
165 hat BMPs inhibit keratinocyte proliferation, cytoskeletal organization, and migration in regenerating
166 sion of Thy-1 differ markedly in morphology, cytoskeletal organization, and migration, suggesting dif
169 associated with virus attachment and entry, cytoskeletal organization, and NF-kappaB pathways that m
170 RAS, and NRAS, regulates cell proliferation, cytoskeletal organization, and other signaling networks,
173 itol 3-kinase/AKT signaling, disrupted actin cytoskeletal organization, and reduced plasma membrane r
174 the leading and trailing ends of the cells, cytoskeletal organization, and remodeling of focal adhes
176 ic changes in cell survival, cell signaling, cytoskeletal organization, and the abundance of translat
177 s control the overall state of cell contact, cytoskeletal organization, and the establishment of many
178 n by lovastatin leads to disruption of actin cytoskeletal organization, and to loss of integrin-media
179 Beta2-integrins, which mediate adhesion and cytoskeletal organization, are emerging as negative regu
180 oding proteins involved in actin binding and cytoskeletal organization as highly enriched gene cluste
181 eviously in membrane vesicle trafficking and cytoskeletal organization, as a mammalian host-cell gene
182 t of the intercalated disc, is necessary for cytoskeletal organization at sites of membrane attachmen
184 w that CAP regulates junctional membrane and cytoskeletal organization at the membrane-cytoskeletal i
186 e inert particles and suggests regulation of cytoskeletal organization by GM-CSF/PU.1 as the molecula
187 eby RbAp48 regulates cellular morphology and cytoskeletal organization by increasing K-Ras activity a
188 miR-21 inhibited cell migration and promoted cytoskeletal organization by modulating an activity of s
189 hibitor), were examined for changes in actin cytoskeletal organization by phalloidin staining, MMP-2
190 Members of the Rho GTPase family regulate cytoskeletal organization by stimulating actin polymeriz
191 lear positional dynamics is sensitive to the cytoskeletal organization by studying the effect of acti
192 , Mkl2(-/-) ES cells exhibit derangements in cytoskeletal organization, cell adhesion and expression
193 al to or within introns of genes involved in cytoskeletal organization, cell adhesion, growth factor
194 g sequence; and several proteins involved in cytoskeletal organization, cell communication, and regul
195 multiple functions, including regulation of cytoskeletal organization, cell cycle progression and ce
196 ion, differentiation, gene regulation, actin cytoskeletal organization, cell fate determination, and
197 e processes share genetic programs-linked to cytoskeletal organization, cell movement, and differenti
198 racellular nuclear movement and positioning, cytoskeletal organization, cell polarization, and cell m
199 teine proteases that have been implicated in cytoskeletal organization, cell proliferation, apoptosis
200 teine proteases that have been implicated in cytoskeletal organization, cell proliferation, apoptosis
201 ine protein kinases plays important roles in cytoskeletal organization, cellular morphogenesis, and s
202 n-dependent compaction, columnarization, and cytoskeletal organization characteristic of differentiat
203 with Skb15 loss, including defects in actin cytoskeletal organization, chromosome segregation, and c
204 ast formation and targets RNAs important for cytoskeletal organization, commitment, and osteoclast fu
205 homology protein family that participates in cytoskeletal organization, cytokinesis, and signal trans
206 ing defective pharyngeal isthmus elongation, cytoskeletal organization defects, and maternal effect l
208 Our results therefore suggest a link between cytoskeletal organization during cellularization and sub
209 ion site in adhesion-dependent signaling and cytoskeletal organization during osteoclast spreading an
211 acellular matrix-mediated tissue remodeling, cytoskeletal organization, epithelial-to-mesenchymal tra
212 f EC structure and function, including actin cytoskeletal organization, expression and localization o
213 eceptors, respectively), and restored normal cytoskeletal organization, filamentous actin distributio
214 generation of specific cell shape depends on cytoskeletal organization for wall deposition and/or cel
215 ed in multiple cellular processes, including cytoskeletal organization, gene expression, and transfor
216 RhoA GTPase is involved in regulating actin cytoskeletal organization, gene expression, cell prolife
217 At the cellular level, forces influence cytoskeletal organization, gene expression, proliferatio
218 ulate diverse cellular activities, including cytoskeletal organization, gene transcription, and cell
219 inding protein, plays pivotal roles in actin cytoskeletal organization, Golgi vesicular trafficking,
220 egulate many biological processes, including cytoskeletal organization, growth factor signaling, and
221 of genes involved in mitogenic response and cytoskeletal organization, hampered prostate cancer cell
223 (SRF)-mediated gene transcription and actin cytoskeletal organization; however, less is known regard
225 e show that myosin IIB is required for actin-cytoskeletal organization in both superficial and deep l
226 altered cell adhesive interactions and actin cytoskeletal organization in cells of the outflow pathwa
230 ization and thereby contributes to proper MT cytoskeletal organization in interphase and mitosis.
232 el PYK2-gelsolin pathway in regulating actin cytoskeletal organization in multiple cells, including o
236 iR-29 negatively regulates RNAs critical for cytoskeletal organization, including Cdc42 (cell divisio
237 in-cross-linking protein known to coordinate cytoskeletal organization, interacts with the glucocorti
239 in-sensitive BEL-7404 cells, suggesting that cytoskeletal organization is disturbed in the CP-r cells
240 ation, indicating that an intact actin-based cytoskeletal organization is required for RAFTK phosphor
241 tion to its known roles in transcription and cytoskeletal organization, JNK acts posttranscriptionall
242 ring the cell nanoarchitecture by disrupting cytoskeletal organization leads to the attenuation of th
243 f rhAPC on EC permeability and intracellular cytoskeletal organization may provide understanding of t
244 lexes and are implicated in both nuclear and cytoskeletal organization, mechanical stability, chromat
245 TGFbeta signaling, and pathways involved in cytoskeletal organization, migration, adhesion, and cell
246 FR2) activation and subsequent alteration of cytoskeletal organization, migration, and barrier functi
247 articipate in integrin signaling, regulating cytoskeletal organization, motility, and bone resorption
248 cytoskeleton; as such, we hypothesized that cytoskeletal organization, motility, and EMT in response
249 licated in key cellular functions, including cytoskeletal organization, motility, growth, survival, a
250 new antiproliferative compounds that target cytoskeletal organization of cancer cells in vivo by a c
254 The dramatic changes in cell behavior and cytoskeletal organization of giant cells correlate with
256 al analysis to map the growth, geometry, and cytoskeletal organization of single bacterial cells at s
259 find BLNK-deficient OCs are normal, whereas cytoskeletal organization of those lacking SLP-76 is del
260 There were associated deficiencies in actin cytoskeletal organization of vasodilator-stimulated phos
261 these cell types and studied the effects of cytoskeletal organization on disorder strength differenc
263 o better understand the relationship between cytoskeletal organization, organelle positioning, and re
264 , and ERK phosphorylation at the wound edge, cytoskeletal organization, phospho-ERK intracellular loc
265 ferentiation and for normal cell morphology, cytoskeletal organization, proliferation and survival of
267 ated genes controlling early G1 progression, cytoskeletal organization, protein synthesis, mitochondr
270 Thus, adducins may be involved in changes in cytoskeletal organization resulting from synaptic stimul
271 tained their normal epithelial phenotype and cytoskeletal organization, similar to those grown on typ
272 SSF8 may also be required to maintain actin -cytoskeletal organization since immunofluorescence analy
274 FAK) and RhoA GTPase and a transformation of cytoskeletal organization, suggesting both molecular and
275 IQGAP1 homologues have an important role in cytoskeletal organization, suggesting that modulation of
276 function of PP2A and is required for normal cytoskeletal organization, synaptic growth, and synaptic
277 on and results in defects in cell growth and cytoskeletal organization that are associated with dysre
278 ) triggers changes in growth, migration, and cytoskeletal organization that differ from those generat
279 requires Phr1 activity for coordinating the cytoskeletal organization that distinguishes axons from
280 nin turnover at adherens junctions and actin-cytoskeletal organization that is critical for intercell
281 at higher-order variations in cell shape and cytoskeletal organization that occur within hours of sti
282 g to increased cell migration and an altered cytoskeletal organization that results in reduced cell s
283 alyses indicate that Daam1 does not regulate cytoskeletal organization through RhoA, Rac1 or Cdc42.
284 a rapid coordination of gene expression and cytoskeletal organization throughout the cell in respons
286 ular processes, including endocytosis, actin cytoskeletal organization, transcription, and stress res
287 lia with other cellular processes, including cytoskeletal organization, vesicle trafficking and cell-
288 c phosphoprotein that has been implicated in cytoskeletal organization, vesicle trafficking and more
289 h a number of host cell processes, including cytoskeletal organization, vesicular trafficking, and ap
290 ator of a variety of cellular functions from cytoskeletal organization, vesicular trafficking, and ce
292 ers via C-terminal LIM domains and modulates cytoskeletal organization via the N-terminal domain.
295 n to cross-link actin filaments and modulate cytoskeletal organization, we have previously shown that
296 the hypothesis that UNC-115 modulates actin cytoskeletal organization, we show that UNC-115 activity
297 t junction (TJ) protein expression and actin cytoskeletal organization were examined after stretch.
298 steoclast (OC) to resorb bone is dictated by cytoskeletal organization, which in turn emanates from s
299 attractant source display a highly polarized cytoskeletal organization, with F-actin localized predom
300 exhibited dramatic changes in cell shape and cytoskeletal organization within 24 hours, consisting of
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