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1 gate the functional components of the signal transduction cascade.
2 e kinase (DLK MAPKKK) to regulate the signal transduction cascade.
3 f rod bipolar cells by modulating the mGluR6 transduction cascade.
4 ng pathway, an evolutionary conserved signal transduction cascade.
5 etween miR-1 expression and the IGF-1 signal transduction cascade.
6 n kinase activity through an internal signal transduction cascade.
7 gh a PLC-, calcium- and PKC-dependent signal transduction cascade.
8 e (PDE6) is the central enzyme in the visual transduction cascade.
9 s the canonical H2AX-MDC1-RNF8-RNF168 signal transduction cascade.
10 tor, and activation by an ABA-induced signal transduction cascade.
11 naptic NMDA-R-CaMKII-SynGap-Ras-BRaf-MEK-ERK transduction cascade.
12 cAMP, which is formed by a G-protein-coupled transduction cascade.
13 nd ligand and initiate the downstream signal transduction cascade.
14 and expression of NaV1.5, a component of the transduction cascade.
15 an important component of the insulin signal transduction cascade.
16 y via a cAMP-dependent protein kinase signal transduction cascade.
17 ery requires an intact quorum-sensing signal transduction cascade.
18 the effector enzyme in the vertebrate visual transduction cascade.
19 iliated ORNs relying on the Galpha(olf)/cAMP transduction cascade.
20 the effector enzyme in the vertebrate visual transduction cascade.
21 ted by an abscisic acid (ABA)-induced signal transduction cascade.
22 e phosphatidylinositol 3 (PI3)-kinase signal transduction cascade.
23 thdrawal by inhibiting the PI3-kinase signal transduction cascade.
24 e 6 (PDE6), an effector enzyme of the visual transduction cascade.
25 anism is involved in the PAF-mediated signal transduction cascade.
26 wnstream effectors in the Eph-induced signal transduction cascade.
27 mplification of the inflammatory pain signal transduction cascade.
28 ic enzymes by blocking the antecedent signal transduction cascade.
29 s a novel DRC function as part of the signal transduction cascade.
30 l integrity pathway, a conserved MAPK signal transduction cascade.
31 ignaling bears hallmarks of a regular signal transduction cascade.
32 sponse independently of the DegS/RseA signal transduction cascade.
33 F activities depend on this canonical signal transduction cascade.
34 a receptor coupling to the canonical odorant transduction cascade.
35 ing a shared receptor linked to a non-linear transduction cascade.
36 identifies new molecular steps in the signal transduction cascade.
37 rather than photochemical, activation of the transduction cascade.
38 its receptor (FGFR), which activates signal transduction cascades.
39 hat modulates the activity of several signal transduction cascades.
40 nsory cells to activate intracellular signal transduction cascades.
41 s factors, including input from other signal transduction cascades.
42 erging input for two Zn(2+)-dependent signal transduction cascades.
43 pentakisphosphate kinases in plant Pi signal transduction cascades.
44 d messengers, which initiate multiple signal transduction cascades.
45 d act as second messengers in diverse signal transduction cascades.
46 tions are key events that can trigger signal transduction cascades.
47 pathway is one of the best understood signal transduction cascades.
48 we show that ApoE broadly stimulates signal transduction cascades.
49 that enhance specificity and speed in signal transduction cascades.
50 (PIP2) that serves multiple roles in signal transduction cascades.
51 ity and flux through growth-promoting signal transduction cascades.
52 dysregulate phosphorylation-dependent signal transduction cascades.
53 g with terminal members of several signaling transduction cascades.
54 tophosphorylation, and stimulation of signal transduction cascades.
55 n of its role in nutrient sensing and signal transduction cascades.
56 n factor 2 alpha (eIF2alpha) or other signal transduction cascades.
57 e, resulting in downstream effects on signal transduction cascades.
58 lular morphogenesis and intracellular signal transduction cascades.
59 lation of proliferative and apoptotic signal transduction cascades.
60 n pathway and do not require alternative Wnt transduction cascades.
61 te buds, leading to the activation of signal transduction cascades.
62 by cell-cell interactions mediated by signal transduction cascades.
63 eins contributes to their activity in signal transduction cascades.
64 eals the multiple effects of space in signal transduction cascades.
65 ted by a poorly understood network of signal transduction cascades.
66 irus infection and initiate antiviral signal transduction cascades.
67 mediating the flux through downstream signal transduction cascades.
68 nic fungi, given their involvement in signal transduction cascades.
69 asts significantly amplifies IL-1beta signal transduction cascades.
70 How are TRP channels regulated by signal transduction cascades?
71 mical strategy to design RNA-mediated signal transduction cascades able to sense small molecules and
73 t EIN5 is a component of the ethylene signal transduction cascade acting downstream of CTR1 that is r
74 suggest a revised model in which the signal transduction cascade activated by cross-linking of the B
75 udy was to characterize the mitogenic signal transduction cascade activated by the 5-HT(2B) receptor.
76 y manumycin-A, suggesting that Ras-dependent transduction cascades activated by TGFbeta1 feed back on
77 upled receptors that signal through a common transduction cascade: activation of phospholipase C beta
78 ing the light step, residual activity of the transduction cascade after the step is extinguished, and
79 oassay demonstrated initiation of the signal transduction cascade, after binding of all investigated
81 flecting a reduction in amplification of the transduction cascade; an increase in the rate of turnove
82 major signalling pathways in the TCR signal transduction cascade and focuses on proximal events in T
83 lly derived FGFs act through the MAPK signal transduction cascade and in particular, ERK1/2 to activa
84 involved in the B-cell receptor (BCR) signal transduction cascade and inhibits the antigen-induced ac
85 controls multiple components of the beta1AR transduction cascade and is cardioprotective during hear
86 integrate signals from diverse intracellular transduction cascades and in turn regulate genetic reado
87 ion factors are commonly activated by signal transduction cascades and induce expression of many gene
88 se novel interactions may amplify the signal transduction cascades and molecular events that lead to
89 estrated mechanisms including several signal transduction cascades and morphologic transformations.
90 onists/antagonists, the modulation of signal transduction cascades and new and expanded uses for vari
91 ighly coordinated processes utilizing signal transduction cascades and post-translational modificatio
93 -binding domains led to activation of signal transduction cascades and up-regulation of host gene exp
95 to the phot-, cry-, and phy-mediated signal transduction cascades, and possible involvement of circa
97 including neurotransmitter receptors, signal transduction cascades, and target proteins of dopamine s
98 an activate and regulate a variety of signal transduction cascades, and the influx of Ca2+ through th
101 (2+) signal in the Pep immune defense signal transduction cascade, as is the case with BRASSINOSTEROI
102 entify specific genes involved in the signal transduction cascade associated with nonhost disease res
104 ome DNA stimulated the induction of a signal transduction cascade associated with Toll-like receptor
106 ling is one of the fastest G-protein-coupled transduction cascades, because effector and modulatory p
107 it, how four core Psp proteins form a signal transduction cascade between the IM and the cytoplasm, a
108 ARMCX3 and raise the possibility of a signal transduction cascade between the nucleus and mitochondri
110 lays a key role in the TNF-R-mediated signal transduction cascade by acting as a site of assembly for
111 gnal, GPCRs trigger the intracellular signal transduction cascade by activating a heterotrimeric G pr
113 e activation of the mitogen-activated signal transduction cascade by mutations in the RAS genes.
115 eron is induced via a three-component signal transduction cascade composed of RhuI, RhuR, and BhuR.
117 rivation of cells in culture causes a signal transduction cascade consisting of activation of the kin
119 gest that components of the olfactory signal transduction cascade could be targets of circadian regul
120 ange by molecular interactions in the signal-transduction cascade could be used to control access to
122 been shown to modulate intracellular signal transduction cascades critical for cell growth and proli
123 unripe host fruit initiates defensive signal-transduction cascades, culminating in accumulation of an
124 nclude the intensity of activation of signal transduction cascades determines cell lineage segregatio
125 protein CrkII plays a central role in signal transduction cascades downstream of a number of differen
127 and signal transducer (receptor), the signal transduction cascade (effector proteins, second messenge
128 ucin or TrpM5, essential elements of the T2R transduction cascade, eliminates the trigeminal response
129 d development per se but is part of a signal transduction cascade essential for system initiation lea
131 an essential role in the TCR-mediated signal transduction cascade for expression of certain cytokine
132 of MMP2, and (ii) a receptor-mediated signal transduction cascade for the tyrosine phosphorylation of
133 m a macromolecular complex to mediate signal transduction cascades for the regulation of cell growth
137 structural elements involved in this signal transduction cascade, here we optimized a cGMP-based luc
138 regulated kinase (Ras-ERK) pathway, a signal transduction cascade implicated in behavioral plasticity
139 es of these molecules to activate the signal transduction cascades implicated in the regulation of IL
140 ee distinct pathways within a complex signal transduction cascade in response to a variety of stresse
141 of a protein phosphorylation-mediated signal transduction cascade in response to symbiotic signals pr
142 t enzyme that plays a key role in the visual transduction cascade in rod and cone photoreceptors.
146 tion but that constitutive activation of the transduction cascade in these animals can greatly enhanc
147 hanical trigger to activate bacterial signal transduction cascades in many motile bacteria upon conta
148 oof of principle that interruption of signal transduction cascades in patients with colorectal cancer
150 e regulation of growth factor-induced signal transduction cascades in the epithelium, and ErbB-2 is f
151 ulation of molecules related to these signal transduction cascades in the liver by quantitative rever
152 sign principles for engineering scRNA signal transduction cascades including reactant stability vs me
153 or tyrosine kinases and components of signal transduction cascades including the extracellular signal
154 ) and other components of the beta1AR signal transduction cascade, including adenylate cyclase VI and
156 The shutoff mechanisms of the rod visual transduction cascade involve G-protein-coupled receptor
157 critical components of the vertebrate visual transduction cascade involved in converting light-induce
158 t of experiments, we investigated the signal transduction cascade involved in this response, and foun
159 ell motility through a nonproteolytic signal transduction cascade involving activation and phosphoryl
160 ond to irritants through the canonical taste transduction cascade involving Galpha-gustducin and tran
161 f the NMDAR NR2A subunit in RVM via a signal transduction cascade involving IP(3), PKC, and Src.
162 egulated by thyroid hormone through a signal transduction cascade involving the phosphatidylinositol
163 in-coupled receptors (GPCRs) triggers signal transduction cascades involving heterotrimeric G protein
166 not known, nor is it known if the olfactory transduction cascade is accurate and fast enough to foll
167 by plants expressing the Bs2 gene, a signal transduction cascade is activated leading to a bacterial
169 signaling, arguing that a traditional signal transduction cascade is integral to spindle checkpoint s
170 by light, we concluded that the gain of the transduction cascade is lower than in rhabdomeric recept
172 utants reveals that activation of the signal transduction cascade is sufficient to cause axonal conve
173 egulation of PI3K/Akt and Raf/Mek/Erk signal transduction cascades is one of the principal causes of
175 eukaryotic cells activate a conserved signal transduction cascade known as the DNA damage checkpoint
176 the mitogen-activated protein kinase signal transduction cascade known to regulate inflammatory path
177 cAMP-mitogen-activated protein kinase signal transduction cascade leading to an increase in VP gene t
178 eceptor-like-1 (FPRL1)) to initiate a signal transduction cascade leading to cell activation and migr
179 environmental cue that initiates the signal transduction cascade leading to changes in cellular c-di
180 re secreted cytokines that activate a signal transduction cascade leading to the induction of hundred
181 binding to dsg3 activates desmosomal signal transduction cascades leading to (i) p38MAPK and HSP27 p
182 ed because they initiate and regulate signal transduction cascades leading to a variety of functional
183 ly, has emerged as a key regulator of signal transduction cascades leading to the activation of the t
184 These gases play a pivotal role in signal transduction cascades, leading to adaptive processes suc
185 econdary messenger is involved in the signal transduction cascade linking CLV3/CLV1 to control of gen
187 ulators of the Ras/Rap/ERK MAP kinase signal transduction cascade, matrix-enriched CalDAG-GEFI and st
188 ggests that targeting the RAS/MEK/ERK signal transduction cascade may provide a potential therapeutic
192 or steps in the post-P2Y(1) receptor signal transduction cascade might be potential therapeutic targ
195 a kinetic "damper" present in the olfactory transduction cascade of the mouse that slows down the re
196 ich there are three distinct Che-like signal transduction cascades; one that is involved in chemotaxi
198 era1, negative regulators of the ABA signal transduction cascade or for cell cycle components ick1 a
200 ation of the 7TM receptor GPR30, with signal transduction cascades (PI3K and MAPK) converging on nucl
203 (3) the activation state of the IGF-1 signal transduction cascade reciprocally regulates miR-1 expres
205 edgehog and growth factors, to intracellular transduction cascades regulating differentiation, migrat
206 ches' to reversibly modulate specific signal transduction cascades regulating downstream proteins wit
207 hich Zpr1 mediates both EGFR and FGFR signal transduction cascades required for lumen formation in te
208 ptors and downstream components of the taste transduction cascade; respond to stimulation with bitter
209 ernal signals, which activate complex signal transduction cascades resulting in highly dynamic and lo
210 inflammatory response by initiating a signal transduction cascade, resulting in interleukin-8 product
212 tions of Ca(2+) on different elements of the transduction cascade seem to occur on different timescal
213 c effects are secondary to actions on signal transduction cascades shared by numerous neurotransmitte
214 deletion of elements of the canonical taste transduction cascade, showing that activation of taste s
215 role in the turning on and off of the visual transduction cascade, since binding of PDE6 gamma to the
216 t could not have been produced by the normal transduction cascade, since it was recorded from rods la
217 Ha-ras, both of which act in the same signal transduction cascade, stimulated urothelial hyperplasia,
218 Despite knowledge of some of their signal transduction cascades, surprisingly little is known of h
219 a 7 nAChRs have in regulating various signal transduction cascades, synaptic plasticity, and memory p
220 encoding components and regulators of signal transduction cascades than at inducible downstream targe
221 ar unfolded protein response (UPR), a signal transduction cascade that acts to modulate translation,
222 task through the use of a G-protein-coupled transduction cascade that amplifies the activity of sing
223 response regulator PhoP constitute a signal-transduction cascade that controls inducible resistance
225 the endoplasmic reticulum activates a signal transduction cascade that culminates in the transcriptio
226 survive multiple stresses involves a signal transduction cascade that increases the expression of st
227 receptors initiates an intracellular signal transduction cascade that influences various aspects of
228 results indicate the importance of a signal transduction cascade that involves the glutamate recepto
229 I3K) signaling pathway is a conserved signal transduction cascade that is fundamental for the correct
230 the spindle checkpoint and initiate a signal transduction cascade that leads to inhibition of the ana
231 cell receptor by antigen initiates a signal transduction cascade that leads to tyrosine phosphorylat
232 mary, LIMD2 is a new component of the signal transduction cascade that links integrin-mediated signal
233 the proteins required for the direct signal transduction cascade that modifies membrane dynamics.
234 EGFR) lie at the head of a complex of signal transduction cascade that modulates cell proliferation,
235 we identify a previously unidentified signal transduction cascade that modulates phosphorylation of s
236 20, two p21-activated kinases, form a signal transduction cascade that promotes mitotic exit in yeast
237 rase system (PTS) is a multicomponent signal transduction cascade that regulates diverse aspects of b
238 he receptor kinase BRI1 to activate a signal transduction cascade that regulates nuclear gene express
239 mediates its effects via an EGFR/MAPK signal transduction cascade that regulates the expression of re
240 , thereby initiating an intracellular signal transduction cascade that results in the altered express
241 hen activated, the sensors initiate a signal-transduction cascade that ultimately inactivates the Rgt
242 n-coupled receptors (GPCRs) initiates signal transduction cascades that affect many physiological res
243 ort has focused on characterizing the signal transduction cascades that are associated with cardiac h
244 resulting influx of cations initiates signal transduction cascades that are crucial to higher functio
246 at various stages within the multiple signal transduction cascades that are set in motion by a Ca(2+)
248 oplasmic reticulum (ER) and initiates signal transduction cascades that culminate in changes to gene
249 aptive immune system triggers complex signal transduction cascades that culminate in expression of ge
250 cells by RT initiates one or multiple signal transduction cascades that drive a permanent proliferati
251 to detect DNA damage and to initiate signal transduction cascades that employ Chk1 and Chk2 Ser/Thr
252 abotropic glutamate receptors induces signal transduction cascades that lead to gene-specific transcr
253 ulate neurite outgrowth; however, the signal transduction cascades that lead to its physiological eff
254 r candidates, membrane receptors, and signal-transduction cascades that might constitute the mechanis
255 togen-activated protein kinase (MAPK) signal transduction cascades that share multiple signaling comp
256 ordination involves the activation of signal transduction cascades that target repair proteins, trigg
258 ion of these receptors induces robust signal transduction cascades that trigger the production of cyt
259 ns, such as oncogenic H-Ras, initiate signal transduction cascades that ultimately lead to the activa
260 by their respective ligands activates signal transduction cascades that ultimately lead to the activa
261 wth factors that activate networks of signal transduction cascades that ultimately lead to the expres
262 At least two different G-protein-mediated transduction cascades, the adenylate cyclase and phospho
263 to advance therapeutics and to probe signal transduction cascades, there is considerable interest in
264 regulate transcription by activating signal transduction cascades, these data present a novel mechan
265 evelopmental regulators that engage a signal transduction cascade through receptor tyrosine kinases,
266 to lateral plate mesoderm in a linear signal transduction cascade through the function of the Nodal s
267 exerts negative regulation on the olfactory transduction cascade, through mechanisms that include re
268 the presence of matrix and activate a signal transduction cascade, thus promoting invasive filamentat
269 ynthetic bacterium uses the RegB-RegA signal transduction cascade to control a wide variety of oxygen
270 ract ("brush cells") use the canonical taste transduction cascade to detect potentially hazardous con
271 vated HSCs utilize components of TLR4 signal transduction cascade to stimulate NF-kappaB and JNK and
272 stimulates the downstream Src-Mek-Erk signal transduction cascade to ultimately transactivate the ear
273 , and some of these modulate cellular signal transduction cascades to carry out their life cycles.
274 mitting intracellular instructions by signal transduction cascades to coordinate appropriate response
275 iments localized multiple proteins of visual transduction cascades to tissues housing light-producing
276 y involved in turning off the insulin signal transduction cascade, to assess the role of enhanced ins
277 king monoamine receptor activation to signal transduction cascades, transcriptional regulation of axo
278 twork (MEN), a budding yeast Ras-like signal transduction cascade, translates nuclear position into a
279 as surrogate receptors for initiating signal transduction cascades, ultimately leading to cell death.
280 n B. subtilis through perturbation of signal transduction cascades under various stress conditions.
281 own to be necessary components of the signal transduction cascades underlying normal synaptic plastic
284 lular locales and thus confer specificity to transduction cascades using ubiquitous signaling enzymes
285 , the range of chemoreceptors and the signal transduction cascade utilized by the GG have remained my
289 The Notch pathway is a conserved signal transduction cascade which is essential for pattern form
290 inding of lysozyme to RsiV triggers a signal transduction cascade which results in degradation of Rsi
291 ated by manipulation of the host cell signal transduction cascades which can impact cell cycle, cell
292 lated by the bacterial quorum-sensing signal transduction cascade, which allows bacteria to assess th
294 very important for activation of the signal transduction cascade, which is necessary for cells to se
295 xerts its effects typically through a signal transduction cascade, which is non-linear and involves i
296 plementary coreceptor and initiates a signal transduction cascade, which leads to a variety of respon
297 ty' signal to the next protein in the signal transduction cascade, which sits in the inner membrane a
298 mit survival signals through separate signal transduction cascades, which all share the ability to su
299 LTP and LTD both rely on similar signal transduction cascades, which regulate translation initia