ライフサイエンスコーパス: activity through

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1 der include: unifying implementation science activities through a single organizational structure, li

2 network models that self-generate irregular activity through a balance of excitation and inhibition.

3 find that the PFC regulates sensory thalamic activity through a basal ganglia (BG) pathway.

4 t expression of Mef2c by de-repressing MEF2C activity through a Calmodulin-CamKII-histone deacetylase

5 EBI2 signaling activated Pin1 isomerase activity through a cascade that was sensitive to ERK inh

6 antimicrobial efficacy and improving in vivo activity through a combination of intracellular delivery

7 at copper (Cu) is required for MEK1 and MEK2 activity through a direct Cu-MEK1/2 interaction.

8 eins, and show that each inhibits CRISPR-Cas activity through a distinct mechanism.

9 hat the IKK regulator NLRC5 shapes NF-kappaB activity through a feedforward loop of NLRC5 ubiquitinat

10 aling and to demonstrate modulation of Cdc42 activity through a GAP during mating.

11 t cytokinin signaling specifies meristematic activity through a graded distribution that influences t

12 e assays show that AcrIIC2(Nme) mediates its activity through a large electronegative surface.

13 ensing by directly inhibiting cGAS enzymatic activity through a mechanism involving both cGAS binding

14 ontrol and Prevention (CDC) tracks influenza activity through a national surveillance network.

15 ty for highly selective inhibition of kinase activity through a non-ATP competitive mechanism.

16 the transcription factor TAp73 opposes HIF-1 activity through a nontranscriptional mechanism, thus af

17 Corresponding miRs increased AR activity through a novel and anti-dogmatic mechanism of

18 adults, and that LRF confers its repressive activity through a NuRD repressor complex independent of

19 functions of MMP12, including antimicrobial activity through a peptide within its C-terminal domain

20 q1 also stimulated Pso2 translesion nuclease activity through a site-specific ICL in vitro We noted t

21 show that this is enabled by residual PEAMT activity through a third family member, NMT2.

22 suggesting that LINC complexes support RhoA activity through a transcription-independent mechanism.

23 l mechanism for generating constitutive GPCR activity through a transsynaptic Elfn1/mGluR7 structural

24 Tight control of psoriatic arthritis disease activity through a treat-to-target approach significantl

25 R signaling, and, finally, modulation of ATR activity through a variety of post-translational modific

26 roduction is impervious to antiviral RNase L activity, through a mechanism of viral RNA protection th

27 ates thermomorphogenesis by suppressing PIF4 activity, through a reduction in PIF4 protein level.

28 st antifungal response by enhancing NFkappaB activity through A20 sequestration.

29 Although ABA signaling inhibits PP2C activity through ABA-receptor complex, it remains unknow

30 an oral drug stimulating the parasympathetic activity through acetylcholinesterase inhibition, in exp

31 n shown previously to reduce dopamine neuron activity through action on D(2) autoreceptors to produce

32 diomyocytes, STIM1 acts by tuning Akt kinase activity through activation of mTOR complex 2, which fur

33 tor (GEF), Epac, known to down-regulate RhoA activity through activation of Rap1 GTPase activity incr

34 d and periphery, adenosine inhibits neuronal activity through activation of the adenosine A1 receptor

35 tory adaptations which stabilise target cell activity through activity-dependent global scaling have

36 B cell superantigen activity through affinity for BCR carbohydrate is discus

37 s a multifaceted process, inhibition of Shp2 activity through AKAP-Lbc-anchored PKA is a previously u

38 redisposition that reinforces PEAR1 enhancer activity through allele-specific DNA methylation.

39 tion Rabex5 but to also control its Rab5 GEF activity through allosteric structural alterations.

40 ly, pharmacologic modulation of beta-catenin activity through alpha-catenin is a potentially attracti

41 control Smad2 and Smad3 transcription factor activities through alternate Activin type 2 receptors.

42 ouples the NAD(+) synthetase and glutaminase activities through an ammonia tunnel but free ammonia is

43 Ca(2+) regulates ryanodine receptor's (RyR) activity through an activating and an inhibiting Ca(2+)-

44 istent with ATP stimulating guanylyl cyclase activity through an allosteric, phosphorylation-independ

45 ly warm North Atlantic SSTs enhance heatwave activity through an association with drier spring condit

46 ain and triggers activation of its E3 ligase activity through an autocatalytic mechanism that amplifi

47 findings indicate that Vps4 can promote EGFR activity through an endocytosis-independent mechanism.

48 ADAM10 negatively regulates its constitutive activity through an ER retention motif but is dispensabl

49 arious stresses, the Sestrins inhibit mTORC1 activity through an indirect mechanism that is still unc

50 hile Usa1 attenuates Ubp1's deubiquitination activity through an inhibitory effect of its UBL domain.

51 cellular domain poised to regulate transport activity through an outer gate.

52 By interrogation of kinome activity through an unbiased screen and targeted evaluat

53 dritic MORs in POMC neurons inhibit neuronal activity through at least two effectors with distinct le

54 NO has direct antimicrobial activity through attack on iron-sulfur (Fe-S) cluster-co

55 metastatic melanoma patients show anti-tumor activity through B-cell depletion by anti-CD20 antibody.

56 the UbV interaction, explain its inhibitory activity through binding the surface on the APC2 subunit

57 Modulation of nitric oxide activity through blockade of CD47 signaling has been sho

58 has focused on the ability to modify neural activity through both local perturbations and changes in

59 roposed that internal Ca(2+) increases TrpV4 activity through Ca(2+)-CaM binding to a C-terminal Ca(2

60 tion, and this action is sensitive to neural activity through Cdk5 phosphorylation of Tomo1.

61 inate their movement, growth and biochemical activities through cell-cell communication.

62 We propose that rapid alteration of PTEN activity through changes in its phosphorylation status c

63 crostructure) of axons affect neural circuit activity through characteristics such as conduction spee

64 arable devices that digitalize physiological activities through chemical information in a trustable m

65 Stimulating neuronal activity through chemogenetic (DREADDs), physiological (

66 anism for cannabinoid modulation of neuronal activity through Cl(-) regulation.

67 ons are required to achieve full therapeutic activity through clearance of IgG-opsonized virions and

68 s for multidimensional control of functional activities through combinations of orthogonal, drug-tuna

69 t to prevent inappropriate levels of spiking activity through compensatory adjustments in the strengt

70 TXN7L3B regulates H2Bub1 levels and SAGA DUB activity through competition for ENY2 binding.

71 adian phase advancements by decreasing SIRT1 activity through competition for NAD supplies.

72 m channels helps fine-tune long-term channel activity through conformational changes at the selectivi

73 repartition the ensemble and thus fine-tune activity through conformational selection.

74 itogen-activated protein kinase kinase (MEK) activity through copper chelation.

75 mechanistic link between ongoing and evoked activity through cortical excitability and argue that th

76 natures of criticality in ongoing and evoked activity through cortical excitability, which fills the

77 ectly but was correlated with beta and gamma activity through cross-frequency coupling.

78 hip connecting adhesion signaling to YAP/TAZ activity through cytoskeleton dynamics remains poorly un

79 e first molecule to successfully inhibit PTP activity through degradation has been developed.

80 sorders and has been used to modulate neural activity through delivery of electrical stimulation to k

81 receptor stimulation inhibits TRPM3 channel activity through direct binding of the Gbetagamma subuni

82 mechanisms underlying the inhibition of COP1 activity through direct interactions with photoactivated

83 ibutes to the maintenance of residual mTORC1 activity through direct phosphorylation and inhibition o

84 Activation of Aurora A can impinge on YAP activity through direct phosphorylation.

85 as10-Csm, and show that Csm5 regulates their activities through distinct mechanisms.

86 bic and orbitofrontal cortices over striatal activity through distinct thalamostriatal circuits.

87 new insight into how regulation of enhancer activity through DNA methylation can have dramatic conse

88 ss as broad spectrum agents that exert their activity through dual inhibition of bacterial DNA gyrase

89 plays a positive role in regulation of NM-II activity through effects on MRLC during cell migration.

90 s pro-inflammatory NF-kappaB transcriptional activity through effects on the cytosolic NADH:NAD(+) ra

91 the molecular mechanism that increases TRPV3 activity through EGFR activation.

92 undamental organizers and regulators of gene activity through embryonic development.

93 anizes DNA and regulates its transcriptional activity through epigenetic modifications.

94 served ascending system that gates forebrain activity through fast and powerful synaptic inhibition o

95 r therapeutic antibodies for their increased activity through Fc receptors (FcgammaRIIIa).

96 s been suggested to control its DNA cleavage activity through flexibility of the catalytic HNH domain

97 c reticular nucleus regulates thalamic relay activity through focal attentional modulation.

98 ial mechanism for cross-regulation of enzyme activity through formation of competitive encounter comp

99 t it serves to curb high levels of courtship activity through functioning as an inhibitory neuromodul

100 GABBR2 inhibits neuronal activity through G protein-coupled second-messenger syst

101 ted or triggered by changes in basal ganglia activity through gating- or rebound-like mechanisms.

102 l programmes, and how misregulation of their activities through genetic abnormalities leads to pathol

103 Loss of SAMHD1 activity-through genetic depletion, mutational inactivat

104 ively influences T reg cell accumulation and activity through GPR174.

105 ical role in DNA binding and transcriptional activity through heterodimeric association with several

106 (PV)-positive interneurons modulate cortical activity through highly specialized connectivity pattern

107 ized and screened for their antiinflammatory activities through in vitro and in vivo experiments.

108 nto the intracellular mechanism of sorafenib activity through in situ kinome profiling identified the

109 respond to bi-directional shifts in neuronal activity through increased calcium signaling.

110 mutations confer PLCgamma1 gain-of-function activity through increased inositol phosphate production

111 human TRPC6 at serine 14 to control channel activity through increased membrane expression.

112 enhance glycogen synthase kinase (GSK)-3beta activity through increased phosphorylation of Tyr-216 in

113 d, enhanced, and selective antiproliferative activity through inducing cell apoptosis confirmed by nu

114 cultivar and improved the anti-inflammatory activities through inhibiting cyclooxygenase-2 and lipox

115 e antioxidant capacity and anti-inflammatory activities through inhibiting cyclooxygenase-2 and lipox

116 Ci, which positively regulates Hh signaling activity through inhibiting Ci ubiquitination and degrad

117 or of Yes-associated protein (YAP) oncogenic activity through inhibiting large tumor suppressor (Lats

118 etrapyrrole biosynthesis, reduction of GluTR activity through inhibition by tRNA(Glu) precursors caus

119 stent with the idea that HSV modulates STING activity through inhibition of autophagy.

120 DTA exerts its toxic activity through inhibition of eukaryotic translation el

121 own to exert anti-leukaemia and anti-myeloma activity through inhibition of microtubule function.

122 ses, and which could also have antimicrobial activity through inhibition of PBPs.

123 while setting the global level of cerebellar activity through inhibition via rate coding mechanisms.

124 c inhibitory receptor that modulates NK cell activity through interacting with HLA-A and HLA-B allele

125 ibited Npas2 gene transcription and promoter activity through interaction with Rorgamma to repress Ro

126 aNp63 mRNA, protein expression, and promoter activity through interaction with the transcription fact

127 Lowering general retinal MMP activity through intravitreal injections of GM6001 after

128 HDAC6 also exerts noncatalytic activities through its interaction with ubiquitin.

129 lts show that PGD2 markedly augments disease activity through its ability to enhance the proinflammat

130 B002 or an analog may exert useful antiviral activity through its ability to form high-affinity terna

131 hat ChREBP regulates EtOH metabolism and ADH activity through its direct control of sirtuin 1 express

132 questers and neutralizes LL-37 antimicrobial activity through its N-terminal domain.

133 incipal neurons, and orchestrates population activity through its powerful and sustained feedforward

134 This molecule displays trispecific binding activity through its recognition of the CD20 molecule on

135 tion of AR-V7 expression and transcriptional activity, through its RNA-binding capacity.

136 e emergence and fate of trajectory-dependent activity through learning and mastery of a continuous sp

137 es both in vitro and in vivo and exert their activity through locus-specific alterations of histone a

138 enhanced LTB(4) production and antimicrobial activity through LTB(4)/BLT1 signaling.

139 erspecies interactions can impact antibiotic activity through many mechanisms, including alterations

140 Ptchd1 deletion attenuates TRN activity through mechanisms involving small conductance

141 urons homeostatically regulate their ongoing activity through mechanisms that link membrane voltage t

142 Pin1 proved to be a main regulator of FOXM1 activity through MEK-dependent physical regulation durin

143 ly held that streptolysin S exerts its lytic activity through membrane disruption, its exact mode of

144 ofactor tissue factor (TF), which stimulates activity through membrane-dependent substrate recognitio

145 unds tested by reporter assay had estrogenic activity through mERbeta2.

146 including Escherichia coli, stimulated HDAC activity through metabolism of phytate and production of

147 hierarchical control") and changes of enzyme activities through metabolite-enzyme interactions.

148 3 lipidation in regulating lysosome size and activity through microautophagy.

149 Furthermore, quercetin has anti-obesity activity through mitogen-activated protein kinase and ad

150 plements this process by regulating thalamic activity through modality-specific thalamic reticular nu

151 both muscarinic antagonist and beta2 agonist activities, through modification of the linker motif, to

152 often relies on repurposing cytotoxic T cell activity through modified T cell receptors or chimeric a

153 cap, which positively regulates Hh signaling activity through modulating PKA activity.

154 whether these mAbs could influence enzymatic activity through modulation of TG2 susceptibility to oxi

155 oth lacking extracellular domains and kinase activity, through mRNA degradation to promote immunity.

156 as a preferred location of repeated hominin activity through multiple changes in climate and local e

157 pment of plant by precisely controlling ABI5 activity through multiple mechanisms.

158 it level requires representation of neuronal activity through multiple recording sites and at high sa

159 thermostat that uniformly regulates thalamic activity through negative feedback.

160 documented the downstream effects of APOBEC3 activity through next-generation sequencing, less is kno

161 matory cytokine that exhibits chemokine-like activities through non-cognate interactions with the che

162 stinct way by modulating cortical actomyosin activity through non-muscle myosin II.

163 us cells, and stimulates carotid sinus nerve activity through Olfr78.

164 By interfering with rTPJ activity through online transcranial magnetic stimulatio

165 memories, we mimicked endogenous oscillatory activity through optogenetic stimulation of parvalbumin-

166 ng that H89 and dorsomorphin modify V-ATPase activity through other cellular targets.

167 ene but exhibit reduced p53 tumor suppressor activity through overexpression of the negative regulato

168 l protrusions and that H2O2 inhibits cofilin activity through oxidation of cysteines 139 (C139) and 1

169 nd sertraline, directly suppress TIDA neuron activity through parallel effects, independent of 5-HT t

170 increasing dihydrosphingosine activates Mef2 activity through PDK1 in mammalian neuronal cell line su

171 ence on CaM, but also limited maximal enzyme activity through persistence of LAVP-mediated autoinhibi

172 ion of carnitine palmitoyltransferase (CPT)2 activity through pharmacological inhibition or knockout

173 rotein Kinase A (PKA) modulates Hh signaling activity through phosphorylating the transcription facto

174 ining pathway, thus negatively regulates ATM activity through phosphorylation of ATM.

175 domain kinase (LIMK), which regulates actin activity through phosphorylation of cofilin, an actin-de

176 t DYRK1A stimulates GLI transcription factor activity through phosphorylation of general nuclear loca

177 contrary to most bacteria that regulate ICDH activity through phosphorylation, Mtb is capable of regu

178 ynthetic scalability and excellent catalytic activity through physical-transformation into 3D structu

179 F-23 promoter and stimulated FGF-23 promoter activity through PLCgamma/calcineurin/NFAT and MAPK path

180 iorating oxidative stress and cell apoptosis activities through positive regulation on superoxidase,

181 h extracts presented significant antioxidant activity through positive interactions with the lipid bi

182 Inhibitory synapses dampen neuronal activity through postsynaptic hyperpolarization.

183 UT decreased PP2A activity through posttranslational modification that was

184 It regulates huntingtin's activity through posttranslational modifications and ser

185 neurons causes a downmodulation of neuronal activity through presynaptic mechanisms and by reducing

186 ative activity of enzymes, (2) alteration of activity through protein or substrate engineering for br

187 forms UGT1A_i2s that control glucuronidation activity through protein-protein interactions.

188 h as protein synthesis and adenylate cyclase activity, through protein-protein interactions.

189 egulator protein, indirectly regulating NCX1 activity through pSer-68-PLM dephosphorylation.

190 Increasing hepatic mitochondrial activity through pyruvate dehydrogenase and elevating en

191 es have demonstrated how AAs regulate mTORC1 activity through Rags.

192 , opening the possibility of modifying their activity through rational chemical or genetic approaches

193 ulates frq transcription by inhibiting RCM-1 activity through RCM-1 phosphorylation.

194 We developed Sparse Predictive Activity through Recombinase Competition (SPARC), a gene

195 ynaptic fluctuations can initiate population activities through recurrent excitation.

196 ing controls complex functions such as motor activity through regulation of cell firing and heterolog

197 emoglobin subunit beta (HB) exerts antiviral activity through regulation of type I interferon product

198 UBQLN4 therefore curtails HRR activity through removal of MRE11 from damaged chromatin

199 t the cell-cycle-dependent regulation of RNR activity through RRM1.

200 G-T risk haplotype decreased transcriptional activity through rs7278468, which lies in a consensus bi

201 que peptidoglycan composition and remodeling activity through SagA, which generates smaller muropepti

202 egative feedback to PDLSCs and inhibit their activities through sclerostin.

203 osteocytes negatively regulate Gli1+ PDLSCs activity through sclerostin, a Wnt inhibitor.

204 cells restore the majority of these reduced activities through selection of specific genomic mutatio

205 Similarly, reductions in local neuronal activity through sensory deprivation or optogenetic inhi

206 ieved by the induction of its expression and activity through shifting from cytoplasm to the nucleus.

207 that DR enhances both lifespan and physical activity through similar mechanisms, but this has not be

208 dence suggests that UPF3A acquired repressor activity through simple impairment of a critical domain,

209 sts that the antibodies inhibit NA enzymatic activity through steric hindrance, thus limiting NA acce

210 antibodies inhibited neuraminidase enzymatic activity through steric hindrance.

211 in their lmFG, we found that disrupting lmFG activity through stimulation, and later surgical resecti

212 TGF-beta/Smad signaling system decreases its activity through strong negative regulation.

213 side studies that attempted to dissect these activities through structural and biochemical characteri

214 zation requires SUMOylated TOP2A CTD binding activity through SUMO-interaction motifs and the phospho

215 crine therapy via restoration of the ERalpha activity through survival pathways.

216 ithin the framework of the European Physical Activity through Sustainable Transport Approaches (PASTA

217 In contrast, inactivation of miR827 activity through target mimicry or by overexpression a m

218 cific gene regulation by modulating promoter activity through targeted mutagenesis.

219 e revealed that many GA drugs inhibit neural activity through targeting GABA receptors.

220 harmacological inhibition of viral E3 ligase activity through targeting SOCS box motifs is a putative

221 t, antibodies also exhibit effector-mediated activities through the interaction of the Fc glycan and

222 uring the study of evolution of PaO and RCCR activities through the olive fruits maturation in two va

223 ial, anticancer, insecticidal and herbicidal activities through the selective inhibition of threonyl-

224 cholinergic neurons is to inhibit EEG delta activity through the activation of cerebral cortex, rath

225 nt antioxidants and displayed cytoprotective activity through the activation of nuclear factor erythr

226 nuclear localization and its transcriptional activity through the androgen receptor-STK4/MST1-protein

227 These results demonstrate that activity through the basal ganglia may play an important

228 of tremor episodes drives tremulous network activity through the basal ganglia or the cerebello-thal

229 h changes in tremor amplitude drives network activity through the basal ganglia.

230 Here, we report that octopamine activity through the beta-adrenergic-like receptor Octbe

231 ition arises from the dynamic flow of neural activity through the brain.

232 ate bone formation by inhibiting sympathetic activity through the central nervous system.

233 12 directly modulates neuromuscular junction activity through the cholecystokinin receptor homolog on

234 ores results in synergistic cardioprotective activity through the combination of both molecular pathw

235 uces Nrf2 protein levels and transcriptional activity through the COX-2/PGE2/EP4/PKCzeta axis.

236 onstrate that increasing cellular proteasome activity through the direct delivery of purified proteas

237 y L. monocytogenes to modulate cytotoxic LLO activity through the enzymatic activity of its PC-PLC.

238 ively cool the body during extreme prolonged activity through the evapotranspiration of water on the

239 reaction, is likely able to achieve its high activity through the formation of an intermetallic phase

240 chia coli class I RNRs, dATP inhibits enzyme activity through the formation of inactive alpha6 and al

241 this study offers a novel outlook on evoked activity through the framework of criticality.

242 mor-related neuronal activity) drove network activity through the GPi, which effectively influenced t

243 ote both long-lasting and glucose-responsive activity through the incorporation of an aliphatic domai

244 presses mammalian target of rapamycin (mTOR) activity through the induction of an mTOR inhibitor, DDI

245 -3 of epithelial origin both stimulated MMP9 activity through the induction of IL-1beta secretion by

246 hanism(s) by which HNK exerts its anti-tumor activity through the inhibition of c-Met-Ras-HO-1 axis;

247 Azoffluxin enhances fluconazole activity through the inhibition of efflux pump Cdr1, thu

248 information in the form of border modulated activity through the integration of additional sensory m

249 episodes (assessed using EMG) drove network activity through the internal globus pallidus (GPi), ext

250 We then propagate this activity through the local network incorporating connect

251 ly confirmed that these agents trigger their activity through the mitochondria-dependent apoptosis.

252 Chess playing may induce changes in brain activity through the modulation of the chronnectome.

253 strategy to selectively block oncogenic KRas activity through the PH domain of Cnk1, which reduces it

254 a model system to demonstrate enhancing OER activity through the promotion of PCET by tuning the cry

255 regulate the aromatase gene transcriptional activity through the recruitment of nuclear receptor cor

256 usion, PGE2 increases both TF expression and activity through the regulation of the EP1/SIRT1 pathway

257 h factor signaling pathways to control TORC1 activity through the regulation of TSC dynamics in HeLa

258 converge on the Rag GTPase to inhibit TORC1 activity through the regulation of TSC dynamics.

259 (azocasein) was used to quantify the enzyme activity through the release of a chromogenic product th

260 at could be capable of modifying mitral cell activity through the release of GLP-1.

261 sponse to redox events by regulating protein activity through the reversible formation of disulfide b

262 new mechanism of E3 ligase control of mTORC1 activity through the RNF186-Sestrin-2 axis, suggesting t

263 ce a coordinated change in Na(+),K(+)-ATPase activity through the signaling of protein kinases such a

264 n the helical core can perturb metalloenzyme activity through the simple expedient of modifying the h

265 The cell can thus regulate IDO1 activity through the supply of heme and reducing agents.

266 opic gold nanocrystals with high chiroptical activity through the templating effect of chiral micelle

267 agation of ascending sensory-evoked afferent activity through the thalamus en route to the cortex.

268 dy uncovers a mechanism for shaping NAc core activity through the transfer of excitatory information

269 Blocking IFN activity through the use of receptor-neutralizing antibo

270 ed the role of sumoylation in regulating TDG activity through the use of TDG mutants defective for su

271 iple experiments show that elevating cofilin activity, through the loss of Limk1, results in faster s

272 ruit additional ligand proteins with diverse activities through their dimerization domain, the chromo

273 ungal functional composition and soil enzyme activities through their direct effect on dissolved orga

274 rent extraction methods affected antioxidant activities through their effect on biologically active c

275 offer a pathway to enhancement of anti-tumor activity through their manipulation.

276 s (ROS) in neurons and they control synaptic activity through their roles in energy production and in

277 eceptors (D2R) are major regulators of motor activity through their signaling on striatal projection

278 e receptors (KARs) regulate synaptic network activity through their slow channel kinetics, most promi

279 opposite effects on the brown adipose tissue activity through thermoregulatory nuclei such as the dor

280 -6 signal transducer, gp130, and can mediate activities through these interactions in the endoplasmic

281 EDC activity through this isoform remains uncharacterized.

282 The manipulation of glial glycolytic activity through this pathway enabled us to accelerate o

283 cleavage and offer potential ways to inhibit activity through this receptor, which may dampen autoimm

284 Notably, we found that E93 controls enhancer activity through three different modalities, including p

285 Whereas intact VCAN exerts tolerogenic activities through Toll-like receptor 2 (TLR2) binding,

286 ow that CX-5461 exerts its primary cytotoxic activity through topoisomerase II poisoning.

287 ound to negatively regulate the Hh-signaling activity through transcriptional regulation of Ptch1, a

288 Furthermore, the ligands modulate riboswitch activity through transcriptional termination despite no

289 In summary, MSC EV suppressed MRP1 activity through transfer of miR-145, thereby resulting

290 e Ab-sumIL2 significantly enhances antitumor activity through tumor targeting and specific binding to

291 ell as their relationship to changes in drug activity through two algorithms: e-Driver and e-Drug.

292 ements arise from disturbed striatal resting activity through two different population dynamics.

293 ator of growth in many tissues, mediates its activity through two multiprotein complexes, mTORC1 or m

294 strictly required for function, regulate its activity through two separate mechanisms.

295 tivation of GPER/GPR30 further inhibits PMCA activity through tyrosine phosphorylation of the pump.

296 K10 in the regulation of p53 transcriptional activity through tyrosine phosphorylation.

297 action to achieve delicate control of oxygen activity through uniformly creating oxygen vacancies wit

298 By controlling activity through variations of the energizing electric f

299 upportive onco-metabolism reveal coordinated activities through which Cav-1 enables rewiring of cance

300 dings support that netrin-1 exerts oncogenic activity through YAP signaling, providing a mechanism co