ライフサイエンスコーパス: feedback control

1 ing the predictive role of the cerebellum in feedback control.

2 nd its roles in shaping both feedforward and feedback control.

3 he minimum intervention principle of optimal feedback control.

4 tion, and electrical muscle stimulation with feedback control.

5 ired by the success of classical control, is feedback control.

6 an abnormality of nuclear calcium signaling feedback control.

7 nts, indicating a defective gonadal negative feedback control.

8 ially constrain the efficiency of visuomotor feedback control.

9 was a feature of the source, not a result of feedback control.

10 implements a good approximation of integral feedback control.

11 tabolism is not the simple dogma of negative feedback control.

12 nonadherent cells, size homeostasis requires feedback control.

13 ther these data imply a loss of autoreceptor feedback control.

14 d cell proliferation by blocking the Myc-Arf feedback control.

15 nd IL-10-producing T cells as a mechanism of feedback control.

16 idable neural delays associated with on-line feedback control.

17 nd prefrontal volumes, and impaired HPA axis feedback control.

18 Mechanoreception is required for negative feedback control.

19 e understood, these mechanisms often involve feedback control.

20 tified point mutations in sigma32 altered in feedback control.

21 rylation is triggered also by BMP, providing feedback control.

22 eproducible response of many mRNAs indicates feedback control.

23 ibulo-autonomic activity is subject to local feedback control.

24 temporal precision, and possibly closed-loop feedback control.

25 m sensory information into motor commands by feedback control.

26 s and custom-made nanobubbles under acoustic feedback control.

27 for speech but is not essential for online, feedback control.

28 th a large convergence of afferent input for feedback control.

29 ve, feedforward control as well as reactive, feedback control.

30 ming is achieved via feedforward rather than feedback control.

31 twork of autoregulatory and cross-regulatory feedback controls.

32 oth anticipatory (feedforward) and reactive (feedback) control.

33 an optical potential with the depth that is feedback-controlled according to the intensity of the Br

34 bset of myocytes during pacing with a simple feedback control algorithm ("alternans control").

35 Here we implement a feedback-control algorithm using a solid-state spin qubi

36 emphasize the importance of tuning acoustic feedback control algorithms for specific rodent brain re

37 Feedback control allows a two-component system to achiev

38 ork indicating that reward leads to enhanced feedback control, an untested possibility is that it als

39 has been proposed to occur through enhanced feedback control, an untested possibility is that it is

40 Here, I show that both feedback control and adaptation change optimally with ta

41 ical circuits with known mechanism involving feedback control and bistability.

42 tend to be too time consuming for real-time feedback control and models offer rough approximations o

43 nk between the adaptation of feedforward and feedback control and suggest a key part of motor adaptat

44 In the passive mode, without feedback control and where the force applied to the RNA

45 hese results within the framework of optimal feedback control, and suggest that the intrinsic rhythmi

46 forward flow of sensory information, whereas feedback control appears to be established dynamically b

47 resulting indentation in living C. elegans (Feedback-controlled Application of mechanical Loads Comb

48 rated here for cyclopentene on Si(100), this feedback-controlled approach can likely be applied to a

49 FACTS employs a hierarchical state feedback control architecture to control simulated vocal

50 ts speech production, in the form of a state feedback control architecture.

51 Interconnectivity and feedback control are hallmarks of biological systems.

52 trong inflammatory setting as a mechanism of feedback control, are the principal mediators of T cell-

53 unravel the importance of proprioception for feedback control as a consequence of the shorter tempora

54 new experiment provides support for optimal feedback control as a theoretical basis of how the motor

55 In this review, we advocate the use of feedback control as an essential strategy for the engine

56 as autoregulatory elements allowing negative feedback control at the post-transcriptional level.

57 We use a feedback-controlled atomic force microscope to measure a

58 Real-time acoustic feedback control based on harmonic emissions of stimulat

59 With feedback control based on recordings of acoustic emissio

60 reliability, which is an important issue for feedback control because different sensory systems are a

61 uced MKP-1 phosphorylation mediates negative feedback control between EGF receptor-linked PI3-K and E

62 l MAPK activities can be subject to negative feedback control, but also raise the possibility that si

63 estigated mechanisms of dynamic sensorimotor feedback control by analyzing patterns of neural activit

64 We demonstrate quantum feedback control by inhibiting the decay of Rabi oscilla

65 GnRH is normally under negative feedback control by ovarian steroids.

66 R)-associated degradation that is subject to feedback control by the sterol pathway.

67 o open-loop dynamical decoupling techniques, feedback control can protect the qubit even against Mark

68 arget range and sensitivity of the Tre6P-Suc feedback control circuit can be adjusted according to th

69 ck capabilities and operational range of the feedback control circuit.

70 The results were also compared to the no-feedback control condition.

71 d microcantilevers that enable precise force-feedback-controlled confinement of single cells while ch

72 Further, we investigate how each of the feedback controls contributes to the overall specificity

73 l amplification, multicolor recognition, and feedback control, could be used as a biological tool to

74 Since Bnl signaling levels feedback control cytoneme production in the ASP, the red

75 -kappaB system should be thus perceived as a feedback-controlled decision-making module rather than a

76 e-barrel nanoprobe combining pH sensing with feedback-controlled distance dependance via Scanning Ion

77 patient-specific pharmacokinetics (including feedback-controlled drug delivery), opening new dimensio

78 This study shows that the use of feedback control during STM-induced single molecule reac

79 mage impairs feedforward adaptation, but not feedback control, during human split-belt treadmill walk

80 rt across the tonoplast) that are subject to feedback control (e.g. stomatal aperture, malic acid inh

81 ver a long-term period is critical for swift feedback control, enhanced nitrogen removal efficiency,

82 tions in shaping tissues and, via mechanical feedback, controlling epithelial growth.

83 Experiment 2 tested feedback control, examining online corrections in respon

84 A scheme of integral feedback control featuring the inhibition of cAMP signal

85 1, and demonstrated that MKP-1 was a pivotal feedback control for both MAP kinases and NF-kappaB path

86 ce-based temperature monitoring with dynamic feedback control for temperature cycling amplified a fra

87 late divisome proteins may be one of several feedback controls for Z ring constriction.

88 Here we adopt a sparsity-promoting feedback control framework for undirected networks with

89 e expression of SND1 operates under positive feedback control from itself, and SND1 was shown to bind

90 Sensitivity analysis predicts that feedback control gains of insulin receptors and glucagon

91 t when we move, the brain specifies a set of feedback control gains that enable low-level motor areas

92 Here we show that during feedback control, healthy humans use dynamic estimates o

93 to limit their deleterious effects: optimal feedback control, impedance control, predictive control,

94 We also describe recent works where feedback control, implemented in silico or with biologic

95 Here we implement quantum feedback control in a solid-state system, namely a super

96 lay gene circuits that restore physiological feedback control in metabolic disorders foster advanced

97 to the host and emphasize the importance of feedback control in modulating AHR pathway activation.

98 perform optimal multisensory integration and feedback control in real-time.

99 l impairment and have provided the basis for feedback control in trials of adaptive deep brain stimul

100 like lipogenesis and overrides normal sterol feedback controls in order to maintain high levels of co

101 DUETT employs a feedback control-inspired method and a linear regression

102 behavior along the filopodium is recorded by feedback-controlled interferometric three-dimensional tr

103 The ability to engineer feedback control into living cells represents an importa

104 We demonstrate the feedback-controlled introduction of individual biomolecu

105 One important behavior in vocal feedback control is a compensatory increase in vocal int

106 Feedback control is a universal feature of cell signalin

107 nd estimation of the SW phase with real-time feedback control is devised for the stabilization and co

108 The sometimes counterintuitive nature of feedback control is discussed and a case is made for gre

109 s, our knowledge of the mechanisms governing feedback control is limited.

110 This property, functionally a type of feedback control, is triggered by the encapsulation of n

111 eedforward processing and alpha oscillations feedback control, it remains unknown how these oscillati

112 revious assay to use recombinant tubulin and feedback-controlled laser trapping, we directly demonstr

113 results indicate that the brain adjusts its feedback control law for individual movements "on demand

114 icating that they reflect differences in the feedback control law used throughout the duration of mov

115 was developed for a robot arm, based on the feedback control law which uses the linear transformatio

116 ointing movements leads humans to adjust the feedback control laws that map sensory signals from the

117 deficient CHO-a7 cells, which then exhibited feedback-controlled LDLR-mediated endocytosis.

118 tes in M. marinum are fine-tuned by negative feedback control, linking the expression of the whiB6 ge

119 The biological significance of this negative feedback control loop has yet to be demonstrated in vivo

120 but they also can regulate T cells forming a feedback control loop.

121 instrumentation platform and a PC programmed feedback control loop.

122 of cells in the hypothalamus-pituitary-ovary feedback control loop.

123 nd that AdpA and AbsB participate in a novel feedback-control loop that reciprocally regulates the ce

124 ent, which mediate low-level and involuntary feedback control loops (i.e., reflexes), reflect computa

125 Our engineered system combines mixed feedback control loops and cross-species translation sig

126 ent, which mediate low-level and involuntary feedback control loops, reflect computations associated

127 eveloped for prolonged heparin delivery in a feedback-controlled manner.

128 These findings demonstrate a feedback control mechanism by which IFN-I modulates pDC

129 We further demonstrated that a feedback control mechanism connects protein secretion to

130 Our findings suggest a novel feedback control mechanism in which net arterial remodel

131 In this paper we focus on a complex feedback control mechanism involved in the translation a

132 nt dephosphorylation serves as an inhibitory feedback control mechanism of TRIP6 function in LPA-indu

133 orting the notion that mapracorat augments a feedback control mechanism restraining the p38 pathway,

134 Here, we identified a conserved feedback control mechanism that delays chromosome decond

135 intron-containing chloroplast RNA; and (3) a feedback control mechanism that links the synthesis of A

136 CARMA1 molecule likely provides an intrinsic feedback control mechanism to balance lymphocyte activat

137 iptional control suggested a non-equilibrium feedback control mechanism where low levels of RNA promo

138 ted enzymes that modulate their activity via feedback control mechanism.

139 levels of ESX substrates were regulated by a feedback-control mechanism, linking the levels of substr

140 y a complicated set of positive and negative feedback control mechanisms and fed into a downstream ge

141 Feedback control mechanisms are ubiquitous in science an

142 operate within defined activity limits, and feedback control mechanisms dynamically tune ionic curre

143 uffers have capacity limits, and even robust feedback control mechanisms require that the perturbatio

144 various designs that mimic natural molecular feedback control mechanisms.

145 We next evaluate feedback control mediated by degronLOCKR on a synthetic

146 We show that a user-specific iBCI feedback control model can predict how performance chang

147 Our feedback control model can recreate chromosome movement

148 To explain this recovery behavior, we form a feedback control model that includes the fly's ability t

149 ediate movements are predicted by an optimal feedback control model that incorporates an ongoing deci

150 ency modulation (FM) or whether the negative feedback control modules have evolved to fulfill other f

151 g that O-mannosylation regulates the sensory feedback controlling muscle contractions.

152 mplish this, the neural processes underlying feedback control must (1) be capable of accurate real-ti

153 arget) on average, for infrared studies with feedback control (n = 3) vs. by 2.2 C (80% of target) on

154 t and also suggests a possible biomarker for feedback-controlled neurostimulation to treat hyperkinet

155 3-phosphoglycerate dehydrogenase to provide feedback control of 3-PG levels.

156 d for applying custom signaling inputs using feedback control of a light-gated protein-protein intera

157 We show that CheY2 instead provides feedback control of Aer2 adaptation.

158 stant drug selection pressure using computer feedback control of antibiotic concentration.

159 was dependent on APC/C(CDC20), indicating a feedback control of APC/C to SAC during prolonged mitoti

160 simple biochemical properties, combined with feedback control of B55 activity by the phosphoserine-co

161 nt activation of BK channels is critical for feedback control of both calcium influx and cell excitab

162 e the system can offer new tools for precise feedback control of cardiac electrical activity, not ava

163 otein) E3 ligase family provides homeostatic feedback control of cell division by mediating ubiquitin

164 4-responsive gene in macrophages, suggesting feedback control of cellular fusion.

165 1alpha links pathways for oxygen sensing and feedback control of cholesterol synthesis in human fibro

166 nd constitutes one of several mechanisms for feedback control of cholesterol synthesis.

167 Sensory adaptation involves feedback control of covalent receptor modifications by t

168 FICZ, thereby disrupting the autoregulatory feedback control of cytochrome P4501 systems and other p

169 needs for homeostatic cytokines and is under feedback control of cytokine stimulation.

170 e of photosynthesis, the circadian clock and feedback control of DXS for the diurnal regulation of th

171 DUSP4 is involved in negative feedback control of EGFR signaling, and we provide funct

172 emitter heating current limit/ramp rate, and feedback control of emitter heating current based on ion

173 -and-play nature of degronLOCKR to implement feedback control of endogenous signalling pathways and s

174 erived hormone implies that bone may exert a feedback control of energy homeostasis.

175 inoid signaling participates in the positive feedback control of fat intake.

176 For example, high-bandwidth feedback control of frequency combs is used in optical-f

177 the inferior frontal region, which allowed a feedback control of frontal regions on the superior temp

178 innate immune responses, absence of negative feedback control of gene expression by regulators, a tem

179 hanced dynamic range, and improved in silico feedback control of gene expression.

180 and kisspeptin in the negative and positive feedback control of gonadotropin secretion by sex steroi

181 studies also implicate microRNAs in gonadal feedback control of gonadotropin synthesis and secretion

182 r in the suppressor line, implicating FSH in feedback control of GSL flux.

183 esses an SSD, leading us to test its role in feedback control of Hmg2 stability.

184 se data suggest that miRNAs provide negative feedback control of inflammation.

185 sensory monitoring of ingestion and negative feedback control of intake behaviours upon distension of

186 The molecular mechanism for feedback control of IRS signaling to decrease IRS-2 expr

187 irst dedicated step of GTP biosynthesis, and feedback control of its expression maintains the proper

188 mmunication, theta-band activity ensures the feedback control of long-range coupling in the developin

189 duction is required to maintain the negative feedback control of macrophage activation in response to

190 ation of TTP impairs IL-10-mediated negative feedback control of macrophage function in vitro However

191 data indicate that cVA may mediate negative-feedback control of male population density, through its

192 Whereas IL1B-induced DUSP1 is involved in feedback control of MAPK pathways, ZFP36 exerts negative

193 Tubulin concentration is autoregulated by feedback control of messenger RNA (mRNA) degradation via

194 suggest sensory adaptation is important for feedback control of motor sequences.

195 iction that also relies on the nonautonomous feedback control of myosin dynamics.

196 euronal control, but no approach yet permits feedback control of neuronal firing.

197 neuronal plasma membrane where they provide feedback control of NMDA receptor activity.

198 TGFbeta family member that mediates negative-feedback control of OE neurogenesis.

199 leaf-level measurements revealed a negative feedback control of photosynthesis, resulting in a decre

200 an peri-Sylvian speech network that mediates feedback control of pitch using direct cortical recordin

201 hrough genomic analysis, we also uncovered a feedback control of pMLC levels, which is critical for m

202 tion by Naked/NKD provides context-dependent feedback control of prolonged Wnt responses.

203 essential prerequisite for measurement-based feedback control of quantum systems.

204 Here we show that a defect in feedback control of RAG2 activity gives rise to bi-locus

205 lls guided by matrix cues establish positive feedback control of rear retraction by sensing membrane

206 f transcellular potassium redistribution and feedback control of renal potassium excretion.

207 from all-optical nanomagnetometry to quantum feedback control of solid-state qubits, and may lead to

208 her, these results demonstrate that auditory feedback control of speech is sensitive to linguistic ca

209 euroblasts release GABA providing a negative feedback control of stem cell proliferation.

210 function, they subsequently trigger negative-feedback control of STING activity, thus preventing the

211 ies, highlighting the importance of negative feedback control of TCR-induced NF-kappaB activity.

212 postural activity, a key role of PTNs is the feedback control of the corresponding contralateral limb

213 urnover, the linchpin of cell equilibrium is feedback control of the epidermal growth factor (EGF) pr

214 , and sonic hedgehog that can participate in feedback control of the FGF pathway were reduced, reflec

215 of the interference image, and we implement feedback control of the focal position to remove drift.

216 ntal cycle are regulated by unusual positive feedback control of the gyrase promoter and the temporal

217 mRNA, suggesting downregulation of negative feedback control of the hypothalamic-pituitary-adrenal a

218 hormone levels and restored the thyrotrophic feedback control of the hypothalamus-pituitary-thyroid a

219 Here, we eliminate magnetic hysteresis by a feedback control of the magnetic induction, which we mea

220 ver, these cells also lack adequate negative feedback control of the RANKL signaling pathway, as dete

221 nce is often attributed to the zero integral feedback control of the sensor, which guarantees that ac

222 cellular capacity for intensive and specific feedback control of the targeting activity.

223 t the right frontal-eye field (rFEF) exerted feedback control of the visual alpha oscillations.

224 end processing is critical for TPP-dependent feedback control of THIC expression.

225 of reductase, one of several mechanisms for feedback control of this rate-limiting enzyme in the bra

226 nd biochemical mechanisms that ensure proper feedback control of tissue growth, which when deregulate

227 ut the impact of glucocorticoids on negative feedback control of TNF is not well understood.

228 -responsivesness is consistent with negative feedback control of topoisomerase I and topoisomerase IV

229 E2 protein, resulting in a loss of negative feedback control of viral oncogene expression; this disr

230 Warming was achieved by independent feedback control of voltage input to aboveground infrare

231 use of broad bandwidth lasers with automated feedback control of wavelength was applied to the measur

232 r the stability of CHL27, and contributes to feedback-control of 5-aminolevulinic acid biosynthesis,

233 ral probe positioning are unavoidable by the feedback-control of the probe-substrate distance.

234 ntion principle, which proposes that optimal feedback control (OFC) allows the brain to tightly contr

235 ure incorporates an infinite-horizon optimal feedback-control (OFC) model of the brain's behavior in

236 ation of the RCD1 protein in vivo, providing feedback control on its function.

237 lts demonstrate that CYP94B3 exerts negative feedback control on JA-Ile levels and performs a key rol

238 ell recurrent circuit that exerts inhibitory feedback control on motor neuron firing.

239 ating proteins, with DAD exerting a negative feedback control on OXI1 expression.

240 diated suppression of mTORC1 activity exerts feedback control on p53, thereby limiting the apoptotic

241 clearly establish that Ca(2+) entry exerts a feedback control on T-type channel activity, by modulati

242 monstrating that terminal steps do not exert feedback control on upstream hydrolytic and fermentative

243 We used a feedback-controlled optical trap to probe the velocity,

244 nexpected, providing information on auditory feedback control, or sustained, providing information on

245 n estrogen exerts both positive and negative feedback control over luteinizing hormone (LH) secretion

246 functions in DNA damage repair and negative feedback control over the level of programmed DSBs durin

247 at the nervous system performs sophisticated feedback control over very short time scales (<100 ms fo

248 ze the dynamics after a sudden change of the feedback control parameter.

249 This oscillatory behavior is part of the feedback control pathway involving oxygen, cytosolic Ca(

250 e NO donor doped silicone rubber films using feedback-controlled photolysis.

251 visuomotor response data, illustrating that feedback control policies are biased to favor more frequ

252 We further demonstrate the acceleration-feedback-controlled power application, and prove that th

253 A feedback-control protocol based on charging-time compens

254 ry network, whereby DUSP1-dependent negative feedback control reduces feed-forward control by ZFP36.

255 ted for transcriptional regulators, negative feedback control relies on binding of a transcription fa

256 MWA with tumor permittivity feedback control results in cytotoxic intratumoral tempe

257 c chip for nanopore-based particle analysis: feedback-controlled selective delivery of a desired numb

258 oped an experimental platform comprised of a feedback-controlled servo-motor coupled to a biological

259 The acoustic feedback control signals were very sensitive to the brai

260 trol of speech, but relatively uninvolved in feedback control.SIGNIFICANCE STATEMENT Speech motor con

261 te a rigid and computationally costly neural feedback control solution.

262 emonstrate that a simple and flexible neural feedback control strategy coordinates multiple muscles o

263 We argue that a plausible feedback-control structure between two key compartments

264 ecent theoretical frameworks such as optimal feedback control suggest that feedback gains should modu

265 ctivation and inactivation are under complex feedback control, suggesting that ultrasensitivity and b

266 Numerical simulations show that the proposed feedback control system agrees approximately with publis

267 A feedback control system allowed TAN pauses to be dynamic

268 Thus, there is a local two-legged feedback control system for pressure in lens surface cel

269 elling framework to investigate this complex feedback control system involved in translation.

270 Moreover, we introduce a new feedback control system that enables high-fidelity dropl

271 This suggested disruption of a feedback control system that normally maintained zero su

272 propose a neural network based sliding mode feedback control system to drive the dynamics of patholo

273 learn faster have a better teacher in their feedback control system.

274 udy was to investigate and characterize this feedback control system.

275 PM using a blower and a velocity sensor in a feedback control system.

276 hroughout the contraction using an iterative feedback control system.

277 Here we present the 'optoclamp', a feedback control technology that provides continuous, re

278 Bang-bang control is a class of binary feedback control that turns either 'ON' or 'OFF' at diff

279 ells maintain sterol homeostasis by multiple feedback controls that act through transcriptional and p

280 Finally, we show that top-down feedback controls the neural correlates of illusory cont

281 We show that top-down feedback controls the neural responses to Kanizsa illusi

282 on applied to the RNA was maintained through feedback control, the measured rate coefficients varied

283 mplishing it lies at the core of our optimal feedback control theory of coordination.

284 Using optimal feedback control theory, we predicted how this adaptatio

285 Here we show that during fast feedback control, this computation is not immediate, but

286 Hemispherectomy did not impair reactive feedback control, though feedforward adaptation was impa

287 RNAs as critical signals for transcriptional feedback control to maintain homeostatic gene expression

288 te a novel experimental method incorporating feedback control to precisely deliver H(2)S that account

289 Antiangiogenic molecules exert a feedback control to restrain pathological angiogenesis,

290 in lysosomes, providing additional negative feedback control to the SREBP pathway.

291 Cells use multiple feedback controls to regulate metabolism in response to

292 e on the dorsodorsal parietofrontal pathway (feedback control) to the ventrodorsal pathway and prefro

293 e thermodynamics of continuous, time-delayed feedback control using the motion of an optically levita

294 To reset the endogenous thyrotrophic feedback control, we designed a synthetic mammalian gene

295 rcuits involving activators, repressors, and feedback control were analyzed and verified experimental

296 oscillations in early visual regions reflect feedback control when spatial attention is allocated and

297 provide a feeding drive highly resistant to feedback control, which could engender obesity through t

298 l theory, including the strategy of integral feedback control, which is central to regulation, sensor

299 idual parameters, including the interplay of feedback control with autocatalysis of network products

300 Exactly how various feedback controls work in insects is a complex puzzle to