ライフサイエンスコーパス: logic

1 vailing wisdom that stem cells have internal logic.

2 organic compounds, was performed using fuzzy logic.

3 ge compared with previous works on plasmonic logic.

4 luding autonomous fluidic timers and fluidic logic.

5 e circuits to enable concentration-dependent logic.

6 or application of RM in practical memory and logic.

7 eric theoretical framework for active matter logic.

8 aticians modeling the mind are biased toward logic.

9 equivalent to the Godelian incompleteness of logic.

10 erminal gate operation for future spintronic logic.

11 ult to integrate multiple inputs in promoter logic.

12 activated simultaneously using combinatorial logic.

13 l of multiple genes with the same regulatory logic.

14 converge with a feedforward transcriptional logic.

15 el storage capacity with the standard binary logics.

16 ons in the powering of flexible displays and logics.

17 ith three different types of gene regulation logics.

18 t, general, scalable system, called 'Boolean logic and arithmetic through DNA excision' (BLADE), to e

19 Here we clarify the logic and assumptions of CLASH and discusses its extensi

20 cover a wide range of issues, including the logic and assumptions of CLASH, the evidence in support

21 ular knowledge representation using symbolic logic and automated reasoning, with neural networks to g

22 To investigate the logic and dynamics of cell-cell signalling networks, we

23 ur current understanding of the biosynthetic logic and enzymatic chemistry involved in the constructi

24 or focus has been investigating the chemical logic and enzymatic machinery of natural product biosynt

25 e single-cell response function of a tunable logic AND gate acting on two promoters in heterogeneous

26 provides a key functionality for future spin logic and memory devices based on emerging 2D materials

27 The common feature of nearly all logic and memory devices is that they make use of stable

28 have potential to serve as the basis of spin-logic and network implementations.

29 of biomolecular inputs according to Boolean logic and undergo the input-induced disassembly in order

30 -binding signals in order to identify the TF logics and to reconstruct the underlying TRNs.

31 By combining cis-regulatory logics and transcriptional kinetics into one single mode

32 , molecular computing circuits that evaluate logic (AND, OR, NOT) combinations of RNA inputs, and a t

33 d only be intelligible to our social program logic, and judged better than alternatives.

34 n a path towards specialized embedded memory-logic applications and ultra-fast components based on an

35 ficiently large for room-temperature digital-logic applications.

36 al oil (BLEO) in raw apple juice using fuzzy logic approach, and to evaluate the efficacy of the acce

37 ation processing, beyond conventional binary-logic approaches.

38 lators as well as building blocks of optical logic architectures.

39 isting demonstrations of accurate invertible logic are intriguing, but will these striking properties

40 designs for the construction of asynchronous logic, arithmetic and control flow elements based on a b

41 are directly interpretable and reveal that a logic based on local, nonspecific synergistic effects, l

42 c-based Models), which builds an ensemble of logic-based dynamic models, trains them to experimental

43 Logic-based modeling uncovers combinations of alteration

44 thodology called SELDOM (enSEmbLe of Dynamic lOgic-based Models), which builds an ensemble of logic-b

45 By combining logic-based network modeling, in vitro experimentation,

46 c electronics, now spanning from displays to logics, because of the vital importance of minimising pa

47 t is important to engage thoroughly with the logic behind different structural diagnostics.

48 view norm-based interventions, detailing the logic behind them and the various forms they can take.

49 iologically interpretable, model to find the logic by which a set of candidate genes and their associ

50 ession in response to external cues, yet the logic by which signaling pathway activity determines the

51 can be compared and underlying assembly-line logic can emerge.

52 h as bistability, oscillation, feedback, and logic capabilities.

53 report a chemophotonically driven, sense-of-logic carbon monoxide-releasing molecule (SL-photoCORM).

54 uirements for an organic-semiconductor-based logic chip.

55 , and AND-INHIBIT), and a complex sequential logic circuit (multi-input keypad lock).

56 dard complementary metal-oxide semiconductor logic circuit fabrication processes, this strategy extra

57 Herein, a DNA domino-based nanoscale logic circuit has been constructed by integrating three

58 d a fundamental building block of a magnonic logic circuit.

59 the layers are fabricated on top of silicon logic circuitry, our nanosystem is compatible with exist

60 nologies for use in energy-efficient digital logic circuits and for dense data storage-fabricated on

61 es for device applications, such as magnetic logic circuits and multi-valued memory devices.

62 The functional completeness of magnonic logic circuits based on the majority function was recent

63 g functional planar nanofluidic systems with logic circuits for lab-on-a-chip applications.

64 While CRN designs for synchronous sequential logic circuits have been proposed and their implementati

65 ure high-bandwidth, dense on-chip integrated logic circuits overcoming the diffraction limitation of

66 to inspire the fabrication of these cascaded logic circuits to stimulate a transformative generation

67 However, the performance of such logic circuits was rather poor due to the difficulty of

68 We constructed logic circuits with up to seven gRNAs, including repress

69 in-film transistors and their application in logic circuits, as well as bi-functional devices such as

70 heterostructures to assemble two-dimensional logic circuits, such as an NMOS inverter with high volta

71 oupled to molecular sensors, amplifiers, and logic circuits, this strategy introduces the possibility

72 via the phase of spin waves within magnonic-logic circuits, which function without charge transport

73 a large cancer cell line panel, we find that logic combinations of multiple mutations are more predic

74 ierarchical organization, and cis-regulatory logic contribute to the developmental function of networ

75 Our strategy provides time and logic control during the self-assembly process, and offe

76 Logic-controlled polymerization with Gel-PTH offers a st

77 Here we present prototypes of a logic device that encode information in the position of

78 ng error-free clocked non-volatile spin wave logic device, even in the presence of thermal noise and

79 In this paper, we propose a voltage driven logic-device based on the ME induced switching of nano-m

80 Further, the proposed logic-device has better robustness against the effect of

81 We further demonstrate that the proposed logic-device, which exhibits decoupled read and write pa

82 omputing technologies, many non-charge based logic devices are being explored.

83 emonstration shows that magnetic domain wall logic devices have the necessary characteristics for fut

84 of energy efficient nanomagnetic memory and logic devices implemented with fixed skyrmions without u

85 ve looked into developing thermal memory and logic devices that use heat instead of electricity to pe

86 wall dynamics with applications in memory or logic devices, the stabilization of chiral spin textures

87 Contrary to the state-of-the-art plasmonic logic devices, we use the phase of the wave instead of t

88 An intricate molecular logic drives two sequential phases of gene expression, o

89 However, proposals for spin-based logic either require ancillary charge-based devices and

90 d, we realize the complete set of mechanical logic elements and interconnect selected ones to execute

91 ice, hold promise for realizing programmable logic elements in magnetic electronics.

92 se in microelectromechanical systems (MEMS), logic elements, and environmental energy harvesting, are

93 optical interconnects, focusing elements and logic elements, moving toward the realization of 3D opti

94 ronic systems, like diodes, transistors, and logic elements, suggests the potential use of elastic vi

95 ay for the realization of integrated quantum logic elements.

96 ear-optical signal processing (regeneration, logic, etc.) has not yet become a practical alternative

97 This logic extends to kin other than grandmothers.

98 e paths, can be used to construct a complete logic family including XNOR, NAND and NOR gates.

99 The proposed logic family shows good scalability with a quadratic dep

100 overage of the search, a full Boolean search logic for at least one database, methods for data extrac

101 rial light response diversity provides a new logic for enhanced-acuity retinal prosthetics.

102 omic distribution and define a combinatorial logic for heterotypic TF regulation of differentiation.

103 vity of these neurons we have determined the logic for how this circuitry is coordinated to generate

104 e define a distinct mechanism and functional logic for mammalian olfaction.

105 code different movement modules, providing a logic for parallel-ordered corticospinal circuits to orc

106 t and cold sensing, and reveal the molecular logic for peripheral warmth sensing.

107 The biosynthetic logic for their production is unknown and defies explana

108 Each pairwise potential has an associated logic function that is constructed using the logic rules

109 Specifically, non-volatile logic functionalities such as AND, OR, NAND, and NOR gat

110 ane easy axes as a means for achieving novel logic functionalities.

111 current for the GaMnAs Hall device, magnetic logic functions can then be achieved.

112 types are distinguished by different Boolean logic functions they can compute, as well as by the comp

113 using the logic rules, a class of elementary logic functions, and AND, OR, and NOT gates.

114 plement a remarkable diversity of regulatory logic functions, where the transporter can act as activi

115 ials are smoothed versions of the associated logic functions.

116 Here we report a redox active binary logic gate (RLG) which can store a "0" and "1" with dist

117 ng a nanoscale cascadable plasmonic majority logic gate along with a novel referencing scheme that ca

118 extended flavonol motif operates via an AND logic gate by first sensing the cellular environment via

119 However, DNA logic gate circuits typically provide a single-stranded

120 Here, we introduce a novel DNA logic gate design capable of yielding a small molecule o

121 Here, a single-molecule AND logic gate is constructed from a proton-switchable edge-

122 al diode, optical transistor and all primary logic gate operations (OR, AND, NOT) based on such optic

123 t duration is prolonged, suggesting that the logic gate scheme is not static but rather dependent on

124 ulation by these two factors is analogous to logic gate systems.

125 We present a spin-orbit logic gate that performs a universal logic operation uti

126 activators that function as a molecular "OR logic gate" to tightly regulate energy and glucose metab

127 ay (beta-carotene) and genetic circuit (XNOR logic gate).

128 sting that this domain functions as an 'AND' logic gate.

129 Furthermore, logic-gate functionalities were demonstrated with reconf

130 lities were demonstrated with reconfigurable logic-gate metadevices having two electrical inputs, wit

131 concept further to establish reconfigurable logic-gate metadevices.

132 it has been constructed by integrating three logic gates (AND-AND-YES) for simultaneous analysis of m

133 F switches were applied to build single-mRNA logic gates and an apoptosis module in yeast.

134 s for next-generation non-volatile memories, logic gates and energy-harvesting devices.

135 Although the integrated quantum logic gates and quantum algorithms based on path encodin

136 es are of interest in the design of chemical logic gates and signal amplification schemes.

137 We create logic gates and signal transmission lines by spatially a

138 es of different lengths and orientations and logic gates are modularly combined into circuits that es

139 DNA-based logic gates can be assembled into computational devices

140 sal logic gates, these CMOS oriented digital logic gates cannot fully utilize the expressive power of

141 Co-registered molecular logic gates combine two different inputs and outputs, su

142 become widespread, however, energy efficient logic gates comprising as few devices as possible are re

143 omputing structures, and numerous spintronic logic gates have been presented.

144 Here, arrays of communicating DNA logic gates integrated on a single DNA tile were designe

145 with the scaffold, and for the operation of logic gates is discussed.

146 electronic microprocessors use semiconductor logic gates organized on a silicon chip to enable effici

147 hes with theophylline riboswitches represent logic gates responding to two different input signals.

148 ecule fluorophore, we constructed AND and OR logic gates that respond to synthetic microRNA (miRNA) i

149 elds through graphene nanoribbons, cascading logic gates through incoherent spintronic switching.

150 thway is decoded by both dynamic filters and logic gates to shape target gene responses in a context-

151 ploying a unique combination of only digital logic gates, a single-supply voltage and a realistic thr

152 ts under defined algorithms, such as Boolean logic gates, and generate functionally useful outputs, s

153 ngle-photon switches and all-optical quantum logic gates, and to exploring novel quantum many-body ph

154 activator-repressor switches for orthogonal logic gates, based on bacteriophage lambda cI variants a

155 s such as on-chip light modulation, photonic logic gates, optical interconnect and sensing applicatio

156 d CDSD for applications such as self-powered logic gates, power supplies, and sensors.

157 by 3D printing of programed cells, including logic gates, spatiotemporally responsive patterning, and

158 sed the demonstration of basic and universal logic gates, these CMOS oriented digital logic gates can

159 memory cells, complementary inverters and OR logic gates.

160 ons suitable for mediating two-qubit quantum logic gates.

161 of up to nine qubits and up to 1,000 quantum logic gates.

162 fers the promise of multi-input multi-output logic gates.

163 to improve the fidelity of quantum dot based logic gates.

164 executing any sequence of universal quantum logic gates.

165 by the design of soft mechanical diodes and logic gates.

166 networks of probabilistic and deterministic logic gates.

167 switches using the same catalyst to achieve logic gating of controlled polymerization reactions.

168 although the composition of this complex and logic governing its assembly remain poorly understood.

169 However, the molecular nature and operating logic governing these concurrent changes remain poorly d

170 While Boolean logic has been the backbone of digital information proce

171 While recent advances in plasmonic logic have witnessed the demonstration of basic and univ

172 pled configuration relaxed the system to the logic high level due to self-charge injection into the r

173 By this logic, ill people reduce the time and effort that they p

174 echano-signaling and characterizes crosstalk logic imparting differential control of transcription by

175 ing RNA-only nanodevices to evaluate complex logic in living cells.

176 able computational functions such as digital logic in living plants and follow the pathway of technol

177 nd can serve as building blocks for magnonic logic in ultralow power computation devices.

178 experiments uncovered a remarkably efficient logic in which each of the four skeletal elements at the

179 N, to decode TF-TF interactions that form TF logics in regulating target genes.

180 e and the building of synthetic cell-like or logic ionic networks.

181 Logic is a fundamental reason why computational accounts

182 its importance, however, the nature of such logic is poorly understood, and even basic parameters, s

183 patterning, but it remains elusive what such logic is, or even, what it looks like.

184 many cases of chronic pain have defied this logic, leaving clinicians perplexed as to how patients a

185 hat this platform can simultaneously exhibit logic-level restoration, cascadability and input-output

186 ut full adder; a 6-input, one-output Boolean logic look-up table; circuits with small-molecule-induci

187 uration of half-cell electrodes provided the logic low level and decoupled configuration relaxed the

188 This regulatory logic may represent a general paradigm for how precise l

189 te tuneable sensors and more complex sensing-logic, may lead to tools for novel biosensing and target

190 ensors on plastic and paper and programmable logic memory devices.

191 sults for the proposed Magneto-Electric Spin Logic (MESL) gates.

192 based on biogenic amine contents using fuzzy logic model (FLM) is proposed.

193 A prior knowledge-based fuzzy logic model comprising signal transduction and gene regu

194 LOBICO implements the ability to uncover logic models around predefined operating points in terms

195 tworks, and a second one focused on building logic models from more complex signed-directed reference

196 h that infers small and easily interpretable logic models of binary input features that explain a con

197 l lines, building cell line-specific dynamic logic models of underlying signaling networks.

198 nformation leads to robust and more accurate logic models.

199 wards practical application of interpretable logic models.

200 Our analysis further shows that the logic of automata transition functions, namely how canal

201 However, the molecular logic of bitter signaling is unknown.

202 n in vivo expression approach to analyze the logic of bitter taste signaling.

203 essential for deciphering the developmental logic of circuit assembly.

204 owerful method to uncover the organizational logic of cortical networks.

205 The logic of counterfactuals may help clarify this topic as

206 pher the well-appreciated but poorly defined logic of developmental signaling.

207 nderpinnings of a new element in the circuit logic of feeding regulation.

208 nd humidity in the brain, and illustrate the logic of how ethologically relevant combinations of sens

209 raction, but the identity and organizational logic of local interneurons that lie at the core of thes

210 cessing in tactile perception, and the basic logic of LTMR-RZ organization.

211 Here we report an intricate ontogenetic logic of mouse thalamic structures.

212 Understanding the organizational logic of neural circuits requires deciphering the biolog

213 sical and architectural complexity using the logic of NEURON and a simple interface on a local comput

214 not GPCRs and follow a strikingly different logic of odor coding at the periphery.

215 represents a paradigm shift in the standard logic of organic synthesis.

216 functional switch that underlies the central logic of PCP signaling during morphogenesis, and provide

217 These findings illuminate cellular logic of prefrontal cortex information processing and na

218 ng, we demonstrate that although the overall logic of regulation is the same in both species-the GAL

219 We sought to impart the logic of rhodopsin to light-insensitive Family A GPCRs i

220 uation are informed by a common species-wide logic of social valuation.

221 ing to elucidate the intricate computational logic of somatosensory transformation in health and dise

222 By revealing the cellular and computational logic of spinal cord networks under behaving conditions,

223 Here we apply the logic of the extended connectivity fingerprint (ECFP) to

224 nt flow of the information that explains the logic of the GEP.

225 hese findings offer new understanding of the logic of the metabolic reprogramming that underlies canc

226 The complex metabolic logic of the proliferating cancer cells' appetite for gl

227 The body and microfluidic logic of the robot are fabricated using moulding and sof

228 s it from other model bacterial systems, the logic of the stringent response remains remarkably conse

229 important implications for understanding the logic of the tumor microenvironment and for improving th

230 Together, these results uncover the basic logic of the wiring of the taste system at the periphery

231 Given the logic of these arguments, and the existence of data to s

232 ewal and differentiation, yet the regulatory logic of these fate decisions is poorly understood.

233 The logic of this YMC-CDC coupling may be to ensure that DNA

234 ll benefited from a strategy inspired by the logic of two-phase terpene biosynthesis in which powerfu

235 results provide insight into the regulatory logic of Vel antigen expression, and extend the set of m

236 Asynchronous sequential logic, on the other hand, does not require a clock, and

237 ential devices required for representing the logic operands.

238 n-orbit logic gate that performs a universal logic operation utilizing the minimum possible number of

239 y benchmarked models, that the gate performs logic operations and simultaneously stores the result, r

240 gh-temperature thermal diodes for performing logic operations in harsh environments.

241 reconfigurability further allows memory and logic operations to be merged in the same device for eff

242 cal changes into electrical signals, perform logic operations, consume little power (on the scale of

243 apoptosis can be programmed by peptide-based logic operations, including binary and combination gates

244 sess an intrinsic basis for the execution of logic operations.

245 as well as compatibility with 'OR' and 'AND' logic operations.

246 te is used either for information storage or logic operations.

247 further devised AND, OR, NAND, and NOR dCas9 logic operators and a diametric regulator that activates

248 We present 'Logic Optimization for Binary Input to Continuous Output

249 emories, photovoltaics, logic rectifiers and logic optoelectronic circuits.

250 Complex A behaves as a logic "OR" gate via co-registering the inputs of irradia

251 Consequently, sequential logic overcomes the information bottleneck inherent in c

252 tricted flexibility to extend the underlying logic program.

253 structure pattern was generated by inductive logic programming (ILP) with DMax Chemistry Assistant so

254 natures as an alternative to timestamps, and logic programming extensions in Prolog.

255 ne device can drive two subsequent gates and logic propagation in a circuit of three inverters.

256 This "reconstruction-deconvolution" logic provides templates of progenitor cells' potentiati

257 plications, such as memories, photovoltaics, logic rectifiers and logic optoelectronic circuits.

258 of cell metabolism, the underlying molecular logic remains mysterious.

259 characterized, the spatiotemporal regulatory logic remains undefined.

260 hereas the previous proposals for spin-based logic require extra devices in each individual gate to p

261 Deterministic optical quantum logic requires a nonlinear quantum process that alters t

262 The underlying logic resembles the previous development of varenicline

263 d demonstrate cascadability, signal fan-out, logic restoration, and various logical gate operations s

264 logic function that is constructed using the logic rules, a class of elementary logic functions, and

265 result, realizing the 'stateful' spin-based logic scalable to ultralow energy dissipation.

266 Fuzzy logic screened 6 MOS sensors (LY2/G, LY2/AA, LY2/GH, LY2

267 Here we use quantum-logic spectroscopy, which maps quantum information betwe

268 xima and minima that can serve as two binary logic states.

269 However, an efficient cascaded logic structure that exploits electron spin has not yet

270 This perspective helps illuminate the logic supporting an important sensory function and provi

271 A novel and versatile peptide-based bio-logic system capable of regulating cell function is deve

272 tuting an exception to the global regulatory logic systematically observed at this locus.

273 together to build band-pass filters, ternary logic systems and multi-level analogue-to-digital conver

274 from the perspectives of digital and analog logic, systems biology, and metabolic engineering, three

275 s have overlooked key aspects of a practical logic technology and have stalled at simple functionalit

276 esion molecules suggests that there exists a logic that could explain neuronal connectivity at the mo

277 hese strains can thus establish a structural logic that governs these biological effects.

278 Thus, we reveal the regulatory logic that initiates ear formation and highlight the hie

279 mics of synapses are governed by a molecular logic that is controlled by diverse trans-synaptic signa

280 We use subjective logic theory to combine multiple uncertainty values extr

281 Through the use of symbolic logic, these embeddings contain both explicit and implic

282 st of laboratory applications, from chemical logic to biosynthesis reaction vessels, their wider use

283 ons among signaling pathways follow specific logic to control complex and accurate developmental sign

284 Using quantum logic to improve readout fidelity and a surface-treatmen

285 rospects in applications from reconfigurable logic to magnonic devices or hardware neural networks.

286 habitat productivity hypotheses use the same logic to predict more animal consumption in N-poor and p

287 This review provides the underlying chemical logic to remind how these seven key molecules function a

288 works, exploring the advantages of using GRN logic to study behavior.

289 is used to efficiently sample the regulatory logic under different combinations of parents and rank t

290 al understanding of the molecular regulatory logic underlying a conserved environmental response syst

291 spinal cord is generated and we discuss the logic underlying how these neurons form the basis of som

292 ity to identify the molecules and regulatory logic underpinning bacterial regulation of development.

293 of cortical neurons, but the transcriptional logic underpinning this process remains poorly defined.

294 as allowing positive and negative selection logics using basally active promoters.

295 Applying Boolean logic we assembled a Petri net-based model of the IRF-GR

296 tic programming framework Probabilistic Soft Logic We compare against two methods including a state-o

297 a mechanistically conserved and DNA-encoded logic which shapes CGI formation across vertebrate speci

298 tools has its own requirements and internal logic, which forces the user to become acquainted with e

299 s in Escherichia coli can evaluate two-input logic with a dynamic range up to 900-fold and scale them

300 e hypothesis that use of artifact correction logic would improve the specificity of clinical event de