ライフサイエンスコーパス: biomimetic

1 an endoplasmic reticulum and served as an ER biomimetic.

2 roduction or defense mechanisms as a form of biomimetics.

3 for investigations of biomineralization and biomimetics.

4 independent manner, was upregulated in novel biomimetic 3D bioengineered platforms modeling the bevac

5 provides a framework for the construction of biomimetic (5M)CARs that can be used as tools to study t

6 In addition, the benefit of utilizing a biomimetic acellular scaffold as an advanced 3D culture

7 ical model of the cytoskeleton and designing biomimetic active materials.

8 A biomimetic adhesive polymer, poly(catechol-acrylic acid)

9 -assembly, substantially outperform previous biomimetic adhesives obtained by top-down microfabricati

10 We were unable to bring about the envisioned biomimetic aldol addition cascade and gained insights in

11 al type of organization may be regarded as a biomimetic alternative of columnar K(+)-water wires obse

12 GBM and BBB models are promising systems and biomimetic alternatives to traditional models for more r

13 itical C3a-C3a' linkage followed by a guided biomimetic aminal reorganization to deliver the heptacyc

14 ne-hydroxyproline (GPO) amino acid triad are biomimetic analogs of the collagen triple helix, a fold

15 have paved the way for potentially expanding biomimetic and biologically inspired designs to incorpor

16 as a means of cross-linking TE in vitro for biomimetic and cell-compatible tissue engineering purpos

17 e rescaled by the model prediction, both the biomimetic and natural branches fall on the same master

18 This arrangement includes the biomimetic and organometallic Fe-C sigma bond, which ena

19 erials, highlights possibilities for further biomimetic and stimulus-responsive fiber applications.

20 or ampullate (MA) silk desirable for various biomimetic and synthetic applications.

21 approaches to biohybrid design are presented-biomimetics and biointegration.

22 ransfer (PCET) was recently demonstrated for biomimetic anthracene-phenol-pyridine molecular triads.

23 ysoxylum alkaloids has been achieved using a biomimetic approach from zanthoxylamide protoalkaloids.

24 Here we describe a biomimetic approach in which a readily available bi-ante

25 Here, we present a biomimetic approach that utilizes spatial confinement to

26 This supports the ability of this biomimetic approach to match the needs of cell-specific

27 A biomimetic approach to total synthesis can offer several

28 Here we describe a biomimetic approach where a supersaturated calcium and p

29 Based on this biomimetic approach, it is herein demonstrated that carb

30 Using a comparative biomimetic approach, we have investigated circulating le

31 ylidene ketones into furan rings following a biomimetic approach.

32 Biomimetic architectures with Bouligand-type carbon nano

33 Biomimetic artificial muscles(7-10) that are capable of

34 uture efforts in developing highly efficient biomimetic assays for interaction analysis and drug scre

35 In biomimetic assays in which filaments were simultaneously

36 scaffolds for the construction of synthetic biomimetic assemblies.

37 n, modular and tunable structures, and often biomimetic attributes make peptides well-suited as chira

38 In this article, we introduce a biomimetic audiomorphic device that captures the neurobi

39 o explain and project the performance of the biomimetic audiomorphic device.

40 it opens new possibilities for constructing biomimetic bacterial microenvironments to better underst

41 The developed biomimetic beam has applications in soft robotic gripper

42 Here, we have developed a biomimetic beam, which is covered by tunable stiffness s

43 perimentally analyze the bending behavior of biomimetic beams covered with tunable stiffness scales o

44 Herein, for the first time, we propose a biomimetic biosensor for organophosphorus pesticide dete

45 We propose that the development of biomimetic bistable systems will pave the way towards th

46 Here, we prepared a biomimetic black phosphorus quantum dot (BPQDs) formulat

47 Here we report the development of biomimetic cancer cell coated zeolitic imidazolate frame

48 Here we present a biomimetic cancer model based on a collagen matrix synth

49 This synthesis features biomimetic cascade reactions that involve both ionic and

50 orts have culminated in the first successful biomimetic catalyst capable of efficient methane oxidati

51 We describe the rational design of a biomimetic catalyst that can efficiently couple amino ac

52 utationally designed chiral nanoceramics for biomimetic catalysts and quantum information devices may

53 A biomimetic cationic structural rearrangement of the olea

54 valent binding, a mixture of antibodies, and biomimetic cell rolling.

55 Thus, the ability to develop a biomimetic cell wall (BCW) on their plasma membrane as a

56 olyelectrolyte hydrogel systems to fabricate biomimetic cellular scaffolds for the repair of the tiss

57 cally engineered protein-based adhesives and biomimetic chemically synthetized adhesives.

58 chanism may have relevance to biological and biomimetic chemistry processes in general and gives insi

59 ecular activation, host-guest chemistry, and biomimetic chemistry.

60 es and may inspire further work in NHFe((2)) biomimetic chemistry.

61 would open up a multitude of applications in biomimetic circuitry and ultra-broadband imaging but pol

62 Compared to biomimetic CMOS based neuron and synapse models, our des

63 tions of the native niche environment, these biomimetic co-culture systems provide a promising experi

64 tively confirm the effectiveness of L1 based biomimetic coating on minimizing inflammatory tissue res

65 ized metal-organic polyhedra (MOP) and their biomimetic coatings of lipid bilayers are described to s

66 ackle these critical issues, a BBB-permeable biomimetic codelivery system was designed for specifical

67 We engineered compartmentalized biomimetic colorectal tumouroids with stromal surrounds

68 type and phenotype and discuss how cells and biomimetic compartments can be applied to serve this fun

69 to the design features needed for functional biomimetic complexes.

70 plied to other oxidoreductase enzymes and to biomimetic complexes.

71 cluster-containing enzymes and corresponding biomimetic complexes.

72 e this by creating interlocking sutures from biomimetic composites that show a considerable increase

73 Here, a 3D biomimetic conch shell prototype is presented, which can

74 nd unreactive N-allyl-2-furfurylamines under biomimetic conditions, without the need for protecting g

75 ingly used as artificial cell chassis and as biomimetic constructs for assembling tissue models, engi

76 We demonstrated that dual-targeting biomimetic core-shell nanoparticles dynamically enhanced

77 provides an overview of the various types of biomimetic crossreactive sensor arrays (also referred to

78 Biomimetic crossreactive sensor arrays have been used to

79 Recently, we have developed elastic biomimetic cryogels, an advanced type of polymeric hydro

80 adaptation of cultured tissues subjected to biomimetic cues, applied at an increasing intensity, to

81 Here, we describe a novel, medium-throughput biomimetic culture system that maintains viability and f

82 This biomimetic culture system was successful in keeping huma

83 Such systems are constructed from biomimetic, "deep", artificial neural networks.

84 This biomimetic degradation of CFC-113 to cis-DFE was also de

85 nes, 2-aminoquinolines, and quinazolines via biomimetic dehydrogenative condensation/coupling reactio

86 -concept evidence of an alternative class of biomimetic delivery vectors that capitalize on cell size

87 Collectively, the novel biomimetic design combined with the photothermal killing

88 The increasing popularity of biomimetic design principles in nanomedicine has led to

89 istic multiscale translation is essential to biomimetic design.

90 Examples of biomimetic designs that realize the multiscale toughenin

91 Employing MPhi-NPs as a biomimetic detoxification strategy shows promise for imp

92 emonstrate the image-sensing function of our biomimetic device by reconstructing the optical patterns

93 We find that the precision of the biomimetic device can supersede the barn owl by orders o

94 e pose an enormous fabrication challenge for biomimetic devices(2,3).

95 A key biomimetic Diels-Alder dimerization was found to occur a

96 issue constructs for tissue repair and build biomimetic disease models for studying disease biology a

97 n anthracene-boronic acid (An-BA) probe to a biomimetic DNA scaffold and consequently, to use the uni

98 llerenes makes them ubiquitous components in biomimetic donor-acceptor systems that model the intermo

99 hrough localized delivery of rapamycin via a biomimetic drug delivery system, it is possible to reduc

100 enables the development of O(2)-independent, biomimetic electrochemical assays narrowly targeting com

101 MN(2) S(2) (2-) prepared from the Cys-X-Cys biomimetic, ema(4-) ligand (ema=N,N'-ethylenebis(mercapt

102 se results suggest the strong potential of a biomimetic engineered niche for NSC delivery into the br

103 important next step in our ability to create biomimetic engineered tissues.

104 dentify new ways to improve the toughness of biomimetic engineering composites.

105 nduce well-defined secondary structures in a biomimetic environment.

106 CPR and CYP2C9 interact differently with the biomimetic ER and may, in addition to protein conformati

107 Biomimetic eyes with such characteristics are highly des

108 ng an anthracene framework, which supports a biomimetic fac-C,N,S coordination motif to an iron(II) c

109 In a possibly biomimetic fashion, formally copper(III)-oxygen complexe

110 Arrays of biomimetic fish scales in typical overlapping arrangemen

111 Here, we describe a first-generation biomimetic five-module chimeric antigen receptor ((5M)CA

112 Biomimetic flavin organocatalysts oxidize nitromethane t

113 The design of novel and functional biomimetic foldamers remains a major challenge in creati

114 s, forming a BPQD-RM nanovesicle (BPQD-RMNV) biomimetic formulation that exhibited a long circulation

115 Poly(vinyl alcohol) (PVA) is the most potent biomimetic found to date, although it is orders of magni

116 hat are about 110 times of their weights and biomimetic frog tongues which can prey insects.

117 Biomimetic functional surfaces are attracting increasing

118 n of colloidal objects comprising integrated biomimetic functions is paving the way towards rudimenta

119 devices, as well as frontier strategies for biomimetic functions.

120 Reliable generation and detection of biomimetic gaseous gradients in vitro is challenging due

121 tion, we studied the desorption of PIP2 from biomimetic giant unilamellar vesicles by means of a fluo

122 The results support that biomimetic GMGT lipids possess several attractive proper

123 ver and have inspired numerous compounds for biomimetic H(2) production.

124 The synthesis of biomimetic helical secondary structures is sought after

125 inting strategy to manufacture an ultralight biomimetic hierarchical graphene material (BHGMs) with e

126 Herein, we describe a novel, biomimetic, human bone platform for advanced testing of

127 muCPP can print 3D biomimetic hydrogel scaffolds tailored to the dimensions

128 ing transplanted cell survival and grafting, biomimetic hydrogels can be properly engineered to encap

129 re systems and mesenchymal stem cells inside biomimetic hydrogels that supplied a 3D cell culture env

130 adsorption, and results in the formation of biomimetic hydroxyapatite through an amorphous calcium p

131 erventions but also opportunities to develop biomimetic immunomodulatory therapeutics that mitigate c

132 t a synthetic receptor for glucose, which is biomimetic in both design and capabilities.

133 This study provides a biomimetic in vitro model to study STIC progression and

134 With this biomimetic in vitro model we identified the fibrous stru

135 ynergistic steps of design, fabrication, and biomimetic in vitro validation and in vivo evaluation in

136 n with their complementary strands to afford biomimetic, in-registry molecular ladders with covalent

137 Here, we report the development of biomimetic inhibitors of CatD as novel tools for regulat

138 The biomimetic interface we developed appears to provide a s

139 es enable wide applications in, for example, biomimetic ion transport manipulation, molecular sieving

140 breakthrough towards developing syntheses of biomimetic iron-sulfur-carbide clusters like FeMoco.

141 contrasting it to the narrow sense in which biomimetics is often applied, namely copying isolated fe

142 Using biomimetic lipid vesicles composed of saturated and unsa

143 Although biomimetic lipoprotein nanoparticles have been explored

144 We synthesized pulmonary surfactant (PS)-biomimetic liposomes encapsulating 2',3'-cyclic guanosin

145 ell biology, immunology, bioengineering, and biomimetic material design.

146 shing the groundwork for a new generation of biomimetic material interfaces.

147 tial to maxime the mechanical performance of biomimetic materials by leveraging a bioinspired hierarc

148 Most conventional biomimetic materials only benefit from bioinspired archi

149 n biomedical research, chemical biology, and biomimetic materials science.

150 allows the investigation of MSC behavior on biomimetic materials to unfold new vistas how to direct

151 ion for designing and manufacturing advanced biomimetic materials with outstanding mechanical perform

152 s direct components or as an inspiration for biomimetic materials.

153 Cancer cells in the biomimetic matrix recreate a hypoxic environment that af

154 we present fluorescently indexed multiplexed biomimetic membrane assays amenable to high-throughput f

155 We build fluorescently multiplexed biomimetic membrane assays by using varying amounts of a

156 We observe both sources of contrast in biomimetic membranes composed of saturated lipids, unsat

157 Biomimetic membranes have served extensively to elucidat

158 Partitioning of lipid molecules in biomimetic membranes is a model system for the study of

159 linoleoyl-CL with tetradocosahexaenoyl-CL in biomimetic membranes prevented formation of phospholipid

160 Incorporation of PIP2 into biomimetic membranes, however, has at times resulted in

161 methods of identifying submicron domains in biomimetic membranes.

162 eproduction over large areas shows that this biomimetic metal patterning (BIOMAP) is a versatile meth

163 Inspired by biological systems, many biomimetic methods suggest fabrication of functional mat

164 Here we show an innovative biomimetic micellar nanocoagulant that imitates the stru

165 ultured MC3T3-E1 mouse osteoblastic cells in biomimetic microcracked hydroxyapatite substrates, diffe

166 applications of a microtensiometer (muTM): a biomimetic microelectromechanical system (MEMS) sensor c

167 We therefore used our novel biomimetic microfluidic assay (bMFA) to determine whethe

168 Here, we demonstrate that a biomimetic microfluidic device consisting stenosed and t

169 Biomimetic microfluidic experiments and modeling provide

170 In this study, we developed a biomimetic microfluidic tumor microenvironment (bMTM) co

171 Nerve-on-a-chip (HNoaC) system is the first biomimetic microphysiological system of myelinated human

172 pplications such as microfluidic devices and biomimetic microrobots.

173 Our biomimetic microsystem provides an enabling platform to

174 Induction of biomimetic mineralization at near physiological conditio

175 ilters is a widely used method for preparing biomimetic model membranes.

176 Our biomimetic model mimics the evolution of tumors with dif

177 nswer this challenge, we present an in vitro biomimetic model of all-human peripheral nerve tissue ca

178 ntractility in sprout morphogenesis, using a biomimetic model of angiogenesis.

179 he swelling and mechanical behaviors of this biomimetic model system are strikingly similar to that o

180 l-defined bioactive coatings, biosensors and biomimetic model systems.

181 10-mum polymer microspheres were used as a biomimetic model where MNPs and MNP-decorated polymer co

182 system achieved a 95% counting accuracy for biomimetic models and 98% for aptamer-based pancreatic c

183 An emerging challenge in tissue engineering biomimetic models is recapitulating the physiological co

184 Biomimetic models of these biological systems have been

185 11.2 kPa and 90.0 +/- 16.4 kPa) to engineer biomimetic models of vascularized cardiac tissues.

186 elial membrane, a parameter obtained through biomimetic models.

187 A biomimetic multimodal platform that replicates surgical

188 duct and activates the peptide precursor to (biomimetic) N-to-C peptide ligation.

189 sel inflammation generation and an execution biomimetic nanocarrier B (NCB ) that can accumulate at t

190 d direct therapeutic role of this engineered biomimetic nanocarrier in SHH MB, our multifunctional na

191 latelet-mimicking biological function of the biomimetic nanomotors offer efficient binding and isolat

192 Herein, we report a biomimetic nanoparticle design that enables a "lure and

193 Herein, the design of a biomimetic nanoparticle platform is reported that can be

194 cs studied, which underscores the utility of biomimetic nanoparticle-based neutralization and deliver

195 Based on this, we developed the biomimetic nanoparticles (cationic bovine serum albumin

196 Biomimetic nanoparticles (leukosomes) were synthesized u

197 responsive to selective Cdk5 inhibitors and biomimetic nanoparticles are effective vehicles for enha

198 Here we report the development of macrophage biomimetic nanoparticles for the management of sepsis.

199 accomplished with our novel multifunctional biomimetic nanoparticles provides a new way to regress p

200 We showed that our biomimetic nanoparticles showed a decrease in proliferat

201 Use biomimetic nanoparticles to deliver rapamycin to the ves

202 e creation of biocompatible, custom-tailored biomimetic nanoparticles with varying hybrid functionali

203 sensing technologies, and constructing novel biomimetic nanopore systems.

204 A new biomimetic nanoreactor design is presented based on canc

205 Peptide-based biomimetic nanostructures and metal-organic coordination

206 y, researchers have turned toward the use of biomimetic nanotechnology as a means of addressing these

207 Recent progress in the development of biomimetic nanovaccines for antibacterial and anticancer

208 from a single host molecule, illustrates the biomimetic nature of the catalysis.

209 A biomimetic nickel bis-diphosphine complex incorporating

210 a three-dimensional (3D) orientational order biomimetic of that in natural tissues.

211 Thus our study demonstrated that the in vivo biomimetic olfactory system could provide novel approach

212 ansfer (PCET) rate constants for a series of biomimetic oligoproline peptides linking Ru(bpy)(3)(2+)

213 This system is termed a sunflower-like biomimetic omnidirectional tracker (SunBOT).

214 Herein, we report a biomimetic, one-step preparation of archazolid F, the mo

215 at have been employed for realizing advanced biomimetic optical structures.

216 Current hardware approaches to biomimetic or neuromorphic artificial intelligence rely

217 Our biomimetic pathway converts serine to cysteine by nitril

218 This work may lead to biomimetic photosensing devices that could find use in a

219 k describes an electrochemical sensor with a biomimetic plastic antibody film for carcinoembryonic an

220 ative to develop more sophisticated and more biomimetic preclinical cancer models.

221 spire innovative designs of multifunctional, biomimetic pressure-sensitive adhesives and varnishes.

222 reasing electron transfer (ET) distance in a biomimetic, proton-coupled electron-transfer (PCET) syst

223 ther, the findings show the promise of these biomimetic, radiation-responsive diselenide-bond-bridged

224 In a demonstration of biomimetic reactivity, the [4Fe-3S] cluster reduces hydr

225 ementarity, have inspired the development of biomimetic receptors.

226 ester bond-mediated, thin (~75 nm) MIP-based biomimetic recognition layer was electrodeposited in non

227 ipid (DPhPG) with the motivation of creating biomimetic reconstructs of PSI reconstitution in DPhPG l

228 sion proteins are actively being explored as biomimetic replacements for IVIG therapy, which is deplo

229 Engineered male and female biomimetic reproductive tissues are being developed as a

230 By pitting biomimetic robotic guppies against real predatory fish,

231 iaxial compression to buckling of 3D printed biomimetic rods using a polymeric ink.

232 onducted by machine learning to optimize the biomimetic rods.

233 Here we demonstrate a biomimetic route and quantitative simulations that explo

234 A biomimetic route to farnesyl pyrophosphate and dimethyl

235 ochemical and electrochemical methods, novel biomimetic routes, and enantioselective cascades.

236 d that injured host axons regenerate into 3D biomimetic scaffolds and synapse onto NPCs implanted int

237 Thus, 3D biomimetic scaffolds offer a means of enhancing CNS rege

238 (Ti) and stainless steel (SS) implants into biomimetic scaffolds, seeded with human induced mesenchy

239 Our results reveal for the first time that biomimetic scale beams exhibit viscous damping behavior

240 t is shown that the bending stiffness of the biomimetic scale covered beam can be actively and revers

241 rsible tunability in the bending behavior of biomimetic scale covered beam, which are strongly depend

242 port, we investigate the dynamic behavior of biomimetic scale substrates for further understanding th

243 Biomimetic scales provide a convenient template to tailo

244 Although this is unlike the biomimetic scenario of catalysis through direct host-gue

245 ultrafast H-bond dynamics between water and biomimetic self-assembled lattice materials (composed of

246 Biomimetic self-assembled layer of octadecyltrichlorosil

247 Sequence-defined polymers show promise for biomimetics, self-assembly, catalysis, and information s

248 ber of the natural product family, including biomimetic, semisynthetic, and de novo synthetic strateg

249 Such results clearly show that the biomimetic sensing method based on human color vision is

250 ed as a classification method unique to this biomimetic sensing modality.

251 s issue, an enantioselective electrochemical biomimetic sensor for discrimination of isomers of etham

252 We report on a novel biomimetic sensor that allows sensitive and specific det

253 Under optimum conditions, the biomimetic sensor was employed for the amperometric dete

254 Herein, we present work on two isomeric biomimetic side-on Mn(III) -peroxo intermediates with bi

255 To address this question, we used biomimetic sonar to record high-resolution measurements

256 petus to the development of pultrusion-based biomimetic spinning devices.The natural production of si

257 artificial silks by demonstrating successful biomimetic spinning relies on appropriately designed fee

258 which provides design guidelines for future biomimetic spinning systems.

259 dation of literature for developing improved biomimetic spinning techniques, which ought to result in

260 d characterize their response to a number of biomimetic spinning triggers.

261 demonstrate the formation of an interesting biomimetic state for the tetradentate Cu(II) rotaxane, a

262 ng and motivates further exploration of this biomimetic stimulation pattern as a potential basis for

263 ins elusive and subsequently inaccessible to biomimetic strategies.

264 an be easily tailored, our study indicates a biomimetic strategy to design exceptional synthetic mate

265 Our data suggest that providing biomimetic structural cues relevant to each cell phenoty

266 lation of cells can be achieved by providing biomimetic structural cues relevant to each cell phenoty

267 In particular, fabrication of complex biomimetic structure that are entirely based on 3D biopr

268 upramolecular design, and rational design of biomimetic structures.

269 ned sizes for various applications including biomimetic studies, biomedicine, and pharmaceutics.

270 h common porphyrinoid scaffolds employed for biomimetic studies.

271 and regenerative medicine by functioning as biomimetic substrates to manipulate cellular behaviors.

272 Our biomimetic surfaces were explored for their ability to f

273 olecular dynamics simulations, combined with biomimetic synthesis and characterization, show rapid ch

274 These results illustrate how biomimetic synthesis and multiplexed activity profiling

275 Biomimetic synthesis of artificial enamel is a promising

276 Herein, we describe how a biomimetic synthesis of bruceol, a pentacyclic meroterpe

277 A step-economic biomimetic synthesis of mitchellenes B-H found in Eremop

278 s especially suitable for application in the biomimetic synthesis of natural products.

279 A short, biomimetic synthesis of the fungal metabolite preuisolac

280 complex clb product precolibactin 886 via a biomimetic synthetic pathway.

281 argo delivery functions of natural exosomes, biomimetic synthetic strategies are exploited to prepare

282 Using this biomimetic system, we discovered new biological effects

283 Biomimetic systems often exhibit striking designs well a

284 r control, and for map calibration in future biomimetic systems.

285 nterfaces to generate functionally advanced, biomimetic systems.

286 complexes is ubiquitous in both natural and biomimetic systems.

287 pite the widespread adoption of organoids as biomimetic tissue models, methods to comprehensively ana

288 ance of the rat mesentery culture model as a biomimetic tool for investigating microvascular growth a

289 Biomimetic topographies were nanofabricated to recapitul

290 Although biomimetic total syntheses of representative compounds h

291 A biomimetic total synthesis of racemic homodimericin A wa

292 These include a biomimetic total synthesis to access the natural alkaloi

293 We have developed and rationalized a biomimetic transformation mimicking halimane synthases b

294 ide Q acid, was accomplished via a series of biomimetic transformations.

295 d, we encapsulate a signaling network in the biomimetic vesicle, consisting of distinct modules, able

296 phase characteristics and fluidity of the ER biomimetic was characterized with fluorescence micrograp

297 The first biomimetic water-soluble Fe(II)-porphyrin nitroxyl compl

298 The interactions of CPR with the ER biomimetic were directly observed by tracking single CPR

299 plied these assembly triggers for relatively biomimetic wet spinning.

300 Molecularly imprinted polymers (MIPs) are biomimetics which can selectively bind to analytes of in